CN211625449U - Mounting structure, installation casing and heating installation - Google Patents

Abstract

The utility model discloses an installation structure, an installation shell and heating equipment, wherein the installation structure comprises an installation part and a support component, one end of the support component is rotatably arranged on the installation part, and the other end of the support component is provided with a support part; when the support assembly is in a first working state, the support part rotates to one side of the mounting part; when the support assembly is in a second working state, the support part rotates to the other opposite side of the mounting part. When the mounting structure is used, the mounting structure is convenient to store; this installation casing and heating installation include above-mentioned mounting structure, therefore this installation casing and heating installation possess the advantage of being convenient for the transportation.

Description

Mounting structure, installation casing and heating installation

Technical Field

The utility model relates to a heating installation technical field especially relates to a mounting structure, installation casing and heating installation.

Background

The skirting line warmer is a new warmer, is welcomed in the market due to the fact that the skirting line warmer does not occupy space and has a good heating effect, and can be used on the wall and can also be placed beside the wall.

Traditional skirting line room heater often need support through the foot rest when using, however this type of skirting line heating is in the transportation, and the foot rest is accomodate inconveniently, occupies packing box space and is impaired easily in the transportation, influences user's use.

SUMMERY OF THE UTILITY MODEL

On the basis, aiming at the problems that when the traditional skirting line heater is used, a foot rest is inconvenient to store, occupies the space of a packing box, is easy to damage in the transportation process and influences the use of a user, an installation structure, an installation shell and heating equipment are provided, and the installation structure is convenient and fast to store when in use; this installation casing and heating installation include above-mentioned mounting structure, therefore this installation casing and heating installation possess the advantage of being convenient for the transportation.

The specific technical scheme is as follows:

in one aspect, the present application relates to a mounting structure comprising: a mounting member; one end of the supporting component is rotatably arranged on the mounting component, and the other end of the supporting component is provided with a supporting part; when the support assembly is in a first working state, the support part rotates to one side of the mounting part; when the support assembly is in a second working state, the support part rotates to the other opposite side of the mounting part.

When the mounting structure is used, when an object to be supported needs to be supported, the support assembly can be rotated to a first working state, and the support part is positioned on one side of the mounting part and can support the object to be supported through the support part; when needs transport, can with the supporting component rotates to second operating condition, this moment the supporting part rotates to relative opposite side in the installed part, relative first operating condition this moment, the supporting component that is in second operating condition is in the state of accomodating, and when this mounting structure set up on the casing of room heater, the space that the supporting component took when being in the state of accomodating when being in the state of support relatively is less, also is difficult for receiving the damage.

The technical solution is further explained below:

in one embodiment, the support assembly includes a first support member and a second support member, one end of the first support member and one end of the second support member are disposed at one end of the support assembly, and both the one end of the first support member and the one end of the second support member are rotatably disposed at the mounting member, the other end of the first support member and the other end of the second support member are disposed at the other end of the support assembly, and both the other end of the first support member and the other end of the second support member are provided with the support portion.

In one embodiment, the first support comprises a first rotation stop portion, and the second support comprises a second rotation stop portion; when the supporting assembly is in a first working state, the other end of the first supporting piece and the other end of the second supporting piece form an included angle, and the first rotation stopping part and the second rotation stopping part are in limit fit to limit the relative rotation of the first supporting piece and the second supporting piece; when the support assembly is switched from the first working state to the second working state, the first rotation stopping portion and the second rotation stopping portion are separated, and the first support piece and the second support piece rotate to the other opposite side of the mounting piece in the opposite direction.

In one embodiment, one end of the first supporting member is rotatably sleeved on the mounting member, a first mounting hole is formed in a circumferential side wall of one end of the first supporting member, a first rotation stopping portion is arranged on an inner wall of the first mounting hole, one end of the second supporting member is inserted into the first mounting hole and rotatably sleeved on the mounting member, and a second rotation stopping portion is arranged on a side wall of the second supporting member; when the supporting component is in a first working state, the other end of the first supporting component and the other end of the second supporting component are arranged at an included angle, the first rotation stopping portion and the second rotation stopping portion are in stress limiting fit, when the supporting component is switched to the second working state from the first working state, the first rotation stopping portion and the second rotation stopping portion are separated, and the first supporting component and the second supporting component rotate to the opposite side in the mounting component along the opposite direction.

In one embodiment, one end of the first supporting member is provided with a second mounting hole, one end of the second supporting member is provided with a third mounting hole, the first supporting member is rotatably sleeved on the mounting member through the second mounting hole, and the second supporting member is rotatably sleeved on the mounting member through the third mounting hole.

In one embodiment, the second mounting hole is disposed on an axial side wall of the first support, the third mounting hole is disposed on an axial side wall of the second support, a first mounting hole is disposed on a circumferential side wall of the first support, the first mounting hole penetrates through a side wall of the first support, the first mounting hole is located in the second mounting hole, one end of the second support is disposed in the first mounting hole, the third mounting hole is communicated with the second mounting hole, the mounting member is simultaneously inserted into the second mounting hole and the third mounting hole, and the first support and the second support can rotate in opposite directions relative to the mounting member to enable the first support and the second support to be switched between the first working state and the second working state.

In one embodiment, the first support member includes a first connecting body and a first supporting body fixedly connected with the first connecting body, the first connecting body is disposed at one end of the first support member, the first supporting body is disposed at the other end of the first support member, the first connecting body is opened with the second mounting hole, and the first mounting hole penetrates through both the first supporting body and the side wall of the first connecting body; the second support piece comprises a second connector and a second support body fixedly connected with the second connector, the second connector is arranged at one end of the second support piece, the second support body is arranged at the other end of the second support piece, and a third mounting hole is formed in the second connector.

In one embodiment, the first support comprises a first locking part and a second locking part, the second support comprises a third locking part and a fourth locking part, and when the support assembly is in the first working state, the first locking part and the third locking part are in locking fit with the mounting piece; when the support assembly is in a second working state, the first locking part and the third locking part are both separated from the mounting piece, and the second locking part and the fourth locking part are both in locking fit with the mounting piece.

In one embodiment, the mounting structure further comprises a locking member, and when the support assembly is in the first working state, the first locking part and the third locking part are in locking fit with the mounting part through the locking member; when the support assembly is in a second working state, the locking piece is separated from the first locking part and the third locking part, and the second locking part and the fourth locking part are matched with an installation piece in a locking mode through the locking piece.

In one embodiment, the mounting structure further comprises a driving mechanism, the locking member is movably arranged on the mounting member, the locking member is in limit fit with the mounting member, and the driving mechanism is used for driving the locking member to reciprocate, so that the locking member can be in locking fit with the first locking part and the third locking part in the first working state, and can be switched to being in locking fit with the second locking part and the fourth locking part in the second working state.

In one embodiment, the driving mechanism includes a spring, the mounting member is provided with an abutting portion, one end of the spring is connected to the abutting portion, the other end of the spring is connected to one end of the locking member, and the spring is configured to drive the locking member to be separated from the first supporting member and the second supporting member when being pressed, and drive the locking member to move to be in locking fit with the first locking portion and the third locking portion or to be in locking fit with the second locking portion and the fourth locking portion under the action of a restoring force.

In one embodiment, the outer wall of the mounting part is provided with a first limiting part, the locking part is provided with a second limiting part for limiting and matching with the first limiting part, and when the spring is pressed to drive the locking part to be separated from the first supporting part and the second supporting part, the first limiting part and the second limiting part are in limiting and matching.

In one embodiment, the first locking portion and the second locking portion are disposed on an inner wall of the second mounting hole at an interval in a circumferential direction of the second mounting hole, and the third locking portion and the fourth locking portion are disposed on an inner wall of the third mounting hole at an interval in a circumferential direction of the third mounting hole.

In one embodiment, the first locking portion is a first groove, the second locking portion is a second groove, the third locking portion is a third groove, and the fourth locking portion is a fourth groove; when the supporting assembly is in a first working state, the first groove and the third groove are communicated to form a first mounting groove, one end of the locking piece is in limit fit with the first mounting groove, and the other end of the locking piece is in limit fit with the mounting piece; when the supporting component is in a second working state, the second groove and the fourth groove are communicated to form a second mounting groove, one end of the locking piece is in limit fit with the second mounting groove, and the other end of the locking piece is in limit fit with the mounting piece.

In one embodiment, the mounting piece is provided with a third mounting groove, the mounting piece is inserted into the second mounting hole and the third mounting hole, the third mounting groove is partially arranged outside the second mounting hole, the length of the third mounting groove outside the second mounting hole is greater than or equal to that of the locking piece, one end of the locking piece is in limit fit with the third mounting groove, and the locking piece can move relative to the third mounting groove; when the supporting assembly is in a first working state, the first mounting groove and the third mounting groove are oppositely arranged, and the locking piece moves to be in limit fit with the first mounting groove; when the supporting component is in a second working state, the second mounting groove and the third mounting groove are oppositely arranged, and the locking piece moves to be matched with the second mounting groove in a limiting mode.

In one embodiment, the other end of the first supporting piece and/or the other end of the second supporting piece are/is provided with a mounting part.

In one embodiment, one end of the first supporting member and one end of the second supporting member are both rotatably disposed on the mounting member, and when the supporting assembly is in the second working state, the other end of the first supporting member and the other end of the second supporting member are disposed at an interval.

In another aspect, the present application further relates to a mounting housing, including the mounting structure in any of the above embodiments, and further including a housing body, wherein the mounting member is connected to the housing body.

In another aspect, the present application is directed to a heating appliance comprising the mounting structure of any of the above embodiments; or include the mounting housing of the above embodiments.

When the mounting shell and the heating device are used and an object to be supported needs to be supported, the supporting component can be rotated to a first working state, and the supporting part is positioned on one side of the mounting part and can support the object to be supported through the supporting part; when needs transport, can with the supporting component rotates to second operating condition, this moment the supporting part rotates to relative opposite side in the installed part, relative first operating condition this moment, the supporting component that is in second operating condition is in the state of accomodating, and when this mounting structure set up on the casing of room heater, the space that the supporting component took when being in the state of accomodating when being in the state of support relatively is less, also is difficult for receiving the damage.

Drawings

FIG. 1 is a schematic view of a mounting assembly in a first operating condition;

FIG. 2 is a schematic structural view of the mounting assembly in a second operating state;

FIG. 3 is a schematic view of the mounting structure in the heating appliance in a first operating condition;

FIG. 4 is a schematic view of the mounting structure in the heating appliance in a second operating condition;

FIG. 5 is an exploded view of the heating appliance;

FIG. 6 is a schematic structural view of the locking member;

FIG. 7 is a schematic structural view of the first support member;

FIG. 8 is a schematic structural view of a second support member;

FIG. 9 is a schematic view of another embodiment of a latch member;

FIG. 10 is a schematic view of a mount according to another embodiment;

FIG. 11 is an exploded view of another embodiment of a heating appliance;

FIG. 12 is a schematic view of a heating appliance according to another embodiment in which the mounting structure is in a first operating position;

fig. 13 is a partially enlarged view of a in fig. 12.

Description of reference numerals:

10. a heating device; 100. a mounting structure; 102. a support portion; 110. a first support member; 112. a first connecting body; 1122. a second mounting hole; 1124. a first mounting hole; 1126. a first groove; 1128. a second groove; 1130. a mounting section; 114. a first support; 120. a second support member; 122. a second connector; 1222. a third mounting hole; 1224. a third groove; 1126. a fourth groove; 124. a second support; 130. a mounting member; 132. a third mounting groove; 1322. a first limiting part; 1324. an abutting portion; 140. a locking member; 142. a pushing part; 144. a second limiting part; 146. a connecting portion; 200. a housing body; 310. a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

It will be understood that when an element is referred to as being "secured to" another element, it can be integral with the other element or can be removably connected to the other element.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Further, it is to be understood that, in the present embodiment, the positional relationships indicated by the terms "lower", "upper", "front", "rear", "left", "right", "inner", "outer", "top", "bottom", "one side", "the other side", "one end", "the other end", and the like are based on the positional relationships shown in the drawings; the terms "first," "second," and the like are used herein to distinguish one structural element from another. These terms are merely for convenience of description and simplicity of description, and are not to be construed as limiting the present invention.

Based on the problems that foot stands are inconvenient to store, occupy the space of a packing box, are easy to damage in the transportation process and influence the use of users when the traditional skirting line heater is used, the utility model provides an installation structure, an installation shell and heating equipment, wherein the installation structure is convenient to store when in use; this installation casing and heating installation include above-mentioned mounting structure, therefore this installation casing and heating installation possess the advantage of being convenient for the transportation.

As shown in fig. 5 and 6, the mounting housing in one embodiment includes a mounting structure 100 and a housing body 200, and the mounting member 130 is connected to the housing body 200, as shown in fig. 1 and 2, the mounting structure 100 includes: the mounting component 130 and the support component, one end of the support component is rotatably arranged on the mounting component 130, and the other end of the support component is provided with the support part 102;

as shown in fig. 1, when the support assembly is in the first working state, the support part 102 rotates to one side of the mounting part 130;

as shown in fig. 2, when the support assembly is in the second operating state, the support portion 102 is rotated to the opposite side of the mounting member 130.

When the mounting structure 100 is used and an object to be supported needs to be supported, the support assembly can be rotated to a first working state, and at this time, the support portion 102 is located at one side of the mounting member 130, and the object to be supported can be supported by the support portion 102; when transportation is needed, the supporting component can be rotated to the second working state, at the moment, the supporting part 102 is rotated to the opposite side of the mounting part 130, at the moment, the supporting component in the second working state is in the storage state relative to the first working state, and when the mounting structure is arranged on the shell of the warmer, the space occupied by the supporting component in the storage state is relatively small when the supporting component is in the supporting state, and the supporting component is not easily damaged.

Specifically, the number of the supporting components may be set as required, in this embodiment, the supporting components include a first supporting component 110 and a second supporting component 120, one end of the first supporting component 110 and one end of the second supporting component 120 are disposed at one end of the supporting components, one end of the first supporting component 110 and one end of the second supporting component 120 are both rotatably disposed at the mounting component 130, the other end of the first supporting component 110 and the other end of the second supporting component 120 are both disposed at the other end of the supporting components, and the other end of the first supporting component 110 and the other end of the second supporting component 120 are both provided with the supporting portions 102, at this time, the object to be supported by the first supporting component 110 and the second supporting component 120 may be more stable.

Specifically, when the support assembly is in the second working state, as long as the first support member 110 and the second support member 120 rotate to the other side opposite to the mounting member 130, the other end of the first support member 110 and the other end of the second support member 120 are at the other side opposite to the mounting member 130, and at this time, the first support member 110 and the second support member 120 may be disposed at an included angle or disposed at an interval.

As shown in fig. 2, in the embodiment, when the support assembly is in the second working state, the other end of the first support 110 and the other end of the second support 120 rotate to the opposite side of the mounting member 130, and the other end of the first support 110 and the other end of the second support 120 are spaced from each other, so that when the mounting member 130 is connected to the housing body 200, the space occupied by the first support 110 and the second support 120 is small, and the first support 110 and the second support 120 are not easily damaged. Preferably, when the support assembly is in the second working state, the other end of the first support 110 and the other end of the second support 120 are rotated to the opposite side of the mounting member 130 and the other end of the first support 110 and the other end of the second support 120 are disposed parallel or nearly parallel (the error is ± 5 ° and is considered to be nearly parallel), and the space occupied by the first support 110 and the second support 120 is further reduced.

As shown in fig. 2, in the embodiment, the mounting structure 100 is disposed at an end portion of the housing body 200, when the supporting assembly is in the second working state, the other end of the first supporting member 110 and the other end of the second supporting member 120 are disposed at an interval, and a projection of the other end of the first supporting member 110 and the other end of the second supporting member 120 along the axial direction of rotation is located on a side wall of the housing body 200, so as to maximally reduce an occupied space of the first supporting member 110 and the second supporting member 120.

Further, in order to improve the supporting stability of the supporting assembly, the first supporting member 110 includes a first rotation stop portion, and the second supporting member 120 includes a second rotation stop portion.

Specifically, when the support assembly is in the first working state, the other end of the first support member 110 and the other end of the second support member 120 form an included angle, and the first rotation stopping portion and the second rotation stopping portion are in limit fit to limit the relative rotation of the first support member 110 and the second support member 120; at this time, the other end of the first supporting member 110 and the other end of the second supporting member 120 form an included angle, and the supporting assembly has higher supporting stability according to the principle of stable triangular supporting; furthermore, the first rotation stopping part and the second rotation stopping part are in limit fit, so that the first supporting piece 110 and the second supporting piece 120 are prevented from rotating relatively, and the supporting stability of the supporting component is further improved;

specifically, when the supporting assembly is switched from the first working state to the second working state, the first rotation stop portion and the second rotation stop portion are separated, and the first supporting member 110 and the second supporting member 120 rotate to the opposite side of the mounting member 130 in the opposite direction, at this time, when the supporting assembly needs to be stored, the first locking portion and the second locking portion can be separated by artificially rotating the first supporting member 110 and the second supporting member 120, so as to facilitate the operation of a user; when the supporting assembly needs to be switched from the second working state to the second working state, the first supporting member 110 and the second supporting member 120 also only need to be rotated until the first rotation stopping portion and the second rotation stopping portion are in limit fit.

Further, in order to realize that the first supporting member 110 and the second supporting member 120 can be mutually limited in the rotating process, in this embodiment, one end of the first supporting member 110 is rotatably sleeved on the mounting member 130, a circumferential side wall of one end of the first supporting member 110 is provided with a first mounting hole 1124, an inner wall of the first mounting hole 1124 is provided with a first rotation stop portion, one end of the second supporting member 120 is inserted into the first mounting hole 1124 and rotatably sleeved on the mounting member 130, and a side wall of the second supporting member 120 is provided with a second rotation stop portion; specifically, at this time, the first rotation preventing part may be an inner wall of the first mounting hole 1124, and the second rotation preventing part may be an outer wall of the second support 120.

Further, when the support assembly is in the first working state, the other end of the first support 110 and the other end of the second support 120 form an included angle, the first rotation stopping portion and the second rotation stopping portion are in forced limit fit, at this time, because the first support 110 and the second support 120 are both sleeved on the mounting member 130, and the other end of the first support 110 and the other end of the second support 120 form an included angle, the support portion 102 of the first support 110 and the support portion 102 of the second support 120 are generally supported in an abutting manner with the ground, when the mounting member 130 applies pressure to the first support 110 and the second support 120 through self gravity, the first rotation stopping portion and the second rotation stopping portion are in limit fit with each other under the effect of the pressure, so as to limit the rotation of the first support 110 and the second support 120;

further, when the supporting component is switched from the first working state to the second working state, the first rotation stopping portion and the second rotation stopping portion are separated, the first supporting member 110 and the second supporting member 120 rotate to the other opposite side of the mounting member 130 along the opposite direction, and because the first supporting member 110 and the second supporting member 120 are in mutual limit fit, when the first supporting member 110 and the second supporting member 120 rotate along the opposite direction, the first rotation stopping portion and the second rotation stopping portion are naturally separated, and the supporting component is accommodated.

Because the casing of the skirting line warmer is generally crossed in the size of the width direction, the mounting member 130 is sleeved with the first supporting member 110 and the second supporting member 120 in a rotatable manner, when the skirting line warmer is stored and supported, only the first supporting member 110 and the second supporting member 120 need to be rotated, and at this time, the first supporting member 110 and the second supporting member 120 can maximally utilize the space of the casing body 200 in the height direction.

Further, the other end of the first supporting member 110 and the other end of the second supporting member 120 are supported at an included angle, and the first supporting member 110 and the second supporting member 120 can bear a larger supporting force, so that the cross-sectional area of the first supporting member 110 and the second supporting member 120 can be designed to be relatively small.

Specifically, the arrangement of the other end of the first support 110 and the other end of the second support 120 at an included angle does not include the case where the first support 110 and the second support 120 are at 0 ° or 180 °.

Specifically, the first support 110 and the second support 120 may be rotatably disposed on the mounting member 130 in various ways, such as hinged connection; as shown in fig. 7 and fig. 8, specifically, in the present embodiment, one end of the first supporting member 110 is provided with a second mounting hole 1122, one end of the second supporting member 120 is provided with a third mounting hole 1222, the first supporting member 110 is rotatably sleeved on the mounting member 130 through the second mounting hole 1122, and the second supporting member 120 is rotatably sleeved on the mounting member 130 through the third mounting hole 1222.

As shown in fig. 1, 2, 7 and 8, in the present embodiment, the second mounting hole 1122 is disposed on an axial side wall of the first support member 110, the third mounting hole 1222 is disposed on an axial side wall of the second support member 120, a first mounting hole 1124 is disposed on a circumferential side wall of the first support member 110, the first mounting hole 1124 penetrates through the first support member 110 and is located on a side wall of the second mounting hole 1122, one end of the second support member 120 is disposed on the first mounting hole 1124, the third mounting hole 1222 is communicated with the second mounting hole 1122, the mounting member 130 is simultaneously disposed through the second mounting hole 1122 and the third mounting hole 1222, and the first support member 110 and the second support member 120 can rotate in opposite directions relative to the mounting member 130 to enable the first support member 110 and the second support member 120 to switch between the first working state and the second working state.

As shown in fig. 1, further, one end of the second supporting member 120 is disposed in the first mounting hole 1124, so as to further reduce the occupied space of the second supporting member 120, thereby reducing the volume of the housing body 200 and facilitating transportation. Further, the second support 120 may rotate back and forth in the first mounting hole 1124, and the rotation directions of the first support 110 and the second support 120 are opposite to each other to switch between the storage state and the support state, and the rotation order of the first support 110 and the second support 120 may be different, as long as the rotation directions of the first support 110 and the second support 120 are opposite.

Specifically, the axial side wall of the first support 110 is a side wall corresponding to the direction of the rotation axis when the first support 110 rotates; similarly, the axial sidewall of the second support 120 is a sidewall corresponding to the direction of the rotation shaft when the second support 120 rotates.

As shown in fig. 7 and fig. 8, specifically, in the present embodiment, the first supporting member 110 includes a first connecting body 112 and a first supporting body 114 fixedly connected to the first connecting body 112, the first connecting body 112 is disposed at one end of the first supporting member 110, the first supporting body 114 is disposed at the other end of the first supporting member 110, the first connecting body 112 is provided with a second mounting hole 1122, and the first mounting hole 112 penetrates through both the first supporting body 114 and the side wall of the first connecting body 112; the second supporting member 120 includes a second connecting body 122 and a second supporting body 124 fixedly connected to the second connecting body 122, the second connecting body 122 is disposed at one end of the second supporting member 120, the second supporting body 124 is disposed at the other end of the second supporting member 120, and the second connecting body 122 is provided with a third mounting hole 1222; in this embodiment, the first supporting body 114 and the second supporting body 124 are both long, and the first connecting body 112 and the second connecting body 122 are cylindrical.

On the basis of any one of the above embodiments, in order to stabilize the support assembly in the first and second operating states; the first support 110 includes a first locking part and a second locking part, and the second support 120 includes a third locking part and a fourth locking part;

when the support assembly is in the first working state, the first locking portion and the third locking portion are both in locking fit with the mounting member 130, and at this time, the first support member 110 and the second support member 120 are fixed to the mounting member 130 through the first locking portion and the third locking portion;

when the support assembly is in the second working state, the first locking portion and the third locking portion are both separated from the mounting member 130, the second locking portion and the fourth locking portion are both in locking fit with the mounting member 130, and at this time, the first support member 110 and the second support member 120 are fixed to the mounting member 130 through the second locking portion and the fourth locking portion.

Specifically, the mounting member 130 may be a metal shaft, and the first, second, third, and fourth locking portions may each be a permanent magnet magnetically fitted with the metal shaft.

Of course, the first locking portion and the third locking portion may be locked and engaged with the mounting member 130 through an intermediate connecting member, or may be directly locked and engaged with the mounting member 130; similarly, the second locking portion and the fourth locking portion may be locked and engaged with the mounting member 130 through an intermediate connector, or may be directly locked and engaged with the mounting member 130.

As shown in fig. 1 to fig. 2, in this embodiment, the mounting structure 100 further includes a locking member 140, and when the support assembly is in the first working state, the first locking portion and the third locking portion are both locked and engaged with the mounting member 130 through the locking member 140; when the support assembly is in the second working state, the locking member 140 is separated from the first locking portion and the third locking portion, and the second locking portion and the fourth locking portion are both locked and matched with the mounting member 130 through the locking member 140.

Specifically, the first locking portion, the second locking portion, the third locking portion, and the fourth locking portion may be mounting holes, the locking member 140 may be a locking pin or a screw, and a plurality of locking holes matched with the locking pin or the screw are formed in the circumferential direction of the mounting member 130.

As shown in fig. 7 and 8, specifically in this embodiment, the first locking portion and the second locking portion are disposed on the inner wall of the second mounting hole 1122 at an interval in the circumferential direction of the second mounting hole 1122, and the third locking portion and the fourth locking portion are disposed on the inner wall of the third mounting hole 1222 at an interval in the circumferential direction of the third mounting hole 1222, so that the first locking portion, the second locking portion, the third locking portion and the fourth locking portion can be correspondingly locked and engaged with the mounting member 130 when rotating.

As shown in fig. 7 and 8, specifically in the present embodiment, the first locking portion is a first groove 1126, the second locking portion is a second groove 1128, the third locking portion is a third groove 1224, and the fourth locking portion is a fourth groove 1126; specifically, the first, second, third and fourth grooves 1126, 1128, 1224, 1126 are elongated.

Further, as shown in fig. 1, when the support assembly is in the first working state, the first recess 1126 and the third recess 1224 communicate to form a first mounting groove, one end of the locking member 140 is in limit fit with the first mounting groove, and the other end of the locking member 140 is in limit fit with the mounting member 130; in this way, the locking member 140 is in spacing fit with the first mounting groove to fix the first support member 110 and the second support member 120 to the mounting member 130; in this embodiment, when the support assembly is in the first working condition, the first groove 1126 and the third groove 1224 are in a collinear condition, and the locking member 140 can be inserted into the first groove 1126 and the third groove 1224 at the same time and in a position-limiting fit with the first groove 1126 and the third groove 1224.

Further, as shown in fig. 2, when the support assembly is in the second working state, the second groove 1128 and the fourth groove 1126 communicate to form a second mounting groove, and one end of the locking member 140 is in limit fit with the second mounting groove, and the other end of the locking member is in limit fit with the mounting member 130. In this way, the locking member 140 is in spacing fit with the second mounting groove to fix the first support member 110 and the second support member 120 to the mounting member 130; in this embodiment, when the support assembly is in the second working state, the second groove 1128 and the fourth groove 1126 are in a collinear state, and the locking member 140 can be simultaneously inserted into the second groove 1128 and the fourth groove 1126 and can be in limit fit with the second groove 1128 and the fourth groove 1126.

As shown in fig. 1, fig. 2 and fig. 6, further, in this embodiment, in order to realize the limit fitting between the mounting member 130 and the locking member 140, the mounting member 130 is provided with a third mounting groove 132, the mounting member 130 is inserted into the second mounting hole 1122 and the third mounting hole 1222, a portion of the third mounting groove 132 is disposed outside the second mounting hole 1122, a length of the third mounting groove 132 outside the second mounting hole 1122 is greater than or equal to a length of the locking member 140, one end of the locking member 140 is limit fitted with the third mounting groove 132, and the locking member 140 can move relative to the third mounting groove 132, at this time, the locking member 140 extends into the second mounting hole 1122 along the third mounting groove 132, and can also move out of the second mounting hole 1122 along the third mounting groove 132.

As shown in fig. 1, when the support assembly is in the first working state, the first installation groove and the third installation groove 132 are disposed opposite to each other, and the locking member 140 moves to be in spacing fit with the first installation groove, at this time, the locking member 140 can lock the first support member 110 and the second support member 120 to the mounting member 130, so as to improve the support stability of the support assembly.

As shown in fig. 2, when the supporting assembly is in the second working state, the second installation groove and the third installation groove 132 are disposed opposite to each other, and the locking member 140 moves to be in spacing fit with the second installation groove, at this time, the locking member 140 can lock the first supporting member 110 and the second supporting member 120 to the mounting member 130, so as to improve the stability of the first supporting member 110 and the second supporting member 120 in the storage state. Specifically, when the first operating state is switched to the second operating state, the locking member 140 first moves out of the second mounting hole 1122 along the third mounting groove 132, and when the first supporting member 110 and the second supporting member 120 rotate to the position where the second mounting groove is opposite to the third mounting groove 132, the locking member 140 moves into the second mounting hole 1122 along the third mounting groove 132 to be in limit fit with the second mounting groove.

As shown in fig. 6, in addition to any of the above embodiments, the locking member 140 further includes a pushing portion 142, and when in use, the pushing portion 142 pushes the locking member 140 to move along the third mounting groove 132.

Of course, as shown in fig. 9 to 13, in other embodiments, the locking member 140 can be driven to move by providing a corresponding driving structure, and particularly in this embodiment, the mounting structure 100 further comprises a driving mechanism, the locking member 140 is movably disposed on the mounting member 130, the locking member 140 is in limit fit with the mounting member 130, the driving mechanism is configured to drive the locking member 140 to reciprocate so that the locking member 140 can be in locking fit with the first locking portion and the third locking portion in the first working state, and in a second operating state, can be switched into locking cooperation with the second locking part and the fourth locking part, and at the moment, when the first working state is switched to the second working state, the driving mechanism is only required to drive the locking piece 140 to move, so that the locking piece 140 is separated from the first locking part and the third locking part, the locking piece 140 is driven by the driving mechanism to move to be matched with the second locking part and the fourth locking part in a locking way; and when the second working state is switched to the first working state, the use principle is the same.

Alternatively, the drive mechanism may be a linear drive structure or a telescopic drive structure.

As shown in fig. 11 to 13, in the present embodiment, the driving mechanism includes a spring 310, the mounting member 130 is provided with an abutting portion 1324, one end of the spring 310 is connected to the abutting portion 1324, the other end of the spring 310 is connected to one end of the locking member 140, the spring 310 is configured to press and drive the locking member 140 to be separated from the first supporting member 110 and the second supporting member 120, and the locking member 140 is driven by the restoring force to move to be locked and matched with the first locking part and the third locking part or to be locked and matched with the second locking part and the fourth locking part, at this time, when it is required to drive the locking member 140 to be separated from the first and second supports 110 and 120, only the compression spring 310 is required, when it is desired to drive the locking member 140 into locking engagement with the first support 110 and the second support 120, it is only necessary to release the spring 310 so that the spring 310 moves into locking engagement with the first support 110 and the second support 120 under its own restoring force.

As shown in fig. 10, in the present embodiment, the locking member 140 is disposed in the third mounting groove 132, the abutting portion 1324 is disposed on the inner wall of the third mounting groove 132, one end of the spring 310 is connected to the locking member 140, and the other end is connected to the inner wall of the third mounting groove 132. In this embodiment, the end of the locking member 140 is provided with a connecting portion 146, and the connecting portion 146 is connected to the spring 310.

Further, in order to realize that the locking member 140 can be locked on the mounting member 130 when the locking member 140 is separated from the first support member 110 and the second support member 120, as shown in fig. 9 and 10, in this embodiment, the outer wall of the mounting member 130 is provided with a first limiting portion 1322, the locking member 140 is provided with a second limiting portion 144 for limiting and matching with the first limiting portion 1322, when the spring 310 is pressed to drive the locking member 140 to be separated from the first support member 110 and the second support member 120, the first limiting portion 1322 and the second limiting portion 144 are in limiting and matching, at this time, the locking member 140 can be locked on the mounting member 130 through the limiting and matching of the first limiting portion 1322 and the second limiting portion 144.

As shown in fig. 9 and 10, in particular, the first position-limiting portion 1322 may be a position-limiting groove, and the second position-limiting portion 144 may be a position-limiting protrusion; in this embodiment, the first position-limiting portion 1322 is a position-limiting groove disposed on an inner wall of the third mounting groove 132, and the second position-limiting portion 144 is a position-limiting protrusion disposed on an outer wall of the locking member 140.

As shown in fig. 7, in any of the above embodiments, the other end of the first supporting member 110 and/or the other end of the second supporting member 120 are provided with a mounting portion 1130, at this time, when the supporting assembly is in the second working state, the housing body 200 can be mounted on the wall through the mounting portion 1130 to mount the supporting assembly on the wall, and in this embodiment, the mounting portion 1130 is a mounting hole or a mounting groove.

As shown in fig. 3-5, the heating appliance 10 of an embodiment includes the mounting structure 100 of any of the above embodiments; or include the mounting housing of the above embodiments.

When the heating device 10 is used and an object to be supported needs to be supported, the supporting assembly can be rotated to a first working state, and at the moment, the supporting part 102 is positioned at one side of the mounting part 130, and the object to be supported can be supported through the supporting part 102; when transportation is needed, the supporting component can be rotated to the second working state, at the moment, the supporting part 102 is rotated to the opposite side of the mounting part 130, at the moment, the supporting component in the second working state is in the storage state relative to the first working state, and when the mounting structure is arranged on the shell of the warmer, the space occupied by the supporting component in the storage state is relatively small when the supporting component is in the supporting state, and the supporting component is not easily damaged.

As shown in fig. 3 to 5, the mounting structure 100 is disposed at an end portion of the housing body 200, when the supporting assembly is in the first working state, the other end of the first supporting member 110 and the other end of the second supporting member 120 form an included angle, and the first supporting member 110 abuts against an inner wall of the first mounting hole 1124;

as shown in fig. 3 to 5, when the first working state is switched to the second working state (the first support 110 and the second support 120 rotate in the rotation direction indicated in fig. 5), the second support 120 and the first support 110 rotate in the opposite direction to the other side opposite to the mounting member 130, in this embodiment, when the support assembly is in the second working state, the other end of the second support 120 and the other end of the first support 110 are disposed at an interval, and at this time, the first support 110 and the second support 120 are received in the end portion of the housing body 200.

As shown in fig. 3 to 5, when the second working state is switched to the first working state (the first supporting member 110 and the second supporting member 120 rotate in the rotating direction indicated in fig. 6), the other end of the first supporting member 110 and the other end of the second supporting member 120 form an included angle, and the first supporting member 110 abuts against the inner wall of the first installation hole 1124 to achieve the limiting.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (19)

1. A mounting structure, characterized by comprising:

a mounting member; and

one end of the supporting component is rotatably arranged on the mounting component, and the other end of the supporting component is provided with a supporting part;

when the support assembly is in a first working state, the support part rotates to one side of the mounting part; when the support assembly is in a second working state, the support part rotates to the other opposite side of the mounting part.

2. The mounting structure according to claim 1, wherein the supporting member includes a first supporting member and a second supporting member, one end of the first supporting member and one end of the second supporting member are disposed at one end of the supporting member and one end of the first supporting member and one end of the second supporting member are both rotatably disposed at the mounting member, the other end of the first supporting member and the other end of the second supporting member are both disposed at the other end of the supporting member, and the other end of the first supporting member and the other end of the second supporting member are both provided with the supporting portion.

3. The mounting structure according to claim 2, wherein the first support includes a first rotation stop portion, and the second support includes a second rotation stop portion; when the supporting assembly is in a first working state, the other end of the first supporting piece and the other end of the second supporting piece form an included angle, and the first rotation stopping part and the second rotation stopping part are in limit fit to limit the relative rotation of the first supporting piece and the second supporting piece; when the support assembly is switched from the first working state to the second working state, the first rotation stopping portion and the second rotation stopping portion are separated, and the first support piece and the second support piece rotate to the other opposite side of the mounting piece in the opposite direction.

4. The mounting structure according to claim 3, wherein one end of the first supporting member is rotatably sleeved on the mounting member, a circumferential side wall of one end of the first supporting member is provided with a first mounting hole, an inner wall of the first mounting hole is provided with a first rotation stopping portion, one end of the second supporting member is inserted into the first mounting hole and rotatably sleeved on the mounting member, and a side wall of the second supporting member is provided with a second rotation stopping portion;

when the supporting component is in a first working state, the other end of the first supporting component and the other end of the second supporting component are arranged at an included angle, the first rotation stopping portion and the second rotation stopping portion are in stress limiting fit, when the supporting component is switched to the second working state from the first working state, the first rotation stopping portion and the second rotation stopping portion are separated, and the first supporting component and the second supporting component rotate to the opposite side in the mounting component along the opposite direction.

5. The mounting structure according to claim 4, wherein a second mounting hole is formed at one end of the first supporting member, a third mounting hole is formed at one end of the second supporting member, the first supporting member is rotatably sleeved on the mounting member through the second mounting hole, and the second supporting member is rotatably sleeved on the mounting member through the third mounting hole.

6. The mounting structure according to claim 5, wherein the second mounting hole is disposed on an axial side wall of the first support member, the third mounting hole is disposed on an axial side wall of the second support member, a first mounting hole is disposed on a circumferential side wall of the first support member, the first mounting hole penetrates through a side wall of the first support member, which is located in the second mounting hole, one end of the second support member is disposed in the first mounting hole, and the third mounting hole is communicated with the second mounting hole, the mounting member is simultaneously inserted in the second mounting hole and the third mounting hole, and the first support member and the second support member can rotate in opposite directions relative to the mounting member to enable the first support member and the second support member to switch between the first working state and the second working state.

7. The mounting structure according to claim 6, wherein the first supporting member includes a first connecting body and a first supporting body fixedly connected to the first connecting body, the first connecting body is disposed at one end of the first supporting member, the first supporting body is disposed at the other end of the first supporting member, the first connecting body is opened with the second mounting hole, and the first mounting hole penetrates through both the first supporting body and a side wall of the first connecting body; the second support piece comprises a second connector and a second support body fixedly connected with the second connector, the second connector is arranged at one end of the second support piece, the second support body is arranged at the other end of the second support piece, and a third mounting hole is formed in the second connector.

8. The mounting structure according to claim 5, wherein the first support includes a first locking portion and a second locking portion, the second support includes a third locking portion and a fourth locking portion, and the first locking portion and the third locking portion are in locking engagement with the mounting member when the support assembly is in the first operating state; when the support assembly is in a second working state, the first locking part and the third locking part are both separated from the mounting piece, and the second locking part and the fourth locking part are both in locking fit with the mounting piece.

9. The mounting structure of claim 8, further comprising a locking member, wherein when the support assembly is in the first operating state, the first locking portion and the third locking portion are in locking engagement with the mounting member via the locking member; when the support assembly is in a second working state, the locking piece is separated from the first locking part and the third locking part, and the second locking part and the fourth locking part are matched with an installation piece in a locking mode through the locking piece.

10. The mounting structure of claim 9, further comprising a driving mechanism, wherein the locking member is movably disposed on the mounting member, the locking member is in limit fit with the mounting member, and the driving mechanism is configured to drive the locking member to reciprocate so that the locking member can be in locking fit with the first locking portion and the third locking portion in the first operating state, and can be switched to locking fit with the second locking portion and the fourth locking portion in the second operating state.

11. The mounting structure according to claim 10, wherein the drive mechanism includes a spring, the mounting member is provided with an abutting portion, one end of the spring is connected to the abutting portion, the other end of the spring is connected to one end of the lock member, the spring is configured to be compressed to drive the lock member to be separated from the first and second support members and to drive the lock member to move into locking engagement with the first and third lock portions or into locking engagement with the second and fourth lock portions under a restoring force.

12. The mounting structure according to claim 11, wherein the outer wall of the mounting member is provided with a first limiting portion, the locking member is provided with a second limiting portion for limiting and matching with the first limiting portion, and the first limiting portion and the second limiting portion are in limiting and matching when the spring is compressed to drive the locking member to be separated from the first supporting member and the second supporting member.

13. The mounting structure according to claim 9, wherein the first locking portion and the second locking portion are provided on an inner wall of the second mounting hole at an interval in a circumferential direction of the second mounting hole, and the third locking portion and the fourth locking portion are provided on an inner wall of the third mounting hole at an interval in a circumferential direction of the third mounting hole.

14. The mounting structure according to claim 13, wherein the first locking portion is a first groove, the second locking portion is a second groove, the third locking portion is a third groove, and the fourth locking portion is a fourth groove;

when the supporting assembly is in a first working state, the first groove and the third groove are communicated to form a first mounting groove, one end of the locking piece is in limit fit with the first mounting groove, and the other end of the locking piece is in limit fit with the mounting piece;

when the supporting component is in a second working state, the second groove and the fourth groove are communicated to form a second mounting groove, one end of the locking piece is in limit fit with the second mounting groove, and the other end of the locking piece is in limit fit with the mounting piece.

15. The mounting structure of claim 14, wherein the mounting member is provided with a third mounting groove, the mounting member is inserted into the second mounting hole and the third mounting hole, the third mounting groove is partially disposed outside the second mounting hole, the length of the third mounting groove outside the second mounting hole is greater than or equal to the length of the locking member, one end of the locking member is in limit fit with the third mounting groove, and the locking member is movable relative to the third mounting groove;

when the supporting assembly is in a first working state, the first mounting groove and the third mounting groove are oppositely arranged, and the locking piece moves to be in limit fit with the first mounting groove;

when the supporting component is in a second working state, the second mounting groove and the third mounting groove are oppositely arranged, and the locking piece moves to be matched with the second mounting groove in a limiting mode.

16. The mounting structure according to any one of claims 2 to 15, wherein the other end of the first supporting member and/or the other end of the second supporting member is provided with a mounting portion.

17. The mounting structure according to any one of claims 2 to 15, wherein one end of the first support member and one end of the second support member are both rotatably provided to the mounting member, and the other end of the first support member and the other end of the second support member are disposed at an interval relative to each other when the support assembly is in the second working condition.

18. A mounting housing comprising the mounting structure of any one of claims 1 to 17, and further comprising a housing body to which the mounting member is attached.

19. A heating appliance, characterized by comprising the mounting structure of any one of claims 1 to 17;

or comprising a mounting housing according to claim 18.

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