CN216571177U - Module capable of decontaminating nuclear pollution wounded person - Google Patents

Abstract

The utility model discloses a module capable of decontaminating nuclear pollution wounded persons, which comprises a decontamination module, a decontamination cabin, a folding stool, a decontamination shower head and an electric sliding door, wherein the decontamination cabin is fixed on a transport vehicle; the supporting assembly is arranged in the decontamination cabin and comprises a bottom plate, a supporting plate, a top frame, a first supporting piece, a second supporting piece and a spraying piece. The medical care decontamination device has the advantages that the decontamination module is used for decontaminating wounded persons, compared with the traditional tent or shelter, the decontamination module can be used for carrying out thorough decontamination, and meanwhile, through the arrangement of the supporting assembly and the adjusting assembly, medical care personnel can improve the contact surface between decontamination liquid and the wounded persons without manually turning over the wounded persons in the decontamination process, so that the decontamination is more comprehensive.

Description

Module capable of decontaminating nuclear pollution wounded person

Technical Field

The utility model relates to the technical field of decontamination modules, in particular to a module capable of decontaminating nuclear pollution wounded persons.

Background

Nuclear pollution mainly refers to the damage of the left-over materials after nuclear materials are leaked to the environment, including the pollution caused by nuclear radiation, atomic dust and the like, and the secondary pollution caused by the pollution of the materials to the environment, such as the damage of water sources polluted by the nuclear materials to people and livestock, nuclear pollution wounded persons need to be cleaned in decontamination modules, most decontamination modules in the prior art adopt a tent form or a double-expansion square cabin form, the transportation is inconvenient, the situation that decontamination is not complete enough exists when the nuclear pollution module is used, and in order to improve the decontamination cleanliness, medical care personnel need to turn over lying wounded persons in the decontamination process, and the risk of infection of the medical care personnel is greatly improved.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the utility model.

The present invention has been made in view of the above and/or other problems with existing modules that are capable of decontaminating nuclear contaminated victims.

Therefore, the utility model aims to solve the problems that most decontamination modules in the prior art adopt a tent form or a double-expansion square cabin form, the transportation is inconvenient, the incomplete decontamination exists when the decontamination modules are used, and in order to improve the decontamination cleanliness, medical staff need to turn over a lying wounded person in the decontamination process, so that the risk of infection of the medical staff is greatly improved.

In order to solve the technical problems, the utility model provides the following technical scheme: a module capable of decontaminating nuclear pollution wounded persons comprises a decontamination module, wherein the decontamination module comprises a transport vehicle, a decontamination cabin, a folding stool, a decontamination shower head and an electric sliding door, the decontamination cabin is fixed on the transport vehicle, the decontamination shower head is fixed on the inner wall of the decontamination cabin, the folding stool is positioned below the decontamination shower head, and the electric sliding door is provided with two parts and is arranged in the decontamination cabin; the supporting assembly is arranged in the decontamination cabin and comprises a bottom plate, supporting plates, a top frame, a first supporting piece, a second supporting piece and a spraying piece, the supporting plates are fixed at four corners of the top of the bottom plate, the top frame is fixed at the top of the supporting plates, the first supporting piece and the second supporting piece are both positioned in the top frame, and the spraying piece is positioned below the top frame; and an adjusting part, set up in the bottom plate top, including mounting panel, fixed axle, fixed disk, first regulating part, second regulating part and driving piece, the mounting panel is fixed in bottom plate top both sides, the fixed axle rotates to be connected in two between the mounting panel, the fixed disk is provided with two, and the symmetry is fixed in the fixed axle surface, first regulating part with the second regulating part all set up in on the fixed disk, the driving piece set up in the bottom plate top.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: the electric movable door divides the decontamination cabin into a detection area, a decontamination area and a rechecking area, and the folding stool and the decontamination shower head are arranged in the decontamination area.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: the detection zone includes wounded's transportation stretcher, locker and display, wounded's transportation stretcher place in the detection zone, the locker is fixed in the detection zone inner wall, the display is fixed in the detection zone.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: the detection zone still includes water drainage tank, water drainage tank is provided with the multiunit, and the equipartition in wash the square cabin bottom that disappears.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: rechecking the district and including side door, control box, warm braw pipe and block terminal, the side door install in rechecking the district side, the control box warm braw pipe with the block terminal all is fixed in rechecking the district inner wall.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: the first supporting piece comprises a plurality of first bearing rods, a plurality of first supporting rods and a plurality of first connecting plates, the first bearing rods are arranged in the top frame and are located on two sides of the bottom of the first bearing rods, the first connecting plates are fixed to the bottom end of the first supporting rods, the second supporting piece comprises a plurality of second bearing rods, a plurality of second supporting rods and a plurality of second connecting plates, the second bearing rods are distributed with the first bearing rods in a crossed mode, the second supporting rods are fixed to two sides of the bottom of the second bearing rods, and the second connecting plates are fixed to the bottom end of the second supporting rods.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: and the bottom of each of the first connecting plate and the second connecting plate is fixed with a buffer spring and a hydraulic damper, and the bottom ends of the buffer springs and the hydraulic dampers are fixed with the bottom plate.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: spray the piece including reposition of redundant personnel case and sprinkler head, the reposition of redundant personnel case is located the fixed disk top, the sprinkler head is provided with a plurality ofly, and the equipartition in reposition of redundant personnel roof portion, spray the piece still including fixed block, guide bar and fixed plate, the fixed plate is fixed in bottom plate top both sides, the reposition of redundant personnel case slide in the fixed plate top, the fixed block is fixed in reposition of redundant personnel bottom of the case both sides, the guide bar is fixed in the fixed block is inboard, the guide way has been seted up on the fixed plate, the guide bar slide in the guide way, the fixed block with be provided with reset spring between the fixed plate, reset spring is located the guide bar surface.

As a preferred scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: first regulating part includes first arc, head rod and first cam, first cam is fixed in the fixed disk side, first arc is located the fixed disk side, and slide in on the first cam, the head rod both ends respectively with first arc with first connecting plate is fixed, the second regulating part includes second arc, second connecting rod and second cam, the second cam is fixed in compare in on the fixed disk the another side of first cam, the second arc slide in on the second cam, second connecting rod both ends respectively with the second connecting plate with the second arc is fixed.

As a preferable scheme of the module capable of decontaminating nuclear pollution wounded persons, the utility model comprises the following steps: the adjusting part still includes drive plate and regulating plate, the drive plate is fixed in one of them fixed disk surface, the regulating plate is fixed in the flow distribution box bottom, the driving piece includes driving motor, driving gear and driven gear, driving motor is fixed in the bottom plate top, the driving gear with the driving motor output is fixed, driven gear is fixed in the fixed axle surface, and with driving gear meshing.

The utility model has the beneficial effects that: the medical care decontamination device has the advantages that the decontamination module is used for decontaminating wounded persons, compared with the traditional tent or shelter, the decontamination module can be used for carrying out thorough decontamination, and meanwhile, through the arrangement of the supporting assembly and the adjusting assembly, medical care personnel can improve the contact surface between decontamination liquid and the wounded persons without manually turning over the wounded persons in the decontamination process, so that the decontamination is more comprehensive.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

FIG. 1 is a view of the connection of a transport vehicle and decontamination cabin of a module capable of decontaminating nuclear contaminated victims.

FIG. 2 is a top view of a decontamination cube of a module capable of decontaminating nuclear contaminated victims.

FIG. 3 is a side view of a decontamination cube of a module capable of decontaminating nuclear contaminated victims.

FIG. 4 is a block diagram of the support assembly and adjustment assembly connections of a module capable of decontaminating nuclear contaminated victims.

FIG. 5 is a schematic view of the connection of a first support member to a second support member of a module capable of decontaminating nuclear contaminated victims.

FIG. 6 is a side cross-sectional view of a spray member of a module capable of decontaminating nuclear contaminated victims.

FIG. 7 is a view showing the attachment of a driving member to a stationary shaft of a module capable of decontaminating nuclear contaminated victims.

FIG. 8 is a connection diagram of a first and second conditioning member of a module capable of decontaminating nuclear contaminated victims.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 4, for a first embodiment of the present invention, the embodiment provides a module capable of decontaminating nuclear-pollution wounded persons, the module capable of decontaminating nuclear-pollution wounded persons includes a decontamination module 100, a support assembly 200 and an adjustment assembly 300, the decontamination module 100 decontaminates nuclear-pollution wounded persons, and the cooperation between the support assembly 200 and the adjustment assembly 300 improves decontamination efficiency of the wounded persons.

Specifically, the decontamination module 100 comprises a transport vehicle 101, a decontamination cabin 102, a folding stool 103, a decontamination shower 104 and an electric sliding door 105, wherein the decontamination cabin 102 is fixed on the transport vehicle 101, the decontamination shower 104 is fixed on the inner wall of the decontamination cabin 102, the folding stool 103 is located below the decontamination shower 104, and the electric sliding door 105 is provided with two parts and is installed in the decontamination cabin 102.

The decontamination square cabin 102 is fixed on the transport vehicle 101, so that the transport is more convenient, the arrangement of the folding stool 103 is convenient for the wounded to decontaminate by adopting a sitting posture, and the decontamination shower heads 104 are provided in plurality, so that the decontamination module 100 can decontaminate a plurality of wounded at the same time, and the wounded can decontaminate by adopting a standing posture, a sitting posture and a lying posture, so that the use is more convenient; the arrangement of the electric sliding door 105 enables medical personnel to avoid manually opening and closing the door, and reduces the probability of infection.

The supporting assembly 200 includes a bottom plate 201, a supporting plate 202, a top frame 203, a first supporting member 204, a second supporting member 205 and a spraying member 206, wherein the supporting plate 202 is fixed at four corners of the top of the bottom plate 201, the top frame 203 is fixed at the top of the supporting plate 202, the first supporting member 204 and the second supporting member 205 are both located in the top frame 203, and the spraying member 206 is located below the top frame 203.

Anti-skid pads are fixed at four corners of the bottom plate 201 and used for improving the stability of the device in the practical process, the supporting plate 202 is used for fixing the top frame 203, and a supporting pad used for supporting the head of a wounded person is installed on one side of the top frame 203; the first supporting piece 204 and the second supporting piece 205 are arranged in a crossed mode and move up and down alternately, so that the wounded can be supported, meanwhile, the decontamination liquid is sprayed on the back of the wounded through the spraying piece 206, and the decontamination efficiency is improved.

Adjusting part 300 sets up in bottom plate 201 top, including mounting panel 301, fixed axle 302, fixed disk 303, first regulating part 304, second regulating part 305 and driving piece 306, mounting panel 301 is fixed in bottom plate 201 top both sides, fixed axle 302 rotates to be connected between two mounting panels 301, fixed disk 303 is provided with two, and the symmetry is fixed in fixed axle 302 surface, first regulating part 304 and second regulating part 305 all set up on fixed disk 303, driving piece 306 sets up in bottom plate 201 top.

The driving piece 306 drives the fixed shaft 302 to rotate, the fixed disc 303 rotates along with the fixed shaft 302, at the moment, the fixed disc 303 drives the first adjusting piece 304 and the second adjusting piece 305 to respectively adjust the heights of the first supporting piece 204 and the second supporting piece 205, so that the first supporting piece 204 and the second supporting piece 205 can alternately move up and down, the back of an injured person can be more uniformly contacted with the decontamination liquid on the premise of supporting, and the decontamination effect is better.

Example 2

Referring to fig. 2 and 3, a second embodiment of the present invention is based on the previous embodiment.

Specifically, the electric sliding door 105 divides the decontamination cabin 102 into a detection area K1, a decontamination area K2 and a rechecking area K3, and the folding stool 103 and the decontamination shower head 104 are all arranged in the decontamination area K2.

The decontamination module 100 is divided into three different areas, the sealing performance among the areas is improved, each area strictly processes the respective step, and the safety and the convenience of the device in use are greatly improved.

Detection zone K1 includes wounded's transportation stretcher 102a, locker 102b and display 102c, and wounded's transportation stretcher 102a places in detection zone K1, and locker 102b is fixed in detection zone K1 inner wall, and display 102c is fixed in detection zone K1.

The transfer stretcher 102a is used for carrying the wounded person to the detection area K1 for preliminary detection, the storage cabinet 102b is used for facilitating medical staff to place various articles, and the display 102c facilitates the medical staff to observe various data.

The detection area K1 further includes a plurality of drainage grooves 102d, and the drainage grooves 102d are uniformly distributed at the bottom of the decontamination cabin 102.

The drain tank 102d discharges the waste water after the washing and the waste water is collected.

Rechecking area K3 includes side door 102e, control box 102f, warm braw pipe 102g and block terminal 102h, and side door 102e installs in rechecking area K3 side, and control box 102f, warm braw pipe 102g and block terminal 102h all are fixed in rechecking area K3 inner wall.

The control box 102f controls the whole decontamination module 100, the distribution box 102h supplies power to the module, and the warm air pipe 102g is used for maintaining the temperature in the reinspection area K3.

Example 3

Referring to FIGS. 4-8, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the first support 204 includes a plurality of first receiving rods 204a, a plurality of first support rods 204b and a plurality of first connection plates 204c, the first receiving rods 204a are disposed in the top frame 203, the first support rods 204b are fixed to two sides of the bottom of the first receiving rods 204a, and the first connection plates 204c are fixed to the bottom ends of the first support rods 204 b.

Many have been placed side by side to first bolster 204a, and every first bolster 204b of first bolster 204a bottom both sides all fixed, first connecting plate 204c is fixed in first bolster 204b bottom for connect and fix each first bolster 204b, prevent that it from reciprocating and accepting wounded's in-process transmission skew, cause certain potential safety hazard.

The second supporting member 205 includes a plurality of second receiving bars 205a, a plurality of second supporting bars 205b and a plurality of second connecting plates 205c, the plurality of second receiving bars 205a are distributed to intersect with the first receiving bars 204a, the plurality of second supporting bars 205b are fixed to two sides of the bottom of the second receiving bars 205a, and the plurality of second connecting plates 205c are fixed to the bottom of the second supporting bars 205 b.

The second socket bar 205a is provided with a plurality of second socket bars 205a, which are located in the gap between every two first socket bars 204a, and two sides of the bottom of each second socket bar 205a are fixed with a second support bar 205b for fixing and supporting the second socket bar 205a, and then the second support bars 205b are fixed through second connecting plates 205c, so that the stability of the support process is improved.

The bottom of the first connecting plate 204c and the bottom of the second connecting plate 205c are both fixed with a buffer spring 207 and a hydraulic damper 208, and the bottom ends of the buffer spring 207 and the hydraulic damper 208 are both fixed with the bottom plate 201.

The buffer spring 207 applies a downward moving force to the first connecting plate 204c and the second connecting plate 205c, so that the first adjusting part 304 and the second adjusting part 305 are more convenient in adjusting the heights of the first bearing rod 204a and the second bearing rod 205 a; the hydraulic damper 208 is more convenient when the first bearing rod 204a and the second bearing rod 205a move downwards due to the self weight and the action of the buffer spring 207, can move downwards slowly, can limit the first bearing rod 204a and the second bearing rod 205a, and prevents the first bearing rod 204a and the second bearing rod 205a from shifting in the up-down moving process.

The spraying member 206 includes a distribution box 206a and a plurality of spraying heads 206b, wherein the distribution box 206a is located above the fixed plate 303, and the plurality of spraying heads 206b are uniformly distributed on the top of the distribution box 206 a.

The pipeline connected with the outside is fixed on the side surface of the shunt box 206a, the decontamination liquid is guided into the shunt box 206a through an external water pump and the pipeline, and then the decontamination liquid is upwards sprayed on the back of the wounded through the spraying head 206b, so that the overall decontamination efficiency of the wounded is improved.

The spraying member 206 further includes a fixing block 206c, a guiding rod 206d and a fixing plate 206e, the fixing plate 206e is fixed on two sides of the top of the bottom plate 201, the shunt box 206a slides on the top of the fixing plate 206e, the fixing block 206c is fixed on two sides of the bottom of the shunt box 206a, the guiding rod 206d is fixed on the inner side of the fixing block 206c, a guiding slot S is formed in the fixing plate 206e, the guiding rod 206d slides in the guiding slot S, a return spring 206f is arranged between the fixing block 206c and the fixing plate 206e, and the return spring 206f is located on the surface of the guiding rod 206 d.

The fixing plate 206e is used for supporting the shunt box 206a, and the return spring 206f applies an outward moving force to the shunt box 206a, so that the shunt box 206a can move left and right back and forth in the process of spraying the decontamination solution, that is, the decontamination solution can be more efficiently contacted with the back of the wounded when the first carrying rod 204a and the second carrying rod 205a move up and down alternately, the contact area is increased, and the decontamination efficiency is higher; when the flow distribution box 206a moves back and forth left and right, it is guided by the guide rod 206d and the guide groove S, preventing it from shifting during movement.

The first adjusting member 304 includes a first arc plate 304a, a first connecting rod 304b and a first cam 304c, the first cam 304c is fixed on the side of the fixed plate 303, the first arc plate 304a is located on the side of the fixed plate 303 and slides on the first cam 304c, and two ends of the first connecting rod 304b are respectively fixed with the first arc plate 304a and the first connecting plate 204 c.

A convex block rotationally connected with a first cam 304c is fixed on the side surface of the fixed disc 303, the first arc-shaped plate 304a is semicircular, the radius of the first arc-shaped plate 304a is the same as that of the fixed disc 303, when the fixed disc 303 rotates for a circle, the first cam 304c can push the first arc-shaped plate 304a to move for a period, namely when the first cam 304c is positioned in the middle and at the highest point of the fixed disc 303, the first arc-shaped plate 304a and the first connecting rod 304b push the first carrying rod 204a to the highest point, and a wounded person can lie on the first carrying rod 204 a; when the first cam 304c is located at the middle portion of the other side of the fixed plate 303 and moves to the lowest point, the first arc-shaped plate 304a will slowly descend to drive the first receiving rod 204a to move downward.

The second adjusting member 305 includes a second arc-shaped plate 305a, a second connecting rod 305b and a second cam 305c, the second cam 305c is fixed on the fixed plate 303 and is opposite to the first cam 304c, the second arc-shaped plate 305a slides on the second cam 305c, and two ends of the second connecting rod 305b are respectively fixed with the second connecting plate 205c and the second arc-shaped plate 305 a.

The position of the second cam 305c is one hundred and eighty degrees different from that of the first cam 304c, that is, when the first cam 304c is at the highest point on the side surface of the fixed disk 303, the second cam 305c is at the lowest point on the other side surface of the fixed disk 303; when the first cam 304c pushes the first arc-shaped plate 304a and the first connecting rod 304b to push the first carrying rod 204a to the highest point, the second cam 305c is separated from the force applied to the second arc-shaped plate 305a, at this time, due to the gravity and the action of the buffer spring 207, the second arc-shaped plate 305a and the second carrying rod 205a are pulled downwards, the second carrying rod 205a is separated from the back of the wounded, and at this time, the first carrying rod 204a supports the wounded;

the fixed plate 303 rotates continuously, when the second cam 305c pushes the second arc-shaped plate 305a and the second connecting rod 305b to push the second carrying rod 205a to the highest point, the first cam 304c disengages from the force applied to the first arc-shaped plate 304a, at this time, due to the gravity and the action of the buffer spring 207, the first arc-shaped plate 304a and the first carrying rod 204a are pulled downwards, the first carrying rod 204a is separated from the back of the wounded, and at this time, the second carrying rod 205a supports the wounded;

the back of the wounded is always provided with a stress point by reciprocating adjustment, the situation that the height difference changes frequently is avoided, meanwhile, the stress position on the back of the wounded can be replaced alternately, the contact area and time of the decontamination liquid and the skin of the wounded are improved, and the decontamination efficiency is greatly improved.

The adjusting assembly 300 further includes a driving plate 307 and an adjusting plate 308, the driving plate 307 is fixed to one of the surfaces of the fixing plate 303, and the adjusting plate 308 is fixed to the bottom of the flow dividing box 206 a.

Four driving plates 307 are annularly and uniformly distributed on the surface of the fixed disc 303, are in a water drop shape, and are reduced in height from one side to the other side in an arc shape; the adjusting plate 308 is triangular, the side surface of the adjusting plate is in chamfer processing with the contact surface of the driving plate 307, when the fixing disc 303 rotates, the driving plate 307 pushes the adjusting plate 308 to move towards the side surface, namely, the adjusting plate 308 drives the flow distribution box 206a to move towards the opposite direction of the acting force of the return spring 206f, when the adjusting plate 308 is positioned at the gap between every two adjacent driving plates 307, the return spring 206f can pull the flow distribution box 206a to reset, so that the flow distribution box 206a is repeatedly driven to reciprocate when the decontamination liquid is sprayed, and the decontamination efficiency is greatly improved.

The driving member 306 includes a driving motor 306a, a driving gear 306b and a driven gear 306c, the driving motor 306a is fixed on the top of the bottom plate 201, the driving gear 306b is fixed on the output end of the driving motor 306a, and the driven gear 306c is fixed on the surface of the fixed shaft 302 and engaged with the driving gear 306 b.

The driving gear 306b is driven by the driving motor 306a to rotate, and the fixed shaft 302 is driven by the driving gear 306b and the driven gear 306c to rotate.

When the nuclear decontamination cleaning and disinfecting module 100 is used, the transport vehicle 101 transports the cleaning and disinfecting module 100 to a designated position, then the wounded are cleaned and disinfected from three areas in sequence, when the wounded need to be cleaned and disinfected in a prone position, a worker places the nuclear contaminated wounded on the first receiving rod 204a in the middle of the top frame 203, supports the wounded through the first receiving rod 204a, then starts the driving motor 306a, drives the driving gear 306b to rotate through the driving motor 306a, and drives the fixed shaft 302 to rotate through the driving gear 306b and the driven gear 306c, so that the fixed disc 303 rotates, when the first cam 304c pushes the first arc-shaped plate 304a and the first connecting rod 304b to push the first receiving rod 204a to the highest point, the second cam 305c is separated from the force applied to the second arc-shaped plate 305a, at the moment, due to the action of gravity and the buffer spring 207, the second arc-shaped plate 305a and the second receiving rod 205a are pulled downwards, the second socket rod 205a is separated from the back of the wounded, and the first socket rod 204a supports the wounded; the fixed plate 303 rotates continuously, when the second cam 305c pushes the second arc-shaped plate 305a and the second connecting rod 305b to push the second carrying rod 205a to the highest point, the first cam 304c disengages from the force applied to the first arc-shaped plate 304a, at this time, due to the gravity and the action of the buffer spring 207, the first arc-shaped plate 304a and the first carrying rod 204a are pulled downwards, the first carrying rod 204a is separated from the back of the wounded, and at this time, the second carrying rod 205a supports the wounded; the adjustment is carried out in a reciprocating way, the back of the wounded always has a stress point, the condition of frequent change of height difference can not exist, meanwhile, the stress position on the back of the wounded can be replaced alternately, the contact area and time of decontamination liquid and the skin of the wounded are improved, the decontamination efficiency is greatly improved, meanwhile, when the fixed disc 303 rotates, the driving plate 307 pushes the adjusting plate 308 to move towards the side surface, the shunting box 206a can be driven to move towards the opposite direction of the acting force of the reset spring 206f through the adjusting plate 308, when the adjusting plate 308 is positioned at the gap between every two adjacent driving plates 307, the reset spring 206f can pull the shunting box 206a to reset, the shunting box 206a is driven to move in a reciprocating way when the decontamination liquid is sprayed, the decontamination efficiency is greatly improved

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. A module that can decontaminate nuclear pollution wounded person which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the decontamination module (100) comprises a transport vehicle (101), a decontamination shelter (102), a folding stool (103), a decontamination shower head (104) and an electric sliding door (105), wherein the decontamination shelter (102) is fixed on the transport vehicle (101), the decontamination shower head (104) is fixed on the inner wall of the decontamination shelter (102), the folding stool (103) is positioned below the decontamination shower head (104), and two electric sliding doors (105) are arranged and are respectively arranged in the decontamination shelter (102);

the supporting assembly (200) is arranged in the decontamination shelter (102) and comprises a bottom plate (201), a supporting plate (202), a top frame (203), a first supporting piece (204), a second supporting piece (205) and a spraying piece (206), wherein the supporting plate (202) is fixed at four corners of the top of the bottom plate (201), the top frame (203) is fixed at the top of the supporting plate (202), the first supporting piece (204) and the second supporting piece (205) are both positioned in the top frame (203), and the spraying piece (206) is positioned below the top frame (203); and

adjusting part (300), set up in bottom plate (201) top, including mounting panel (301), fixed axle (302), fixed disk (303), first regulating part (304), second regulating part (305) and driving piece (306), mounting panel (301) are fixed in bottom plate (201) top both sides, fixed axle (302) rotate connect in two between mounting panel (301), fixed disk (303) are provided with two, and the symmetry is fixed in fixed axle (302) surface, first regulating part (304) with second regulating part (305) all set up in on fixed disk (303), driving piece (306) set up in bottom plate (201) top.

2. The module capable of decontaminating nuclear contaminated victims of claim 1, wherein: electronic sliding door (105) will washing and disinfecting shelter (102) divide into detection zone (K1), washing and disinfecting district (K2) and rechecking district (K3), folding stool (103) and washing and disinfecting gondola water faucet (104) all set up in wash and disinfect in district (K2).

3. The module capable of decontaminating nuclear contaminated victims of claim 2, wherein: the detection area (K1) comprises a wounded transfer stretcher (102a), a storage cabinet (102b) and a display (102c), wherein the wounded transfer stretcher (102a) is placed in the detection area (K1), the storage cabinet (102b) is fixed on the inner wall of the detection area (K1), and the display (102c) is fixed in the detection area (K1).

4. The module capable of decontaminating nuclear contaminated victims of claim 3, wherein: the detection area (K1) further comprises a plurality of groups of drainage grooves (102d), and the drainage grooves (102d) are uniformly distributed at the bottom of the decontamination square cabin (102).

5. The module capable of decontaminating nuclear contaminated wounded personnel as claimed in any one of claims 2, 3 and 4, wherein: the rechecking area (K3) comprises a side door (102e), a control box (102f), a warm air pipe (102g) and a distribution box (102h), the side door (102e) is installed on the side face of the rechecking area (K3), and the control box (102f), the warm air pipe (102g) and the distribution box (102h) are all fixed on the inner wall of the rechecking area (K3).

6. The module capable of decontaminating nuclear contaminated victims of claim 5, wherein: the first support (204) comprises a first bearing rod (204a), a first support rod (204b) and a first connecting plate (204c), the first bearing rod (204a) is provided with a plurality of bearing rods, and is positioned in the top frame (203), the first supporting rods (204b) are fixed at two sides of the bottom of the first bearing rod (204a), the first connecting plate (204c) is fixed with the bottom end of the first supporting rod (204b), the second supporting member (205) comprises a plurality of second bearing rods (205a), a plurality of second supporting rods (205b) and a plurality of second connecting plates (205c), which is distributed across the first bearing rod (204a), the second supporting rod (205b) is fixed on the two sides of the bottom of the second bearing rod (205a), the second connecting plate (205c) is fixed with the bottom end of the second supporting rod (205 b).

7. The module capable of decontaminating nuclear contaminated victims of claim 6, wherein: the bottom of each of the first connecting plate (204c) and the second connecting plate (205c) is fixed with a buffer spring (207) and a hydraulic damper (208), and the bottom ends of the buffer spring (207) and the hydraulic damper (208) are fixed with the bottom plate (201).

8. The module capable of decontaminating nuclear contaminated victims of claim 6 or 7, wherein: the spraying part (206) comprises a plurality of shunting boxes (206a) and spraying heads (206b), the shunting boxes (206a) are located above the fixed disc (303), the spraying heads (206b) are uniformly distributed at the tops of the shunting boxes (206a), the spraying part (206) further comprises fixed blocks (206c), guide rods (206d) and fixed plates (206e), the fixed plates (206e) are fixed on two sides of the top of the bottom plate (201), the shunting boxes (206a) slide on the tops of the fixed plates (206e), the fixed blocks (206c) are fixed on two sides of the bottom of the shunting boxes (206a), the guide rods (206d) are fixed on the inner sides of the fixed blocks (206c), guide grooves (S) are formed in the fixed plates (206e), the guide rods (206d) slide in the guide grooves (S), and return springs (206f) are arranged between the fixed blocks (206c) and the fixed plates (206e), the return spring (206f) is positioned on the surface of the guide rod (206 d).

9. The module capable of decontaminating nuclear contaminated victims of claim 8, wherein: the first adjusting part (304) comprises a first arc-shaped plate (304a), a first connecting rod (304b) and a first cam (304c), the first cam (304c) is fixed on the side surface of the fixed disk (303), the first arc-shaped plate (304a) is positioned on the side surface of the fixed disk (303) and slides on the first cam (304c), two ends of the first connecting rod (304b) are respectively fixed with the first arc-shaped plate (304a) and the first connecting plate (204c), the second adjusting part (305) comprises a second arc-shaped plate (305a), a second connecting rod (305b) and a second cam (305c), the second cam (305c) is fixed on the fixed disk (303) and is opposite to the other side surface of the first cam (304c), and the second arc-shaped plate (305a) slides on the second cam (305c), two ends of the second connecting rod (305b) are respectively fixed with the second connecting plate (205c) and the second arc-shaped plate (305 a).

10. The module capable of decontaminating nuclear contaminated victims of claim 9, wherein: the adjusting assembly (300) further comprises a driving plate (307) and an adjusting plate (308), wherein the driving plate (307) is fixed on one of the surfaces of the fixed disc (303), the adjusting plate (308) is fixed on the bottom of the shunt box (206a), the driving piece (306) comprises a driving motor (306a), a driving gear (306b) and a driven gear (306c), the driving motor (306a) is fixed on the top of the bottom plate (201), the driving gear (306b) is fixed with the output end of the driving motor (306a), and the driven gear (306c) is fixed on the surface of the fixed shaft (302) and meshed with the driving gear (306 b).

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