CN217953680U - Temperature sensing module installation mechanism and kitchen appliance - Google Patents

Abstract

The utility model relates to a kitchen appliance technical field discloses a temperature sensing module installation mechanism and kitchen appliance. The kitchen appliance comprises a panel and a temperature sensing module installation mechanism. The temperature sensing module mounting mechanism comprises a temperature sensing module and two mounting brackets. Two installing support intervals set up, and the temperature sensing module includes this somatic part and two elastic arms, and two elastic arms set up respectively in the relative both sides of this somatic part, and two elastic arms can be towards the direction elastic deformation each other that is close to, and the temperature sensing module is located between two installing supports, two elastic arms respectively with two installing support butts. The utility model discloses a temperature sensing module installation mechanism can realize the installation of temperature sensing module conveniently, high-efficiently. The utility model discloses a kitchen appliance can improve the whole assembly efficiency through setting up foretell temperature sensing module installation mechanism.

Description

Temperature sensing module installation mechanism and kitchen appliance

Technical Field

The utility model relates to the technical field of household appliances, especially, relate to a temperature sensing module installation mechanism and kitchen appliance.

Background

The range hood is installed above a gas stove, can rapidly pump away wastes burnt by a burner and oil smoke harmful to human bodies generated in the cooking process, and discharges the wastes and the oil smoke out of a room, so that the pollution is reduced, and the air is purified.

Along with the improvement of automation level, the temperature sensing module is added to the existing range hood to monitor the concentration of oil smoke so that the range hood can make corresponding adjustment in time. In the prior art, the temperature sensing module mounting mechanism generally comprises a mounting bracket, the mounting bracket is connected to the inner surface of the frame of the range hood, and the temperature sensing module is fastened with the mounting bracket through screws. Because the temperature sensing module volume is less, and is close to the internal surface setting of frame, so operate inconveniently when installing through the screw to the installation effectiveness of temperature sensing module has been reduced.

Therefore, a temperature sensing module mounting mechanism and a kitchen appliance are needed to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a temperature sensing module installation mechanism can realize the installation of temperature sensing module conveniently, high-efficiently.

The utility model discloses a kitchen appliance through the installation mechanism that sets up foretell temperature sensing module, has improved the installation effectiveness of temperature sensing module, and then has improved whole assembly efficiency.

To achieve the purpose, the utility model adopts the following technical proposal:

a temperature sensing module mounting mechanism comprising:

the two mounting brackets are arranged at intervals;

the temperature sensing module comprises a body part and two elastic arms, wherein the two elastic arms are respectively arranged on two opposite sides of the body part, the two elastic arms can elastically deform towards the direction close to each other, the temperature sensing module is positioned between the two mounting brackets, and the two elastic arms are respectively abutted against the two mounting brackets.

As an alternative, the mounting bracket includes two limiting plates, the two limiting plates of the mounting bracket are arranged oppositely, the limiting plate is provided with a first matching portion, and the elastic arm includes:

one end of the extension part is connected to the side wall of the body part, the other end of the extension part is arranged at a distance from the side wall, and the extension part can elastically deform towards the direction close to the side wall;

the second matching part is arranged on one side, far away from the corresponding side wall, of the extending part, and the second accessory can be matched with the first matching part.

As an alternative, the first matching portion is a clamping hole, the second matching portion is a buckle, and the buckle can be inserted into the clamping hole.

As an alternative, a first inclined guiding surface is arranged on the buckle, and the first inclined guiding surface is configured to abut against the end of the limiting plate when the temperature sensing module extends between the two limiting plates so as to guide the extending portion to extend between the two limiting plates.

As an alternative, a second inclined guiding surface is arranged on the buckle, and the second inclined guiding surface is configured to guide the buckle to be clamped into the clamping hole.

As an alternative, the mounting bracket further comprises a bearing plate, and the bearing plate extends horizontally outwards from the free end of the limiting plate;

the elastic arm further comprises a stopping part, the stopping part is connected to one end, far away from the side wall, of the extending part, and the stopping part is abutted to the supporting plate on the corresponding side.

As an alternative, one end of the elastic arm connected to the body portion is configured as an arc shape, and a center of the arc shape is located at a side close to the body portion.

As an alternative, the body portion includes:

the shell is surrounded with an accommodating cavity, a light-transmitting opening communicated with the accommodating cavity is formed in the shell, and the two elastic arms are connected to two sides opposite to the shell respectively;

the detection probe is arranged in the accommodating cavity, and the light path sent or received by the detection probe passes through the light-transmitting opening.

As an alternative, the number of the detection probes is at least two, and the central lines of the light paths sent or received by at least two of the detection probes form an included angle.

As an alternative, the number of the detection probes is at least two, a light filtering component is arranged at the light transmitting port, and light paths emitted by or received by the at least two detection probes pass through the light filtering component.

As an alternative, the number of the detection probes is two, and the intersection position of the central lines of the light paths respectively emitted or received by the two detection probes is located on one side of the detection probes, which is close to the light transmission opening.

As an alternative, two of the mounting brackets are mounted on the inner surface of the frame, and the mounting brackets include a connecting plate arranged in parallel with the inner surface of the mounting brackets, and the connecting plate is adhesively connected with the inner surface of the frame.

The kitchen appliance comprises a rack and a temperature sensing module mounting mechanism, wherein the temperature sensing module mounting mechanism is mounted on the inner surface of the rack.

The utility model discloses beneficial effect does:

the utility model discloses a temperature sensing module mounting structure, when installing the temperature sensing module, press two elastic arms of temperature sensing module to put into the temperature sensing module between two installing supports, loosen two elastic arms after that, two elastic arms move towards the direction of recovering the deformation under the effect of self elastic force, thereby can compress tightly and spacing between two installing supports. The process of installing the temperature sensing module on the installing support does not need to be assisted by other tools, and the temperature sensing module is convenient to install and high in installing efficiency.

The utility model discloses a kitchen appliance through setting up foretell temperature sensing module installation mechanism, has improved the installation effectiveness of temperature sensing module, and then has improved holistic assembly efficiency.

Drawings

Fig. 1 is a sectional view of a temperature sensing module and a mounting bracket according to an embodiment of the present invention in a mated state;

fig. 2 is a schematic structural diagram of a temperature sensing module according to an embodiment of the present invention;

fig. 3 is an exploded view of a temperature sensing module according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a mounting bracket according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of another mounting bracket provided by the present novel embodiment;

fig. 6 is a schematic structural view of the temperature sensing module according to the embodiment of the present invention when mounted on a panel.

In the figure:

1. mounting a bracket; 11. a limiting plate; 111. a clamping hole; 12. a support plate; 13. a connecting plate; 131. injecting glue holes; 14. a boss; 15. a first reinforcing plate; 16. a second reinforcing plate; 17. reinforcing ribs;

2. a temperature sensing module; 21. a body portion; 211. a housing; 212. a shell cover; 213. detecting a probe; 214. a circuit board; 215. a light-transmitting opening; 216. an inner support; 217. an optical filter; 22. a resilient arm; 221. an extension portion; 222. buckling; 2221. a first guide slope; 2222. a second lead slope; 223. a stopper portion; 23. a first wire assembly;

3. a panel;

4. a gap.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected", "connected" and "fixed" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

As shown in fig. 1 to 6, the present embodiment provides a temperature sensing module mounting mechanism and a kitchen appliance, wherein the kitchen appliance comprises a rack and the temperature sensing module mounting mechanism, and the temperature sensing module mounting mechanism is arranged inside the rack. In particular, the kitchen appliance is not limited to being a range hood or an integrated kitchen. In this embodiment, a kitchen appliance is taken as an example of a range hood. As shown in fig. 6, the lampblack absorber includes panel 3, and panel 3 is the plate in the lampblack absorber outside, and optionally, panel 3 can be glass board or sheet metal component, beautifully spend well and be convenient for clean. Be provided with the trompil on the panel, temperature sensing module 2 sends or receives the light path and passes through from the trompil to make the temperature sensing module can detect the temperature of cooking utensils or platform department below the frame.

As shown in fig. 1, the temperature sensing module mounting mechanism includes a temperature sensing module 2 and two mounting brackets 1, and the two mounting brackets 1 are attached to the inner side of a panel 3. The temperature sensing module 2 is installed inside the panel 3 through two installation brackets 1. In this embodiment, the two mounting brackets 1 are independent members and are respectively connected to the panel 3. In other embodiments, the two mounting brackets 1 may be constructed as a unitary structure that is integrally mounted to the panel 3.

As shown in fig. 1 to 3, the temperature sensing module 2 includes a main body 21, two elastic arms 22 and a first wire assembly 23, the two elastic arms 22 are connected to two opposite sides of the outside of the main body 21, and the two elastic arms 22 are used for connecting the temperature sensing module 2 with the mounting bracket 1. The body portion 21 includes a housing, a detection probe 213, and a circuit board 214. Wherein the casing is formed with and holds the chamber, and test probe 213 and circuit board 214 all set up and are holding the intracavity, and test probe 213 is connected with circuit board 214 electricity, and first wire assembly 23 one end is connected with circuit board 214 electricity, and the other end stretches out to the casing outside and be connected with the control module of lampblack absorber. The temperature sensing module 2 constitutes an integral structure, so that independent maintenance and replacement are convenient to carry out, and the shell can protect the detection probe 213 and the circuit board 214, so that the service life of the temperature sensing module 2 is prolonged. As shown in fig. 3, a light-transmitting opening 215 is arranged on the casing, a light path emitted or received by the detection probe 213 passes through the light-transmitting opening 215, and further the detection of the temperature outside the casing is realized, the detection probe 213 detects temperature data and sends the temperature data to the circuit board 214, the circuit board 214 sends a corresponding control instruction to the control module of the range hood according to the received temperature data, the control module of the range hood correspondingly adjusts the oil smoke absorption mode after receiving the control instruction of the detection probe 213, namely, the automatic adjustment of the oil smoke absorption mode of the range hood is realized, and the use experience of a user is improved. Because the detection probe 213 and the circuit board 214 are both arranged in the shell, the communication distance between the detection probe 213 and the circuit board 214 is short, so that the circuit board 214 can quickly receive the temperature data detected by the detection probe 213, and in addition, the temperature data cannot be distorted due to the communication path end. Because the control instruction sent by the circuit board 214 to the control module of the range hood is carried out in a simple binary form, the control instruction is less influenced by a longer communication path, and the accurate control on the range hood is not influenced. The detection probe 213 and the circuit board 214 are electrically connected by a second wire assembly. Wherein the first and second wire assemblies 23 and 23 each include a power line, a ground line, and a communication line for signal transmission. The type of the detection probe 213 is not limited in this embodiment, and may be, for example, an active infrared temperature sensor or a passive infrared temperature sensor. The active infrared temperature measurement sensor can emit infrared rays, the infrared rays are reflected after contacting the object to be measured and are received by the active infrared temperature measurement sensor again, and the temperature of the object to be measured is measured; the temperature measurement principle of the passive infrared temperature measurement sensor is as follows: when the temperature of the object is higher than zero thermodynamic temperature, infrared rays radiate to the periphery, and the passive infrared temperature measuring sensor detects the infrared radiation energy of the object to realize the detection of the temperature of the object to be detected. In addition to the above two types, any infrared temperature measuring sensor capable of realizing non-contact measurement of the temperature of an object to be measured is within the protection scope of the technical scheme of the invention. When the detection probe 213 is an active infrared temperature sensor, the infrared rays emitted by the detection probe 213 pass through the light-transmitting opening 215 and then are transmitted to the outside of the range hood through the opening, and the light rays reflected by the infrared rays contacting the object pass through the opening on the panel 3 and then pass through the light-transmitting opening 215 to be received by the detection probe 213. For the detection probe 213 being an active infrared temperature sensor, infrared rays radiated from an external cooker or a table top pass through the opening of the panel 3 and then pass through the light-transmitting opening 215 to be received by the detection probe 213, so that the detection probe 213 can detect the temperature.

As shown in fig. 3, the body 21 further includes a filter assembly installed at the light-transmitting opening 215, specifically, the filter assembly includes a filter 217, the filter 217 may be a silicon wafer, and the silicon wafer can filter out stray light except for infrared rays, so as to ensure that the radiation energy entering the detection probe 213 is only infrared radiation energy, thereby improving the measurement accuracy of the red temperature detection mechanism.

As shown in fig. 3, the housing includes a housing 211 and a cover 212, the housing 211 includes a receiving chamber having an opening, and the cover 212 is provided on the housing 211 to cover the opening. The inspection probe 213 and the circuit board 214 can be mounted into the receiving cavity from the opening. In this embodiment, the light-transmitting opening 215 is formed on the housing 211, and the elastic arm 22 may be integrally formed with the housing 211. The body portion 21 further comprises an inner support 216, the inner support 216 being retained within the receiving cavity, the test probe 213 and the circuit board 214 being mounted on the inner support 216. Therefore, when the temperature sensing module 2 is installed, the detection probe 213 and the circuit board 214 can be installed on the inner supporting member 216 outside the accommodating cavity, and then the whole body is installed in the accommodating cavity, so that the convenience of assembly is improved, and in addition, the receiving end or the emitting end of the detection probe 213 can be ensured to be aligned with the light transmission opening 215 by positioning the detection probe 213 through the inner supporting member 216, so as to ensure accurate receiving/emitting of the light path.

The temperature sensing module 2 includes at least two detecting probes 213, and the central lines of the light paths emitted or received by the at least two detecting probes 213 form an included angle, so as to detect the temperature states of different regions. At least two detection probes 213 send or receive light paths from the same filter assembly, so the number of filter assemblies can be reduced, and the structure of the temperature sensing module can be simplified. In this embodiment, the temperature sensing module includes two detecting probes 213, and the intersection position of the central lines of the light paths respectively transmitted or received by the two detecting probes 213 is located at one side of the detecting probe 213 close to the light-transmitting opening 215, so that the sizes of the light-transmitting opening 215 and the light-filtering component can be reduced, and the structure of the whole temperature sensing module 2 is more compact. In addition, the size of the opening on the panel 3 is reduced, so that the appearance attractiveness of the range hood is improved.

In this embodiment, the two detection probes 213 are all installed on the inner supporting member 216, that is, the two detection probes 213 share the same limit reference, so that the relative position accuracy between the two detection probes 213 is conveniently ensured, and the detection accuracy of the whole temperature sensing module 2 is further ensured.

As shown in fig. 1 and fig. 4, the temperature sensing module mounting mechanism in this embodiment includes two mounting brackets 1, the two mounting brackets 1 are spaced apart from each other, two elastic arms 22 are respectively disposed at two opposite sides of the body 21, the two elastic arms 22 can elastically deform in a direction approaching each other, the temperature sensing module 2 is located between the two limiting plates 11, and the two elastic arms 22 respectively abut against the two mounting brackets 1. When installing temperature sensing module 2, the user presses two elastic arms 22 of temperature sensing module 2, makes the width size (the line direction of two elastic arms 22) size reduction of temperature sensing module 2, and then can put into two limiting plates 11 with temperature sensing module 2 between, loosens two elastic arms 22 after that, and two elastic arms 22 move towards the direction of recovering the deformation under the effect of self elastic force to can compress tightly between two installing support 1. The process of installing on installing support 1 of temperature sensing module 2 need not be with the help of other instruments, simple to operate, and the installation effectiveness is high. In this embodiment, as shown in fig. 1, 4 and 6, the mounting bracket 1 includes a connecting plate 13 and a limiting plate 11, which are vertically disposed, the connecting plate 13 is disposed parallel to the panel 3, and the connecting plate 13 is used to fix the mounting bracket 1 on the panel 3. The limiting plates 11 of the two mounting brackets 1 are arranged oppositely, and the two elastic arms 22 of the temperature sensing module 2 are respectively abutted against the two limiting plates 11.

In this embodiment, two 1 symmetry settings of installing support, 11 relative settings in a left side and a right side of two limiting plates, and temperature sensing module 2 can be from last to installing down between two limiting plates 11. In other embodiments, the temperature sensing module 2 may also be mounted between the two limiting plates 11 from bottom to top, or mounted between the two limiting plates 11 from back to front, which is not limited herein. The main body 21 is generally rectangular parallelepiped in shape, and the two elastic arms 22 are symmetrically disposed on the left and right side walls of the main body 21. In other embodiments, the specific shape of the main body 21 is not limited, as long as the two elastic arms 22 are opposite to each other.

As shown in fig. 1 and 4, the two stopper plates 11 are provided with first engagement portions, respectively. As shown in fig. 1 and 2, the elastic arm 22 includes an extending portion 221 and a second engaging portion, one end of the extending portion 221 is connected to the side wall of the main body 21, the other end of the extending portion is located at one side of the corresponding side wall and spaced apart from the corresponding side wall, the extending portion 221 is elastically deformable in a direction approaching the corresponding side wall, and the second engaging portion is located at a side of the extending portion 221 away from the corresponding side wall. Therefore, when the user no longer presses the elastic arm 22, the extending portion 221 drives the second engaging portion to move in a direction away from the corresponding sidewall of the main body 21, so that the second engaging portion engages with the first engaging portion. Through the cooperation between first cooperation portion and the second cooperation portion, further inject the position of temperature sensing module 2 on two installing support 1 to can avoid temperature sensing module 2 to take place the position and rock. Optionally, the first matching portion is a clamping hole 111, the second matching portion is a buckle 222, and the buckle 222 can be clamped in the clamping hole 111. In other embodiments, the first engaging portion may be a first magnet embedded in the limiting plate 11, the second engaging portion may be a second magnet embedded in the extending portion 221, and the first magnet and the second magnet are attracted to each other to improve the position stability of the temperature sensing module 2 between the two mounting brackets 1.

As shown in fig. 1 and 4, the mounting bracket 1 further includes a support plate 12, and the support plate 12 extends horizontally outward from the free end of the limit plate 11. Specifically, the support plate 12 is located at an inlet end of the temperature sensing module 2 extending between the two limit plates 11, in this embodiment, the support plate 12 is perpendicular to the limit plates 11 and is connected to the upper ends of the limit plates 11. As shown in fig. 1 and 4, the elastic arms 22 further include a stopping portion 223, the stopping portion 223 is connected to one end of the extending portion 221 away from the side wall, and the stopping portions 223 of the two elastic arms 22 respectively abut against the supporting plates 12 on the corresponding sides. Through the matching of the stopping part 223 and the bearing plate 12, on one hand, the temperature sensing module 2 can be supported along the direction extending between the two limiting plates 11, and the reliability of the connection of the temperature sensing module 2 is further improved; on the other hand, can also stretch into the degree of depth between two limiting plates 11 to temperature sensing module 2 and carry on spacingly to guarantee that buckle 222 can the joint hole 111 smoothly in, make temperature sensing module 2's installation more smooth and easy. In this embodiment, the supporting plate 12 is perpendicular to the limiting plate 11 and the connecting plate 13, and in other embodiments, the supporting plate 12 may also be disposed at an obtuse angle with the limiting plate 11, so that in this embodiment, the extending direction of the stopping portion 223 of the elastic arm 22 is consistent with that of the supporting plate 12, thereby ensuring the support of the temperature between the stopping portion 223 and the supporting plate 12.

In this embodiment, the housing 211 and the elastic arm 22 are made of plastic, and are integrally injection-molded, so that the molding is convenient, and the elastic arm 22 is ensured to have a certain elastic deformation capability. As shown in fig. 1 and 2, since the end of the extension 221 connected to the main body 21 is configured to be circular arc, and the center of the circular arc is located at a side close to the main body 21, when the elastic arm 22 is elastically deformed, stress concentration of the elastic arm 22 is not easily caused, and thus the problem of breaking the elastic arm 22 can be avoided.

As shown in fig. 1, the latch 222 is provided with a first inclined guiding surface 2221, and the first inclined guiding surface 2221 is used for abutting against the end of the position limiting plate 11 when the temperature sensing module 2 extends between the two position limiting plates 11, so as to guide the extending portion 221 to extend between the two position limiting plates 11. The process that the temperature sensing module 2 extends into the space between the two limiting plates 11 is smoother; in addition, the abutment of the position-limiting plate 11 and the first inclined guide surface 2221 can play a role of assisting in pressing the elastic arm 22, so that the pressing force of the user on the elastic arm 22 can be appropriately reduced, and the convenience in mounting the temperature sensing module 2 is further improved. In this embodiment, the first inclined guide surface 2221 is disposed on the downward side of the buckle 222, and when the temperature sensing module 2 is mounted between the two position limiting plates 11 from the top to the bottom, the first inclined guide surface 2221 abuts against the upper end portions of the position limiting plates 11, so as to ensure that the temperature sensing module 2 is smoothly mounted between the two position limiting plates 11. The specific inclination angle and length of the first inclined guiding surface 2221 may be selected according to actual needs, and are not specifically limited herein.

As shown in fig. 1, a second inclined guiding surface 2222 is provided on the latch 222, and the second inclined guiding surface 2222 is used for guiding the latch 222 to be latched into the latch hole 111. In this embodiment, the second inclined guiding surface 2222 is disposed on the upward side of the latch 222. The second inclined guiding surface 2222 makes the cross section of the end of the clip 222 gradually increase from the direction close to the clip hole 111 to the direction away from the clip hole 111, so that the end of the clip 222 can more easily extend into the clip hole 111 and gradually and completely extend into the clip hole 111. The setting of second direction inclined plane makes buckle 222 can stretch into corresponding joint hole 111 smoothly in, guarantees the accuracy of temperature sensing module 2 mounted position. Specifically, the inclination angle and the length of the second inclined guiding surface 2222 may be set according to actual needs, and are not particularly limited herein.

As shown in fig. 5, the mounting bracket 1 further includes a first reinforcing plate 15 and a second reinforcing plate 16. The first reinforcing plate 15 is disposed parallel to and opposite to the supporting plate 12, and the second reinforcing plate 16 is disposed parallel to and opposite to the limiting plate 11. Make the structure of whole installing support 1 more stable through setting up first reinforcing plate 15 and second reinforcing plate 16, and then guarantee the reliability that supports temperature sensing module 2. As shown in fig. 5, a reinforcing rib 17 is further provided between the support plate 12 and the connecting plate 13, thereby further improving the structural strength of the mounting bracket 1. In other embodiments, the reinforcing rib 17 may be disposed between any two adjacent plates of the mounting bracket 1, and is not limited in this respect.

The connection plate 13 is attached to the inner surface of the frame by means of bonding. In particular the connecting plate 12 is glued to the inner side of the panel 3. Because the panel 3 is mostly glass material, connection structure such as difficult processing hole, this embodiment realizes being connected of installing support 1 and panel 3 through the mode that bonds to the convenience that installing support 1 and panel 3 are connected has been improved.

As shown in fig. 4 and 6, the side of the connecting plate 13 facing the panel 3 is provided with at least two bosses 14, and the heights of the at least two bosses 14 are equal. The boss 14 abuts against the panel 3 to enable the connecting plate 13 and the panel 3 to form a gap 4, and a glue layer is formed in the gap 4 in a pouring mode, so that the mounting bracket 1 is connected with the panel 3. Through setting up a plurality of bosss 14, make connecting plate 13 and panel 3 keep the parallel state on the one hand, guarantee the accuracy of the installation gesture of whole installing support 1. On the other hand for the thickness of the clearance 4 that connecting plate 13 and panel 3 formed is unanimous, and then guarantees that the glue of pouring is even at the thickness of each position of connecting plate 13, guarantees that installing support 1 connects reliable and stable. Optionally, in this embodiment, four bosses 14 are provided on the connecting plate 13, and in other embodiments, the number of the bosses 14 and the distribution positions on the connecting plate 12 are not limited.

As shown in fig. 4 and 6, the connection plate 13 is provided with the glue injection hole 131, so that glue can be injected into the gap 4 between the connection plate 13 and the panel 3 through the glue injection hole 131, thereby improving convenience of glue injection. As shown in fig. 4, the connection plate 13 is provided with a plurality of glue injection holes 131, and the plurality of glue injection holes 131 are uniformly distributed on the connection plate 13, so that glue can be injected into the gap 4 from the plurality of glue injection holes 131, and the uniformity of glue distribution in the gap 4 is improved.

Obviously, the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and for those skilled in the art, there are variations on the specific embodiments and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (11)

1. A temperature sensing module installation mechanism, its characterized in that includes:

the mounting device comprises two mounting brackets (1), wherein the two mounting brackets (1) are arranged at intervals;

the temperature sensing module (2) comprises a body part (21) and two elastic arms (22), the two elastic arms (22) are arranged on two opposite sides of the body part (21) respectively, the two elastic arms (22) can elastically deform towards directions close to each other, the temperature sensing module (2) is located between the two mounting brackets (1), and the two elastic arms (22) are abutted to the two mounting brackets (1) respectively.

2. The temperature sensing module mounting mechanism according to claim 1, wherein the mounting bracket (1) comprises a limiting plate (11), the limiting plates (11) of the two mounting brackets (1) are arranged oppositely, a first matching portion is arranged on the limiting plate (11), and the elastic arm (22) comprises:

one end of the extension part (221) is connected to the side wall of the body part (21), the other end of the extension part is arranged at a distance from the side wall, and the extension part (221) can elastically deform towards the direction close to the side wall;

the second matching part is arranged on one side, away from the corresponding side wall, of the extending part (221), and the second matching part can be matched with the first matching part.

3. The temperature sensing module mounting mechanism according to claim 2, wherein the first mating portion is a snap hole (111), the second mating portion is a buckle (222), and the buckle (222) can be inserted into the snap hole (111).

4. The temperature sensing module mounting mechanism according to claim 3, wherein the buckle (222) is provided with a first inclined guiding surface (2221), and the first inclined guiding surface (2221) is configured to abut against the end of the position limiting plate (11) when the temperature sensing module (2) extends between the two position limiting plates (11) so as to guide the extension portion (221) to extend between the two position limiting plates (11).

5. The temperature sensing module mounting mechanism according to claim 3, wherein the latch (222) is provided with a second inclined guiding surface (2222), and the second inclined guiding surface (2222) is configured to guide the latch (222) to be latched into the latch hole (111).

6. The temperature sensing module mounting mechanism according to claim 2, wherein the mounting bracket (1) further comprises a support plate (12), the support plate (12) extending horizontally outward from the free end of the limit plate (11);

the elastic arm (22) further comprises a stopping portion (223), the stopping portion (223) is connected to one end, away from the side wall, of the extending portion (221), and the stopping portion (223) abuts against the supporting plate (12) on the corresponding side.

7. The temperature sensing module mounting mechanism according to claim 1, wherein an end of the elastic arm (22) connected to the body portion (21) is configured as an arc shape having a center located at a side close to the body portion (21).

8. The temperature sensing module mounting mechanism according to any one of claims 1-7, wherein the body portion (21) comprises:

the elastic arm type LED lamp comprises a shell, a light-transmitting hole (215) communicated with an accommodating cavity is formed in the shell in an enclosing mode, and two elastic arms (22) are connected to two sides opposite to the shell respectively;

the detection probe (213) is arranged in the accommodating cavity, and the light path emitted or received by the detection probe (213) passes through the light-transmitting opening (215).

9. The temperature sensing die set mounting mechanism of claim 8, wherein there are at least two of the sensing probes (213), wherein:

the central lines of the light paths emitted or received by the at least two detection probes (213) form an included angle; and/or;

a light filtering component is arranged at the light transmitting opening (215), and light paths emitted or received by at least two detection probes (213) pass through the light filtering component.

10. The temperature sensing module mounting mechanism according to claim 8, wherein the number of the detecting probes (213) is two, and the intersection position of the central lines of the light paths respectively emitted from or received by the two detecting probes (213) is located on one side of the detecting probe (213) close to the light transmission opening (215).

11. A kitchen appliance comprising a housing and the temperature sensitive module mounting mechanism of any one of claims 1-10 mounted to an interior surface of the housing.

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