CN218278730U - Split type temperature adjusting device for isolation clothes of protective clothing - Google Patents

Abstract

A split attemperating device for barrier gowns of protective apparel comprising: the inner backpack comprises an inner shell with an air inlet and an air outlet, the outer surface of the inner shell is provided with an inner magnet piece, an exposed cold conducting piece and a power receiving coil, an inner fan is arranged in the inner backpack, and the outer surface of the inner shell is exposed on the outer surface of the inner backpack; the outer backpack is internally provided with cold source ice crystals, the inner surface part of the outer backpack is made of cold conducting materials and is provided with outer magnet pieces, exposed cold conducting materials and a wire feeding coil, and the cold source ice crystals are tightly attached to the cold conducting materials; the magnetic backpack is also provided with a circuit board, the circuit board is provided with an outer magnet sheet, the circuit board is sequentially connected with a power supply socket, a charging module, a rechargeable battery, a wireless power transmission circuit board and a power transmission coil after being switched on and off, and the outer magnet sheet and the wireless transmitting coil are exposed on the inner surface of the outer backpack; when the outer surface of the inner shell is attached to the inner surface of the outer backpack, the inner magnet, the outer magnet, the cold conducting material, the cold conducting sheet, the power transmitting coil and the power receiving coil correspond to each other. The invention/utility model is suitable for the prior protective suit isolation clothes and is not easy to cause the damage of the protective suit isolation clothes.

Description

Split type temperature adjusting device for isolation clothes of protective clothing

Technical Field

The utility model relates to a attemperator especially relates to a split type attemperator for protective clothing barrier gown.

Background

Most of the protective suit isolation garments currently available are made of very thin but well air and water tight materials. This makes the wearer feel suffocated, hot in summer and cold in winter. Therefore, various temperature-adjustable protective clothing isolation clothes are put into practical use by many people, and most of the temperature-adjustable protective clothing isolation clothes are provided with cold air or warm air which is generated by a refrigerating or heating device and is input into an upper opening of the protective clothing isolation clothes. That is, the isolation clothes of the protective clothing needs to be specially made, which greatly influences the popularization and the application.

In some cases, a temperature adjusting device is arranged on the existing isolation clothes of the protective clothing without modification. For example, chinese utility model patent ZL202122005986X, entitled nondestructive protective clothing barrier clothing attemperator, its subassembly module, outer subassembly module and external power supply subassembly in including, its characterized in that, subassembly module includes interior mount, built-in fan, built-in power supply subassembly and built-in heat dissipation metal block in including, outer subassembly module includes external fixation frame, outer heat dissipation metal block, external radiator fan, thermal-insulated cotton, semiconductor refrigeration piece and wire. The inner component module and the outer component module are fixed on the protective suit isolation clothes in a buckling mode, so that the inner component module and the outer component module are tightly clamped on the protective suit isolation clothes.

The patent has the following disadvantages: firstly, the inner assembly module and the outer assembly module need to clamp the protective suit isolation clothes by using the hasps, namely the inner assembly module and the outer assembly module are hung on the protective suit isolation clothes, and the inner assembly module and the outer assembly module have certain weight and the protective suit isolation clothes are very thin, so that the protective suit isolation clothes are very easy to damage locally and lose the protective function to be scrapped; secondly, when the battery of the fan in the isolation suit of the protective suit is exhausted and the battery is replaced or charged, the isolation suit of the protective suit needs to be taken off, which brings inconvenience and increases infection risk; thirdly, the fan switch is arranged on a fan in the isolation clothes of the protective clothing, and the switch key can be touched only by pressing down the isolation clothes of the protective clothing, so that the isolation clothes of the protective clothing are easily damaged locally and lose the protection function; fourthly, the condensed water generated by the inner component module of the protective clothing isolation clothes can flow to the human body to cause discomfort.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a split type temperature adjusting device special for the isolation clothes of the protective clothing, which can be well applied to the existing common isolation clothes of the protective clothing and is not easy to damage the isolation clothes of the protective clothing when in use; in addition, the temperature adjusting device can be automatically started, the battery replacement and charging are convenient, the external power supply can be connected for long-time use under the condition of no discharge of the battery, the weight is reduced, the turbulence of condensed water generated in the isolation clothes of the protective clothing can be avoided, and the multifunctional temperature adjusting device is also suitable for multiple purposes such as daily clothes use.

Solve above-mentioned technical problem, the utility model discloses the technical scheme who adopts as follows:

a split type attemperator for barrier gowns of protective clothing is characterized by comprising:

an inner backpack, wherein the inner backpack is internally provided with an air blowing device which comprises a flat inner shell provided with an air inlet and an air outlet, a plurality of inner magnet pieces are distributed around the outer surface of the inner shell, the middle part of the inner shell is provided with an exposed cold conducting piece and a power receiving coil of a wireless power receiving circuit board, one side in the inner shell is provided with an inner fan powered by the wireless power receiving circuit board, the air outlet of the inner fan flows through the cold conducting piece towards the other side, and the outer surface of the inner shell is exposed on the outer surface of the inner backpack;

the outer backpack is internally provided with cold source ice crystals, one part of the inner surface of the outer backpack is a cold conducting material (or an opening), a plurality of outer magnet sheets are distributed around the inner surface (or the cold conducting material/the opening) of the outer shell, the middle part of the inner surface is a cold conducting material (or an exposed cold source ice crystal) and a power transmission coil of a wireless power transmission circuit board, the cold source ice crystals in the outer backpack are tightly attached to the cold conducting material (or part of the cold conducting material/the opening is exposed out), the circuit board is also arranged in the outer backpack, a plurality of outer magnet sheets are distributed around the circuit board, the circuit board is provided with a power supply socket, a charging module and a rechargeable battery which are sequentially connected, and the circuit board is connected with the wireless power transmission circuit board after being switched, the wireless power transmission circuit board is connected with the power transmission coil, and the outer magnet sheets and the wireless transmitting coil are exposed on the inner surface of the outer backpack;

when the outer surface of the inner shell of the inner backpack is attached to the inner surface of the outer backpack, the inner magnet and the outer magnet, the cold conducting material (or cold source ice crystals), the cold conducting sheet, the power transmission coil and the power receiving coil correspond to each other.

The inner backpack and the outer backpack can be a backpack, a vest type bag or a waist bag.

Of course, the ice crystal of the cold source of the outer backpack can be changed into a hot water bag, which is suitable for heating the isolation clothes of the protective clothing, and this is easy to understand and do for the person skilled in the art.

On the basis, the utility model discloses can also have various improvement technical scheme:

the inner surface of the cold guide sheet is provided with a cooling dispersing sheet which can allow air to pass through.

And a condensed water collecting water tank is arranged below the cold guide sheet, and a water absorbing sponge is arranged in the condensed water collecting water tank.

The switch of the circuit board of the outer backpack is a magnetic induction switch, magnets are arranged at corresponding positions of the inner shell, and when the outer backpack and the inner shell clamp the protective suit isolation clothes, the magnetic induction switch corresponds to the power receiving coil and the magnets, so that the power can be automatically switched on. Therefore, the possibility that the wearer is inconvenient to open and close after wearing the gloves can be avoided.

When the product is used, the user can firstly carry on the inner backpack, wear the protective suit isolation clothes and finally carry on the outer backpack. When the outer backpack is worn, the positions of the inner backpack and the outer backpack are adjusted to enable the inner magnet and the outer magnet, the refrigeration material or the cold source ice crystals and the cold conducting sheet and the coils of the wireless transmitting power supply and the wireless receiving power supply to correspond to each other, and the protective clothing isolation clothes clamp is arranged between the outer surface of the inner shell and the inner surface of the outer backpack.

So, because the inner casing is established on the interior knapsack, not directly bear its weight by protective clothing barrier gown, and clip protective clothing barrier gown with magnet, this is favorable to protecting very thin breakable protective clothing barrier gown greatly.

Meanwhile, the inner shell is not provided with a battery but only provided with a wireless power receiving circuit board, so that the weight and the volume of the inner shell are reduced; the water absorption sponge of the condensed water collection water tank below the cold guide sheet can collect condensed water.

Compared with the prior art, the utility model has following beneficial effect:

the utility model is not only equally well applicable to the existing common protective suit isolation clothes, but also is not easy to damage the protective suit isolation clothes when in use; on this, need not to take off the convenient battery of changing of protective clothing isolation gown or charge and prevent infection risk, need not press protective clothing isolation gown and touch on & off key starting equipment, effectively avoid the local damage of protective clothing isolation gown and lose safeguard function, can also avoid the indiscriminate stream of comdenstion water that produces in the protective clothing isolation gown. Is also applicable to multipurpose such as isolation clothes with other functions and daily clothes.

Drawings

Fig. 1 is a schematic front view of an outer surface of an inner housing according to a first embodiment of the present invention;

FIG. 2 is a rear view of FIG. 1;

FIG. 3 is a schematic cross-sectional view of a suitable step of FIG. 2;

figure 4 is a schematic front view of the outer surface of the waist pack of the first embodiment;

FIG. 5 is a schematic front view of the outer surface of the inner backpack of the second embodiment;

FIG. 6 is a schematic front view of the inner surface of the outer backpack of the first embodiment;

FIG. 7 is a schematic circuit board diagram of an outer backpack according to the first embodiment;

FIG. 8 is a schematic view of an example of a barrier garment for use with a protective garment;

FIG. 9 is a schematic view of a barrier garment according to the second embodiment.

Reference numerals in the figures refer to:

an inner backpack 101 (or vest type bag, waist bag), an inner shell 102, a wireless receiving circuit board 110, an inner fan 104, an inner magnet sheet 105, a cold conducting sheet 106, a cold dissipating sheet 107, a condensed water collecting water tank 108, an inner magnet 109, a wireless receiving circuit board 110 and a wireless receiving power coil 111;

the external backpack 201 (or vest type bag, waist bag), the outer shell 202, the rechargeable battery 203, the external fan 204, the external magnet sheet 205, the refrigeration sheet 206, the charging module 210, the power supply socket 208, the switch 209, the wireless transmitting circuit board 210, the wireless transmitting coil 211;

3-protective suit isolation gown.

Detailed Description

The technical solutions of the present invention will be described in detail below with reference to the drawings and examples, so that those skilled in the art can better understand and implement the technical solutions of the present invention.

Referring to fig. 1 to 9, in order to implement the first embodiment of the present invention, it includes:

referring to fig. 1 to 5, an inner backpack 101, in which an air blower is disposed, includes a flat inner housing 102, an air outlet and an air inlet are respectively formed on the upper and lower sidewalls, a plurality of inner magnet pieces 105 are distributed around the outward outer surface of the inner housing, a cooling conductive piece 106 with an exposed middle portion, and a power receiving coil 111 of a wireless power receiving circuit board 110, a cooling dissipating piece 107 allowing air to pass through is disposed on the inner surface of the cooling conductive piece, a condensed water collecting sump 108 is disposed below the cooling conductive piece, a water absorbing sponge 103 is disposed therein, an inner fan 104 powered by a wireless receiving power source is disposed on one side in the inner housing, the air outlet of the inner fan flows through the cooling dissipating piece 107 of the cooling conductive piece toward the other side, and the outer surface of the inner housing is exposed on the outer surface of the inner backpack.

Referring to fig. 6 to 8, an outer backpack 201, a part of the inner surface of which is made of a cold conducting material 206, a plurality of outer magnetic pieces 205 are distributed around the cold conducting material, ice crystals 204 can be contained in the outer backpack and tightly attached to the cold conducting material, a refrigerating device is further arranged in the outer backpack and comprises a circuit board 202, a plurality of outer magnetic pieces 205 are distributed around the circuit board, a power supply socket 208, a charging module 213, a rechargeable battery 203 and a wireless transmitting power supply are sequentially connected to the circuit board, a switch 209 is arranged on a connecting circuit between the rechargeable battery and the wireless transmitting power supply, the wireless transmitting power supply comprises a wireless transmitting circuit board 210 and a wireless transmitting coil 211, and the outer magnetic pieces 205 and the wireless transmitting coil 211 are exposed on the inner surface of the outer backpack.

When the outer surface of the inner shell of the inner backpack is attached to the inner surface of the outer backpack, the inner magnet and the outer magnet, the cold conducting material and the cold conducting sheet correspond to each other, and the coils of the wireless transmitting power supply and the wireless receiving power supply correspond to each other.

Referring to fig. 4, 5 and 6, the inner backpack and the outer backpack may be a backpack, a vest-type bag or a waist bag.

Fig. 9 shows a second embodiment, which is different from the first embodiment only in that a part of the inner surface of an outer backpack 201 is perforated, a plurality of outer magnetic pieces 205 are distributed around the perforation, an exposed bagged cold source ice crystal 204 is arranged in the middle, and part of the bagged cold source ice crystal 204 is exposed out of the inner surface of the outer backpack and perforated to directly cling to the cold guiding pieces on the inner surface of the inner shell of the inner backpack.

Claims (6)

1. The utility model provides a split type attemperator for protective clothing barrier gown which characterized by includes:

an inner knapsack (101), the inner knapsack is equipped with the blast apparatus, it includes a flat type, open inner casing (102) with air inlet and outlet, distribute several inner magnet pieces (105) around the external surface of the inner casing, the middle part is the power receiving coil (111) of the exposed cold-conducting piece (106) and wireless power receiving circuit board (110), one side in the inner casing has inner blower (104) powered by wireless power receiving circuit board, its air outlet flows through the cold-conducting piece towards the other side, the external surface of the inner casing exposes on the external surface of the inner knapsack;

the outer backpack (201) is internally provided with cold source ice crystals (204), one part of the inner surface of the outer backpack is a cold guide material (206), a plurality of outer magnet sheets (205) are distributed on the periphery of the cold guide material on the inner surface of the outer shell, the middle part of the outer backpack is an exposed cold guide material and a power transmission coil (211) of a wireless power transmission circuit board (210), and the cold source ice crystals in the outer backpack are tightly attached to the cold guide material;

a circuit board (202) is further arranged in the outer backpack, a plurality of outer magnet sheets (205) are distributed around the circuit board, a power supply socket (208), a charging module (213) and a rechargeable battery (203) which are sequentially connected are arranged on the circuit board, and the circuit board is connected with a wireless power transmission circuit board (210) after passing through a switch (209), the wireless power transmission circuit board is connected with a power transmission coil, and the outer magnet sheets and the wireless transmitting coil are exposed on the inner surface of the outer backpack;

when the outer surface of the inner shell of the inner backpack is attached to the inner surface of the outer backpack, the inner magnet and the outer magnet, the cold conducting material or cold source ice crystals and the cold conducting sheet, and the power transmission coil and the power receiving coil correspond to each other.

2. The utility model provides a split type attemperator for protective clothing barrier gown which characterized by includes:

an inner knapsack (101), the inner knapsack is equipped with the blast apparatus, it includes a flat type, open inner casing (102) with air inlet and outlet, distribute several inner magnet pieces (105) around the external surface of the inner casing, the middle part is the power receiving coil (111) of the exposed cold-conducting piece (106) and wireless power receiving circuit board (110), one side in the inner casing has inner blower (104) powered by wireless power receiving circuit board, its air outlet flows through the cold-conducting piece towards the other side, the external surface of the inner casing exposes on the external surface of the inner knapsack;

the outer backpack (201) is internally provided with cold source ice crystals (204), one part of the inner surface of the outer backpack is provided with a hole, a plurality of outer magnet sheets (205) are distributed around the hole on the inner surface of the outer shell, a power transmission coil (211) of a wireless power transmission circuit board (210) is exposed on the inner surface of the outer shell, and part of the cold source ice crystals are exposed outside the hole;

a circuit board (202) is further arranged in the outer backpack, a plurality of outer magnet sheets (205) are distributed around the circuit board, a power supply socket (208), a charging module (213) and a rechargeable battery (203) which are sequentially connected are arranged on the circuit board, and the circuit board is connected with a wireless power transmission circuit board (210) after passing through a switch (209), the wireless power transmission circuit board is connected with a power transmission coil, and the outer magnet sheets and the wireless transmitting coil are exposed on the inner surface of the outer backpack;

when the outer surface of the inner shell of the inner backpack is attached to the inner surface of the outer backpack, the inner magnet and the outer magnet, the exposed cold source ice crystals and the exposed cold conducting pieces, the power transmission coil and the power receiving coil correspond to each other.

3. The split attemperating device for barrier gowns of protective garments according to claim 1 or 2, characterised in that: the inner backpack and the outer backpack are backpack, vest type bags or waist bags.

4. The split attemperating device for barrier gowns of protective garments according to claim 1 or 2, characterised in that: the inner surface of the cold guide sheet is provided with a cooling dispersing sheet (107) which can allow air to pass through.

5. The split attemperating device for barrier gowns of protective garments according to claim 1 or 2, characterised in that: and a condensed water collecting water tank (108) is arranged below the cold guide sheet, and a water absorbing sponge (103) is arranged in the condensed water collecting water tank.

6. The split attemperating device for barrier gowns of protective garments according to claim 1 or 2, characterised in that: the switch (209) of the circuit board of the outer backpack is a magnetic induction switch, a magnet (109) is arranged at the corresponding position of the inner shell, and when the outer backpack and the inner shell clamp the protective suit isolation clothes, the magnetic induction switch corresponds to the power receiving coil and the magnet.

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