CN215459220U - Dressing temperature regulator - Google Patents

Abstract

The utility model provides a dressing temperature regulator, and relates to the technical field of daily necessities. This dressing temperature regulation appearance includes shell body and inner bag box, and the shell body is equipped with the opening, and inside the shell body was located to the inner bag box is detachable, and the box mouth and the opening intercommunication of inner bag box enclose between inner bag box and the shell body and become to hold the cavity. The installation adaptability of accommodating the cavity to each electronic component in this dressing temperature regulation appearance is high, and the use convenience and the later maintenance nature of auxiliary material temperature regulation appearance are all higher.

Description

Dressing temperature regulator

Technical Field

The utility model relates to the technical field of daily necessities, in particular to a dressing temperature regulator.

Background

The application products such as facial masks, plasters and the like are commonly used by people, people use the dressings to be attached to other parts of the face or the body, and when the dressing is used, a user can heat or refrigerate the auxiliary materials to improve the using effect of the application products. Present market appears one kind and heats or refrigerated facial mask thermoregulator for the product is applied in the subsides, file for CN203652362U proposes an intelligent recognition facial mask temperature controller like patent number, including procapsid, back casing, heating mechanism and refrigeration mechanism, the inside cavity of procapsid and back casing, heating mechanism installs in the procapsid, and refrigeration mechanism installs in the back casing, and procapsid and back casing laminating are connected, and procapsid and back casing recess in opposite directions make up into the heating refrigeration slot that holds the facial mask. However, the arrangement of the heating mechanism and the refrigerating mechanism in the mask temperature controller is greatly limited by the hollow space inside the front shell and the rear shell.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a dressing temperature regulator to solve the technical problem that the arrangement of electronic components in the existing mask instrument is greatly limited by a shell when the mask instrument is used.

In order to solve the problems, the utility model provides a dressing temperature regulator which comprises an outer shell and an inner container box, wherein the outer shell is provided with an opening, the inner container box is detachably arranged in the outer shell, a box opening of the inner container box is communicated with the opening, and an accommodating cavity is defined between the inner container box and the outer shell.

Optionally, the accommodating cavity comprises a temperature adjusting area and an installation area which are different in position, the temperature adjusting area is provided with a temperature adjusting module, and the temperature adjusting module is used for heating or refrigerating the liner wall of the liner box corresponding to the temperature adjusting area;

the mounting area is provided with an electric control module and a temperature control module, the temperature control module reaches the temperature adjusting module and is connected with the electric control module, and the temperature control module is used for adjusting the on-off state, the cold-hot mode and the adjusting temperature of the temperature adjusting module.

Optionally, a first region, a second region, a third region and a fourth region which are sequentially arranged along the circumferential direction are defined between the outer side wall of the inner container box and the inner side wall of the outer shell, the first region and the third region are oppositely arranged, and the second region and the fourth region are oppositely arranged; a fifth area is formed between the box bottom wall of the inner container box and the outer shell, wherein the first area is used as the temperature adjusting area, and the second area, the third area, the fourth area and the fifth area jointly form the mounting area.

Optionally, the electronic control module includes a main circuit board and a power supply component connected to the main circuit board, and the main circuit board, the power supply component and the temperature control module are respectively located in one of the four areas, namely the second area, the third area, the fourth area and the fifth area.

Optionally, the electronic control module further includes a display module, and the display module is mounted in the third area and connected to the main circuit board; the outer shell is provided with a mounting hole, and a display screen of the display assembly is matched and inserted in the mounting hole;

the main circuit board, the power supply assembly and the temperature control module are respectively located in one of the second area, the fourth area and the fifth area.

Optionally, the main circuit board is located in the fifth area, and the main circuit board is covered with a protective cover.

Optionally, the outer shell and the inner container box are in the shape of a corresponding flat box, the opening is correspondingly flat, the accommodating cavity and two areas corresponding to two long sides of the flat box are respectively the first area and the third area, and the accommodating cavity and two areas corresponding to two short sides of the flat box are respectively the second area and the fourth area.

Optionally, the inner container box comprises a box opening connecting body, a supporting body and a heat conducting plate, the heat conducting plate and the supporting body together enclose a container body of the inner container box, and the box opening connecting body is connected between a container opening of the container body and an opening of the outer shell; the area between the heat-conducting plate and the shell body is the first area, and the temperature adjusting module is connected to the heat-conducting plate and used for heating or refrigerating the heat-conducting plate.

Optionally, the heat conducting plate is inclined toward the third region from the cartridge opening to the cartridge bottom.

Optionally, the temperature regulation module includes the semiconductor wafer, the heat-conducting plate orientation the outer wall of shell body includes regulation district and thermal-insulated district, the first temperature regulation terminal surface of semiconductor wafer laminate in the regulation district, the thermal-insulated district covers there is the insulating layer.

Optionally, the temperature adjustment area is provided with a heat dissipation assembly, and the heat dissipation assembly is used for performing heat dissipation treatment on the temperature adjustment module.

According to the dressing temperature regulator provided by the utility model, on one hand, an integral accommodating cavity is enclosed between the inner container box and the outer shell, the positions of the inner container box and the outer shell which are arranged in the accommodating cavity can be distributed according to the sizes, the shapes and the like of different electronic components, the surrounding space of the periphery of the inner container box is fully utilized, so that the installation adaptability of the accommodating cavity and the compactness of the electronic components which are arranged in the accommodating cavity are improved, the integral volume of the auxiliary material temperature regulator is correspondingly reduced, the portability of the dressing temperature regulator is improved, the dressing temperature regulator is convenient for a user to use at any time, and the use convenience of the dressing temperature regulator is improved. On the other hand, when the dressing temperature regulator is used and an electronic component in the accommodating cavity breaks down, the outer shell can be detached to expose the electronic component, and then the electronic component is maintained; after the maintenance is accomplished, with the shell body reconnect in inner bag box can normal use, the convenient degree of maintenance of auxiliary material temperature regulation appearance is higher, and the convenient degree when electronic components and inner bag box and shell body assembly is also higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Figure 1 is a schematic view from a first perspective of a dressing temperature conditioner according to the present invention in a first form;

FIG. 2 is a schematic view from a second perspective of the dressing temperature control device of the present invention in a first form;

FIG. 3 is a schematic internal view of the dressing temperature conditioner of FIG. 1;

FIG. 4 is a schematic view from a third perspective of the dressing temperature control device of the present invention in a first form;

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is a simplified schematic diagram of a first section of a receiving cavity of the dressing temperature regulator of the present invention;

FIG. 7 is a simplified schematic diagram of a second section of a receiving chamber in a dressing temperature conditioner according to the present invention;

FIG. 8 is a schematic view from a first perspective of a dressing temperature conditioner according to the present invention in a second form;

FIG. 9 is a schematic view from a second perspective of a dressing temperature conditioner according to the present invention in a second form;

FIG. 10 is a schematic view from a third perspective of a dressing temperature regulator according to the present invention in a second form;

FIG. 11 is a schematic internal view of the dressing temperature conditioner of FIG. 8;

FIG. 12 is a schematic view from a fourth perspective of a dressing temperature regulator according to the present invention in a second form;

fig. 13 is a sectional view taken in the direction B-B in fig. 12.

Description of reference numerals:

100-an outer shell; 110-left shell; 120-right shell; 130-a bottom shell; 140-mounting holes; 150-heat dissipation holes; 160-air inlet; 170-air outlet; 180-opening; 190-air guide groove; 200-inner container box; 210-a cassette port connector; 220-a support; 230-a thermally conductive plate; 310 — a first region; 320-a second region; 330-a third area; 340-a fourth region; 350-fifth area; 400-temperature regulating module; 410-a semiconductor wafer; 420-a thermal insulation layer; 500-temperature control module; 510-a first switch; 520-a second switch; 600-a main circuit board; 610-a protective cover; 700-power supply components; 800-a display component; 900-a heat sink assembly; 910-a fan; 920-a heat sink; 930-wind guide.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

The present embodiment provides a dressing temperature regulator, as shown in fig. 1-3, including an outer casing 100 and an inner container box 200, the outer casing 100 is provided with an opening 180, the inner container box 200 is detachably disposed inside the outer casing 100, a box opening of the inner container box 200 is communicated with the opening 180, and a containing cavity is defined between the inner container box 200 and the outer casing 100.

The dressing temperature regulator provided by the embodiment comprises an outer shell 100 and an inner container box 200 for accommodating a dressing product, wherein an accommodating cavity for installing each electronic component is enclosed between the outer shell 100 and the inner container box 200. When the inner container box is used, a dressing product is inserted into the inner container box 200 through the opening, and then the electronic component is operated to heat or refrigerate the inner container box 200 and the dressing product in the inner container box; and after the dressing product reaches the required temperature, taking out the dressing product through the opening for use.

On the one hand, enclose into a holistic cavity that holds between inner bag box 200 and shell body 100, can install the position in holding the cavity to it according to different electronic components's size, shape etc. and carry out the overall arrangement, carry out make full use of to the surrounding space of inner bag box periphery, install the compactedness in holding the cavity in order to improve the installation adaptability and the electronic components that hold the cavity, the whole volume of corresponding reduction auxiliary material temperature regulation appearance, thereby improve its portability, so that the user uses at any time, and then improve its convenience in utilization. On the other hand, when the electronic component in the accommodating cavity is in failure in the use process of the dressing temperature regulator, the outer shell 100 can be detached to expose the electronic component, and then the electronic component is maintained; after the maintenance is accomplished, with shell body 100 reconnect in inner bag box 200 can normal use, the convenient degree of maintenance of auxiliary material temperature regulation appearance is higher, and the convenient degree when electronic components and parts and inner bag box 200 and shell body 100 assemble is also higher.

Optionally, in this embodiment, the accommodating cavity includes a temperature adjusting region and an installation region, which are different in position, the temperature adjusting region is provided with a temperature adjusting module 400, and the temperature adjusting module 400 is used for heating or cooling the liner wall of the liner box 200 corresponding to the temperature adjusting region; the electric control module and the temperature control module 500 are installed in the installation area, the temperature control module 500 and the temperature adjusting module 400 are both connected with the electric control module, and the temperature control module 500 is used for adjusting the on-off state, the cold-hot mode and the temperature of the temperature adjusting module 400. The accommodating cavity is divided into a temperature adjusting area for accommodating the temperature adjusting module 400 and a mounting area for accommodating the electronic control module and the temperature control module 500, wherein the electronic control module is used for electrically connecting the temperature adjusting module 400 and the temperature control module 500. When the dressing product needs to be heated, the dressing product is put into the inner container box 200 through the opening 180; the temperature control module 500 is used for starting the temperature adjusting module 400, adjusting the temperature adjusting module 400 to be a heating mode, adjusting the heating temperature of the inner container box 200 by the temperature adjusting module 400 to be a required temperature, heating the inner container box 200 by the temperature adjusting module 400 at a set temperature, and transferring heat to the dressing product in the inner container box 200 by the inner container box 200 so as to heat the dressing product; after heating for a certain time, the casting product reaches the required temperature, the temperature control module 500 closes the temperature adjusting module 400, and the casting product is taken out from the inner container box 200 for use. When the dressing product is required to be cooled, the dressing product is put into the inner container box 200, the temperature adjusting module 400 is opened through the temperature control module 500, the dressing product is adjusted to be in a refrigerating mode, the refrigerating temperature of the dressing product is adjusted to be required, the temperature adjusting module 400 refrigerates the inner container box 200 at a set temperature, the inner container box 200 further absorbs heat to cool the dressing product in the inner container box, after the dressing product reaches the required temperature, the temperature adjusting module 400 is closed through the temperature control module 500, and the dressing product is taken out for use.

In the process of using the dressing temperature regulator, the temperature regulating module 400 in the temperature regulating region emits heat or cold outwards, so that the environmental temperature of the region where the temperature regulating region is located can be influenced while the inner container box 200 is heated or refrigerated; the inner container box 200 and the outer shell 100 are surrounded to form a gap layer relevant to the shapes of the inner container box and the outer shell, the gap layer is used as a containing cavity, the temperature adjusting area and the mounting area are located in different areas of the gap layer, thereby reducing the temperature influence on the mounting area when the temperature adjusting module 400 operates, electronic components such as the electric control module and the temperature control module 500 are mounted in the mounting area, correspondingly reducing the temperature influence on the operating environment of the electric control module and the temperature control module 500 when the temperature adjusting module 400 operates, further reducing the adverse effect on the normal operation of the electric control module and the temperature control module 500 caused by a high-temperature environment or a low-temperature environment and the like, and correspondingly ensuring the normal operation of the electric control module and the temperature control module 500 and the normal use of the dressing temperature regulator.

Optionally, in this embodiment, a first region 310, a second region 320, a third region 330, and a fourth region 340 sequentially arranged along the circumferential direction are defined between the outer sidewall of the inner container box 200 and the inner sidewall of the outer casing 100, the first region 310 and the third region 330 are disposed oppositely, and the second region 320 and the fourth region 340 are disposed oppositely; a fifth area 350 is formed between the bottom wall of the liner case 200 and the outer case 100, wherein the first area 310 serves as a temperature adjustment area, and the second area 320, the third area 330, the fourth area 340, and the fifth area 350 collectively form a mounting area. Here, a specific form of the accommodating chamber partition partitions a circumferential region of the accommodating chamber located at the side of the inner container box 200 and a bottom region of the inner container box 200 to partition a temperature adjusting region and an installation region, so as to reduce the temperature influence on the electronic control module and the temperature control module 500 installed in other regions when the temperature adjusting module 400 installed in the temperature adjusting region operates, and further ensure the normal operation of the electronic control module and the temperature control module 500.

Specifically, in the present embodiment, as shown in fig. 3 to 5 and fig. 11 to 13, the electronic control module may include a main circuit board 600 and a power supply assembly 700 connected to the main circuit board 600, and the main circuit board 600, the power supply assembly 700 and the temperature control module 500 are respectively located in one of the four areas, namely the second area 320, the third area 330, the fourth area 340 and the fifth area 350. The electric control module comprises a main circuit board 600 and a power supply module 700, the main circuit board 600 is used for electrically controlling and connecting all the components, the power supply module 700 is used for supplying power for the operation of all the electronic components, the temperature adjusting module 400 and the temperature control module 500 are both electrically connected with the main circuit board 600, when the temperature adjusting module 500 is used, the temperature adjusting module 400 is adjusted to be in an electric communication state with the power supply module 700, and the temperature adjusting module 400 operates to refrigerate or heat the inner container box 200 and auxiliary material products in the inner container box; after that, the temperature control module 500 controls the temperature control module 400 to be in an open circuit state with the power module 700, and the temperature control module 400 is turned off. Specifically, the power supply assembly 700 may be in the form of a power cord, which is connected to an external socket to implement the power-on state of the accessory temperature regulator; in addition, the power module 700 may be in the form of an accumulator, and the power module 700 may include a storage battery inside the outer casing 100 and a charging port provided in the outer casing 100, as shown in fig. 2, the outer casing 100 is provided with one charging port, as shown in fig. 9, and the outer casing 100 is provided with two charging ports of different shapes to adapt to different chargers, thereby improving the charging applicability of the dressing temperature regulator.

Optionally, in this embodiment, as shown in fig. 1, fig. 5, fig. 8, fig. 10, and fig. 13, the electronic control module further includes a display assembly 800, and the display assembly 800 is mounted in the third area 330 and connected to the main circuit board 600; the outer shell 100 is provided with a mounting hole 140, and the display screen of the display assembly 800 is matched and inserted in the mounting hole 140; the main circuit board 600, the power supply assembly 700 and the temperature control module 500 are located in one of three areas, namely the second area 320, the fourth area 340 and the fifth area 350, respectively. On one hand, when the auxiliary material temperature regulator is used, the on-off state, the refrigerating or heating mode and the regulating temperature of the temperature regulating module 400 can be displayed through the display screen of the display assembly 800, and a user can visually acquire the running state of the dressing temperature regulator through the display screen, so that the practicability of the auxiliary material temperature regulator is improved; on the other hand, the temperature adjustment module 400 is located in the first region 310, and the display assembly 800 is located in the third region 330 opposite to the first region 310, so that the display assembly 800 and the temperature adjustment module 400 are respectively located at two opposite sides of the liner box 200, and the space between the display assembly 800 and the temperature adjustment module 400 is blocked in the second region 320 and the fourth region 340, thereby further reducing the temperature influence on the operating environment of the display assembly 800 caused by the operation of the temperature adjustment module 400, and correspondingly further ensuring the normal operation of the display assembly 800.

Alternatively, in the present embodiment, as shown in fig. 3, 5, 11, and 13, the main circuit board 600 may be located in the fifth region 350, and the main circuit board 600 is covered with the protective cover 610. The fifth area 350 is adjacent to the remaining four areas, and the main circuit board 600 is mounted in the fifth area 350, so that electronic components in the remaining four areas are electrically connected with the main circuit board 600, and the processing and assembling convenience of the auxiliary material temperature regulator is improved; in addition, when the auxiliary material temperature adjusting instrument is used, the main circuit board 600 is located at the bottom of the inner container box 200, and the protective cover 610 covers the main circuit board 600, so that the phenomenon that when a dressing product arranged in the inner container box 200 drips downwards or the temperature adjusting module 400 carries out refrigeration treatment on the inner container box 200 is reduced, the damage to the main circuit board 600 caused by the fact that condensed water generated on the outer wall of the inner container box 200 drips downwards is avoided, the normal use of the main circuit board 600 is correspondingly ensured, and the use safety of the auxiliary material temperature adjusting instrument is improved.

Preferably, as shown in fig. 8 and 10, heat dissipation holes 150 may be disposed at positions of the outer casing 100 corresponding to the main circuit board 600, and heat generated by the main circuit board 600 can be discharged through the heat dissipation holes 150, so as to reduce the temperature of the fifth area 350 and ensure the normal operation of the main circuit board 600.

Specifically, as shown in fig. 1 to 3 and 8 to 11, the outer casing 100 and the inner container box 200 may be shaped like a flat box, the opening 180 is a flat opening, two regions of the receiving cavity corresponding to two long sides of the flat opening are a first region 310 and a third region 330, respectively, and two regions of the receiving cavity corresponding to two short sides of the flat opening are a second region 320 and a fourth region 340, respectively. Here is a specific shape of the outer casing 100 and the inner container box 200, the outer casing 100 and the inner container box 200 are both approximately rectangular box bodies with flat openings, the first region 310, the second region 320, the third region 330 and the fourth region 340 can be divided according to four side walls and bottom walls of the outer casing 100 and the inner container box 200, and the shape of each region is regular, so that the dividing convenience of each region and the installation convenience of electronic components in each region are improved. Certainly, during specific assembly, the division of the regions can be adjusted according to the sizes of the electronic components in the corresponding regions, and as shown in fig. 6, the fifth region 350 may be located in a region right below the bottom wall of the liner box 200; or as shown in fig. 7, the fifth area 350 may be all the areas where the receiving cavity is located under the inner container box 200.

Alternatively, in this embodiment, as shown in fig. 3, 5, 11 and 13, the inner container box 200 may include a box opening connector 210, a support body 220 and a heat conducting plate 230, the heat conducting plate 230 and the support body 220 together enclose a container body of the inner container box 200, and the box opening connector 210 is connected between the container opening of the container body and the opening 180 of the outer casing 100; the region between the heat conductive plate 230 and the outer case 100 is a first region 310, and the temperature adjusting module 400 is connected to the heat conductive plate 230 for heating or cooling the heat conductive plate 230. Here, as a specific form of the inner container box 200, when in use, the temperature adjusting module 400 heats or refrigerates the heat conducting plate 230, and the heat conductivity of the heat conducting plate 230 is high, so that the heat or cold of the temperature adjusting module 400 is transferred to the auxiliary material product filled therein, thereby realizing the heating or refrigerating treatment of the dressing product; in addition, the inner container box 200 is divided into three parts, namely a box opening connecting body 210, a supporting body 220 and a heat conducting plate 230, wherein the supporting body 220 is used for fixing the heat conducting plate 230 and is used as a part of the inner container body, so that the convenience of assembling and disassembling the inner container box 200 and the outer shell 100 as well as the temperature adjusting module 400 and the heat conducting plate 230 is improved. Specifically, the heat conducting plate 230 may be made of aluminum material, copper material, or the like.

Specifically, as shown in fig. 5 and 13, the outer casing 100 may include a left casing 110, a right casing 120 and a bottom casing 130, all of which are detachably connected, and when the outer casing 100 is installed, the supporting body 220 may be connected to the left casing 110, then the heat conducting plate 230 is installed on the supporting body 220, then the bottom casing 130 is connected to the box opening connecting body 210, and finally the right casing 120 is connected to the left casing 110, so that the inner container box 200 is assembled with the outer casing 100. Specifically, box mouth connector 210 can be loudspeaker form, and its flaring end corresponds with the opening 180 of shell body 100 and is connected, and the necking end is connected with the courage mouth of the courage body, and when auxiliary material product was packed into, box mouth connector 210 can lead to the inserting of casting product to improve the convenience that casting product packed into.

Specifically, in this embodiment, as shown in fig. 3, 5, 11 and 13, the temperature adjustment module 400 may include a semiconductor wafer 410, the heat conduction plate 230 includes an adjustment area and a thermal insulation area facing the outer wall surface of the outer casing 100, the first temperature adjustment end surface of the semiconductor wafer 410 is attached to the adjustment area, and the thermal insulation area is covered with a thermal insulation layer 420. The temperature adjustment module 400 is a semiconductor chip 410, and accordingly, as shown in fig. 1, 3, 8, 10 and 11, the temperature control module 500 may include a first switch 510 and a second switch 520, wherein the first switch 510 may be used to control the on/off state and adjust the temperature of the temperature adjustment module 400, and the second switch 520 may be used to control the cold/hot mode of the temperature adjustment module 400. When the semiconductor wafer 410 is used, the semiconductor wafer 410 can be in a communicated state through the first switch 510, and the connection polarity of the semiconductor wafer 410 and the power supply module 700 is changed through the second switch 520, so that the first temperature adjusting end face is selected to heat the heat conducting plate 230 (at the moment, the second temperature adjusting end face is cooled outwards), and the semiconductor wafer 410 is in a heating mode; or the first temperature adjustment section performs a refrigeration process on the heat conduction plate 230 (at this time, the second temperature adjustment end face radiates heat outwards), and the semiconductor wafer 410 is in a refrigeration mode; subsequently, the first switch 510 is used again to select the adjusting temperature of the semiconductor wafer 410, the first temperature adjusting end face of the semiconductor wafer 410 correspondingly adjusts the corresponding temperature of the heat conductor, the heat conductor transfers heat or cold to the auxiliary material product in the heat conductor, and in the heat transfer process, the heat insulation layer 420 can insulate the outer wall of the heat conduction plate 230 to reduce the heat transferred from the heat conduction plate 230 to the first area 310, correspondingly improve the heat transferred from the heat conduction plate 230 to the inner side dressing product, and accordingly, the auxiliary material product can be efficiently heated or refrigerated. Specifically, the first switch 510 and the second switch 520 may be in the form of knobs or buttons; the thermal insulation layer 420 can be made of thermal insulation cotton.

Specifically, in the present embodiment, as shown in fig. 5 and 13, the heat conductive plate 230 may be inclined toward the third area 330 from the cartridge opening to the cartridge bottom. The width of inner bag box 200 reduces from the box mouth to the box bottom gradually, and the back in the inner bag box 200 is packed into to the casting product can fully contact with the inner wall of heat-conducting plate 230 to improve the heat conduction efficiency of heat-conducting plate 230 and casting product, correspondingly improve the temperature regulation effect of auxiliary material temperature regulation appearance to the casting product.

In this embodiment, as shown in fig. 3, 5, 11 and 13, a heat dissipation assembly 900 may be disposed in the temperature adjustment region, and the heat dissipation assembly 900 is used for performing heat dissipation processing on the temperature adjustment module 400. While the temperature adjusting module 400 heats or refrigerates the inner container box 200, the temperature adjusting module itself can also dissipate heat to the first area 310, and the heat dissipating assembly 900 is used for discharging the heat of the first area 310, so as to reduce the operating environment temperature of the temperature adjusting module 400, correspondingly ensure the normal operation of the temperature adjusting module 400, and reduce the influence of the operation of the temperature adjusting module 400 on the temperature of other areas. Specifically, when the temperature adjustment module 400 selects the semiconductor wafer 410, and the semiconductor wafer 410 is in the cooling mode, the second temperature adjustment end surface performs the heating process on the first area 310, and the heat dissipation assembly 900 can discharge the heat generated by the second temperature adjustment end surface, so as to reduce the adverse effect of the temperature rise of the first area 310 on the operation of the semiconductor wafer 410 and the heating efficiency of the inner container box 200, accordingly ensure the normal operation of the semiconductor wafer 410, and improve the heating efficiency of the first temperature adjustment end surface of the semiconductor wafer 410 on the inner container box 200.

Specifically, in this embodiment, as shown in fig. 3 and fig. 11, the heat dissipation assembly 900 may include a fan 910 and a heat sink 920, the heat sink 920 is attached to one side of the temperature adjustment module 400 facing the outer casing 100, and an air outlet of the fan 910 faces a first side of the heat sink 920; the outer casing 100 is provided with an air inlet 160 and an air outlet 170, the air inlet 160 is correspondingly communicated with an air inlet of the fan 910, and the air outlet 170 is located at a second side portion of the heat sink 920 opposite to the first side portion. In a specific form of the heat dissipation assembly 900, when in use, heat or cold of the second temperature adjustment end surface of the semiconductor wafer 410 is transferred to the heat dissipation plate 920, the fan 910 is turned on, external air is driven by the fan 910 to flow into the fan 910 through the air inlet 160 and the air inlet of the fan 910, and is blown to the heat dissipation plate 920 through the air outlet of the fan 910, and the air flow and the heat dissipation plate 920 carry away the heat or cold of the heat dissipation plate 920 and then are discharged through the air outlet 170, thereby achieving heat dissipation treatment of the first region 310. Specifically, as shown in fig. 3, a wind guide 930 may be installed at the first region 310 to guide the airflow at the second side of the heat sink 920 to the air outlet 170; or, as shown in fig. 9, the air guiding groove 190 may be disposed on the outer casing 100, the air outlet 170 is disposed on the wall of the air guiding groove 190 facing the heat dissipating fin 920, the wall of the air guiding groove 190 away from the heat dissipating fin 920 is disposed as a guiding slope, and the airflow flowing through the heat dissipating fin 920 flows into the air guiding groove 190 through the air outlet 170 and then flows out of the outer casing 100 under the guiding action of the guiding slope. The air guide 930 and the air guide groove 190 are both arranged to guide out the air flow passing through the heat sink 920, so as to improve the directional driving of the heat sink assembly 900 to the air flow and ensure the effective discharge of the air flow.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a dressing temperature regulation appearance, its characterized in that, includes shell body (100) and inner bag box (200), shell body (100) are equipped with opening (180), inner bag box (200) are detachable to be located inside shell body (100), just the box mouth of inner bag box (200) with opening (180) intercommunication, inner bag box (200) with enclose between shell body (100) and enclose into and hold the cavity.

2. The dressing temperature regulator of claim 1, wherein the accommodating cavity comprises a temperature regulating area and a mounting area which are different in position, the temperature regulating area is provided with a temperature regulating module (400), and the temperature regulating module (400) is used for heating or refrigerating the inner container box (200) and the inner container wall corresponding to the temperature regulating area;

electronic control module and temperature control module (500) are installed to the installing zone, temperature control module (500) reach temperature regulation module (400) all with electronic control module connects, temperature control module (500) are used for adjusting temperature regulation module (400)'s on-off state, cold and hot mode and regulation temperature.

3. The dressing temperature regulator of claim 2, wherein a first area (310), a second area (320), a third area (330) and a fourth area (340) are defined between the outer side wall of the inner container box (200) and the inner side wall of the outer shell (100) and are sequentially arranged along the circumferential direction, the first area (310) is opposite to the third area (330), and the second area (320) is opposite to the fourth area (340); a fifth area (350) is formed between the box bottom wall of the inner container box (200) and the outer shell (100), wherein the first area (310) is used as the temperature adjusting area, and the second area (320), the third area (330), the fourth area (340) and the fifth area (350) jointly form the mounting area.

4. The dressing temperature conditioner of claim 3, wherein the electronic control module comprises a main circuit board (600) and a power supply assembly (700) connected to the main circuit board (600), the power supply assembly (700), and the temperature control module (500) being located in one of the four regions of the second region (320), the third region (330), the fourth region (340), and the fifth region (350), respectively.

5. The dressing temperature conditioner of claim 4, wherein the electronic control module further comprises a display assembly (800), the display assembly (800) being mounted to the third region (330) and connected to the main circuit board (600); the outer shell (100) is provided with a mounting hole (140), and a display screen of the display assembly (800) is matched and inserted in the mounting hole (140);

the main circuit board (600), the power supply assembly (700) and the temperature control module (500) are located in one of the three areas of the second area (320), the fourth area (340) and the fifth area (350), respectively.

6. The dressing thermostat of claim 4, characterized in that the main circuit board (600) is located in the fifth area (350) and the main circuit board (600) is covered with a protective cover (610).

7. The dressing thermostat according to any one of claims 3 to 6, characterized in that the outer casing (100) and the inner container (200) are in the shape of respective boxes with flat mouths, the openings (180) are in the shape of respective flat mouths, the two regions of the receiving chamber corresponding to the two long sides of the flat mouth are the first region (310) and the third region (330), respectively, and the two regions of the receiving chamber corresponding to the two short sides of the flat mouth are the second region (320) and the fourth region (340), respectively.

8. The dressing temperature regulator of claim 7, wherein the inner container box (200) comprises a box opening connector (210), a support body (220) and a heat conducting plate (230), the heat conducting plate (230) and the support body (220) jointly enclose a container body of the inner container box (200), and the box opening connector (210) is connected between a container opening of the container body and the opening (180) of the outer shell (100); the area between the heat-conducting plate (230) and the outer shell (100) is the first area (310), and the temperature adjusting module (400) is connected to the heat-conducting plate (230) and used for heating or refrigerating the heat-conducting plate (230).

9. The dressing temperature conditioner of claim 8, wherein the thermally conductive plate (230) is inclined toward the third region (330) from the cassette port to the cassette bottom.

10. The dressing temperature conditioner according to any one of claims 2 to 6, characterized in that the temperature conditioning region is provided with a heat sink assembly (900), the heat sink assembly (900) being used for heat dissipation treatment of the temperature conditioning module (400).

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