CN114869678B

CN114869678B - Cool and sanitary nursing device for wound of leg burn patient

Info

Publication number: CN114869678B
Application number: CN202210388740.1A
Authority: CN
Inventors: 徐凤明
Original assignee: Nanjing 101 Technology Service Co ltd
Current assignee: Nanjing 101 Technology Service Co ltd
Priority date: 2022-04-14
Filing date: 2022-04-14
Publication date: 2024-05-24
Anticipated expiration: 2042-04-14
Also published as: CN114869678A

Abstract

The invention relates to a nursing device, in particular to a cool and sanitary nursing device for wounds of leg burn patients. The invention provides a leg burn patient wound cooling and sanitary nursing device which can automatically wash wounds of a patient and relax the burnt legs of the patient, thereby relieving pain, improving working efficiency and reducing bacterial contamination. A leg burn patient wound cooling and hygiene care device comprising: the number of the supporting frames is two, and one side of the top of each supporting frame is provided with a mounting frame; the lower parts of the two mounting frames are provided with connecting frames in a sliding mode; the slide bar is provided with the slide bar in a sliding way on one side of the two connecting frames. The beneficial effects are that: the patient places the both legs on the bullet pad, can make patient's shank muscle relax through the bullet pad, then places the heel on the foot rest, and then the patient is flat with both feet Zhang Kaifang, finally can realize relaxing patient's burn shank, when making its follow-up washing, can alleviate pain.

Description

Cool and sanitary nursing device for wound of leg burn patient

Technical Field

The invention relates to a nursing device, in particular to a cool and sanitary nursing device for wounds of leg burn patients.

Background

The burn is the tissue injury that causes by heating power, the patient after burn should wash the wound with cold water immediately, prevent wound later infection, follow-up to the wound and take medicine, avoid burn department to stay the scar, the patient's wound treatment of burn is generally medical personnel to patient's shank burn department to the hospital at present, because the burn area is great, the time that needs to wash is longer along with it, every medical personnel generally need receive the burn patient more every day, therefore, medical personnel need consume longer time when washing each patient's wound that receives, this reduces work efficiency, the nursing of patient's shank burn department is generally patient sitting on the chair in current hospital, directly place both feet on ground, then wash, go up the medicine to both feet burn department, such nursing method can be infected with more bacteria, the infection to the wound also increases along with it, and such nursing method can increase patient's pain sense, be difficult to let patient relax.

Therefore, there is a need for a leg burn patient wound cooling and hygiene care device that automatically washes the patient's wound, and relaxes the patient's burned leg, thereby alleviating pain, improving work efficiency, and reducing bacterial contamination.

Disclosure of Invention

In order to overcome the defect that the prior hospital generally washes the burnt parts of the legs of a patient manually by medical staff when the burnt area is large, the time required for washing is long, so that the working efficiency is reduced, the prior hospital generally sits on a chair for nursing the burnt parts of the legs of the patient, directly places the feet on the ground, washes and doses the burnt parts of the feet, and the nursing mode is infected with more bacteria, and simultaneously increases the infection to the wounds, and the nursing mode can increase the pain of the patient, has the defect that the patient is difficult to relax, and aims to solve the technical problems that: the utility model provides a can wash patient's wound voluntarily, can relax patient's burn shank to alleviate pain, improve work efficiency, reduce the cool sanitary nursing device of leg burn patient wound that the bacterium is infected with.

The technical proposal is as follows: a leg burn patient wound cooling and hygiene care device comprising: the number of the supporting frames is two, and one side of the top of each supporting frame is provided with a mounting frame; the lower parts of the two mounting frames are provided with connecting frames in a sliding mode; the sliding rod is arranged on one side of each of the two connecting frames in a sliding manner; the seat is connected between the tops of the two sliding rods; the first return springs are connected between the seat and the connecting frame; the connecting frame is connected with the mounting frame through a connecting rod; the two sides of the seat are provided with rotary armrests in a rotary way; the rotating frames are arranged at the left lower parts of the two connecting frames in a rotating way; the two sides of the two rotating frames are provided with first sliding rails; the other sides of the two rotating frames are respectively provided with a supporting block for placing legs; the top of the supporting block is provided with a loosening mechanism which can loosen the legs of the patient, and the loosening mechanism is matched with the first sliding rail; the water supply mechanism is arranged between the middle parts of the two support frames; the two rotating frames are provided with flushing mechanisms which can flush the legs of the patient.

Optionally, the release mechanism comprises: the sliding frames are arranged on the four first sliding rails in a sliding manner; a foot rest is arranged between the two sliding frames on one side and the two sliding frames on the other side; the top parts in the two supporting blocks are respectively provided with two third return springs; spring pads which can relax the legs are arranged between the tops of the two groups of two third reset springs; the rocking blocks are rotatably arranged on one sides of the two supporting blocks; and two first torsion springs are connected between the rocking block and the foot support.

Optionally, the water supply mechanism comprises: the support blocks are arranged on one inner side of each of the two support frames; the connecting frames are connected between the four supporting frames; cheng Shuiche, a water containing vehicle for containing clear water is arranged at the bottom of the connecting frame in a sliding manner, and two wheels are arranged on two sides of the bottom of the water containing vehicle in a rotating manner; the water receiving plates are arranged on two sides of the top of the connecting frame and can be used for retaining water of wastewater, and the water receiving plates are positioned below the two rotating frames; the water pump bracket is arranged on one side in the connecting frame; the water pump is arranged in the water pump bracket; the water supply pipe is arranged on both sides of the water suction pump, penetrates through the connecting frame, and the other end of the water supply pipe is connected and matched with the flushing mechanism; the left lower part of the water suction pump is provided with a water inlet pipe which is positioned in the water containing vehicle.

Optionally, the flush mechanism includes: the tops of the two rotating frames are respectively provided with two second sliding rails; the first semicircular blocks are arranged between one sides of the two second sliding rails on the same side in a sliding manner; the outer sides of the two first semicircular blocks are respectively provided with a first connecting block; the second semicircular blocks are rotatably arranged on the two first connecting blocks, and are in contact fit with the first semicircular blocks; the timers are arranged on the outer sides of the two first connecting blocks and are electrically connected with the water suction pump through holes; the bottoms of the two first connecting blocks are respectively provided with a first pipeline, and the first pipelines on the same side are respectively connected and matched with the water supply pipes on the same side; the inner lower parts of the two second semicircular blocks are respectively provided with a first magnetic block, and the first magnetic blocks are in contact fit with the first semicircular blocks; the second pipeline is arranged between the first semicircular block and the second semicircular block, the other end of the second pipeline is connected and matched with the first connecting block, and the second pipeline is a hose; the inner bottoms of the two first semicircular blocks are respectively provided with a rotating block in a rotating way; the first pipeline is wound on the rotating block; the spiral spring is connected between the rotating block and the first fixed block; the water outlet spray heads are arranged on the two second pipelines; the guide groove is formed in the first semicircular block and the second semicircular block in a matched mode, and can be used for moving the water outlet spray head and the second pipeline; the bottom of the first semicircular block is provided with a water outlet for discharging wastewater.

Optionally, a compressing mechanism is further included, where the compressing mechanism includes: the first semicircular block and the second semicircular block are internally provided with two second fixing blocks; the fourth reset spring and the pressing block are respectively provided with two fourth reset springs on the four second fixing blocks; and a pressing block is arranged between the tops of the two fourth reset springs, and the pressing block is in contact fit with the second pipeline.

Optionally, a lifting mechanism is further included, and the lifting mechanism includes: the two support frames are internally provided with two first guide blocks; the racks are arranged between the two first guide blocks in a sliding mode; the fourth return springs are connected between the racks and the first guide blocks; the clamping jaws are arranged at the upper parts of the two connecting frames and are positioned in the supporting frame, and the clamping jaws are in contact fit with the racks; the push blocks are arranged at the tops of the two racks and are in sliding fit with the support frame.

Optionally, a drying mechanism is further included, and the drying mechanism includes: the third fixing blocks are arranged on one sides of the two first connecting blocks; the top of the third fixed block is rotatably provided with a torsion bar; the top of the torsion bar is provided with an air duct which can dry the moisture of the leg of the patient; the sliding switch is arranged at the bottoms of the two third fixed blocks in a sliding manner; the left sides of the two sliding switches are provided with first contacts; the second contacts are arranged on the right sides of the bottoms in the two third fixing blocks, the first contacts are in sliding fit with the second contacts, and the sliding switch is electrically connected with the air duct.

Optionally, a switch mechanism is further included, and the switch mechanism includes: the second magnetic blocks are arranged on the two first pipelines in a sliding mode; the top blocks are arranged on one sides of the two second magnetic blocks; the inner bottoms of the two first pipelines are provided with fixing rings; the middle parts in the two first pipelines are respectively provided with a third magnetic block in a sliding mode, and the third magnetic blocks and the second magnetic blocks are mutually attracted; the second magnetic block is connected with the fixed ring through a second return spring; the bottom parts of the two sliding switches are respectively provided with a fixed rod; the bottom of the fixed rod is rotatably provided with a rotating block which is in sliding fit with the ejector block; the two second torsion springs are connected between the rotating block and the fixed rod; two seventh return springs are connected between the seventh return spring sliding switch and the third fixed block.

Optionally, the device further comprises a storage mechanism, wherein the storage mechanism comprises: the bottoms of the two sliding rods are respectively provided with a second connecting block; the bottoms of the two second connecting blocks are respectively provided with a first connecting rod in a rotary mode; the two sides of the connecting frame are provided with second guide blocks; the outer sides of the two first connecting rods are respectively provided with a second connecting rod which is in sliding fit with the second guide block; the fixing frames are arranged on two sides of the connecting frame; the outer sides of the two fixing frames are provided with two telescopic frames in a sliding mode, and the second connecting rods on the same side are respectively connected and matched with the telescopic frames on the same side; a commodity shelf capable of storing gauze is arranged between the two telescopic frames; and cover plates capable of preventing gauze from being wetted are arranged at the tops of the two fixing frames.

Compared with the prior art, the invention has the following advantages: 1. the patient places the legs on the spring pad, the leg muscles of the patient can be relaxed through the spring pad, then the heel is placed on the foot rest, then the patient levels the feet Zhang Kaifang, the feet rest is pushed to move leftwards in the process of leveling the feet Zhang Kaifang of the patient, the foot rest moves leftwards along the first sliding rail through the sliding frame, and therefore after the patient moves to a proper position, the foot rest stops moving, finally, the leg burn of the patient can be relaxed, and pain can be relieved when the patient is rinsed later;

2. The medical staff starts the water suction pump and rotates the timer to time, the timer is electrically connected with the water suction pump through hole, the timer can close the water suction pump in a specified time, clean water is conveyed into the first pipeline through the water supply pipe, clean water is conveyed into the first connecting block along the first pipeline, then clean water is conveyed into the water outlet spray head along the second pipeline, and the clean water is sprayed out along the water outlet spray head, so that the clean water is sprayed to the leg wound of a patient, the clean water can flush the leg wound of the patient, and finally cooling flushing can be conveniently carried out on the leg wound of a burn patient, so that later infection of the leg wound of the patient is prevented;

3. The medical staff pulls the sliding switches on the two sides to move to the left, the sliding switches drive the first contact to move to the left, the first contact moves to the left to contact with the second contact, the air duct is started, the air duct blows the legs of the patient, and the moisture on the legs of the patient is blown to dry, so that the purposes of blowing the moisture on the legs of the patient and facilitating the follow-up medicine feeding to the wound parts of the legs of the patient can be finally realized;

4. Medical personnel can place cotton and gauze in the supporter earlier, and move at the slide bar downside and drive second connecting block downside and remove, second connecting block downside removes in-process and drives first connecting rod rotation, first connecting rod drives the second connecting rod and moves outside along the second guide block, the second connecting rod just drives the expansion bracket and moves to open outside, the expansion bracket drives the supporter and moves outside then, medical personnel is when carrying out the medicine on patient wound, alright take cotton and gauze etc. in the supporter, finally can realize depositing gauze and cotton, the purpose of medical personnel's taking of being convenient for.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial cross-sectional view of the present invention.

Figure 3 is a partial cross-sectional view of the release mechanism of the present invention.

FIG. 4 is a schematic view of a part of a release mechanism according to the present invention.

Fig. 5 is a schematic view of a part of the three-dimensional structure of the water supply mechanism and the flushing mechanism of the present invention.

Fig. 6 is a schematic perspective view of a portion of the flushing mechanism of the present invention.

Fig. 7 is a schematic perspective view of a water supply mechanism part of the present invention.

Fig. 8 is a first partial cross-sectional view of the flushing mechanism of the present invention.

Fig. 9 is a second partial cross-sectional view of the flushing mechanism of the present invention.

Fig. 10 is a partial cross-sectional view of the lift mechanism of the present invention.

Fig. 11 is a schematic view of a part of a lifting mechanism according to the present invention.

Fig. 12 is a first partial cross-sectional view of the switch mechanism of the present invention.

Fig. 13 is a second partial cross-sectional view of the switch mechanism of the present invention.

Fig. 14 is a schematic perspective view of a first part of the storage mechanism of the present invention.

Fig. 15 is a schematic perspective view of a second part of the storage mechanism of the present invention.

Reference numerals in the figures: 1_support, 2_mount, 3_link, 4_seat, 5_slide bar, 6_first return spring, 7_turn armrest, 8_turn frame, 9_first slide rail, 10_second return spring, 11_support, 12_release mechanism, 120_slide, 121_spring pad, 122_third return spring, 123_support, 124_shake, 125_first torsion spring, 13_water supply mechanism, 131_support, 132_link frame, 133_waterwheel, 134_water receiving plate, 135_water pump bracket, 136_water pump, 137_water supply pipe, 138_water inlet pipe, 14_flush mechanism, 141_second slide rail, 142_first semicircle, 143_first link, 144_first conduit, 145_timer, 146_second semicircle, 147_first magnet, 148_second conduit, 149_first fixed block, 1410_rotary block, 1411_water outlet spray head, 1412 spiral spring, 1413 guiding slot, 1414 water outlet, 15 compressing mechanism, 151 second fixed block, 152 fourth reset spring, 153 pressing block, 16 lifting mechanism, 161 rack, 162 first guiding block, 163 fifth reset spring, 164 claw, 165 push block, 17 drying mechanism, 171 third fixed block, 172 torsion bar, 173 dryer, 174 first contact, 175 sliding switch, 176 second contact, 18 switching mechanism, 181 second magnetic block, 182 fixed ring, 183 sixth reset spring, 184 top block, 185 fixed bar, 186 rotating block, 187 second torsion spring, 188 seventh reset spring, 189 third magnetic block, 19 article placing mechanism, 191 second connecting block, 192 first connecting rod, 193 second connecting rod, 194 second guiding block, 195 fixed frame, 196 telescopic frame, 197_shelf, 198_cover plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1

The utility model provides a cool and refreshing health care device of shank burn patient wound, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, including support frame 1, mounting bracket 2, link 3, seat 4, slide bar 5, first reset spring 6, rotating handrail 7, rotating frame 8, first slide rail 9, second reset spring 10, supporting shoe 11, release mechanism 12, water supply mechanism 13 and bath mechanism 14, support frame 1 quantity is two, two support frame 1 top right sides all are equipped with mounting bracket 2, two mounting bracket 2 inboard all are equipped with the spout, be convenient for link 3 to remove, two inboard lower part of mounting bracket 2 all slide type be equipped with link 3, two link 3 left sides all slide type be equipped with slide bar 5, be connected with seat 4 between two slide bar 5 tops, be connected with two first reset springs 6 between seat 4 and the link 3, be connected with two second reset springs 10 between link 3 and the mounting bracket 2, the left side of both sides all rotates and is equipped with rotating handrail 7 around seat 4, two link 3 left side lower part are equipped with two support frame 8, two support frame 8 are equipped with two slide rail 11, two support frame 11 are equipped with two side parts 12, two support frame 11 are equipped with two top parts and two rotary mechanism are equipped with two, two support frame 11 are equipped with two rotary mechanism 11.

When the patient needs to be sanitary-care for wounds of the leg burn patients, firstly, the patient pulls the two side connecting frames 3 to move downwards, the second return spring 10 is compressed, the first return spring 6 drives the seat 4 and the slide bar 5 to move downwards, then, after the seat 4 is adjusted to the height required by the patient, the two side connecting frames 3 are stopped being pulled, then, the medical staff rotates the two side rotating frames 8 to be away from each other, then, the patient can sit on the seat 4, the seat 4 moves downwards by the gravity of the patient, the seat 4 drives the slide bar 5 to move downwards, the first return spring 6 is compressed, the two side rotating armrests 7 are rotated, the patient can put the two hands on the rotating armrests 7, after the patient sits, the two legs are placed on the supporting blocks 11, the two legs are positioned in the flushing mechanism 14, the heels are positioned on the loosening mechanism 12, the patient can level the two feet Zhang Kaifang, the patient pushes the relaxing mechanism 12 to move leftwards in the process of putting the feet flat, the patient can relax the feet of the patient through the relaxing mechanism 12 to relieve the pain of the legs of the patient, then medical staff injects clean water into the water supply mechanism 13 and starts the water supply mechanism 13, the water supply mechanism 13 transmits the clean water, the clean water is transmitted into the flushing mechanism 14, then the flushing mechanism 14 is rotated to enable the flushing mechanism 14 to correspond to the burnt position of the legs of the patient, the clean water is sprayed to the burnt legs of the patient along the flushing mechanism 14, meanwhile, the medical staff cleans wounds of the patient, after the cleaning work is finished, the patient stands up and is out of contact with the seat 4, under the reset action of the first reset spring 6, the seat 4 drives the slide rod 5 to move upwards for reset, and then the medical staff does not apply force to the connecting frame 3 any more, under the reset action of the second reset spring 10, the connecting frame 3 moves upwards for reset, so that the effect of cooling and sanitary nursing on the wound of the patient with leg burn can be realized, and after the operation is finished, the water supply mechanism 13 is closed.

The loosening mechanism 12 comprises a sliding frame 120, a spring pad 121, a third return spring 122, a foot rest 123, a shaking block 124 and a first torsion spring 125, wherein the sliding frames 120 are arranged on the four first sliding rails 9 in a sliding mode, the foot rest 123 is arranged between the left two sliding frames 120 and the right two sliding frames 120, the two third return springs 122 are arranged at the inner tops of the two supporting blocks 11, the spring pad 121 is arranged between the tops of the two groups of the two third return springs 122, the shaking block 124 is arranged at the left side of the two supporting blocks 11 in a rotating mode, and the two first torsion springs 125 are connected between the shaking block 124 and the foot rest 123.

When the patient burns legs to be hygienically nursed, and the patient sits on the seat 4, then the legs are placed on the elastic pad 121, the third return spring 122 is slightly compressed, the leg muscles of the patient are relaxed through the elastic pad 121, then the heel is placed on the foot rest 123, the toes are contacted with the rocking block 124, the rocking block 124 rotates, the first torsion spring 125 deforms, then the patient flattens the feet Zhang Kaifang, the feet 123 are pushed to move leftwards in the flattening process of the feet Zhang Kaifang of the patient, the foot rest 123 is moved leftwards along the first sliding rail 9 through the sliding frame 120, so that after the patient is moved to a proper position, the foot rest 123 stops moving, then the medical staff can wash and nurse the leg burns positions of the patient, after the nursing work is finished, the patient lifts the legs out of contact with the elastic pad 121 and the foot rest 123, the elastic pad 121 is reset by the reset action of the third return spring 122, and then the rocking block 124 reversely rotates to reset under the reset action of the first torsion spring 125, and finally the patient can relax the legs after that the patient can wash and relax the burn.

The water supply mechanism 13 comprises supporting blocks 131, a connecting frame 132, a water containing vehicle 133, a water receiving plate 134, a water pump bracket 135, a water pump 136, a water supply pipe 137 and a water inlet pipe 138, wherein the two supporting blocks 131 are arranged on the left side in the two supporting frames 1, the connecting frame 132 is connected between the four supporting blocks 131, the water containing vehicle 133 is arranged at the bottom of the connecting frame 132 in a sliding mode, two wheels are arranged on the left side and the right side of the bottom of the water containing vehicle 133 in a rotating mode, the water receiving plate 134 is arranged on the front side and the rear side of the top of the connecting frame 132, the water receiving plate 134 is located below the two rotating frames 8, the water pump bracket 135 is arranged on the right side in the connecting frame 132, the water pump 136 is arranged in the water pump bracket 135, the water supply pipe 137 is arranged on the left side and the right side of the water pump 136, the water supply pipe 137 penetrates through the connecting frame 132, the other end of the water supply pipe 137 is connected with the flushing mechanism 14 and matched, the water inlet pipe 138 is arranged on the left lower portion of the water pump 136, and the water inlet pipe 138 is located in the water containing vehicle 133.

When the clean water is required to be supplied, a medical staff can pull the water containing trolley 133 to move on the ground through the wheels at the bottom, the water containing trolley 133 is separated from the connecting frame 132, when the patient needs to turn, the wheels can adaptively rotate, the clean water is injected into the water containing trolley 133 after the water containing trolley 133 moves to a proper position, after the clean water injection work is completed, the medical staff pushes the water containing trolley 133 to move and reset, cheng Shuiche is matched with the connecting frame 132 in a contact manner, then the water suction pump 136 is started, the clean water is conveyed along the water inlet pipe 138, the clean water is conveyed into the flushing mechanism 14 through the water supply pipe 137, the patient leg burn position can be flushed through the flushing mechanism 14, after the flushing work is completed, the medical staff turns off the water suction pump 136, the clean water is stopped from being conveyed, and finally the aim of supplying the clean water for cooling and flushing the patient leg burn position can be realized.

The flushing mechanism 14 comprises a second slide rail 141, a first semicircular block 142, a first connecting block 143, a first pipeline 144, a timer 145, a second semicircular block 146, a first magnetic block 147, a second pipeline 148, a first fixed block 149, a rotating block 1410, a water outlet spray head 1411, a spiral spring 1412, a guide groove 1413 and a water outlet 1414, wherein the tops of the two rotating frames 8 are respectively provided with two second slide rails 141, the first semicircular block 142 is respectively arranged between the right sides of the two second slide rails 141 on the same side in a sliding manner, the first connecting blocks 143 are respectively arranged on the outer sides of the two first semicircular blocks 142, the second semicircular blocks 146 are respectively arranged on the two first connecting blocks 143 in a rotating manner, the second semicircular blocks 146 are in contact fit with the first semicircular blocks 142, the timers 145 are respectively arranged on the outer sides of the two first connecting blocks 143, the two timers 145 are respectively electrically connected with the communication ports of the water pump 136, the first pipeline 144 is respectively arranged at the bottoms of the two first connecting blocks 143, the first pipeline 144 on the same side is respectively connected and matched with the water supply pipe 137 on the same side, the first magnetic blocks 147 are arranged at the inner lower parts of the two second semicircular blocks 146, the first magnetic blocks 147 are in contact and matched with the first semicircular blocks 142, a second pipeline 148 is arranged between the first semicircular blocks 142 and the second semicircular blocks 146, the other end of the second pipeline 148 is connected and matched with the first connecting block 143, the second pipeline 148 is a hose, the inner bottoms of the two first semicircular blocks 142 are respectively and rotatably provided with a rotating block 1410, the right side of the rotating block 1410 is provided with a first fixed block 149, the second pipeline 148 is wound on the rotating block 1410, a scroll spring 1412 is connected between the rotating block 1410 and the first fixed block 149, the two second pipelines 148 are respectively provided with a water outlet spray nozzle 1411, the first semicircular blocks 142 and the second semicircular blocks 146 are correspondingly provided with guide grooves 1413, the guide grooves 1413 can be used for moving the water outlet spray nozzle 1411 and the second pipeline 148, the bottoms of the first semicircular blocks 142 are provided with water outlets 1414, is used for discharging waste water.

When the leg wound of the burn patient needs to be subjected to cooling flushing, the medical staff starts the water suction pump 136 and rotates the timer 145 to time, the timer 145 is electrically connected with the through hole of the water suction pump 136, the timer 145 can close the water suction pump 136 within a specified time, when the legs of the patient are positioned on the elastic pad 121, the medical staff can rotate the second semicircular block 146, the second semicircular block 146 is separated from the first semicircular block 142, meanwhile, the second semicircular block 146 drives the first magnetic block 147 to rotate and separate from the first semicircular block 142, then the patient can place the legs between the first semicircular block 142 and the second semicircular block 146, after the placement work is finished, the medical staff reversely rotates the second semicircular block 146 to drive the first magnetic block 147 to reversely rotate and contact with the first semicircular block 142, so that the leg of the patient can be limited, the medical staff pushes the first semicircular block 142 to move leftwards along the second sliding rail 141, the first semicircular block 142 drives the second semicircular block 146 and the timer 145 to move leftwards, when the second semicircular block 146 and the timer 145 move to the burning position of the leg of a patient, medical staff stops pushing the first semicircular block 142, at this time, clear water is conveyed into the first pipeline 144 through the water supply pipe 137, clear water is conveyed into the first connecting block 143 along the first pipeline 144, then clear water is conveyed into the water outlet spray head 1411 along the second pipeline 148, then the medical staff pulls the second pipeline 148 to drive the water outlet spray head 1411 to move along the guide groove 1413, the water outlet spray head 1411 is moved to the wound of the patient, the rotating block 1410 is driven to rotate in the process of pulling the second pipeline 148, the scroll spring 1412 deforms, clear water is sprayed out along the water spray head 1411, so that the clear water can flush the wound of the leg of the patient, and the flushed water falls into the first semicircular block 142, the waste water is discharged through the water outlet 1414, the discharged waste water flows to the connecting frame 132 along the water receiving plate 134, then flows to the water holding vehicle 133 through the connecting frame 132, after the waste water is washed to the time designated by the timer 145, the timer 145 turns off the water suction pump 136 to stop conveying the waste water, and then medical staff does not apply force to the second pipeline 148, the rotating block 1410 reversely rotates under the reset action of the spiral spring 1412, the rotating block 1410 reversely rotates to wind the second pipeline 148, the medical staff rotates the second semicircular block 146 along with the rotating block, the first magnetic block 147 rotates to be separated from the second semicircular block 146, the patient can lift the legs to be separated from the contact with the first semicircular block 142, and finally, the cooling washing of leg wounds of burn patients can be conveniently carried out, so that the leg wounds of the patients are prevented from being infected later.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 8, 10, 11 and 12, fig. 13, 14 and 15, the device further comprises a pressing mechanism 15, the pressing mechanism 15 comprises a second fixing block 151, a fourth return spring 152 and a pressing block 153, two second fixing blocks 151 are respectively arranged inside the first semicircular block 142 and the second semicircular block 146, two fourth return springs 152 are respectively arranged on the four second fixing blocks 151, and a pressing block 153 is respectively arranged between the tops of the two fourth return springs 152, and the pressing block 153 is in contact fit with the second pipeline 148.

When the second pipeline 148 contacts the pressing block 153 in the moving process, the pressing block 153 moves outwards, the fourth return spring 152 slightly compresses, and when the second pipeline 148 moves to be out of contact with the pressing block 153, the pressing block 153 moves inwards to contact with the second pipeline 148 under the return action of the fourth return spring 152, so that the second pipeline 148 is limited, and finally the purpose of limiting the second pipeline 148 in the moving process can be achieved.

The lifting mechanism 16 comprises racks 161, first guide blocks 162, fifth return springs 163, clamping claws 164 and pushing blocks 165, wherein two first guide blocks 162 are arranged in two support frames 1, racks 161 are arranged between the two first guide blocks 162 in a sliding mode, four fifth return springs 163 are connected between the racks 161 and the first guide blocks 162, clamping claws 164 are arranged on the upper portions of two connecting frames 3, the clamping claws 164 are located in the support frames 1, the clamping claws 164 are in contact fit with the racks 161, pushing blocks 165 are arranged at the tops of the two racks 161, and the pushing blocks 165 are in sliding fit with the support frames 1.

When the height of the seat 4 needs to be adjusted, firstly, the medical staff pushes the two side push blocks 165 to move outwards, the push blocks 165 drive the racks 161 to move outwards, the fifth reset springs 163 are compressed, the racks 161 move outwards and are separated from the claws 164, then the medical staff pulls the two side connecting frames 3 to move downwards, the second reset springs 10 are compressed, the seat 4 and the sliding rods 5 are driven to move downwards by the first reset springs 6, then after the seat 4 is adjusted to the height needed by a patient, the medical staff does not apply force to the push blocks 165 any more, under the reset action of the fifth reset springs 163, the two side push blocks 165 drive the racks 161 to move inwards, the racks 161 are clamped and matched with the claws 164, when the seat 4 needs to be reset, the medical staff pushes the two side push blocks 165 to move outwards, the racks 161 are driven to move outwards, the fifth reset springs 10 are compressed, the racks 161 do not contact with the claws 164 any more, the connecting frames 3 move upwards under the reset action of the second reset springs 10, the seat 163 also moves upwards, and then the medical staff does not apply force to the reset blocks 165 to move inwards, and the racks 165 do not move the claws 161 to the height of the seat 161 to move inwards, and the height is prevented from being adjusted, and the height of the seat 161 is adjusted.

The drying mechanism 17 comprises a third fixing block 171, a torsion bar 172, an air cylinder 173, a first contact 174, a sliding switch 175 and a second contact 176, wherein the third fixing block 171 is arranged on the left side of the two first connecting blocks 143, the torsion bar 172 is rotatably arranged on the top of the third fixing block 171, the air cylinder 173 is arranged on the top of the torsion bar 172, the sliding switch 175 is arranged on the inner bottom of the two third fixing blocks 171 in a sliding mode, the first contact 174 is arranged on the left side of the two sliding switches 175, the second contact 176 is arranged on the right side of the inner bottom of the two third fixing blocks 171, the first contact 174 is in sliding fit with the second contact 176, and the sliding switch 175 is electrically connected with the air cylinder 173.

When the moisture after the leg of the patient is washed is required to be dried, medical staff can rotate the torsion bar 172 to drive the air drum 173 to adjust to the position where the leg of the patient is required to be dried before washing the leg of the patient, then the leg of the patient is washed, after washing work is completed, the medical staff pulls the two side sliding switches 175 to move leftwards, the sliding switches 175 drive the first contacts 174 to move leftwards to be contacted with the second contacts 176, the air drum 173 is started, the air drum 173 blows the leg of the patient, the moisture on the leg of the patient is dried, after drying, the medical staff pushes the sliding switches 175 to the right side, the sliding switches 175 drive the first contacts 174 to move to the right side, the first contacts 174 are separated from the second contacts 176, the air drum 173 is closed, the leg of the patient is not blown any more, and finally the purposes of drying the moisture of the leg of the patient and facilitating the subsequent medicine feeding to the wound of the leg of the patient can be achieved.

The switch mechanism 18 comprises a second magnetic block 181, a fixed ring 182, a sixth return spring 183, a top block 184, a fixed rod 185, a rotating block 186, a second torsion spring 187, a seventh return spring 188 and a third magnetic block 189, wherein the second magnetic block 181 is arranged on the two first pipelines 144 in a sliding mode, the top block 184 is arranged on the left side of the two second magnetic blocks 181, the fixed ring 182 is arranged at the bottom of the two first pipelines 144, a through hole is formed in the fixed ring 182, the third magnetic block 189 is arranged at the middle part in the two first pipelines 144 in a sliding mode, the third magnetic block 189 and the second magnetic block 181 are mutually attracted, two sixth return springs 183 are connected between the third magnetic block 189 and the fixed ring 182, the fixed rod 185 is arranged at the bottom of the two sliding switches 175, the rotating block 186 is arranged at the bottom of the fixed rod 185 in a sliding mode, the rotating block 186 is in sliding fit with the top block 184, the two second torsion springs 187 are connected between the rotating block 186 and the fixed rod 185, and the two seventh return springs 188 are connected between the sliding switches 175 and the third fixed block 171.

When clean water is conveyed into the first pipeline 144 along the water supply pipe 137, the clean water is conveyed along the through hole of the fixed ring 182, the impact force of the clean water conveying presses the third magnetic block 189, the third magnetic block 189 moves upwards, the sixth return spring 183 is stretched, the third magnetic block 189 and the second magnetic block 181 are attracted mutually, the third magnetic block 189 drives the second magnetic block 181 to move upwards, the second magnetic block 181 drives the top block 184 to move upwards, the top block 184 moves upwards to be in contact with the rotating block 186, the rotating block 186 rotates, the second torsion spring 187 deforms, the rotating block 186 rotates to no longer block the top block 184, the second magnetic block 181 continues to drive the top block 184 to move upwards, the top block 184 does not contact with the rotating block 186 any more, the rotating block 186 reversely rotates to reset under the reset action of the second torsion spring 187, the second magnetic block 181 moves upwards and cannot block the first pipeline 144, fresh water is conveyed into the first connecting block 143 along the first pipeline 144, then medical staff washes the wound of the leg of the patient, when the timer 145 is closed within a designated time, the water suction pump 136 is also closed, fresh water stops conveying, under the reset action of the sixth reset spring 183, the third magnetic block 189 drives the second magnetic block 181 to slowly move downwards, meanwhile, the second magnetic block 181 drives the top block 184 to move downwards, the top block 184 moves downwards to contact with the rotating block 186, the top block 184 stops moving with the second magnetic block 181, the third magnetic block 189 also stops moving along, the rotating block 186 drives the fixing rod 185 to move leftwards, the fixing rod 185 drives the sliding switch 175 to move leftwards, the seventh reset spring 188 is stretched, the sliding switch 175 drives the first contact 174 to move leftwards, the first contact 174 contacts with the second contact 176, the air drum 173 is started, the air drum 173 weathers the leg of the patient, after the medical staff can feed medicines to the burnt parts of the legs of the patient after blow-drying, the medical staff rotates the rotating block 186, the second torsion spring 187 deforms, the rotating block 186 rotates to be out of contact with the jacking block 184, the third magnetic block 189 moves downwards to reset under the reset action of the sixth reset spring 183, the third magnetic block 189 drives the second magnetic block 181 to move downwards to reset, the jacking block 184 also resets, the jacking block 184 is out of contact with the rotating block 186, the medical staff does not apply force to the rotating block 186 any more, the rotating block 186 reversely rotates to reset under the reset action of the second torsion spring 187, meanwhile, the sliding switch 175 drives the fixed rod 185 to move to reset to the right side under the reset action of the seventh reset spring 188, the fixed point of the rotating block 186 moves to reset to the right side, and blow-drying of the moisture of the legs can be finally realized, and manual operation is reduced.

The storage rack is characterized by further comprising a storage mechanism 19, wherein the storage mechanism 19 comprises a second connecting block 191, a first connecting rod 192, a second connecting rod 193, a second guide block 194, fixing frames 195, telescopic frames 196, storage frames 197 and cover plates 198, the bottoms of two sliding rods 5 are respectively provided with the second connecting block 191, the bottoms of the two second connecting blocks 191 are respectively provided with the first connecting rod 192 in a rotating mode, the front side and the rear side of the right side of the connecting frame 132 are respectively provided with the second guide block 194, the outer sides of the two first connecting rods 192 are respectively provided with the second connecting rod 193, the second connecting rods 193 and the second guide blocks 194 are in sliding fit, the front side and the rear side of the right side of the connecting frame 132 are respectively provided with the fixing frames 195, the outer sides of the two fixing frames 195 are respectively provided with two telescopic frames 196, a storage frame 197 is respectively arranged between the two telescopic frames 196, the tops of the two fixing frames 195 are respectively provided with the cover plates 198, and the second connecting rods 193 on the same side are respectively connected with the telescopic frames 196 on the same side.

When the gauze cotton needs to be stored, medical staff can firstly place the cotton and the gauze in the storage rack 197, and move to the downside at the sliding rod 5 to drive the second connecting block 191 to move to the downside, the second connecting block 191 moves to the downside to drive the first connecting rod 192 to rotate, the first connecting rod 192 drives the second connecting rod 193 to move outwards along the second guide block 194, the second connecting rod 193 drives the telescopic frame 196 to move outwards to open, then the telescopic frame 196 drives the storage rack 197 to move outwards, when the medical staff performs medicine feeding on wounds of a patient, the medical staff can take the cotton and the gauze in the storage rack 197 to use, when the sliding rod 5 moves to the upside, the sliding rod 5 drives the second connecting block 191 to move to the upside, the second connecting block 191 drives the first connecting rod 192 to reversely rotate, the first connecting rod 192 drives the second connecting rod 193 to move inwards, the second connecting rod 193 drives the telescopic frame 196 to retract inwards, the telescopic frame 196 drives the storage rack 197 to move inwards to reset, and finally the purpose of storing the gauze and the cotton which are convenient for the medical staff to take can be realized.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims

1. A cool and refreshing health care device for wounds of leg burn patients is characterized in that: comprising the following steps:

the number of the supporting frames (1) is two, and one side of the top of each supporting frame (1) is provided with a mounting frame (2);

the connecting frames (3) are arranged at the inner lower parts of the two mounting frames (2) in a sliding mode, and the connecting frames (3) are arranged at the inner lower parts of the two mounting frames;

the sliding rod (5) is arranged on one side of each of the two connecting frames (3) in a sliding manner;

A seat (4) is connected between the tops of the two sliding rods (5);

The first return springs (6) are connected between the seat (4) and the connecting frame (3), and the two first return springs (6) are connected between the seat and the connecting frame;

The two second return springs (10) are connected between the connecting frame (3) and the mounting frame (2);

a rotary armrest (7), wherein the rotary armrest (7) is rotatably arranged at both sides of the seat (4);

The rotating frames (8) are arranged at the left lower parts of the two connecting frames (3) in a rotating way, and the rotating frames (8) are arranged at the left lower parts of the two connecting frames;

the two sides of the two rotating frames (8) are provided with first sliding rails (9);

The other sides of the two rotating frames (8) are respectively provided with a supporting block (11) for placing legs;

The top of the supporting block (11) is provided with a loosening mechanism (12) which can loosen the legs of the patient, and the loosening mechanism (12) is matched with the first sliding rail (9);

the water supply mechanism (13) is arranged between the middle parts of the two support frames (1);

A flushing mechanism (14), wherein the two rotating frames (8) are provided with the flushing mechanism (14) which can flush the legs of a patient;

the water supply mechanism (13) comprises:

The support blocks (131) are arranged on one side in the two support frames (1); the connecting frame (132) is connected between the four supporting frames (1); cheng Shuiche (133), wherein a water containing vehicle (133) for containing clean water is arranged at the bottom of the connecting frame (132) in a sliding manner, and two wheels are arranged on two sides of the bottom of the water containing vehicle (133) in a rotating manner; the water receiving plates (134) are arranged on two sides of the top of the connecting frame (132), the water receiving plates (134) are capable of retaining water for wastewater, and the water receiving plates (134) are positioned below the two rotating frames (8); a water pump bracket (135), wherein one side in the connecting frame (132) is provided with the water pump bracket (135); a water pump (136), wherein the water pump (136) is arranged in the water pump bracket (135); the water supply pipe (137), both sides of the water suction pump (136) are provided with the water supply pipe (137), the water supply pipe (137) passes through the connecting frame (132), and the other end of the water supply pipe (137) is connected and matched with the flushing mechanism (14); a water inlet pipe (138), wherein the left lower part of the water suction pump (136) is provided with the water inlet pipe (138), and the water inlet pipe (138) is positioned in the water containing vehicle (133);

the flushing mechanism (14) comprises:

The tops of the two rotating frames (8) are respectively provided with two second sliding rails (141); the first semicircular blocks (142) are arranged between one sides of the two second sliding rails (141) on the same side in a sliding manner; the outer sides of the two first semicircular blocks (142) are respectively provided with a first connecting block (143); the second semicircular blocks (146) are rotatably arranged on the two first connecting blocks (143), and the second semicircular blocks (146) are in contact fit with the first semicircular blocks (142); the timers (145) are arranged on the outer sides of the two first connecting blocks (143), and the two timers (145) are electrically connected with the through holes of the water pump (136); the bottoms of the two first connecting blocks (143) are respectively provided with a first pipeline (144), and the first pipelines (144) on the same side are respectively connected and matched with the water supply pipes (137) on the same side; the inner lower parts of the two second semicircular blocks (146) are respectively provided with a first magnetic block (147), and the first magnetic blocks (147) are in contact fit with the first semicircular blocks (142); a second pipeline (148), wherein a second pipeline (148) is arranged between the first semicircular block (142) and the second semicircular block (146), the other end of the second pipeline (148) is connected and matched with the first connecting block (143), and the second pipeline (148) is a hose; the inner bottoms of the two first semicircular blocks (142) are respectively provided with a rotating block (1410) in a rotating way; the first fixed block (149), one side of the rotating block (1410) is provided with the first fixed block (149), and the second pipeline (148) is wound on the rotating block (1410); a spiral spring (1412), wherein the spiral spring (1412) is connected between the rotating block (1410) and the first fixed block (149); the water outlet spray heads (1411) are arranged on the two second pipelines (148) respectively, and the water outlet spray heads (1411) are arranged on the two second pipelines; the guide groove (1413) is formed in the first semicircular block (142) and the second semicircular block (146) in a matched mode, the guide groove (1413) can be used for enabling the water outlet nozzle (1411) to move with the second pipeline (148); a water outlet (1414), a water outlet (1414) is arranged at the bottom of the first semicircular block (142) for discharging wastewater;

still including hold-down mechanism (15), hold-down mechanism (15) include:

The second fixing blocks (151), the first semicircular block (142) and the second semicircular block (146) are internally provided with two second fixing blocks (151); the fourth reset springs (152), the pressing blocks (153) are respectively arranged on the four second fixed blocks (151); a pressing block (153) is arranged between the tops of the two fourth return springs (152), and the pressing block (153) is in contact fit with the second pipeline (148);

Also comprises a lifting mechanism (16), wherein the lifting mechanism (16) comprises:

the first guide blocks (162) are arranged in the two supporting frames (1);

The racks (161) are arranged between the two first guide blocks (162) in a sliding mode, and the racks (161) are arranged between the two first guide blocks; a fifth return spring (163), four fifth return springs (163) are connected between the rack (161) and the first guide block (162); the clamping jaws (164) are arranged on the upper parts of the two connecting frames (3), the clamping jaws (164) are positioned in the supporting frame (1), and the clamping jaws (164) are in contact fit with the racks (161); the pushing blocks (165) are arranged at the tops of the two racks (161), and the pushing blocks (165) are in sliding fit with the supporting frame (1);

Also comprises a drying mechanism (17), wherein the drying mechanism (17) comprises:

A third fixed block (171), wherein one side of each of the two first connecting blocks (143) is provided with the third fixed block (171); a torsion rod (172), wherein the torsion rod (172) is rotatably arranged at the top of the third fixed block (171); the top of the twisting rod (172) is provided with an air duct (173) which can dry the moisture of the legs of the patient; the sliding switch (175) is arranged at the inner bottoms of the two third fixed blocks (171) in a sliding manner; a first contact (174), wherein the left sides of the two sliding switches (175) are provided with the first contact (174); the second contacts (176) are arranged on the right sides of the bottoms of the two third fixed blocks (171), the first contacts (174) are in sliding fit with the second contacts (176), and the sliding switch (175) is electrically connected with the air duct (173);

also comprises a switch mechanism (18), wherein the switch mechanism (18) comprises:

The second magnetic blocks (181) are arranged on the two first pipelines (144) in a sliding mode, and the second magnetic blocks (181) are arranged on the two first pipelines in a sliding mode; the top blocks (184) are arranged on one sides of the two second magnetic blocks (181); a fixed ring (182), wherein the fixed ring (182) is arranged at the inner bottoms of the two first pipelines (144); the middle parts in the two first pipelines (144) are respectively provided with a third magnetic block (189) in a sliding manner, and the third magnetic blocks (189) and the second magnetic blocks (181) are mutually attracted; a sixth return spring (183), two sixth return springs (183) are connected between the third magnetic block (189) and the fixed ring (182); the bottoms of the two sliding switches (175) are respectively provided with a fixed rod (185); the rotating block (186), the bottom of the fixed rod (185) is rotatably provided with the rotating block (186), and the rotating block (186) is in sliding fit with the top block (184); the second torsion springs (187), two second torsion springs (187) are connected between the rotating block (186) and the fixed rod (185); two seventh return springs (188) are connected between the seventh return spring (188) sliding switch (175) and the third fixed block (171);

the utility model also comprises a storage mechanism (19), wherein the storage mechanism (19) comprises:

The bottoms of the two sliding rods (5) are respectively provided with a second connecting block (191); the bottoms of the two second connecting blocks (191) are respectively provided with a first connecting rod (192) in a rotary mode; the second guide blocks (194) are arranged on two sides of the connecting frame (132); the second connecting rods (193) are arranged on the outer sides of the two first connecting rods (192), and the second connecting rods (193) are in sliding fit with the second guide blocks (194); the fixing frames (195) are arranged on two sides of the connecting frame (132); the outer sides of the two fixing frames (195) are respectively provided with two telescopic frames (196) in a sliding manner, and the second connecting rods (193) on the same side are respectively connected and matched with the telescopic frames (196) on the same side; a commodity shelf (197) which can store gauze is arranged between the two telescopic brackets (196); and cover plates (198), wherein the tops of the two fixing frames (195) are respectively provided with a cover plate (198) capable of preventing gauze from being wetted.

2. A leg burn patient wound cooling and hygiene care device as in claim 1, wherein: the loosening mechanism (12) includes:

The sliding frames (120) are arranged on the four first sliding rails (9) in a sliding manner; a foot rest (123) is arranged between the two sliding frames (120) on one side and the two sliding frames (120) on the other side; the top parts in the two supporting blocks (11) are respectively provided with two third return springs (122); the elastic pads (121) are arranged between the tops of the two groups of the two third return springs (122), and the elastic pads (121) which can relax the legs are arranged between the tops of the two groups of the third return springs; the rocking blocks (124) are rotatably arranged on one side of each supporting block (11); and two first torsion springs (125) are connected between the rocking block (124) and the foot support (123).