CN115581562B - Wound dressing frame assembly capable of being adjusted quickly - Google Patents

Abstract

The invention relates to the technical field of application of wound dressing tools, in particular to a wound dressing frame assembly capable of being quickly adjusted, which comprises a base, a front-back left-right adjusting assembly, a dressing frame assembly and an infrared irradiation assembly, wherein a first motor is used for driving, a side plate is enabled to move back and forth, a second motor is used for driving, a left-right moving plate is enabled to move left and right, and the position of the dressing frame assembly is enabled to be adjusted back and forth and left and right by moving the side plate back and forth and the left-right moving plate, so that the flexibility of using the assembly is improved, and the movable range of the dressing frame assembly is enlarged by adjusting the position of the dressing frame assembly back and forth and left and right.

Description

Wound dressing frame assembly capable of being adjusted quickly

Technical Field

The invention relates to the technical field of application of wound dressing tools, in particular to a wound dressing frame assembly capable of being adjusted quickly.

Background

When a cut or scratch occurs on an arm, in order to avoid infection of the wound of the arm, the wound needs to be applied with medicine, the wound is disinfected through the medicine application, and the healing of the wound can be promoted, and when the wound of the arm is applied with medicine, in order to shape the medicine application of the wound, a wound dressing frame assembly is generally used, and the wound dressing can be limited at the wound through the wound dressing frame assembly, so that the wound dressing can be better shaped at the wound.

However, there is very big defect in current wound dressing frame assembly in the use, current wound dressing frame assembly movable range is narrower, use inflexibly, the location to patient's arm wound is not rapid enough, and the availability factor is low, simultaneously, when the patient uses, need put the arm in the assigned position, the position requirement is higher to the placing of patient's arm, the convenience that the patient used has been reduced, current wound dressing frame assembly can't be adjusted according to wound size for this subassembly can't be better with the wound adaptation of equidimension, current wound dressing frame assembly only prescribes a limit to the dressing, can't play the effect that promotes patient wound and resume.

Disclosure of Invention

In response to the problems in the prior art, the present invention provides a rapidly adjustable wound dressing frame assembly.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a but quick adjustment's wound dressing frame subassembly, includes base station, back and forth control subassembly, dressing frame subassembly and infrared irradiation subassembly, back and forth control subassembly includes two support frames, a curb plate and a left and right shift board, two the support frames are installed respectively at base station top both ends, the curb plate back and forth movement cooperation is at two support frame tops, the side of curb plate moves about the cooperation and moves the board about, dressing frame subassembly and infrared irradiation subassembly are all installed and move the board about the side that keeps away from the curb plate about, control panel is installed to base station one end, moves the curb plate and moves about through back and forth and move about and move the board, and then makes dressing frame subassembly's position can be adjusted back and forth and about, through the position of back and forth control dressing frame subassembly, on the one hand, makes dressing frame subassembly can move the scope bigger, on the other hand, the dressing frame component can be moved and adjusted according to the arm position of a patient, so that the patient can use the dressing frame component only by placing the arm with the wound upwards, on the other hand, the component can be used for positioning the wound position on the arm of the patient more accurately and rapidly, further can be used for more rapidly confirming the wound position of the arm of the patient, a PLC (programmable logic controller) is arranged in the control panel, laser sensors are arranged on the infrared irradiation component and the dressing frame component, the wound of the arm of the patient is positioned through the laser sensors, the component is automatically controlled by the PLC, the infrared irradiation component and the dressing frame component on the component can automatically move to the vicinity of the wound of the arm of the patient, a display panel is arranged on the control panel, some data of the infrared physiotherapy lamp are displayed in real time through the display panel, a control button is arranged on the outer side of the control panel, some parameters of the infrared physiotherapy lamp can be adjusted by controlling the buttons;

the dressing frame assembly comprises a fixing plate, a hydraulic cylinder and a plate frame, wherein the fixing plate is fixed on one side of a left moving plate and a right moving plate through bolts, the hydraulic cylinder is vertically arranged on the fixing plate, a hydraulic rod is arranged at the bottom of the hydraulic cylinder, the bottom of the hydraulic rod is connected with the plate frame, a through hole is formed in the top of the plate frame, a positioning plate capable of shielding the through hole is matched with the top of the plate frame in a moving mode, a first electric cylinder is horizontally arranged at one end of the plate frame, the first electric cylinder pushes the positioning plate to move through a push rod, the through hole is formed in the plate frame, the wound of a patient arm is positioned, on one hand, medical staff can accurately confirm the wound position of the patient arm, and then when the medical staff is in medicine application, the medical staff can touch the wound in a certain extent, the wound can be prevented from being damaged secondarily, on the other hand, the waste of medicine liquid can be effectively reduced, the medicine can be avoided from being applied to the outside the wound, the wound can be well adjusted by the first electric cylinder, and the size of the positioning plate can be adjusted by adjusting the position of the positioning plate, and the position of the dressing assembly can be adjusted by the patient arm by adjusting the position of the positioning plate.

Preferably, supporting legs and walking wheels are all installed at the bottom four corners of the base station, plastic mats are all adhered to the bottoms of the four supporting legs, brake elastic sheets are all arranged on the four walking wheels, the supporting legs are arranged to support the assembly, the plastic mats are arranged at the bottoms of the supporting legs, the friction force between the assembly and the ground is increased, the use stability of the assembly is improved, the walking wheels are arranged, the assembly can walk, the supporting legs are installed at the bottom of the base station through threaded fit, and the height of the supporting legs can be adjusted by screwing the supporting legs.

Preferably, the tops of the two support frames are horizontally welded with first slide rails, the top of one support frame is rotatably matched with a first screw rod, and one end of the support frame is provided with a first motor for driving the first screw rod to rotate.

Preferably, the bottom both ends of curb plate all weld and have first slider, and first slider and first slide rail sliding fit, curb plate move the cooperation through the first slider at bottom both ends on two support frames, and curb plate bottom one end welding has first nut, and first nut screw-thread fit is on first lead screw, drives through first motor, makes first lead screw rotate, through rotating first lead screw, drives first nut and removes, and first nut drives curb plate back-and-forth movement.

Preferably, one side of the side plate is welded with two second sliding rails in a horizontal mode, two ends, close to one side of the second sliding rails, of the side plate are respectively provided with a belt pulley in a rotating fit mode, two belt pulleys are sleeved with a conveying belt, and one end portion, far away from one side of the second sliding rails, of the side plate is provided with a second motor for driving one of the belt pulleys to rotate.

Preferably, the side of the left-right moving plate, which is close to the side plate, is welded with a second sliding block, the second sliding block is in sliding fit with a second sliding rail, the left-right moving plate is in moving fit with one side of the side plate through the second sliding block, one side of the left-right moving plate, which is close to the side plate, is welded with a connecting block, the connecting block is fixedly connected with a conveying belt, the belt pulley is driven to rotate through a second motor, the conveying belt is driven to drive through a rotating belt pulley, and the conveying belt drives the left-right moving plate to move left and right through the connecting block.

Preferably, the third sliding rails are welded on two sides of the top of the plate frame, the third sliding blocks are welded on two sides of the bottom of the positioning plate, the third sliding blocks are in sliding fit with the third sliding rails, and the positioning plate is in sliding fit on the plate frame through the third sliding blocks.

Preferably, the infrared irradiation assembly comprises a horizontal plate, a front-back moving plate and a second electric cylinder, the horizontal plate is horizontally arranged on one side of the left-right moving plate through a bolt, a channel is formed in the center of the top of the horizontal plate, the front-back moving plate is matched with the front-back moving plate in a front-back moving mode, the second electric cylinder is vertically arranged on the top of the front-back moving plate, the bottom of the second electric cylinder is connected with an infrared physiotherapy lamp through a push rod, the infrared physiotherapy lamp is located between the horizontal plate and a plate frame, the infrared physiotherapy lamp irradiates a wound of a patient, the infrared irradiation assembly irradiates an arm wound of the patient, blood circulation can be promoted, metabolism is improved, muscle relaxation is increased, pain of the patient can be relieved, healing of the arm wound of the patient is promoted, the infrared physiotherapy lamp is matched with a dressing frame assembly, meanwhile, the dressing frame assembly can also avoid normal skin of the wound of the patient from being burnt, the infrared physiotherapy lamp is driven by the second electric cylinder, and the arm wound of the patient is regulated in height, and the arm of the patient is regulated.

Preferably, the equal horizontal welding in top both sides of horizontal plate has the fourth slide rail, and horizontal plate top one side normal running fit has the second lead screw, and the pivoted third motor of drive second lead screw is installed to horizontal plate top one end, and the both ends of fore-and-aft movement board bottom have all welded the fourth slider, fourth slider and fourth slide rail sliding fit, and the fore-and-aft movement board passes through the fourth slider and removes the cooperation at horizontal plate top, and the bottom welding of fore-and-aft movement board has the second nut, and second nut screw-thread fit is on the second lead screw.

Preferably, the method of using the wound dressing frame assembly specifically comprises the steps of:

step one: placing an arm with a wound on the top of a base, driving a first screw rod to rotate through a first motor, driving a first nut to move through rotating the first screw rod, driving a side plate to move back and forth, driving a belt pulley to rotate through a second motor, driving a conveying belt to drive through the rotating belt pulley, driving a left-right moving plate to move left and right through a connecting block by the conveying belt, adjusting the front-back and left-right positions of a dressing frame assembly and an infrared irradiation assembly through moving the side plate and the left-right moving plate, and aligning through holes of a plate frame of the dressing frame assembly with the wound on the arm of the patient;

step two: the hydraulic rod drives the plate frame to move up and down, the plate frame is tightly attached to the arm of a patient by moving the plate frame up and down, a wound on the arm of the patient is positioned in a through hole of the plate frame, the positioning plate is driven by the first electric cylinder to move, the size of the through hole is adjusted by moving the positioning plate, the size of the through hole is just matched with the wound on the arm of the patient, the gauze immersed with the liquid medicine is taken out, and the gauze is applied to the wound on the arm of the patient through the through hole;

step three: the second screw rod is driven by the third motor, the second screw rod is driven by the second motor to rotate, the second nut is driven by the second nut to move, the front and back moving plate is driven by the second nut to move front and back, the front and back moving plate is driven by the front and back moving plate to align the infrared physiotherapy lamp with the wound of the patient, the infrared physiotherapy lamp is turned on, the height of the infrared physiotherapy lamp is regulated by the second electric cylinder, the patient feels warm and comfortable, and the wound of the patient is irradiated by the infrared physiotherapy lamp.

The invention has the beneficial effects that:

(1) According to the invention, the first motor is used for driving the side plate to move back and forth, the second motor is used for driving the side plate to move left and right, the side plate is moved back and forth and the side plate is moved left and right, the position of the dressing frame assembly is adjusted back and forth and left and right, so that the flexibility of using the assembly is improved, the dressing frame assembly is adjusted back and forth and left and right, on one hand, the movable range of the dressing frame assembly is enlarged, so that the operation range of the assembly is enlarged, on the other hand, the dressing frame assembly is adjusted in a movable mode according to the arm position of a patient, and when the dressing frame assembly is used by the patient, the wound is only required to be upwards placed on the arm, so that the convenience of using the patient is greatly improved, and on the other hand, the dressing frame assembly can position the wound position on the arm of the patient more accurately and quickly, and further can confirm the wound position of the arm of the patient more quickly, so that the using efficiency of the assembly is improved.

(2) According to the invention, through the through holes arranged on the plate frame, the wound of the arm of the patient is positioned, on one hand, medical staff can better confirm the wound position on the arm of the patient, and further, when the medical staff is used for applying medicine, the medicine can be more accurately applied to the wound, so that the medicine application effect of the wound of the arm of the patient is improved, meanwhile, when the medical staff is used for treating the medicine application of the wound, the mistaken touch to the wound can be reduced to a certain extent, further, the secondary injury to the wound of the arm of the patient is avoided, so that the pain of the wound of the arm of the patient is relieved, on the other hand, the waste of the medicine liquid is effectively reduced, the medicine liquid is prevented from being applied outside the wound, so that the medicine application cost is reduced, the position of the positioning plate is adjusted by using the first electric cylinder, and the size of the through holes can be adjusted according to the wound size of the arm of the patient, and further, the dressing frame component can be better adapted to the wound of different sizes, so that the component can treat the wound of different sizes.

(3) According to the invention, the infrared irradiation assembly is arranged to irradiate the wound of the arm of the patient, so that the blood circulation is promoted, the metabolism is improved, the muscle relaxation is increased, the pain of the patient can be relieved, the healing of the wound of the arm of the patient is promoted, the infrared irradiation assembly is matched with the dressing frame assembly for use, the promotion effect of the infrared irradiation assembly on the wound position is improved, meanwhile, the dressing frame assembly can also avoid the burn of the normal skin of the wound of the arm of the patient caused by the infrared irradiation assembly, and the use of the infrared irradiation assembly is safer and more reliable.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic diagram of a front-back, left-right adjusting structure of the invention.

Fig. 3 is an enlarged view of the detail of the area a in the drawing.

Fig. 4 is a schematic diagram of a left-right shifting board structure of the present invention.

Fig. 5 is a schematic view of the dressing frame assembly structure of the present invention.

FIG. 6 is a schematic view of an infrared irradiation assembly according to the present invention.

In the figure: 1. a base station; 101. supporting feet; 102. a walking wheel; 2. front-back left-right adjusting components; 201. a support frame; 202. a first slide rail; 203. a first screw rod; 204. a first motor; 205. a side plate; 206. a first slider; 207. a first nut; 208. a second slide rail; 209. a belt pulley; 210. a conveyor belt; 211. a second motor; 212. moving the plate left and right; 213. a second slider; 214. a connecting block; 3. a dressing frame assembly; 301. a fixing plate; 302. a hydraulic cylinder; 303. a hydraulic rod; 304. a plate frame; 305. a through hole; 306. a third slide rail; 307. a positioning plate; 308. a third slider; 309. a first electric cylinder; 4. an infrared irradiation assembly; 401. a horizontal plate; 402. a channel; 403. a fourth slide rail; 404. a second screw rod; 405. a third motor; 406. moving the plate back and forth; 407. a fourth slider; 408. a second nut; 409. a second electric cylinder; 410. an infrared physiotherapy lamp; 5. and a control panel.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-6, the wound dressing frame assembly capable of being quickly adjusted according to the invention comprises a base 1, a front-back left-right adjusting assembly 2, a dressing frame assembly 3 and an infrared irradiation assembly 4, wherein the front-back left-right adjusting assembly 2 comprises two supporting frames 201, a side plate 205 and a left-right moving plate 212, the two supporting frames 201 are respectively arranged at two ends of the top of the base 1, the side plate 205 is matched with the top of the two supporting frames 201 in a front-back moving way, one side of the side plate 205 is matched with the left-right moving plate 212 in a left-right moving way, the dressing frame assembly 3 and the infrared irradiation assembly 4 are respectively arranged at one side of the left-right moving plate 212 far from the side plate 205, one end of the base 1 is provided with a control panel 5, the side plate 205 and the left-right moving plate 212 are moved in a left-right moving way, and then make dressing frame assembly 3's position can be adjusted from beginning to end and controlling to the flexibility that has improved this subassembly and used, through the position of adjusting dressing frame assembly 3 from beginning to end and controlling, on the one hand, make dressing frame assembly 3 can remove the scope bigger, thereby the operation scope of this subassembly has been enlarged, on the other hand, make dressing frame assembly 3 can remove according to patient's arm position and adjust, when making the patient use, only need place the arm up with the wound can, thereby very big improvement patient's convenience of use, on the other hand, make this subassembly can be to the more accurate quick of wound position location on the patient's arm, and then can confirm patient's arm wound position more fast, thereby improve the efficiency that this subassembly used, control panel 5's inside is provided with the PLC controller (model: s 7-200), laser sensors (model: GP2AP01VT 10F) are arranged on the infrared irradiation component 4 and the dressing frame component 3, the device is characterized in that a wound of an arm of a patient is positioned through a laser sensor, the assembly is automatically controlled by a PLC (programmable logic controller), an infrared irradiation assembly 4 and a dressing frame assembly 3 on the assembly can automatically move to the vicinity of the wound of the arm of the patient, a display panel is arranged on a control panel 5, some data of an infrared physiotherapy lamp 410 are displayed in real time through the display panel, a control button is arranged on the outer side of the control panel 5, and some parameters of the infrared physiotherapy lamp 410 can be adjusted through the control button;

the dressing frame assembly 3 comprises a fixing plate 301, a hydraulic cylinder 302 and a plate frame 304, the fixing plate 301 is fixed on one side of the left moving plate 212 and the right moving plate 212 through bolts, the hydraulic cylinder 302 is vertically arranged on the fixing plate 301, a hydraulic rod 303 is arranged at the bottom of the hydraulic cylinder 302, the plate frame 304 is connected with the bottom of the hydraulic rod 303, a through hole 305 is formed in the top of the plate frame 304, a positioning plate 307 capable of shielding the through hole 305 is movably matched with the top of the plate frame 304, a first electric cylinder 309 is horizontally arranged at one end of the plate frame 304, the first electric cylinder 309 pushes the positioning plate 307 to move through a push rod, the through hole 305 is formed in the plate frame 304, the wound of the arm of a patient is positioned, on one hand, medical staff can better confirm the wound position of the arm of the patient, and then can accurately apply medicine to the wound, and meanwhile, the medical staff can reduce the error of the wound to a certain extent when applying medicine to the wound, and further avoid secondary injury to the wound of the patient, thereby reducing the pain of the arm of the patient, and the medicine can be well adjusted by the electric cylinder 307, and the medicine can be well adjusted by adjusting the position of the plate 307, and the position of the patient can be well adjusted, and the medicine can be well adjusted, and the position of the patient can be well adjusted, and the position of the patient can be well, and the position can be adjusted, and the position of the position can be adjusted.

In an optional implementation manner of this embodiment, supporting legs 101 and travelling wheels 102 are all installed in the bottom four corners of base 1, plastic mat is all adhered to the bottom of four supporting legs 101, four travelling wheels 102 all have brake shell fragment, support this subassembly through setting up supporting legs 101, through setting up plastic mat in supporting legs 101 bottom, increase the frictional force of this subassembly and ground, and then improve the stability that this subassembly was used, through setting up travelling wheels 102, make this subassembly can walk, thereby improve the convenience that this subassembly removed and transported, supporting legs 101 are installed in base 1 bottom through screw-thread fit, through twisting supporting legs 101, can adjust the height of supporting legs 101.

In an alternative implementation manner of this embodiment, the top parts of the two supporting frames 201 are both welded with a first sliding rail 202 horizontally, the top part of one supporting frame 201 is rotatably matched with a first screw 203, and one end of the supporting frame 201 is provided with a first motor 204 for driving the first screw 203 to rotate.

In an alternative implementation manner of this embodiment, two ends of the bottom of the side plate 205 are welded with first sliding blocks 206, the first sliding blocks 206 are in sliding fit with the first sliding rails 202, the side plate 205 is movably fit on the two supporting frames 201 through the first sliding blocks 206 at two ends of the bottom, one end of the bottom of the side plate 205 is welded with a first nut 207, the first nut 207 is in threaded fit on the first screw rod 203, the first screw rod 203 is driven by the first motor 204 to rotate, the first screw rod 203 is rotated to drive the first nut 207 to move, and the first nut 207 drives the side plate 205 to move back and forth.

In an alternative implementation manner of this embodiment, two second sliding rails 208 are welded on one side of the side plate 205 horizontally, two ends of one side of the side plate 205, which is close to the second sliding rails 208, are respectively in running fit with belt pulleys 209, two belt pulleys 209 are sleeved with a conveyor belt 210, and a second motor 211 for driving one of the belt pulleys 209 to rotate is installed at the end of one side of the side plate 205, which is far away from the second sliding rails 208.

In an alternative implementation manner of this embodiment, a second slider 213 is welded on a side of the left-right moving plate 212 close to the side plate 205, the second slider 213 is in sliding fit with the second sliding rail 208, the left-right moving plate 212 is movably fitted on a side of the side plate 205 through the second slider 213, a connecting block 214 is welded on a side of the left-right moving plate 212 close to the side plate 205, the connecting block 214 is fixedly connected with the conveying belt 210, the belt pulley 209 is driven to rotate by the second motor 211, the conveying belt 210 is driven to drive by the rotating belt pulley 209, and the conveying belt 210 drives the left-right moving plate 212 to move left and right through the connecting block 214.

In an alternative implementation manner of this embodiment, the top two sides of the plate frame 304 are welded with the third slide rails 306, the bottom two sides of the positioning plate 307 are welded with the third slide blocks 308, the third slide blocks 308 are in sliding fit with the third slide rails 306, and the positioning plate 307 is in sliding fit on the plate frame 304 through the third slide blocks 308.

In an optional implementation manner of this embodiment, infrared irradiation assembly 4 includes horizontal plate 401, move board 406 and second electric jar 409 around, horizontal plate 401 is through bolt horizontal installation in controlling board 212 one side, channel 402 has been seted up at horizontal plate 401 top center, the top of horizontal plate 401 is moved back and forth and is cooperated with and moves board 406 around, the second electric jar 409 is vertically installed at the top of move board 406 around, the bottom of second electric jar 409 is connected with infrared physiotherapy lamp 410 through the push rod, infrared physiotherapy lamp 410 is located between horizontal plate 401 and the bezel 304, shine patient's wound through infrared physiotherapy lamp 410, shine patient's arm wound through setting up infrared irradiation assembly 4, can promote blood circulation, increase metabolism, increase muscle relaxation and can alleviate patient pain, the healing of patient's arm wound has the promotion effect, the cooperation medicine is used, thereby improve the effect that this subassembly was restoreed to patient's arm wound, through using infrared irradiation assembly 4 and dressing frame assembly 3 cooperation, make infrared irradiation assembly 4 shine the position and be connected with infrared physiotherapy lamp 410 through the push rod, thereby the infrared physiotherapy lamp 410 is also improved to the wound position is adjusted to the patient's wound, can lead to the fact the wound to the normal effect of the patient's arm to be further, can be adjusted by infrared physiotherapy lamp 410, thereby, can make the arm can normally adjust the arm is further adjust the arm to be by the arm, can be adjusted by the infrared physiotherapy lamp 410, can be used to the wound.

In an alternative implementation manner of this embodiment, the top two sides of the horizontal plate 401 are both welded with fourth slide rails 403 horizontally, one side of the top of the horizontal plate 401 is rotationally matched with a second screw rod 404, one end of the top of the horizontal plate 401 is provided with a third motor 405 for driving the second screw rod 404 to rotate, the two ends of the bottom of the front and back moving plate 406 are both welded with fourth slide blocks 407, the fourth slide blocks 407 are in sliding fit with the fourth slide rails 403, the front and back moving plate 406 is movably matched with the top of the horizontal plate 401 through the fourth slide blocks 407, the bottom of the front and back moving plate 406 is welded with a second nut 408, and the second nut 408 is in threaded fit with the second screw rod 404.

In an alternative implementation of this embodiment, the method of using the wound dressing frame assembly specifically includes the steps of:

step one: placing an arm with a wound on the top of the base 1, driving the first screw rod 203 to rotate through the first motor 204, driving the first nut 207 to move through rotating the first screw rod 203, driving the side plate 205 to move back and forth through driving the second motor 211, enabling the belt pulley 209 to rotate, driving the conveying belt 210 to drive the left and right moving plate 212 to move left and right through the connecting block 214 through rotating the belt pulley 209, adjusting the front and back positions and the left and right positions of the dressing frame assembly 3 and the infrared irradiation assembly 4, and aligning the through holes 305 of the plate frame 304 in the dressing frame assembly 3 with the wound on the arm of the patient through moving the side plate 205 back and forth and the left and right moving plate 212;

step two: the hydraulic rod 303 is driven by the hydraulic cylinder 302 to move, the hydraulic rod 303 drives the plate frame 304 to move up and down, the plate frame 304 is tightly attached to the arm of a patient by moving the plate frame 304 up and down, a wound on the arm of the patient is positioned in the through hole 305 of the plate frame 304, the positioning plate 307 is driven by the first electric cylinder 309 to move, the size of the through hole 305 is adjusted by moving the positioning plate 307, the size of the through hole 305 is just matched with the wound on the arm of the patient, the gauze immersed with the liquid medicine is taken, and the gauze is applied to the wound on the arm of the patient through the through hole 305;

step three: the second screw rod 404 is driven by the third motor 405, the second screw rod 404 is rotated, the second nut 408 is driven to move by rotating the second screw rod 404, the front and rear moving plate 406 is driven to move back and forth by the second nut 408, the infrared physiotherapy lamp 410 is aligned to the wound of the patient by moving the front and rear moving plate 406 back and forth, the infrared physiotherapy lamp 410 is turned on, the height of the infrared physiotherapy lamp 410 is regulated by driving the second electric cylinder 409, the height of the infrared physiotherapy lamp 410 is regulated to be comfortable when the patient feels warm, and the wound of the patient is irradiated by the infrared physiotherapy lamp 410.

When in use, firstly, an arm with a wound of a patient is placed on the top of the base 1, the first screw rod 203 is driven by the first motor 204, the first screw rod 203 is rotated, the first nut 207 is driven to move the side plate 205 back and forth, the belt pulley 209 is driven to rotate by the second motor 211, the belt pulley 209 is driven to drive the conveying belt 210 to drive the left and right moving plate 212 to move left and right by the connecting block 214, the front and back positions and the left and right positions of the side plate 205 and the left and right moving plate 212 are adjusted, the through holes 305 of the plate frame 304 in the dressing frame assembly 3 are aligned with the wound on the arm of the patient, the side plate 205 is driven to move back and forth by the first motor 204, the left and right moving plate 212 is driven by the second motor 211, the dressing frame assembly 3 can be adjusted back and forth and left and right by moving the side plate 205 and the left and right moving plate 212, so that the flexibility of the use of the assembly is improved, the dressing frame assembly 3 can be moved in a larger range by adjusting the position of the dressing frame assembly 3 back and forth and left and right, so that the operation range of the assembly is enlarged, on the other hand, the dressing frame assembly 3 can be moved and adjusted according to the arm position of a patient, so that when the patient uses, the patient only needs to place the arm with the wound upwards, thereby greatly improving the convenience of the use of the patient, on the other hand, the assembly can more accurately and quickly position the wound on the arm of the patient, further can more quickly confirm the wound position of the arm of the patient, thereby improving the use efficiency of the assembly, and then is driven by the hydraulic cylinder 302, the hydraulic rod 303 is moved, the hydraulic rod 303 drives the plate frame 304 to move up and down, the plate frame 304 is tightly attached to the arm of a patient by moving the plate frame 304 up and down, a wound on the arm of the patient is positioned in the through hole 305 of the plate frame 304, the positioning plate 307 is driven by the first electric cylinder 309, the size of the through hole 305 is adjusted by moving the positioning plate 307, the size of the through hole 305 is just matched with the wound on the arm of the patient, the gauze immersed with the liquid medicine is taken out, the gauze is applied to the wound on the arm of the patient through the through hole 305, and the wound on the arm of the patient is positioned by arranging the through hole 305 on the plate frame 304, so that on one hand, medical staff can better confirm the wound position on the arm of the patient, and further, when the medical staff is applied with medicine, the medicine can be applied to the wound of the patient more accurately, the medical staff can apply the medicine effect on the wound of the arm of the patient when the wound is applied with medicine, the utility model can reduce the false collision to the wound to a certain extent, thereby avoiding the secondary injury to the wound of the arm of the patient, and further reducing the pain of the wound of the arm of the patient, on the other hand, can effectively reduce the waste of the medicine liquid, avoid the medicine liquid from being applied outside the wound, and further reduce the medicine application cost, the position of the positioning plate 307 is adjusted by using the driving of the first electric cylinder 309, the size of the through hole 305 can be adjusted according to the size of the wound of the arm of the patient by adjusting the position of the positioning plate 307, further the dressing frame component 3 can be better matched with the wounds with different sizes, thereby the component can have good effect on treating the wounds with different sizes, finally, the second screw rod 404 is driven by the third motor 405, the second screw rod 404 is rotated, the second nut 408 is driven by the rotation of the second screw rod 404, the front and back moving plate 406 is driven by the second nut 408, through back-and-forth movement front and back shifting board 406, aim at patient's wound with infrared physiotherapy lamp 410, open infrared physiotherapy lamp 410, drive through the second electric jar 409, adjust the height of infrared physiotherapy lamp 410, high regulation of infrared physiotherapy lamp 410 feel warm comfortable can to the patient, shine patient's wound through infrared physiotherapy lamp 410, shine patient's arm wound through setting up infrared irradiation component 4, can promote blood circulation, improve metabolism, increase muscle relaxation and can alleviate patient pain, healing of patient's arm wound has the promotion effect, the cooperation is applied medicine and is used, thereby improve the effect of this subassembly to patient's arm wound recovery, through using infrared irradiation component 4 and dressing frame component 3 cooperation, make infrared irradiation component 4 more accurate to wound position irradiation, thereby further improve the effect of this subassembly to patient's arm wound recovery, simultaneously, dressing frame component 3 also can avoid infrared irradiation component 4 to cause burn to patient's arm wound department normal skin, thereby make the use of this subassembly safer and more reliable.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a wound dressing frame subassembly that can adjust fast, includes base station (1), controls subassembly (2), dressing frame subassembly (3) and infrared irradiation subassembly (4), its characterized in that around: the front-back left-right adjusting assembly (2) comprises two supporting frames (201), a side plate (205) and a left-right moving plate (212), the two supporting frames (201) are respectively arranged at two ends of the top of the base station (1), the side plate (205) is matched with the tops of the two supporting frames (201) in a front-back moving mode, the left-right moving plate (212) is matched with one side of the side plate (205) in a left-right moving mode, the dressing frame assembly (3) and the infrared irradiation assembly (4) are respectively arranged at one side, far away from the side plate (205), of the left-right moving plate (212), and the control panel (5) is arranged at one end of the base station (1);

the dressing frame assembly (3) comprises a fixing plate (301), a hydraulic cylinder (302) and a plate frame (304), wherein the fixing plate (301) is fixed on one side of a left-right moving plate (212) through bolts, the hydraulic cylinder (302) is vertically arranged on the fixing plate (301), a hydraulic rod (303) is arranged at the bottom of the hydraulic cylinder (302), the plate frame (304) is connected to the bottom of the hydraulic rod (303), a through hole (305) is formed in the top of the plate frame (304), a positioning plate (307) capable of shielding the through hole (305) is movably matched with the top of the plate frame (304), a first electric cylinder (309) is horizontally arranged at one end of the plate frame (304), and the first electric cylinder (309) pushes the positioning plate (307) through a push rod, so that the size of the through hole (305) is just matched with a wound on an arm of a patient, gauze immersed in the medical liquid is coated on the wound on the arm of the patient through the through hole (305);

the tops of the two supporting frames (201) are horizontally welded with first sliding rails (202), the top of one supporting frame (201) is rotatably matched with a first screw rod (203), and one end of the supporting frame (201) is provided with a first motor (204) for driving the first screw rod (203) to rotate;

the two ends of the bottom of the side plate (205) are welded with first sliding blocks (206), the first sliding blocks (206) are in sliding fit with the first sliding rails (202), the side plate (205) is movably matched on the two supporting frames (201) through the first sliding blocks (206) at the two ends of the bottom, one end of the bottom of the side plate (205) is welded with a first nut (207), and the first nut (207) is in threaded fit on the first screw rod (203);

two second sliding rails (208) are horizontally welded on one side of the side plate (205), belt pulleys (209) are rotatably matched at two ends of one side of the side plate (205) close to the second sliding rails (208), a conveying belt (210) is sleeved on the two belt pulleys (209), and a second motor (211) for driving one belt pulley (209) to rotate is mounted at the end of one side of the side plate (205) far away from the second sliding rails (208);

a second sliding block (213) is welded on one side, close to the side plate (205), of the left and right moving plate (212), the second sliding block (213) is in sliding fit with a second sliding rail (208), the left and right moving plate (212) is in moving fit on one side of the side plate (205) through the second sliding block (213), a connecting block (214) is welded on one side, close to the side plate (205), of the left and right moving plate (212), and the connecting block (214) is fixedly connected with the conveying belt (210);

third sliding rails (306) are welded on two sides of the top of the plate frame (304), third sliding blocks (308) are welded on two sides of the bottom of the positioning plate (307), the third sliding blocks (308) are in sliding fit with the third sliding rails (306), and the positioning plate (307) is in sliding fit on the plate frame (304) through the third sliding blocks (308);

the inside of control panel (5) is provided with the PLC controller, all installs laser sensor on infrared irradiation subassembly (4) and dressing frame subassembly (3), fixes a position patient's arm wound through laser sensor to utilize PLC controller automated control infrared irradiation subassembly (4) and dressing frame subassembly (3), make infrared irradiation subassembly (4) and dressing frame subassembly (3) on this wound dressing frame subassembly can automatic move near patient's arm wound.

2. A rapidly adjustable wound dressing frame assembly according to claim 1, wherein: supporting legs (101) and travelling wheels (102) are arranged at four corners of the bottom of the base station (1), plastic mats are adhered to the bottoms of the four supporting legs (101), and the four travelling wheels (102) are provided with brake spring plates.

3. A rapidly adjustable wound dressing frame assembly according to claim 1, wherein: the infrared irradiation assembly (4) comprises a horizontal plate (401), a front-back moving plate (406) and a second electric cylinder (409), wherein the horizontal plate (401) is horizontally arranged on one side of the left-right moving plate (212) through bolts, a channel (402) is formed in the center of the top of the horizontal plate (401), the front-back moving plate (406) is matched with the top of the horizontal plate (401), the second electric cylinder (409) is vertically arranged on the top of the front-back moving plate (406), the bottom of the second electric cylinder (409) is connected with an infrared physiotherapy lamp (410) through a push rod, and the infrared physiotherapy lamp (410) is located between the horizontal plate (401) and a plate frame (304).

4. A rapidly adjustable wound dressing frame assembly according to claim 3, wherein: the top both sides of horizontal plate (401) all have horizontal welding fourth slide rail (403), horizontal plate (401) top one side normal running fit has second lead screw (404), third motor (405) of drive second lead screw (404) pivoted is installed to horizontal plate (401) top one end, fourth slider (407) have all been welded at the both ends of fore-and-aft moving board (406) bottom, fourth slider (407) and fourth slide rail (403) sliding fit, fore-and-aft moving board (406) are through fourth slider (407) moving fit at horizontal plate (401) top, the bottom welding of fore-and-aft moving board (406) has second nut (408), second nut (408) screw fit is on second lead screw (404).