CN114893059B - Temporary medical rescue tent - Google Patents

Abstract

The invention belongs to the technical field of disaster relief tents, in particular to a temporary medical rescue tent which comprises tarpaulin, a tarpaulin frame and a ground mat; according to the invention, the ground mat is paved on the ground, then high-pressure gas is filled into the support mat, so that the support mat has a certain supporting capacity, then gas is filled into the support bag, the support mat is supported by the support bag, the inclination prevention component is adjusted after the support mat is horizontal, one end of the inclination prevention component is abutted against the ground, then the fixed skirt is fixed on the ground by the fixing nails, then the upper building tent frame and the installation tent cloth are installed on the ground mat, and the support bag is deformed under the action of gravity due to the fact that the gas pressure in the support mat is higher than the gas pressure in the support bag, so that the support mat is automatically leveled in the horizontal direction, the upper surface of the support mat is in a horizontal state, and the medical equipment and other objects placed on the ground mat are guaranteed.

Description

Temporary medical rescue tent

Technical Field

The invention belongs to the technical field of disaster relief tents, and particularly relates to a temporary medical rescue tent.

Background

The disaster relief tent is a temporary residence used for disaster relief command, post-disaster emergency medical treatment, temporary school houses, disaster relief material transfer storage, personnel accommodation and the like under the conditions of spontaneous combustion disasters such as earthquake, flood, typhoon and the like.

Often can cause personnel to be injured when natural disasters happen, therefore, temporary post-disaster emergency medical treatment tent needs to be built to carry out emergency treatment on injured personnel, various medical equipment is needed in the treatment process, because the disaster environments are different, a relatively flat place is difficult to find sometimes for building the tent, the ground is used as the ground of the tent in the prior tent, the bottom of the tent is inclined when the tent is built on the inclined or rugged ground, and the placement of medical equipment is influenced due to the inclination or rugged ground and rescue personnel need to pay attention to the foot at any time to influence rescue, so that a flat ground needs to be cleaned for building the tent, not only is labor consumed, but also timely treatment of injured personnel is delayed.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a temporary medical rescue tent. The invention is mainly used for solving the problem that the placement of medical instruments is affected when the ground is rugged in the prior art, and rescue staff pay attention to the feet at any time, so that the rescue efficiency is affected.

The technical scheme adopted for solving the technical problems is as follows: the invention provides a temporary medical rescue tent, which comprises a tent cloth, a tent frame and a ground mat; the canopy frame is arranged on the ground mat; the awning cloth is sleeved on the awning frame; the awning cloth is fixedly connected to the awning frame;

the ground cushion comprises a support cushion, a support bag and an inclination prevention component; the support bag is arranged below the support pad; the upper surface of the supporting bag is fixedly connected to the lower surface of the supporting pad; the support pad and the support bag are hollow structures; the support pad and the support bag are made of soft inelastic materials; the support cushion and the support bag are provided with inflation heads; the anti-tilting components are uniformly arranged on the supporting pad at intervals along the outer edge of the supporting pad; the anti-tilting component is used for always keeping the support pad horizontal when the upper surface of the support pad is stressed at different positions; a fixed skirt edge is arranged at the outer edge of the lower surface of the supporting pad; the fixed skirt edge is fixed on the ground through a fixed nail; the support pad and the support bag are filled with gas, and the gas pressure in the support pad is higher than the gas pressure in the support bag.

When the medical rescue tent is needed, firstly, the ground cushion is unfolded, then the ground cushion is paved on the ground, one side of the support bag faces the ground, then high-pressure gas is filled into the support cushion through the inflation head, the inflation is stopped after the gas pressure in the support cushion reaches the set pressure, then the gas is filled into the support bag through the inflation head, the support cushion is further lifted off the ground along with the continuous increase of the gas in the support bag, when the support cushion is completely lifted off the ground, the support bag is prevented from being fully filled with the gas to cause the deformation, then a heavy object is placed at the center position of the upper surface of the support cushion, the inclination prevention part is regulated after the support cushion is horizontal, one end of the inclination prevention part, which is close to the ground, is abutted against the ground, then the fixed skirt is fixed on the ground through the fixed nails, the ground cushion is prevented from moving, then the upper tent frame and the installation tarpaulin are installed on the ground cushion, the support cushion is made of soft inelastic materials, the support cushion can be folded or folded at will when the support cushion is in a random when the support cushion is in a non-elastic mode, the support cushion can keep the shape after the support cushion is filled, the support cushion is completely lifted off the ground, the support cushion is prevented from being fully filled with the gas, the support cushion is fully stretched off the air, the support cushion is enabled to be fully stretched off the ground, the support cushion is enabled to be completely and can be in a plane with the soft cushion, the air cushion is completely contacts with the support cushion, the air is completely and is further kept in a plane, the support cushion is completely and is in a plane and can be completely and is in a plane contact with the support plane, and has a strong plane, and can be completely and can be in a high plane with the support plane is completely and can be kept in a high plane and has a high pressure plane and a high pressure plane is in a high pressure condition and a high pressure and a high ground. The upper surface of the supporting pad is in a horizontal state, so that the level of articles such as medical equipment placed on the ground pad is guaranteed, the situation that the placement and the use of the medical equipment are affected due to rugged ground in a place where the medical rescue tent is built is avoided, and meanwhile, the situation that rescue workers influence the rescue of patients in the medical rescue tent due to rugged ground is avoided; meanwhile, when rainy weather is met, the ground is isolated from the inside of the medical rescue tent by the ground mat, so that rainwater is generated in the medical tent to become moist and muddy, damage of medical equipment and rescue speed of slow rescue workers are avoided, and a drier environment convenient for rescue is provided for the rescue workers.

Preferably, the anti-tilting member comprises an anti-tilting support; the anti-tilting support is of a hollow structure; the anti-tilting support is made of soft inelastic materials; an outer thread is arranged on the outer cylindrical surface of the anti-tilting support; the outer screw teeth are fixedly connected to the anti-tilting support; an inner screw thread is arranged at the position of the support pad corresponding to the anti-tilting support; the inner screw teeth are fixedly connected to the supporting pad; the inner screw teeth are matched with the outer screw teeth; the inner screw teeth and the outer screw teeth are made of rubber materials; the anti-tilting support is communicated with the support pad through an air pipe.

During operation, the anti-tilting support is made of soft inelastic materials and is of a hollow structure, the anti-tilting support is communicated with the support pad through an air pipe, and then high-pressure air is filled in the anti-tilting support in the process of inflating the support pad, so that certain pressure can be born in the axial direction of the anti-tilting support; because the anti-tilting support is communicated with the inside of the support pad, the pressure of gas in the anti-tilting support and the support pad is reduced after the exhaust, and then the external screw teeth and the internal screw teeth have no supporting effect, and further because the internal screw teeth and the external screw teeth are made of rubber materials, the support pad and the anti-tilting support can be deformed after the exhaust of the gas, and then can be folded or rolled up together with the support pad, so that the ground pad is convenient to transport, and meanwhile, the external screw teeth and the internal screw teeth of the rubber materials have certain elasticity, and further the anti-tilting support cannot fall off from the support pad in the folding, rolling or transporting process, so that the trouble of screwing in again after the anti-tilting support falls off is avoided.

Preferably, the lower end of the anti-tilting support is of a spherical structure; the lower end of the anti-tilting support is provided with an anti-tilting accessory; the anti-tilting accessory is of a truncated cone-shaped structure, and a spherical groove is formed in the upper bottom surface of the anti-tilting accessory; the anti-tilting support is in ball joint with the anti-tilting accessory; the anti-tilting accessory is of a hollow structure; the anti-tilting accessory is made of soft inelastic materials; a through hole is formed in the spherical groove; a via hole is arranged in the spherical structure; the anti-tilting support is communicated with the anti-tilting accessory through the through hole and the through hole.

During operation, as the environments built by the medical rescue tent are different, when the soil is softer, the anti-tilting support is easily inserted into the soil, so that the anti-tilting support is invalid, and the ground mat is inclined after being stressed, therefore, the contact area between the anti-tilting support and the ground is increased, the anti-tilting support is prevented from sinking into the soil, the invalidation of the anti-tilting support is avoided, and the stability of the ground mat in the horizontal state is improved; because the anti-tilting accessory and the anti-tilting support are in ball joint, the anti-tilting accessory and the anti-tilting support can deflect at an angle, so that the anti-tilting support is subjected to axial force, and further, the anti-tilting support is prevented from being bent due to radial force, and the anti-tilting support is prevented from being invalid; the anti-tilting accessory is made of soft inelastic materials and is of a hollow structure, so that high-pressure gas is filled in the anti-tilting support in the process of inflating the support pad, the high-pressure gas in the anti-tilting support enters the anti-tilting accessory through the through hole and the through hole, otherwise, the volume of the anti-tilting accessory is reduced after the gas in the support pad is discharged, and the anti-tilting accessory is folded or rolled up along with the support pad in different places, so that the anti-tilting accessory is convenient to transport.

Preferably, the support bag is divided into a plurality of independent bags by criss-cross isolation cloth; the isolation cloth is made of soft inelastic materials, and damping holes are formed in the isolation cloth.

During operation, because the supporting bag is not fully filled with gas, consequently the foot tramples the back on the supporting pad, the supporting bag atress of supporting pad below can make gas diffuse all around rapidly, cause the atress to be in one end time in the holding power reduce, and then also reduce the holding power to the supporting pad, and then be unfavorable for walking on the supporting pad, consequently, separate into a plurality of independent bag in the supporting bag through vertically and horizontally staggered's spacer, and set up the damping hole on the spacer, not only make the mutual independence of space in all independent bags, and make the intercommunication of the gas in all independent bags, the automatic levelling ability of ground pad has been guaranteed, when the rescue personnel walked on the ground pad, the atress of foot trample the department suddenly increases, and then the gas pressure in the independent bag suddenly increases, the damping hole produces very big damping force this moment, the independent bag is equivalent to an independent airtight cavity, and then hinder the diffusion of foot trample department below gas to the time of concave under the supporting bag, and then increased the time that the holding power reduces of supporting bag, and then the steady foot tramples the time of the department in the supporting pad is not enough to have been guaranteed the steady, and the change of the support pad under the foot is trampled down on the support pad has been guaranteed to the steady ground.

Preferably, the independent bag is communicated with the supporting pad through a one-way valve; the air inlet of the one-way valve is communicated with the independent bag; the air outlet of the one-way valve is communicated with the supporting pad.

During operation, because the supporting bag is separated into a plurality of independent bags, and the damping hole has been seted up on the spacer, and then the supporting bag is very consuming time when exhausting, therefore through setting up the check valve between independent bag and supporting pad, and the inlet port and the independent bag intercommunication of check valve, gas outlet and supporting pad intercommunication, and then gas can't follow supporting pad to the supporting bag in circulate, when inflating in to the supporting bag, because gas pressure in the supporting pad needs to be greater than the gas pressure in the supporting bag, gas in the supporting bag can't get into in the supporting pad through the check valve this moment, and then make mutually independent when having gas between supporting bag and the supporting pad, when exhausting, through opening the exhaust hole of supporting pad, and then along with the continuous reduction of gas pressure in the supporting pad, when gas pressure is less than the supporting bag in the supporting pad, through the check valve intercommunication between supporting bag and the supporting pad, and then be convenient for get rid of gas in the supporting bag fast, and then improved the efficiency of rolling ground pad.

Preferably, crisscross supporting beams are arranged between the supporting pads and the supporting bags; the supporting beam is of a hollow structure and is made of soft inelastic materials; the support beam is fixedly connected to the lower surface of the support pad; the supporting beam is communicated with the supporting pad through an air vent.

During operation, because the ground cushion area of the medical rescue tent is larger, the rigidity of the inflated support cushion is reduced, and the support cushion is easy to bend when a foot treads on the support cushion, so that the whole rigidity of the support cushion is increased by arranging criss-cross support beams below the support cushion, the bending degree of the support cushion during treading is reduced, and the support capacity of the ground cushion is improved; because the supporting beam is made of soft inelastic materials and is of a hollow structure, when the supporting pad is inflated, gas in the supporting pad enters the supporting beam through the vent holes, the supporting beam is inflated with high-pressure gas to have supporting capacity to improve the rigidity of the supporting pad, and after the high-pressure gas is discharged, the supporting beam loses the gas supporting capacity, the soft characteristic of the supporting beam is recovered, and the supporting pad is folded or rolled up together with the supporting pad conveniently.

Preferably, a bottom frame fixing part is arranged on the upper surface of the supporting pad near the edge of the supporting pad; the bottom frame fixing part is used for fixing the bottom frame of the medical rescue tent.

During operation, through set up underframe fixed part on the supporting pad, in the underframe stopper underframe fixed part of supporting pad inflatable chamber with the medical rescue tent, when filling high-pressure gas in the supporting pad, the underframe fixed part wraps up the underframe parcel of medical rescue tent and fixes, and then makes the underframe of medical rescue tent form a whole with the ground pad, and then the underframe lug connection of the tent that builds can with the medical rescue tent, and then the quick connection of tent and the underframe that is convenient for build, and then improved the efficiency that the medical rescue tent was built.

Preferably, the ground mat is provided with an equipment placement area; avoidance holes penetrating through the ground mat are uniformly formed in the equipment placement area at intervals.

When the ground mat is in work, because the medical equipment is generally heavier, if the medical equipment is directly placed on the ground mat, the local stress of the ground mat greatly influences the level of the ground mat, and therefore, by arranging the equipment placement area and arranging the avoidance holes penetrating through the ground mat in the placement area, the supporting legs of the heavier medical equipment are directly contacted with the ground through the avoidance holes, and further, the influence on the level of the ground mat is avoided; because medical equipment and ground direct contact, and then avoid the relief person to walk on the ground and fill up the time the ground and produce and stir gently and influence equipment accuracy.

A method of using a temporary medical rescue tent, the method comprising the steps of:

s1: firstly, unfolding the ground mat in a folded state, so that one side of the ground mat, where the support bag is located, faces the ground;

s2: after the floor mat is unfolded, splicing the bottom frames of the medical rescue tent, and then plugging the spliced bottom frames of the medical rescue tent into the bottom frame fixing parts;

s3: after the bottom frame of the medical rescue tent is plugged into the bottom frame fixing part, high-pressure air is filled into the supporting pad through the air pump, so that the supporting pad forms a supporting plane;

s4: after the support cushion is inflated, the air pump is used for inflating the support bag, so that the air pressure in the support bag is always smaller than the air pressure in the support cushion, and the support bag is not fully expanded;

s5: after the supporting bag supports the supporting pad, placing a weight at the center of the upper surface of the supporting pad, and automatically horizontally adjusting the supporting pad under the action of gravity of the weight;

s6: after the horizontal adjustment is finished, rotating the anti-tilting support through a tool to enable the anti-tilting support to be in contact with the ground;

S7: after the anti-tilting support is adjusted, fixing the fixed skirt edge on the ground through the fixed nails;

s8: after the fixing skirt is fixed, taking down a heavy object, and then installing the tent frame on a bottom frame of the medical rescue tent and fixing the tent cloth on the tent frame;

s9: after the medical rescue tent is built, placing medical equipment on the equipment placement area on the ground mat;

s10: when the medical rescue tent needs to be disassembled, all articles in the medical rescue tent are firstly removed, then the tarpaulin and the tarpaulin frame are removed, the fixing nails on the fixing skirt edge are pulled out, then the exhaust port on the supporting pad is opened, then the supporting bag, the anti-tilting support and the supporting pad are extruded, so that internal gas is discharged, and finally the ground pad is folded.

When the medical rescue tent is in operation, firstly, the ground cushion in a folded state is unfolded, one side of the support bag on the ground cushion faces the ground, then the bottom frame of the medical rescue tent is spliced, the spliced bottom frame of the medical rescue tent is plugged into the bottom frame fixing part, then high-pressure air is filled into the support cushion through the air pump, the support cushion forms a support plane along with continuous filling of the high-pressure air, the bottom frame fixing part wraps and fixes the bottom frame of the medical rescue tent, the bottom frame of the medical rescue tent and the ground cushion form a whole, the tent frame is further convenient to be quickly installed on the ground cushion, after the air pressure in the support cushion reaches a set value, ventilation is stopped, the support bag is inflated through the air pump, the air pressure in the support bag is always smaller than the air pressure in the support cushion, the support bag is not fully spread, then a weight is placed at the center position of the upper surface of the support cushion, and then make the supporting pad carry on the level automatically under the gravity effect of the heavy object to adjust, after the level is adjusted, through the tool rotation anti-tilting support, and then make anti-tilting support and ground conflict, and then prevent the ground pad from taking place to incline, then fix the fixed shirt rim on ground through the staple, take off the heavy object, install the canopy frame on the underframe of the medical rescue tent and fix the tarpaulin on the canopy frame, and then finish the medical rescue tent and take up, then alright place medical equipment on the equipment placement area on the ground pad, when the medical rescue tent needs to dismantle, remove all articles in the tent at first, then remove tarpaulin and canopy frame, then extract the staple on the fixed skirt rim, then open the gas vent on the supporting pad, then squeeze the supporting bag, anti-tilting support, and the support pad is used for exhausting the internal gas, and finally the ground pad is folded, so that the medical rescue tent is disassembled.

The beneficial effects of the invention are as follows:

1. when the medical rescue tent is needed, the ground cushion is firstly unfolded, then the ground cushion is paved on the ground, one side of the support bag faces the ground, then high-pressure gas is filled into the support cushion through the gas filling head, the gas filling is stopped after the gas pressure in the support cushion reaches the set pressure, then the gas filling head is used for filling the gas into the support bag, the support cushion is further lifted off the ground along with the continuous increase of the gas in the support bag, the support bag is prevented from being filled with the gas to avoid deformation when the support cushion is completely lifted off the ground, then a weight is placed at the center position of the upper surface of the support cushion, the inclination prevention component is adjusted after the support cushion is horizontal, one end of the inclination prevention component, which is close to the ground, is abutted against the ground, then the fixed skirt is fixed on the ground through the fixed nails, and the ground cushion is prevented from moving, then the upper building tent frame and the installation tent cloth are installed on the ground cushion, the support cushion is made of soft and inelastic materials, and then the support cushion can be folded or rolled up at will when no gas exists in the support cushion, after the gas is filled in, the support cushion can keep the shape of the support cushion, along with the continuous increase of the gas pressure in the support cushion, the upper surface of the support cushion forms a support plane with certain support capacity, and the support bag is made of soft and inelastic materials, and the surface, which is contacted with the ground, of the support bag which is not completely unfolded is attached with the rugged ground, the support cushion is supported by the support bag, the support bag is deformed under the action of gravity of the weight because the gas pressure in the support cushion is higher than the gas pressure in the support bag, the plane which is contacted with the support cushion reaches and keeps the level, and the automatic leveling of the support cushion in the horizontal direction is realized, the medical equipment is placed on the ground pad, the ground is not rugged, the medical equipment is placed and used, and meanwhile rescue workers in the medical rescue tent are prevented from being influenced by rugged ground in the medical rescue tent.

2. According to the invention, the anti-tilting support can be adjusted by rotating the anti-tilting support, so that the anti-tilting support is abutted against the ground, the edge of the support pad is supported, the support pad is prevented from tilting due to the fact that the support pad extrudes the support bag when the edge of the support pad is stressed, the stability of the support pad in the horizontal state is ensured, and the tilting of internal medical equipment and articles is prevented.

3. According to the invention, the inclination prevention accessory with the truncated cone-shaped structure is arranged at the lower end of the inclination prevention support, so that the contact area between the inclination prevention support and the ground is increased, the inclination prevention support is prevented from sinking into soil, the failure of the inclination prevention support is avoided, and the stability of the ground mat in the horizontal state is improved; because prevent rolling over annex and prevent rolling over and connect with the ball between the support, and then prevent rolling over annex and prevent can deflection angle between the support, and then make prevent rolling over and support and receive axial force, and then avoid preventing rolling over and support and receive radial force and take place to bend, cause and prevent rolling over and support inefficacy.

4. According to the invention, the inside of the supporting bag is divided into a plurality of independent bags through the crisscrossed isolating cloth, and the damping holes are arranged on the isolating cloth, so that the space in all the independent bags is independent of each other, the air in all the independent bags is communicated, the automatic leveling capability of the ground cushion is ensured, when a rescuer walks on the ground cushion, the stress of the pedal position is suddenly increased, the air pressure in the independent bags is suddenly increased, the damping holes generate a large damping force, the independent bags are equivalent to an independent closed cavity at the moment, the air below the pedal position is further prevented from being rapidly diffused to the periphery, the time for sinking the supporting bag at the pedal position is further increased, the time for reducing the supporting force at the stressed position of the supporting bag is further increased, the supporting bag at the pedal position has no obvious sinking change in the time from the pedal position to the lifting position, the stability of the supporting cushion is further ensured, and the walking stability of the rescuer on the ground cushion is further ensured.

5. According to the invention, the support bag is divided into a plurality of independent bags, the damping holes are formed in the isolation cloth, so that the support bag is very time-consuming in exhausting, the one-way valve is arranged between the independent bags and the support pad, the air inlet of the one-way valve is communicated with the independent bags, the air outlet of the one-way valve is communicated with the support pad, so that gas cannot circulate from the support pad into the support bag, when the support bag is inflated, because the gas pressure in the support pad needs to be greater than the gas pressure in the support bag, the gas in the support bag cannot enter the support pad through the one-way valve, the support bag and the support pad are mutually independent when the gas exists, and when the gas is exhausted, the exhaust hole of the support pad is opened, so that the gas pressure in the support pad is continuously reduced, and when the gas pressure in the support pad is smaller than the support bag, the support bag is communicated with the support pad through the one-way valve, so that the gas in the support bag cannot be rapidly exhausted, and the efficiency of winding the ground pad is improved.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of a medical rescue tent of the present invention;

FIG. 2 is an exploded view of the medical rescue tent of the present invention;

FIG. 3 is a view showing the internal structure of the medical rescue tent of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic view of the internal structure of the floor mat according to the present invention;

FIG. 6 is a schematic view of the internal structure of the support cell of the present invention;

FIG. 7 is a schematic view showing the internal structure of the support pad according to the present invention;

in the figure: tarpaulin 1, canopy frame 2, floor mat 3, support mat 31, inner screw 310, bottom frame fixing portion 311, support bag 32, spacer 320, damping hole 321, independent bag 322, fixing skirt 33, support beam 34, equipment placement area 35, escape hole 350, inclination prevention member 4, inclination prevention support 41, outer screw 410, spherical structure 411, inclination prevention attachment 42, spherical groove 420, check valve 5.

Detailed Description

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

As shown in fig. 1 to 7, a temporary medical rescue tent includes a tent cloth 1, a tent frame 2, and a floor mat 3; the canopy frame 2 is arranged on the ground mat 3; the awning cloth 1 is sleeved on the awning frame 2; the awning cloth 1 is fixedly connected to the awning frame 2;

the ground mat 3 comprises a support mat 31, a support bag 32 and an inclination prevention member 4; the support bag 32 is arranged below the support pad 31; the upper surface of the support bag 32 is fixedly connected to the lower surface of the support pad 31; the supporting pad 31 and the supporting bag 32 are hollow structures; the supporting pad 31 and the supporting bag 32 are made of soft and inelastic materials; the support cushion 31 and the support bag 32 are provided with inflation heads; the anti-tilting members 4 are uniformly arranged on the support pad 31 at intervals along the outer edge of the support pad 31; the anti-tilting component 4 is used for always keeping the supporting pad 31 horizontal when the upper surface of the supporting pad 31 is stressed at different positions; a fixed skirt edge 33 is arranged at the outer edge of the lower surface of the supporting pad 31; the fixed skirt 33 is fixed on the ground through fixed nails; the support cushion 31 and the support bag 32 are filled with gas, and the pressure of the gas in the support cushion 31 is higher than that in the support bag 32.

When the medical rescue tent is needed, firstly, the ground cushion 3 is unfolded, then the ground cushion 3 is paved on the ground, one side of the supporting bag 32 faces the ground, then high-pressure gas is filled into the supporting cushion 31 through the gas filling head, the gas filling is stopped after the gas pressure in the supporting cushion 31 reaches the set pressure, then the gas filling is carried out into the supporting bag 32 through the gas filling head, the supporting cushion 31 is lifted off the ground along with the continuous increase of the gas in the supporting bag 32, the supporting bag is prevented from being filled with the gas in the process after the supporting cushion 31 is completely lifted off the ground, then a heavy object is placed at the center position of the upper surface of the supporting cushion 31, the anti-tilting part 4 is adjusted after the supporting cushion 31 is horizontal, one end of the anti-tilting part 4 close to the ground is abutted on the ground, then the fixing skirt 33 is fixed on the ground through the fixing nails, and then the upper setting up tarpaulin 2 and the installation tarpaulin 1 are installed on the ground mat 3, because the support mat 31 is made of soft inelastic material, and then the support mat 31 can be folded or rolled up at will when no gas is filled in the support mat 31, the support mat 31 can keep its shape after the gas is filled, and the upper surface of the support mat 31 forms a support plane with a certain supporting capacity along with the continuous increase of the gas pressure in the support mat 31, and further because the support bag 32 is made of soft inelastic material, the surface contacted with the ground by the support bag 32 which is not completely opened is attached with the rugged ground, and then the support mat 31 is supported by the support bag 32, and because the gas pressure in the support mat 31 is higher than the gas pressure in the support bag 32, the support bag 32 is deformed under the action of the gravity of a heavy object, the plane in which the support bag 32 is contacted with the support pad 31 is quickened to reach and keep horizontal, so that the support pad 31 is automatically leveled in the horizontal direction, the upper surface of the support pad 31 is guaranteed to be in a horizontal state, the level of articles such as medical equipment placed on the ground pad 3 is guaranteed, the placement and the use of the medical equipment are prevented from being influenced due to rugged ground in a place where the medical rescue tent is built, and rescue personnel are prevented from influencing the rescue of patients due to rugged ground in the medical rescue tent; meanwhile, when rainy weather is met, the ground is isolated from the inside of the medical rescue tent by the ground mat 3, so that rainwater is generated in the medical tent to become moist and muddy, damage of medical equipment and rescue speed of slow rescue workers are avoided, and a drier environment convenient for rescue is provided for the rescue workers.

As shown in fig. 2 and 3, the anti-tilting member 4 includes an anti-tilting support 41; the anti-tilting support 41 is of a hollow structure; the anti-tilting support 41 is made of soft inelastic material; the outer cylindrical surface of the anti-tilting support 41 is provided with outer screw threads 410; the outer screw thread 410 is fixedly connected to the anti-tilting support 41; an inner screw 310 is provided on the support pad 31 at a position corresponding to the anti-tilting support 41; the inner screw 310 is fixedly connected to the support pad 31; the inner screw 310 is engaged with the outer screw 410; the inner screw 310 and the outer screw 410 are made of rubber materials; the anti-tilting support 41 is communicated with the support pad 31 through an air pipe.

During operation, as the anti-tilting support 41 is made of soft inelastic materials and is of a hollow structure, the anti-tilting support 41 is communicated with the support pad 31 through an air pipe, and then high-pressure air is filled in the anti-tilting support 41 in the process of inflating the support pad 31, and then the anti-tilting support 41 can bear certain pressure in the axial direction, because the support pad 31 is provided with the inner screw teeth 310, the anti-tilting support 41 is provided with the outer screw teeth 410, and then the anti-tilting support 41 is in threaded connection with the support pad 31, the anti-tilting support 41 can be adjusted through rotating the anti-tilting support 41, so that the anti-tilting support 41 is abutted against the ground, the support of the edge of the support pad 31 is realized, the support pad 31 is prevented from tilting due to the fact that the support pad 31 extrudes the support bag 32 when the edge of the support pad 31 is stressed, the stability of the support pad 31 is ensured, and the internal medical equipment and articles are prevented from being tilted; because the anti-tilting support 41 and the inside of the support pad 31 are communicated, the pressure of gas in the anti-tilting support and the support pad 31 is reduced after the exhaust, the external screw thread 410 and the internal screw thread 310 have no supporting effect, and because the internal screw thread 310 and the external screw thread 410 are made of rubber materials, the support pad 31 and the anti-tilting support 41 have no support after the exhaust of gas and can be deformed, and further can be folded or rolled up along with the support pad 31, so that the floor mat 3 is convenient to transport, and meanwhile, the external screw thread 410 and the internal screw thread 310 of the rubber materials have certain elasticity, so that the anti-tilting support 41 cannot fall off from the support pad 31 in the folding, rolling or transporting process, and the trouble that screwing is needed again after the anti-tilting support 41 falls off is avoided.

As shown in fig. 3, the lower end of the anti-tilting support 41 has a spherical structure 411; the lower end of the anti-tilting support 41 is provided with an anti-tilting accessory 42; the anti-tilting attachment 42 is in a truncated cone structure, and a spherical groove 420 is formed in the upper bottom surface of the anti-tilting attachment 42; the anti-tilting support 41 and the anti-tilting attachment 42 are in ball joint; the anti-tilting attachment 42 is a hollow structure; the anti-tilting attachment 42 is made of soft inelastic material; a through hole is arranged in the spherical groove 420; a via hole is arranged in the spherical structure 411; the anti-tilting support 41 is communicated with the anti-tilting attachment 42 through the through hole and the through hole.

During operation, as the environments built by the medical rescue tent are different, when the soil is softer, the anti-tilting support 41 is easily inserted into the soil, so that the anti-tilting support 41 is invalid, and the ground mat 3 is inclined after being stressed, therefore, the contact area between the anti-tilting support 41 and the ground is increased by arranging the anti-tilting accessory 42 with a round table-shaped structure at the lower end of the anti-tilting support 41, the anti-tilting support 41 is prevented from sinking into the soil, the invalidation of the anti-tilting support 41 is avoided, and the stability of the ground mat 3 in the horizontal state is improved; because the anti-tilting accessory 42 is in ball joint with the anti-tilting support 41, the anti-tilting accessory 42 and the anti-tilting support 41 can deflect at an angle, so that the anti-tilting support 41 is subjected to axial force, and further, the anti-tilting support 41 is prevented from being bent due to radial force, and the anti-tilting support 41 is prevented from being invalid; because the anti-tilting attachment 42 is made of soft inelastic materials and is of a hollow structure, the anti-tilting support 41 is filled with high-pressure gas in the process of inflating the support pad 31, and the high-pressure gas in the anti-tilting support 41 enters the anti-tilting attachment 42 through the through holes and the through holes, otherwise, the volume of the anti-tilting attachment 42 is reduced after the gas in the support pad 31 is discharged, and the anti-tilting attachment is further folded or rolled up along with the support pad 31 in different places, so that the anti-tilting attachment is convenient to transport.

As shown in fig. 5, the support cells 32 are separated into a plurality of independent cells 322 by crisscrossed isolation cloths 320; the isolation cloth 320 is made of soft inelastic material, and the isolation cloth 320 is provided with damping holes 321.

During operation, because the supporting bag 32 is not fully filled with gas, after the feet tread on the supporting pad 31, the supporting bag 32 stress below the supporting pad 31 can enable the gas to diffuse to the periphery rapidly, the stress is reduced in one end time, and then the supporting force to the supporting pad 31 is also reduced, and further the supporting pad 31 is unfavorable for walking, therefore, the supporting bag 32 is divided into a plurality of independent bags 322 through the criss-cross isolation cloth 320, and the damping holes 321 are arranged on the isolation cloth 320, the mutual independence of the spaces in all the independent bags 322 is realized, the automatic leveling capability of the ground pad 3 is ensured, when a rescuer walks on the ground pad 3, the stress at the foot treading position is suddenly increased, and then the gas pressure in the independent bags 322 is suddenly increased, and at the moment, the damping holes 321 generate a very large damping force, and at the moment, the independent bags 322 are equivalent to an independent closed cavity, and further the gas below the foot treading position is prevented from diffusing to the periphery rapidly, and further the time for the concave of the supporting bag 32 is increased, and further the stable treading force of the supporting bag 32 is obviously increased, and further the stable treading force of the supporting pad 32 is ensured to be stably and stably stepped on the foot treading position of the supporting pad 3 is further ensured, and the supporting pad 3 is stably and the pedal has no change in the time for the supporting pad 32.

As shown in fig. 4, the independent bag 322 is communicated with the supporting pad 31 through a one-way valve 5; the air inlet hole of the one-way valve 5 is communicated with the independent bag 322; the air outlet of the check valve 5 communicates with the support pad 31.

During operation, because the supporting bag 32 is divided into a plurality of independent bags 322, and the damping holes 321 are formed in the isolation cloth 320, and then the supporting bag 32 is very time-consuming in exhausting, therefore, through setting up the check valve 5 between the independent bags 322 and the supporting pad 31, and the air inlet of the check valve 5 is communicated with the independent bags 322, the air outlet is communicated with the supporting pad 31, and then gas can not circulate from the supporting pad 31 into the supporting bag 32, when the supporting bag 32 is inflated, because the gas pressure in the supporting pad 31 needs to be greater than the gas pressure in the supporting bag 32, at this moment, the gas in the supporting bag 32 can not enter the supporting pad 31 through the check valve 5, and then the supporting bag 32 and the supporting pad 31 are mutually independent when the gas is exhausted, and then the gas pressure in the supporting pad 31 is continuously reduced along with the opening of the exhaust hole of the supporting pad 31, when the gas pressure in the supporting pad 31 is less than the supporting bag 32, the gas pressure in the supporting pad 31 is communicated with the supporting pad 31 through the check valve 5, and then the gas in the supporting bag 32 can be conveniently and rapidly exhausted, and the efficiency of the winding ground pad 3 is improved.

As shown in fig. 3, 5 and 7, crisscrossed supporting beams 34 are arranged between the supporting pads 31 and the supporting bags 32; the supporting beam 34 is of a hollow structure, and the supporting beam 34 is made of soft inelastic materials; the support beam 34 is fixedly connected to the lower surface of the support pad 31; the support beam 34 is communicated with the support pad 31 through a vent hole.

During operation, because the area of the ground mat 3 of the medical rescue tent is larger, the rigidity of the inflated support mat 31 is reduced, and the support mat 31 is easy to bend when a foot steps on the support mat 31, so that the whole rigidity of the support mat 31 is increased by arranging the criss-cross support beams 34 below the support mat 31, the bending degree of the support mat 31 during stepping is reduced, and the supporting capacity of the ground mat 3 is improved; because the supporting beam 34 is made of soft inelastic material and is of a hollow structure, when the supporting pad 31 is inflated, the gas in the supporting pad 31 enters the supporting beam 34 through the vent holes, and the high-pressure gas is inflated to enable the supporting beam 34 to have supporting capability to improve the rigidity of the supporting pad 31, and when the high-pressure gas is discharged, the supporting beam 34 loses the gas supporting capability, and the soft characteristic of the supporting beam is restored, so that the supporting beam is convenient to fold or roll together with the supporting pad 31.

As shown in fig. 3, 5 and 7, a bottom frame fixing portion 311 is provided on the upper surface of the support pad 31 near the edge of the support pad 31; the bottom frame fixing part 311 is used for fixing the bottom frame of the medical rescue tent.

During operation, through set up underframe fixed part 311 on supporting pad 31, in the underframe fixed part 311 is filled in the underframe of medical rescue tent in supporting pad 31 inflatable chamber, when filling high-pressure gas in supporting pad 31, underframe fixed part 311 wraps up the underframe of medical rescue tent and fixes, and then makes the underframe of medical rescue tent and ground mat 3 form a whole, and then built tent 2 and the underframe lug connection of medical rescue tent can, and then be convenient for build the quick connection of tent 2 and underframe, and then improved the efficiency that medical rescue tent was built.

As shown in fig. 5 and 7, the floor mat 3 is provided with an equipment placement area 35; avoidance holes penetrating through the ground mat 3 are uniformly arranged in the equipment placement area 35 at intervals.

When the floor mat 3 is in operation, because the medical equipment is generally heavier, if the medical equipment is directly placed on the floor mat 3, the local stress of the floor mat 3 greatly influences the level of the floor mat 3, so that the equipment placement area 35 is arranged, and the avoiding holes penetrating through the floor mat 3 are arranged in the placement area, so that the supporting legs of the heavier medical equipment are directly contacted with the ground through the avoiding holes, and the influence on the level of the floor mat 3 is further avoided; because the medical equipment is in direct contact with the ground, the ground mat 3 is prevented from being slightly stirred to influence the accuracy of the equipment when a rescuer walks on the ground mat 3.

A method of using a temporary medical rescue tent, the method comprising the steps of:

s1: firstly, unfolding the ground mat 3 in a folded state, so that one side of the ground mat 3, where the support bag 32 is located, faces the ground;

s2: after the floor mat 3 is unfolded, splicing the bottom frames of the medical rescue tent, and then plugging the spliced bottom frames of the medical rescue tent into the bottom frame fixing parts 311;

s3: after the bottom frame of the medical rescue tent is plugged into the bottom frame fixing part 311, high-pressure air is filled into the supporting pad 31 through an air pump, so that the supporting pad 31 forms a supporting plane;

s4: after the support cushion 31 is inflated, the air pump is used for inflating the support bag 32, so that the air pressure in the support bag 32 is always smaller than the air pressure in the support cushion 31, and the support bag 32 is not completely inflated;

s5: after the supporting bag 32 supports the supporting pad 31, placing a weight at the center of the upper surface of the supporting pad 31, and automatically horizontally adjusting the supporting pad 31 under the gravity action of the weight;

s6: after the horizontal adjustment is finished, rotating the anti-tilting support 41 through a tool to enable the anti-tilting support 41 to collide with the ground;

S7: after the anti-tilting support 41 is adjusted, the fixing skirt 33 is fixed on the ground by the fixing nails;

s8: after the fixing skirt 33 is completed, removing the weight, and then mounting the canopy frame 2 to the bottom frame of the medical rescue tent and fixing the canopy cloth 1 to the canopy frame 2;

s9: after the medical rescue tent is built, placing medical equipment on the equipment placement area 35 on the floor mat 3;

s10: when the medical rescue tent needs to be disassembled, all the objects in the medical rescue tent are removed firstly, then the tarpaulin 1 and the tarpaulin frame 2 are removed, then the fixing nails on the fixing skirt 33 are pulled out, then the exhaust port on the supporting pad 31 is opened, then the supporting bag 32, the anti-tilting support 41 and the supporting pad 31 are pressed, so that the internal gas is discharged, and finally the ground pad 3 is folded.

When in operation, firstly, the ground mat 3 in a folded state is unfolded, one side of the support bag 32 on the ground mat 3 faces the ground, then the bottom frame of the medical rescue tent is spliced, the spliced bottom frame of the medical rescue tent is plugged into the bottom frame fixing part 311, then high-pressure air is filled into the support mat 31 through the air pump, the support mat 31 forms a support plane along with continuous filling of the high-pressure air, the bottom frame fixing part 311 wraps and fixes the bottom frame of the medical rescue tent, the bottom frame of the medical rescue tent and the ground mat 3 form a whole, the tent frame 2 is further convenient to be quickly installed on the ground mat 3, when the air pressure in the support mat 31 reaches a set value, ventilation is stopped, the support bag 32 is inflated through the air pump, the air pressure in the support bag 32 is always smaller than the air pressure in the support mat 31, and the support bag 32 is not fully unfolded, then a heavy object is placed at the center of the upper surface of the supporting pad 31, then the supporting pad 31 is automatically horizontally adjusted under the gravity action of the heavy object, after the horizontal adjustment is finished, the anti-tilting support 41 is rotated by a tool, then the anti-tilting support 41 is abutted against the ground, and then the ground pad 3 is prevented from tilting, then the fixed skirt 33 is fixed on the ground by fixing nails, then the heavy object is removed, then the tent frame 2 is installed on the bottom frame of the medical rescue tent, and the tarpaulin 1 is fixed on the tent frame 2, and then the medical rescue tent is finished, then medical equipment can be placed on the equipment placement area 35 on the ground pad 3, when the medical rescue tent needs to be disassembled, firstly all the objects in the tent are removed, then the tarpaulin 1 and the tent frame 2 are removed, then the fixing nails on the fixed skirt 33 are pulled out, then the exhaust port on the support pad 31 is opened, and then the support bag 32, the anti-tilting support 41, and the support pad 31 are pressed to allow the internal gas to be exhausted, and finally the floor pad 3 is folded, thereby completing the disassembly of the medical rescue tent.

When the medical rescue tent is needed, firstly, the ground cushion 3 is unfolded, then the ground cushion 3 is paved on the ground, one side of the supporting bag 32 faces the ground, then high-pressure gas is filled into the supporting cushion 31 through the gas filling head, the gas filling is stopped after the gas pressure in the supporting cushion 31 reaches the set pressure, then the gas filling is carried out into the supporting bag 32 through the gas filling head, the supporting cushion 31 is lifted off the ground along with the continuous increase of the gas in the supporting bag 32, the supporting bag is prevented from being filled with the gas in the process after the supporting cushion 31 is completely lifted off the ground, then a heavy object is placed at the center position of the upper surface of the supporting cushion 31, the anti-tilting part 4 is adjusted after the supporting cushion 31 is horizontal, one end of the anti-tilting part 4 close to the ground is abutted on the ground, then the fixing skirt 33 is fixed on the ground through the fixing nails, and then the upper setting up tarpaulin 2 and the installation tarpaulin 1 are installed on the ground mat 3, because the support mat 31 is made of soft inelastic material, and then the support mat 31 can be folded or rolled up at will when no gas is filled in the support mat 31, the support mat 31 can keep its shape after the gas is filled, and the upper surface of the support mat 31 forms a support plane with a certain supporting capacity along with the continuous increase of the gas pressure in the support mat 31, and further because the support bag 32 is made of soft inelastic material, the surface contacted with the ground by the support bag 32 which is not completely opened is attached with the rugged ground, and then the support mat 31 is supported by the support bag 32, and because the gas pressure in the support mat 31 is higher than the gas pressure in the support bag 32, the support bag 32 is deformed under the action of the gravity of a heavy object, the plane in which the support bag 32 is contacted with the support pad 31 is quickened to reach and keep horizontal, so that the support pad 31 is automatically leveled in the horizontal direction, the upper surface of the support pad 31 is guaranteed to be in a horizontal state, the level of articles such as medical equipment placed on the ground pad 3 is guaranteed, the placement and the use of the medical equipment are prevented from being influenced due to rugged ground in a place where the medical rescue tent is built, and rescue personnel are prevented from influencing the rescue of patients due to rugged ground in the medical rescue tent; meanwhile, when rainy weather is met, the ground is isolated from the inside of the medical rescue tent by the ground mat 3, so that rainwater is generated in the medical tent to become moist and muddy, damage of medical equipment and rescue speed of slow rescue workers are avoided, and a drier environment convenient for rescue is provided for the rescue workers.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present invention and the scope of the claims, which are to be protected by the present invention.

Claims (7)

1. A temporary medical aid tent, characterized in that: comprises a tarpaulin (1), a tarpaulin frame (2) and a ground mat (3); the canopy frame (2) is arranged on the ground mat (3); the awning cloth (1) is sleeved on the awning frame (2); the awning cloth (1) is fixedly connected to the awning frame (2);

the ground mat (3) comprises a support mat (31), a support bag (32) and an anti-tilting component (4); the support bag (32) is arranged below the support pad (31); the upper surface of the supporting bag (32) is fixedly connected to the lower surface of the supporting pad (31); the supporting pad (31) and the supporting bag (32) are hollow structures; the supporting pad (31) and the supporting bag (32) are made of soft and inelastic materials; the support cushion (31) and the support bag (32) are provided with inflation heads; the anti-tilting members (4) are uniformly arranged on the supporting pad (31) at intervals along the outer edge of the supporting pad (31); the anti-tilting component (4) is used for always keeping the supporting pad (31) horizontal when the upper surface of the supporting pad (31) is stressed at different positions; a fixed skirt edge (33) is arranged at the outer edge of the lower surface of the supporting pad (31); the fixed skirt edge (33) is fixed on the ground through fixed nails; the supporting pad (31) and the supporting bag (32) are filled with gas, and the gas pressure in the supporting pad (31) is higher than the gas pressure in the supporting bag (32);

The anti-tilt member (4) comprises an anti-tilt support (41); the anti-tilting support (41) is of a hollow structure; the anti-tilting support (41) is made of soft inelastic materials; an outer thread (410) is arranged on the outer cylindrical surface of the anti-tilting support (41); the outer screw teeth (410) are fixedly connected to the anti-tilting support (41); an inner screw thread (310) is arranged at the position of the support pad (31) corresponding to the anti-tilting support (41); the inner screw teeth (310) are fixedly connected to the supporting pad (31); the inner screw thread (310) is matched with the outer screw thread (410); the inner screw teeth (310) and the outer screw teeth (410) are made of rubber materials; the anti-tilting support (41) is communicated with the support pad (31) through an air pipe;

the lower end of the anti-tilting support (41) is of a spherical structure (411); the lower end of the anti-tilting support (41) is provided with an anti-tilting accessory (42); the anti-tilting accessory (42) is of a truncated cone-shaped structure, and a spherical groove (420) is formed in the upper bottom surface of the anti-tilting accessory (42); the anti-tilting support (41) is in ball joint with the anti-tilting accessory (42); the anti-tilting accessory (42) is of a hollow structure; the anti-tilting accessory (42) is made of soft inelastic materials; a through hole is arranged in the spherical groove (420); a via hole is arranged in the spherical structure (411); the anti-tilting support (41) is communicated with the anti-tilting accessory (42) through the through hole and the through hole.

2. A temporary medical rescue tent as defined in claim 1, wherein: the support bag (32) is divided into a plurality of independent bags (322) by crisscrossed isolation cloth (320); the isolating cloth (320) is made of soft inelastic materials, and damping holes (321) are formed in the isolating cloth (320).

3. A temporary medical rescue tent as claimed in claim 2, wherein: the independent bag (322) is communicated with the supporting pad (31) through a one-way valve (5); the air inlet hole of the one-way valve (5) is communicated with the independent bag (322); the air outlet of the one-way valve (5) is communicated with the supporting pad (31).

4. A temporary medical rescue tent as claimed in claim 3, wherein: a crisscrossed supporting beam (34) is arranged between the supporting pad (31) and the supporting bag (32); the supporting beam (34) is of a hollow structure, and the supporting beam (34) is made of soft inelastic materials; the supporting beam (34) is fixedly connected to the lower surface of the supporting pad (31); the supporting beam (34) is communicated with the supporting pad (31) through a vent hole.

5. A temporary medical rescue tent as defined in claim 4, wherein: a bottom frame fixing part (311) is arranged on the upper surface of the supporting pad (31) near the edge of the supporting pad (31); the bottom frame fixing part (311) is used for fixing the bottom frame of the medical rescue tent.

6. A temporary medical rescue tent as defined in claim 5, wherein: the ground mat (3) is provided with an equipment placement area (35); avoidance holes penetrating through the ground mat (3) are uniformly arranged in the equipment placement area (35) at intervals.

7. The method of using a temporary medical rescue tent of claim 6, wherein: the method comprises the following steps:

s1: firstly, unfolding the ground mat (3) in a folded state, so that one side of the ground mat (3) where the support bag (32) is located faces the ground;

s2: after the floor mat (3) is unfolded, splicing the bottom frames of the medical rescue tent, and then plugging the spliced bottom frames of the medical rescue tent into the bottom frame fixing parts (311);

s3: after the bottom frame of the medical rescue tent is plugged into the bottom frame fixing part (311), high-pressure air is filled into the supporting pad (31) through an air pump, so that the supporting pad (31) forms a supporting plane;

s4: after the support cushion (31) is inflated, the support bag (32) is inflated through the air pump, so that the air pressure in the support bag (32) is always smaller than the air pressure in the support cushion (31) and the support bag (32) is not fully expanded;

S5: after the supporting bag (32) supports the supporting pad (31), placing a weight at the central position of the upper surface of the supporting pad (31), and automatically horizontally adjusting the supporting pad (31) under the action of the gravity of the weight;

s6: after the horizontal adjustment is finished, rotating the anti-tilting support (41) through a tool so that the anti-tilting support (41) is abutted against the ground;

s7: after the anti-tilting support (41) is adjusted, fixing the fixed skirt (33) on the ground through the fixing nails;

s8: after the fixing skirt (33) is fixed, taking down a heavy object, and then installing the tent frame (2) on a bottom frame of the medical rescue tent and fixing the tent cloth (1) on the tent frame (2);

s9: after the medical rescue tent is built, placing medical equipment on the equipment placement area (35) on the ground mat (3);

s10: when the medical rescue tent needs to be disassembled, firstly, all objects in the medical rescue tent are removed, then the tarpaulin (1) and the tarpaulin frame (2) are removed, then the fixing nails on the fixing skirt edge (33) are pulled out, then the exhaust port on the supporting pad (31) is opened, then the supporting bag (32), the anti-tilting support (41) and the supporting pad (31) are extruded, so that internal gas is discharged, and finally the ground pad (3) is folded.