CN212522199U - Portable all-terrain cold region warming and transferring device - Google Patents

Abstract

The invention discloses a portable all-terrain cold region warming and transferring device, which comprises: the supporting components comprise a plurality of sections of supporting rods, rotating shafts, fixing pieces and a plurality of handles, the ends of the supporting rods of two adjacent sections are connected through the rotating shafts, the fixing pieces arranged on the supporting rods stretch across two sides of the rotating shafts, the free ends of the supporting rods at two ends of the supporting components are connected with one handle, two sides of the supporting components parallel to the central axis of the supporting components are respectively connected with one group of supporting components, and the heat increasing layers are connected with the power generation assembly through wires; the carrying device provided by the invention has the advantages of small volume, light weight, convenience in carrying, strong warming and warming effects, environmental friendliness and energy conservation, and can be used in the field environment in cold regions.

Description

Portable all-terrain cold region warming and transferring device

Technical Field

The invention relates to medical equipment, in particular to a portable all-terrain cold region warming and transferring device.

Background

Medical instruments such as stretcher, stretcher for transporting disease use can make the disease in the transportation, can not lead to the secondary injury because of removing, can accelerate the transport speed moreover, avoids delaying best treatment time, increases the recovered rate of disease.

The existing stretchers and stretcher beds are various and cannot meet the transfer requirements of sick and wounded patients in cold regions, and particularly, the portability and the practicability of transfer equipment need to be considered in the field environment (such as rugged roads, water paths and special terrains) of cold regions. In the transferring process of the sick and wounded in the severe cold area, the body temperature is reduced, the internal environment is disturbed and even the limbs are exposed to frostbite due to the surrounding low-temperature environment, the life risk of the sick and wounded is increased, the cold and fever are more common, and the treatment difficulty is increased. The conventional heating equipment has large volume and mainly supplies power to the storage battery, but the storage battery has low discharge efficiency in a low-temperature environment, so that the aim of heat preservation is difficult to achieve. The invention is characterized in that the invention is correspondingly innovated from the aspects of materials, structure, power generation mode, practicability and the like, and the handbag appearance can be formed by folding the handbag in a non-use state, thereby being convenient for carrying. The device adopts various modes such as foot pedal or rotating wheel to realize power generation and heat increment in the transportation process, and solves the problem of insufficient heat preservation and cold resistance performance of the device for transporting the sick and wounded in the low-temperature severe cold area.

Disclosure of Invention

The portable all-terrain cold region warming and transferring device overcomes the defects of the prior art, and is small in size, light in weight, convenient to carry, strong in warming and warming effects, environment-friendly and energy-saving.

In order to achieve the purpose, the invention adopts the technical scheme that: a portable all-terrain cold region warming and transferring device comprises: two sets of supporting component connect supporting component's multilayer structure's bearing component, and set up bearing component presss from both sides intraformational heat layer that increases, bearing component includes multistage bracing piece, pivot, mounting and a plurality of handle, adjacent two sections the tip of bracing piece is connected by the pivot, sets up on the bracing piece the mounting spanes the pivot both sides, a handle is all connected to the free end of the bracing piece at bearing component both ends, bearing component respectively connects a set of supporting component rather than the parallel both sides of axis, the heat layer is connected the subassembly that generates electricity by the wire.

The electricity generation subassembly includes the rack, and driven gear is connected in the rack toothing, and driven gear connects the permanent magnet, and the permanent magnet periphery sets up a plurality of coils, and when the rack received pressure change form, the rack drove driven gear and rotates, and driven gear rotates the rotation that drives the permanent magnet again, and rotatory permanent magnet produces rotating magnetic field, and coil cutting magnetic induction line produces induced electromotive force, according to alternator's electricity generation principle, sets up the winding mode of coil and permanent magnet, the electricity generation subassembly can set up in the handle, links up rack and shoe cover through the pull wire, and the shoe cover is connected with the pull wire and can dismantle, wears the shoe cover on the carrier foot, steps on in turn when utilizing the walking and stimulates rack concertina movement, further drives the electricity generation subassembly electricity generation, the environmental protection and the energy can.

The electricity generation subassembly includes the driving gear, and driving gear meshing connects the driven gear, and the driven gear connects the permanent magnet, and the permanent magnet periphery sets up a plurality of coils, and when the driving gear received external force and rotates, the driving gear drove driven gear and rotates, and driven gear rotates the rotation that drives the permanent magnet again, and rotatory permanent magnet produces rotating magnetic field, and coil cutting magnetic induction line produces induced electromotive force, the electricity generation subassembly can set up in the support column.

Support column one end is connected the support component by the pivot, and the runner is connected to the other end, just the driving gear of electricity generation subassembly is connected in the runner interlock, the support column can be the flexible pipe that cup joints.

The heating device is characterized in that a heating wire is arranged in the heating layer, the heating wire is connected with a storage battery in a closed mode, the storage battery is connected with a power generation assembly through a lead, one or more storage batteries can be arranged, a temperature control switch capable of being automatically adjusted can be arranged on the storage battery, when the temperature reaches a preset value, the power supply is turned off, the storage battery stores redundant power, and when the temperature is lower than the preset value, the switch is turned on, the power supply is turned on, and the heating wire heats the storage battery.

The support rod and the handle are hollow, the lead and the storage battery are arranged in the accommodating cavity of the support rod, and the support rod of the support component can rotate around the rotating shaft to be folded.

Two handles at the same end of the two supporting parts are connected through a belt, and when the supporting parts are folded, the belt has elasticity, so that the folded supporting parts and the folded bearing parts can be stretched and bound.

One end of the fixing piece is movably connected with the supporting part, the other end of the fixing piece can be inserted into the positioning hole formed in the supporting part shell, when the supporting part is folded, one end of the fixing piece is pulled out of the positioning hole, the supporting part is convenient to fold, when the supporting part is extended to be used, one end of the fixing piece is inserted into the positioning hole, the supporting rod for fixing the supporting part cannot rotate along the rotating shaft, and the supporting part is firmer and more stable.

The bearing component can be a single piece or a plurality of pieces, when the bearing component is a plurality of pieces, each section of supporting rod is connected with an independent bearing component, the bearing component is of a multilayer structure and at least comprises a waterproof layer and a heat increasing layer, and the waterproof layer is made of a material with micro elasticity.

When the supporting component is folded, the belt can be held by hand, the rotating wheel lands on the ground, and the supporting component is carried in a dragging way, so that the supporting component is light and labor-saving.

In a preferred embodiment of the invention, the water-proof device further comprises a water-proof sheet arranged on the periphery of the bearing component, one side of the water-proof sheet can be higher than the upper plane of the bearing component, the water-proof sheet can be made of a material with buoyancy and water resistance, when water flow needs to pass through, the water-proof sheet can well prevent liquid from splashing on the bearing component and can prevent wind from directly blowing a patient, and when the bearing component contacts with the water surface, the water-proof sheet gives a certain buoyancy to the bearing component, so that the burden of a carrier is reduced.

The invention solves the defects in the background technology, and has the following beneficial effects:

(1) the carrying device provided by the invention can be folded quickly, is convenient to carry, occupies a small storage space, is high in temperature increasing speed and strong in heat preservation capability when being used, converts mechanical kinetic energy into electric energy, and is environment-friendly.

(2) The supporting part is of a hollow structure, so that the wires can be conveniently laid and tidily arranged, and the hollow structure of the inner cavity can reduce the weight of the supporting part and is convenient to carry.

(3) The bearing part is of a multilayer structure, each layer with different functions is independent, the bearing part is convenient to clean and replace, the heat increasing layer can provide warm keeping for the patient in low-temperature weather and prevent frostbite, the waterproof layer can be waterproof, the heat increasing layer can also have a heat preservation effect, has slight elasticity, plays a role in buffering when the patient is transported, and improves the comfort level.

(4) The carrying device can be used as a stretcher or a stretcher vehicle, can be used according to different terrains and actual conditions, perfectly combines the carrying device with mechanical kinetic energy power generation, wears shoes on the feet of a carrier, utilizes alternative treading during walking to drive the power generation assembly to generate power, or drives the power generation assembly to generate power through the rotating wheel, can generate power in an environment-friendly way, and saves energy.

Drawings

The invention is further explained below with reference to the figures and examples;

FIG. 1 is a perspective block diagram of a preferred embodiment of the present invention;

FIG. 2 is a perspective structural view of a preferred embodiment of the present invention;

FIG. 3 is a perspective block diagram of a preferred embodiment of the present invention;

FIG. 4 is a perspective structural view of a preferred embodiment of the present invention;

FIG. 5 is a top perspective block diagram of a preferred embodiment of the present invention;

FIG. 6 is a schematic structural view of the power generation assembly of the present invention;

FIG. 7 is a schematic structural view of the power generation assembly of the present invention;

FIG. 8 is a perspective view of the passive gear and permanent magnet of the present invention;

FIG. 9 is a perspective structural view of a preferred embodiment of the present invention;

in the figure: a support member 1; a load bearing member 2; a heat-increasing layer 3; a storage battery 4; a shoe cover 5; a support column 6; a driven gear 7; a driving gear 8; a rack 9; a permanent magnet 10; a water-blocking sheet 11.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings and examples, which are simplified schematic drawings and illustrate only the basic structure of the invention in a schematic manner, and thus show only the constituents relevant to the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "upper", "lower", "inner", "outer", "left", "right" and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

In a first embodiment, as shown in fig. 1 and 5 and fig. 7 and 8, a portable all-terrain cold region warming and transferring device includes: two sets of supporting component 1, connect supporting component 1's multilayer structure's bearing component 2, and set up at bearing component 2 interbedded heat layer 3 that increases, supporting component 1 includes the multistage bracing piece, the apparatus further comprises a rotating shaft, a fixing part and a plurality of handle, the tip of adjacent two sections bracing pieces is connected by the rotating shaft, the fixing part that sets up on the bracing piece spanes the pivot both sides, a handle is all connected to the free end of the bracing piece at supporting component 1 both ends, bearing component 2 respectively connects a set of supporting component 1 rather than the both sides that the axis is parallel, heat layer 3 is connected the electricity generation subassembly by the wire.

The power generation assembly comprises a rack 9, the rack is meshed with and connected with a driven gear, the driven gear is connected with a permanent magnet, a plurality of coils are arranged on the periphery of the permanent magnet, when the rack 9 is subjected to pressure to change the shape, the rack 9 drives the driven gear 7 to rotate, the driven gear 7 rotates to drive the permanent magnet 10 to rotate, the rotating permanent magnet 10 generates a rotating magnetic field, the coils cut magnetic induction lines to generate induced electromotive force, the winding mode of the coils and the permanent magnet 10 is set according to the power generation principle of the alternating current generator, the power generation assembly can be arranged in the handle, and the rack 9 and the shoe cover 5 are connected through; the carrying device is perfectly combined with mechanical kinetic energy power generation, the shoe covers 5 are worn on the feet of a carrier, the alternative treading and pulling of the rack 9 in the walking process is utilized, the power generation assembly is further driven to generate power, the environment is protected, energy is saved, and the shoe covers 5 and the traction line can be detached when the shoe covers need to be cleaned.

Set up the heating wire in the heating layer 3, heating wire closed connection storage battery 4, storage battery 4 passes through the wire and connects the electricity generation subassembly, and storage battery 4 can be one or more, can set up automatically regulated's temperature detect switch on storage battery 4, and when the temperature reached the default, close the circular telegram, storage battery 4 stores unnecessary electricity, and when being less than the default, the switch was opened, and the circular telegram, the heating wire heating.

The bearing part 2 can be a single piece or a plurality of pieces, when the bearing part is a plurality of pieces, each section of supporting rod is connected with an independent bearing part 2, the bearing part 2 is of a multilayer structure and comprises a waterproof layer and a heat increasing layer 3, and the waterproof layer is made of a material with micro elasticity; each layer with different functions is independent, is convenient for wash and replace, and heat gain layer 3 can provide cold-proof in low temperature weather for hindering, prevents the frostbite, and the waterproof layer can also play heat retaining effect to heat gain layer 3 except can be waterproof to have slight elasticity, hinder when sick when the patient in the transportation, play the effect of buffering, improve the comfort level.

One end swing joint supporting component 1 of mounting, the other end can insert in the locating hole that sets up on the supporting component 1 casing, and when supporting component 1 was folding, mounting one end was extracted in the locating hole, and supporting component 1 of being convenient for is folding, and when supporting component 1 extended the use, the one end of mounting was inserted in the locating hole, and the bracing piece of fixed supporting component 1 can not be rotatory along the pivot, makes supporting component 1 firm more stable.

The bracing piece of supporting component 1 can revolute the rotation of axes and fold, and bracing piece and the inside cavity of handle, wire and storage battery 4 set up the intracavity that holds at the bracing piece, and two supporting component 1 pass through the belt with two handles of one end and connect, when supporting component 1 is folding, because the belt has elasticity, can lengthen to tie up supporting component 1 and bearing member 2 after folding. When the supporting component 1 is folded, the belt can be held by hand to be carried, so that the folding chair is light and labor-saving.

In a second embodiment, as shown in fig. 2, fig. 3, fig. 4, fig. 6 and fig. 8, a portable all-terrain cold region warming and transferring device includes: two sets of supporting component 1, connect supporting component 1's multilayer structure's bearing component 2, and set up at bearing component 2 interbedded heat layer 3 that increases, supporting component 1 includes the multistage bracing piece, the apparatus further comprises a rotating shaft, a fixing part and a plurality of handle, the tip of adjacent two sections bracing pieces is connected by the rotating shaft, the fixing part that sets up on the bracing piece spanes the pivot both sides, a handle is all connected to the free end of the bracing piece at supporting component 1 both ends, bearing component 2 respectively connects a set of supporting component 1 rather than the both sides that the axis is parallel, heat layer 3 is connected the electricity generation subassembly by the wire.

The electricity generation subassembly includes driving gear 8, driving gear 8 meshing connection driven gear 7, driven gear 7 connects permanent magnet 10, permanent magnet 10 periphery sets up a plurality of coils, when driving gear 8 receives external force and rotates, driving gear 8 drives driven gear 7 and rotates, driven gear 7 rotates and drives the rotation of permanent magnet 10 again, rotatory permanent magnet 10 produces rotating magnetic field, coil cutting magnetic induction line produces induced electromotive force, the electricity generation subassembly can set up in support column 6.

Support column 6 one end is connected support unit 1 by the pivot, and the runner is connected to the other end, and the driving gear 8 of electricity generation subassembly is connected in the runner interlock, and driving gear 8 drives driven gear 7 and rotates, and support column 6 can be the flexible pipe that cup joints, drives electricity generation subassembly electricity generation through the runner, can environmental protection electricity generation, the energy can be saved.

Set up the heating wire in the heating layer 3, heating wire closed connection storage battery 4, storage battery 4 passes through the wire and connects the electricity generation subassembly, and storage battery 4 can be one or more, can set up automatically regulated's temperature detect switch on storage battery 4, and when the temperature reached the default, close the circular telegram, storage battery 4 stores unnecessary electricity, and when being less than the default, the switch was opened, and the circular telegram, the heating wire heating.

The bearing component 2 can be a single piece or a plurality of pieces, when the bearing component is a plurality of pieces, each section of supporting rod is connected with an independent bearing component 2, the bearing component 2 is of a multilayer structure and at least comprises a waterproof layer and a heating layer 3, and the waterproof layer is made of a material with micro elasticity; each layer with different functions is independent, is convenient for wash and replace, and heat gain layer 3 can provide cold-proof in low temperature weather for hindering, prevents the frostbite, and the waterproof layer can also play heat retaining effect to heat gain layer 3 except can be waterproof to have slight elasticity, hinder when sick when the patient in the transportation, play the effect of buffering, improve the comfort level.

One end swing joint supporting component 1 of mounting, the other end can insert in the locating hole that sets up on the supporting component 1 casing, and when supporting component 1 was folding, mounting one end was extracted in the locating hole, and supporting component 1 of being convenient for is folding, and when supporting component 1 extended the use, the one end of mounting was inserted in the locating hole, and the bracing piece of fixed supporting component 1 can not be rotatory along the pivot, makes supporting component 1 firm more stable.

The bracing piece of support component 1 can revolute the rotation of axes and fold, the inside cavity of bracing piece and handle, wire and storage battery 4 set up the intracavity that holds at the bracing piece, two support component 1 pass through the belt with two handles of one end and connect, when support component 1 is folding, because the belt has elasticity, can lengthen bundle and tie up support component 1 and bearing member 2 after folding, when support component 1 is folding, can hold the belt, the runner lands, the pull-type is carried, it is light laborsaving.

As shown in fig. 9, the water blocking sheet 11 is arranged on the periphery of the bearing component, one side of the water blocking sheet 11 can be higher than the upper plane of the bearing component, the water blocking sheet 11 can be made of a material with buoyancy and waterproofness, when water flow needs to pass through, the water blocking sheet 11 can well block liquid from splashing on the bearing component and can block wind from blowing a patient directly, and when the bearing component contacts with the water surface, the water blocking sheet 11 gives a certain buoyancy to the bearing component, so that the load of a carrier is reduced.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A portable all-terrain cold region warming and transferring device comprises: two sets of supporting component connects supporting component's multilayer structure's bearing component, its characterized in that, be equipped with the heat increment layer in the bearing component intermediate layer, supporting component includes bracing piece, pivot, mounting and a plurality of handle that the multistage connects gradually, and the tip of two sections adjacent bracing pieces is connected by the pivot, sets up on the bracing piece the mounting spanes the pivot both sides, a handle is all connected to the free end of the bracing piece at supporting component both ends, a set of supporting component is respectively connected to bearing component and the parallel both sides of axis, the heat increment layer is connected the electricity generation subassembly by the wire.

2. The portable all-terrain cold region warming and transferring device as claimed in claim 1, wherein: the electricity generation subassembly includes the rack, and driven gear is connected to the rack, and driven gear connects the permanent magnet, and the permanent magnet periphery sets up a plurality of coils, and when the rack received pressure change form, the rack drove driven gear and rotates, and driven gear rotates the rotation that drives the permanent magnet again, and rotatory permanent magnet produces rotating magnetic field, and coil cutting magnetic induction line produces induced electromotive force, the electricity generation subassembly can set up in the handle, and the one end of pull wire is connected to the rack, and the shoe cover is connected to the free end of pull wire, and the shoe cover can be dismantled with the pull wire and be connected.

3. The portable all-terrain cold region warming and transferring device as claimed in claim 1, wherein: the electricity generation subassembly includes the driving gear, and driving gear meshing connects the driven gear, and the driven gear connects the permanent magnet, and the permanent magnet periphery sets up a plurality of coils, and when the driving gear received external force and rotates, the driving gear drove driven gear and rotates, and driven gear rotates the rotation that drives the permanent magnet again, and rotatory permanent magnet produces rotating magnetic field, and coil cutting magnetic induction line produces induced electromotive force, the electricity generation subassembly can set up in the support column.

4. The portable all-terrain cold region warming and transferring device according to claim 3, wherein: support column one end is connected the support component by the pivot, and the runner is connected to the other end, just the driving gear of electricity generation subassembly is connected in the runner interlock.

5. The portable all-terrain cold region warming and transferring device as claimed in claim 1, wherein: and the heating layer is internally provided with an electric heating wire.

6. The portable all-terrain cold region warming and transferring device according to claim 5, wherein: the electric heating wire is connected with a storage battery in a closed mode, and the storage battery is connected with the power generation assembly through a lead.

7. The portable all-terrain cold region warming and transferring device as claimed in claim 1, wherein: the support rod and the handle are hollow, and the lead and the storage battery are arranged in the accommodating cavity of the support rod.

8. The portable all-terrain cold region warming and transferring device as claimed in claim 1, wherein: the supporting rod of the supporting component can rotate and fold around the rotating shaft.

9. The portable all-terrain cold region warming and transferring device as claimed in claim 1, wherein: and the periphery of the bearing part is provided with a water blocking sheet.

10. The portable all-terrain cold region warming and transferring device as claimed in claim 1, wherein: one end of the fixing piece is movably connected with the supporting part, and the other end of the fixing piece can be inserted into a positioning hole formed in the supporting part shell.

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