CN219396347U - Waistcoat capable of sensing temperature difference and automatically heating at constant temperature - Google Patents

Abstract

The utility model discloses a waistcoat capable of automatically heating at constant temperature by sensing temperature difference, which comprises a waistcoat main body, a clamping assembly and a palm heat preservation assembly. According to the utility model, the clamping assembly is arranged in the pocket, the rechargeable battery can be vertically placed under the guide fit of the first elastic strip and the second elastic strip, the rechargeable battery can be vertically clamped and moved under the clamping fit of the first clamping strip and the second clamping strip, the rechargeable battery is ensured to be vertically stable in the pocket, the advantage that the rechargeable battery is vertically clamped and placed in the pocket, and the stable connection of the rechargeable battery and the USB wiring is ensured to be difficult to loosen is achieved, the palm heat insulation assembly is arranged at the front side of the pocket, the palm is subjected to heat insulation fit under the heat fit of the carbon fiber heating plate, and the heat insulation effect can be enhanced under the heat insulation cotton layer and the carbon fiber heat conduction layer, so that the high-efficiency heat insulation placement of the palm of a user is achieved, and the heat insulation effect of the waistcoat on a human body is enhanced.

Description

Waistcoat capable of sensing temperature difference and automatically heating at constant temperature

Technical Field

The utility model relates to the related field of waistcoats, in particular to a waistcoat capable of automatically heating at constant temperature by sensing temperature difference.

Background

In seasons with low air temperature, the waistcoat is a better warm-keeping garment, has the characteristics of convenience in putting on and taking off, good warm keeping property, fashion and wild, and the like, can not influence the flexibility of the action of a user too much, is deeply loved by people, and generally needs to be thicker or can exert better warm-keeping effect when worn internally;

in recent years, people put the waistcoat with an electric heating function into the market, place the electric heating plates with an electrifying heating function into the waistcoat, maintain the heating of the whole system through a movable power supply, usually place a plurality of electric heating plates in front and back of the waistcoat respectively, and connect together in series or in parallel, when the power supply is switched on, the effect of common heating is achieved, and the function of synchronously heating all parts of the body is realized;

in order to better realize heating activity, an intelligent controller and an NTC temperature sensing element are arranged in the waistcoat to sense the automatic constant-temperature heating activity of temperature difference, so that the waistcoat is self-adaptive to the external temperature and the temperature and electric quantity required by a human body are saved;

the prior Chinese patent CN202020535808.0 discloses an aerogel-containing energy-saving electric heating waistcoat, which comprises a waistcoat body and a heating system, wherein the waistcoat body sequentially comprises a surface layer, an aerogel heat insulation layer, a buffer layer and an inner layer, the heating system comprises a plurality of electric heating plates, a temperature sensing chip and a control unit, the control unit is respectively connected with the temperature sensing chip and the electric heating plates through electric wires, the electric heating plates and the temperature sensing chip are fixedly arranged between the aerogel heat insulation layer and the inner layer, the temperature sensing chip collects ambient temperature information, the aerogel heat insulation layer and the buffer layer have good heat insulation and heat dissipation reducing effects, the electric heating plates are independently arranged and controlled by the control unit, and the temperature sensing chip measures and feeds back the heating temperature of the heating plates to the control unit, so that the heating and heating temperature control of the waistcoat body are realized, the energy consumption is reduced, and the using comfort of a user is improved;

the prior art has the problems that the placement of the rechargeable battery is unstable, but the rechargeable battery is placed in the pocket, the battery is affected by walking or external force, the inclination phenomenon is easy to occur, the connection part of the rechargeable battery and the wiring is easy to loose in stress, the power-off phenomenon occurs, and meanwhile, after the rechargeable battery is placed inside a pocket, the subsequent hand placement space is easy to be affected, so that the thermal insulation activity of the hand of a user is not facilitated.

Disclosure of Invention

Therefore, in order to solve the defects, the utility model provides the waistcoat capable of automatically heating at constant temperature by sensing the temperature difference.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a but automatically constant temperature heating's of response difference in temperature waistcoat, includes the waistcoat main part, the zip fastener has been sewed up in waistcoat main part front side middle part, the pocket has all been sewed up in the left and right sides of waistcoat main part front side lower extreme, the right side the inside upper end of pocket meets the USB wiring, and the inside rechargeable battery that has placed of the pocket that sets up on the right side, NTC temperature sensing piece is installed relatively in waistcoat main part bottom clothing angle left and right sides, intelligent switch is installed to the upper end on the waistcoat main part right side, intelligent switch upper end is equipped with the pilot lamp relatively, the front portion heating piece is all installed to the left and right sides of waistcoat main part front portion, waistcoat main part back is equipped with the rear portion heating piece, still including locating inside joint subassembly and the palm insulation module that locates the pocket front side, joint subassembly is including locating first elastic strip and the second elastic strip of the inside left and right sides of pocket, first card strip and second card strip and the cushion that first elastic strip and second elastic strip front side were located to the equidistance respectively.

Preferably, the palm heat preservation component comprises a waterproof cloth layer sewed and connected to the front side of the pocket, an air vent arranged on the front side of the waterproof cloth layer, a carbon fiber heating sheet arranged in the waterproof cloth layer, a heat preservation cotton layer arranged on the rear side of the carbon fiber heating sheet relatively and a carbon fiber heat conduction layer arranged at the rear end of the heat preservation cotton layer.

Preferably, the NTC temperature-sensing parts on both sides are connected with the front heating plate, the rear heating plate and the intelligent switch, and the rear heating plate is arranged at four places along the rear side of the waistcoat main body at equal intervals.

Preferably, the first elastic strip, the second elastic strip, the first clamping strip, the second clamping strip and the cushion block are symmetrically arranged left and right along the lower end of the waistcoat main body, and the first elastic strip and the second elastic strip are vertically arranged left and right relatively.

Preferably, the first clamping strip and the second clamping strip are obliquely arranged along the front sides of the first elastic strip and the second elastic strip which are correspondingly connected, and the first clamping strip and the second clamping strip are integrally arranged in an elastic sheet shape.

Preferably, the cushion block is integrally arranged in a rectangular block shape, and the cushion blocks are respectively positioned at the middle parts of the front lower ends of the first elastic strip and the second elastic strip and are integrally connected.

Preferably, the air holes are formed in the front side of the waterproof cloth layer at equal intervals, and hollow parts are arranged in the inner side of the waterproof cloth layer and are connected with the carbon fiber heating plate, the heat-insulating cotton layer and the carbon fiber heat conducting layer in a sewing mode.

Preferably, the carbon fiber heat conduction layer is formed by weaving a plurality of heat conduction carbon fiber filaments, and the plurality of heat conduction carbon fiber filaments arranged in the carbon fiber heat conduction layer are all in a curved shape.

The utility model has the beneficial effects that:

advantage 1: according to the utility model, the clamping assembly is arranged in the pocket, the rechargeable battery can be vertically placed under the guide fit of the first elastic strip and the second elastic strip, and the rechargeable battery can be vertically clamped and moved under the clamping fit of the first clamping strip and the second clamping strip, so that the rechargeable battery is ensured to be vertically stable in the pocket, and the advantages of being vertically clamped and placed in the pocket, and ensuring that the rechargeable battery is stably connected with the USB wiring and is not easy to loosen are achieved.

Advantage 2: according to the utility model, the palm heat preservation component is arranged at the front side of the pocket, the palm is in heat preservation fit under the heat fit of the carbon fiber heating sheet, and the heat preservation effect can be enhanced under the fit of the heat preservation cotton layer and the carbon fiber heat conduction layer, so that the efficient heat preservation placement of the palm of a user is achieved, and the heat preservation effect of the waistcoat on a human body is enhanced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic elevational cross-sectional view of the present utility model;

FIG. 3 is a schematic diagram of the front view of the clamping assembly of the present utility model;

FIG. 4 is a schematic perspective view of a clamping assembly according to the present utility model;

fig. 5 is a schematic diagram of a three-dimensional split structure of the palm insulation assembly of the present utility model.

Wherein: the waistcoat comprises a waistcoat main body-1, a zipper-2, a pocket-3, a USB wiring-4, a rechargeable battery-5, an NTC temperature sensing piece-6, an intelligent switch-7, an indicator lamp-8, a front heating plate-9, a rear heating plate-10, a clamping component-11, a first elastic strip-111, a second elastic strip-112, a first clamping strip-113, a second clamping strip-114, a cushion block-115, a palm heat preservation component-12, a waterproof cloth layer-121, an air vent-122, a carbon fiber heating plate-123, a heat preservation cotton layer-124 and a carbon fiber heat conduction layer-125.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1-2, the utility model provides a waistcoat capable of automatically heating at constant temperature by sensing temperature difference, which comprises a waistcoat main body 1, wherein the middle part of the front side of the waistcoat main body 1 is sewed and connected with a zipper 2, the left side and the right side of the lower end of the front side of the waistcoat main body 1 are sewed with pockets 3, the upper end of the inside of each pocket 3 on the right side is connected with a USB connection 4, rechargeable batteries 5 are arranged in the pockets 3 arranged on the right side, NTC temperature sensing elements 6 are oppositely arranged on the left side and the right side of the clothing corner of the bottom of the waistcoat main body 1, an intelligent switch 7 is arranged on the upper end of the right side of the waistcoat main body 1, an indicator lamp 8 is oppositely arranged on the upper end of the intelligent switch 7, front heating plates 9 are respectively arranged on the left side and the right side of the front chest of the waistcoat main body 1, the back of the waistcoat main body 1 is provided with a back heating plate 10, and a clamping assembly 11 arranged on the back of the waistcoat main body 3, and a palm heat preservation assembly 12 arranged on the front side of the pockets 3, and the front heating plates 9 and the back heating plates 10 are respectively made of nanometer steel fiber heating wires or graphene heating plates.

The NTC temperature-sensing pieces 6 on two sides are connected with the front heating plate 9, the rear heating plate 10 and the intelligent switch 7, and the rear heating plate 10 is arranged at four places along the rear side of the waistcoat main body 1 at equal intervals, so that the NTC temperature-sensing pieces 6 are ensured to realize automatic induction activity of external temperature, and temperature sensing and adjusting activity is realized along with the external environment.

The temperature sensing end of the NTC temperature sensing element 6 arranged on the left side is positioned on the front side, and the temperature sensing end of the NTC temperature sensing element 6 arranged on the right side is positioned on the rear side.

Referring to fig. 3-4, the clamping assembly 11 in this embodiment includes a first elastic strip 111 and a second elastic strip 112 vertically disposed on the left and right sides of the inside of the pocket 3, the first elastic strip 111 and the second elastic strip 112 are all vertically fastened and connected along the inside of the pocket 3, the first elastic strip 111 and the second elastic strip 112 are made of plastic elastic materials, a first clamping strip 113 and a second clamping strip 114 are respectively disposed on the front sides of the first elastic strip 111 and the second elastic strip 112 at equal intervals for vertically clamping the rechargeable battery 5, the first clamping strip 113 and the second clamping strip 114 are respectively disposed at equal intervals along the first elastic strip 111 and the second elastic strip 112, and a cushion block 115 for supporting the bottom of the first elastic strip 111 and the bottom of the second elastic strip 112 is connected.

Further, the first elastic strip 111, the second elastic strip 112, the first clamping strip 113, the second clamping strip 114 and the cushion block 115 are symmetrically arranged left and right along the lower end of the waistcoat main body 1, and the first elastic strip 111 and the second elastic strip 112 are vertically arranged left and right relatively, so that the first elastic strip 111 and the second elastic strip 112 realize vertical insertion guiding matching movement; the first clamping strip 113 and the second clamping strip 114 are obliquely arranged along the front sides of the first elastic strip 111 and the second elastic strip 112 which are correspondingly connected respectively, and the first clamping strip 113 and the second clamping strip 114 are integrally arranged in an elastic sheet shape, so that the first clamping strip 113 and the second clamping strip 114 realize firm elastic clamping movement on the rechargeable battery 5; the cushion blocks 115 are integrally rectangular and blocky, and the cushion blocks 115 are respectively positioned at the middle parts of the front lower ends of the first elastic strip 111 and the second elastic strip 112 and are integrally connected, so that the cushion blocks 115 arranged at two sides can stably support and cooperate with the placed rechargeable battery 5.

Referring to fig. 5, the palm insulation component 12 in this embodiment includes a waterproof cloth layer 121 sewed and connected to the front side of the pocket 3 for waterproof fit, ventilation holes 122 formed in the front side of the waterproof cloth layer 121 for ventilation fit and sultry prevention, five groups of ventilation holes 122 formed along the front side of the waterproof cloth layer 121, carbon fiber heating sheets 123 disposed inside the waterproof cloth layer 121 for heating fit, an insulation cotton layer 124 disposed opposite to the rear side of the carbon fiber heating sheets 123, and a carbon fiber heat conducting layer 125 disposed at the rear end of the insulation cotton layer 124 for temperature heat conduction fit.

The ventilation holes 122 are formed along the front side of the waterproof cloth layer 121 at equal intervals, and a hollow part is arranged on the inner side of the waterproof cloth layer 121 and is connected with the carbon fiber heating plate 123, the heat-insulating cotton layer 124 and the carbon fiber heat-conducting layer 125 in a sewing way, so that the waterproof cloth layer 121 and the carbon fiber heating plate 123, the heat-insulating cotton layer 124 and the carbon fiber heat-conducting layer 125 are firmly connected in a sewing way; the carbon fiber heat conduction layer 125 is formed by weaving a plurality of heat conduction carbon fiber filaments, and the plurality of heat conduction carbon fiber filaments arranged in the carbon fiber heat conduction layer 125 are all in a curved shape, so that the carbon fiber heat conduction layer 125 can perform stable heat conduction matching movement through the plurality of heat conduction carbon fiber filaments arranged in the carbon fiber heat conduction layer 125.

The working principle is as follows:

when a user wears the waistcoat, the USB wiring 4 connected with the inside of the pocket 3 arranged on the right side can be connected with the rechargeable battery 5 arranged in the pocket 3 arranged on the right side to perform electrifying activities, then the user can perform operation heating activities of the waistcoat main body 1 through the intelligent switch 7 arranged at the upper end of the right side of the waistcoat main body 1, namely the front heating sheet 9 and the rear heating sheet 10 arranged at the back of the left side and the right side of the front chest of the waistcoat main body 1 and equidistant to the rear side can realize slow constant temperature heating activities along with electrifying to provide temperature for the body of the user;

when the NTC temperature sensing pieces 6 arranged on the left side and the right side of the lower end of the waistcoat main body 1 sense that the outdoor temperature is lower than 10 ℃, the opening temperature is automatically excited by the intelligent switch 7, so that the front heating piece 9 and the rear heating piece 10 are heated in a running mode, and when the temperature is higher than 10 ℃, the waistcoat is required to be opened manually, otherwise, the power supply is automatically cut off. The output power is automatically regulated according to the forward 15 degrees of the temperature value sensed by the rated temperature difference environment, so that clothes are heated, namely when the external temperature is higher, the output power is smaller, when the external temperature is lower, the output is higher, the temperature is higher, and the electricity consumption activity is saved;

further, under the condition of intelligent temperature control, the waistcoat main body 1 can automatically perform constant-temperature heating activities by sensing temperature difference, so that the heating usability of the waistcoat main body 1 is enhanced;

in order to make the rechargeable battery 5 be in a vertical state when being placed in the right pocket 3, avoiding the phenomenon of deflection to cause loosening of the connection part of the rechargeable battery 5 and the USB connection 4 and power failure, the clamping assembly 11 is arranged in the pocket 3 to realize vertical clamping activity on the rechargeable battery 5, namely when the rechargeable battery 5 is placed in the pocket 3, the rechargeable battery 5 can be vertically placed in the pocket 3 under the guiding cooperation of the first elastic strip 111 and the second elastic strip 112 arranged in the clamping assembly 11, and the rechargeable battery 5 is vertically placed under the elastic clamping cooperation of the first clamping strip 113 and the second clamping strip 114 correspondingly arranged outside the first elastic strip 111 and the second elastic strip 112, and the rechargeable battery 5 is vertically clamped in the pocket 3, and when the bottom of the rechargeable battery 3 is contacted with the cushion block 115 arranged at the bottom of the first elastic strip 111 and the second elastic strip 112, the vertical clamping of the rechargeable battery 5 can be completed, so that the rechargeable battery 5 is prevented from being inclined in the pocket 3, and the advantages of ensuring that the rechargeable battery 5 is easily vertically clamped in the pocket 3 and is not stably connected with the USB connection 4 are achieved;

in order to avoid that the pocket 3 arranged on the right side is placed into the rechargeable battery 5, the placement and heat preservation of the palm of a user are not affected, and the palm heat preservation component 12 is arranged on the front side of the pocket 3, namely, the palm of the user can be placed into the palm heat preservation component 12, so that the heat preservation placement activity is realized under the heat conduction fit of the carbon fiber heating sheet 123 arranged in the palm heat preservation component 12, meanwhile, the palm placed in the palm heat preservation component 12 can be guaranteed under the heat conduction fit of the heat preservation cotton layer 124 and the carbon fiber heat conduction layer 125, the efficient heat preservation activity is realized, and the waterproof fit activity can be realized under the fit of the waterproof cloth layer 121 arranged on the outermost side of the palm heat preservation component 12, so that the efficient heat preservation placement of the palm of the user is realized, and the advantage of the heat preservation effect of the waistcoat on a human body is enhanced.

The utility model provides a waistcoat capable of automatically heating at constant temperature by sensing temperature difference, which is characterized in that a clamping assembly 11 is arranged in a pocket 3, a rechargeable battery 5 can be vertically placed under the guiding cooperation of a first elastic strip 111 and a second elastic strip 112, and the rechargeable battery 5 can be vertically clamped and moved under the clamping cooperation of the first clamping strip 113 and the second clamping strip 114, so that the rechargeable battery 5 is vertically stable in the pocket 3, the advantages that the rechargeable battery 5 is vertically clamped in the pocket 3, the stable connection of the rechargeable battery 5 and a USB connection 4 is not easy to loosen are achieved, a palm heat preservation assembly 12 is arranged at the front side of the pocket 3, the palm is subjected to heat preservation cooperation under the heat preservation cooperation of a carbon fiber heating plate 123, and the heat preservation effect can be enhanced under the cooperation of a heat preservation cotton layer 124 and a carbon fiber heat conduction layer 125, thereby achieving the advantages that the palm of a user is efficiently placed under heat preservation, and the heat preservation effect of the waistcoat on a human body is enhanced.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a but automatically constant temperature heating's of response difference in temperature, includes waistcoat main part (1), the zip fastener (2) has been sewed up in the middle part of waistcoat main part (1) front side, pocket (3) have all been sewed up in the left and right sides of waistcoat main part (1) front side lower extreme, and the right side pocket (3) inside upper end meets USB wiring (4), and the inside rechargeable battery (5) of having placed of pocket (3) that sets up on the right side, NTC temperature sensing piece (6) are installed relatively in the left and right sides of waistcoat main part (1) bottom clothing angle, intelligent switch (7) are installed to waistcoat main part (1) right side upper end, intelligent switch (7) upper end is equipped with pilot lamp (8) relatively, anterior heating piece (9) are all installed to waistcoat main part (1) front portion left and right sides, the back is equipped with rear portion heating piece (10);

the method is characterized in that: still including locating inside joint subassembly (11) of pocket (3) and locating palm heat preservation subassembly (12) of pocket (3) front side, joint subassembly (11) are including locating first elastic strip (111) and second elastic strip (112) of the inside left and right sides of pocket (3), first card strip (113) and second card strip (114) and first elastic strip (111) and cushion (115) that second elastic strip (112) bottom meet of locating first elastic strip (111) and second elastic strip (112) front side of equidistance respectively.

2. The waistcoat capable of being heated at constant temperature by sensing temperature difference according to claim 1, wherein: the palm heat preservation assembly (12) comprises a waterproof cloth layer (121) connected to the front side of the pocket (3) in a sewing mode, ventilation holes (122) formed in the front side of the waterproof cloth layer (121), a carbon fiber heating sheet (123) arranged in the waterproof cloth layer (121), a heat preservation cotton layer (124) arranged on the rear side of the carbon fiber heating sheet (123) relatively and a carbon fiber heat conduction layer (125) arranged at the rear end of the heat preservation cotton layer (124).

3. The waistcoat capable of being heated at constant temperature by sensing temperature difference according to claim 1, wherein: the NTC temperature-sensing pieces (6) on two sides are connected with the front heating piece (9), the rear heating piece (10) and the intelligent switch (7), and the rear heating pieces (10) are arranged at four places along the rear side of the waistcoat main body (1) at equal intervals.

4. The waistcoat capable of being heated at constant temperature by sensing temperature difference according to claim 1, wherein: the first elastic strip (111), the second elastic strip (112), the first clamping strip (113), the second clamping strip (114) and the cushion block (115) are symmetrically arranged left and right along the lower end of the waistcoat main body (1), and the first elastic strip (111) and the second elastic strip (112) are vertically arranged left and right relatively.

5. The waistcoat capable of being heated at constant temperature by sensing temperature difference according to claim 1, wherein: the first clamping strip (113) and the second clamping strip (114) are obliquely arranged in front of the first elastic strip (111) and the second elastic strip (112) which are correspondingly connected respectively, and the first clamping strip (113) and the second clamping strip (114) are integrally arranged in an elastic sheet shape.

6. The waistcoat capable of being heated at constant temperature by sensing temperature difference according to claim 1, wherein: the cushion blocks (115) are integrally arranged in rectangular blocks, and the cushion blocks (115) are respectively arranged at the middle parts of the front lower ends of the first elastic strips (111) and the second elastic strips (112) and are integrally connected.

7. The waistcoat capable of being heated at constant temperature by sensing temperature difference according to claim 2, wherein: the ventilation holes (122) are formed in the front side of the waterproof cloth layer (121) at equal intervals, and hollow parts are formed in the inner side of the waterproof cloth layer (121) and are connected with the carbon fiber heating plate (123), the heat-insulating cotton layer (124) and the carbon fiber heat conducting layer (125) in a sewing mode.

8. The waistcoat capable of being heated at constant temperature by sensing temperature difference according to claim 2, wherein: the carbon fiber heat conduction layer (125) is formed by weaving a plurality of heat conduction carbon fiber filaments, and the plurality of heat conduction carbon fiber filaments arranged in the carbon fiber heat conduction layer (125) are all in a bending shape.