CN215570778U - Modular assembly structure and heating equipment thereof - Google Patents

Abstract

The application relates to a modular assembly structure and heating equipment thereof, wherein the modular assembly structure is provided with an accommodating cavity through a heating shell, and a fixing piece is arranged in the accommodating cavity; heating host computer module locates and holds the intracavity, heating host computer module includes the heat-generating body support, the first side of heat-generating body support is equipped with the spout, be equipped with first through-hole in the spout, and then through set up the spout on the heat-generating body support, and then during the assembly, place heating host computer module and hold the intracavity, and the guide effect based on the spout on the heat-generating body support, make mounting direction to first through-hole, then carry out fixed connection with first through-hole with the mounting, through to heating host computer modularization, the assembly mode of part one by one has been changed, through set up the spout on heating host computer module, make the mounting on the heating casing lead to the first through-hole fast and assemble, and then simplified the assembly step, the assembly speed is improved, and avoid the assembly anomaly, thereby the production efficiency is improved.

Description

Modular assembly structure and heating equipment thereof

Technical Field

The application relates to the technical field of heating equipment, in particular to a modular assembly structure and heating equipment thereof.

Background

The heating equipment directly converts electric energy or other chemical energy into heat energy, and the heat energy is transferred in modes of contact conduction, radiation, convection contact and the like to heat the environment or human body. The heating device can be widely used in various civil or public places such as houses, offices, hotels, markets and the like.

At present, the assembly mode of the traditional heating equipment is generally an assembly mode of parts one by one, the assembly steps are multiple, the speed is low, the assembly abnormity is easy to occur, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

On the basis, a modular assembly structure and a heating device thereof are needed to solve the problems that the assembly mode of the traditional heating device is generally an assembly mode of parts one by one, the assembly steps are multiple, the speed is low, the assembly abnormity is easy to occur, and the production efficiency is low.

In order to achieve the above object, an embodiment of the present invention provides a modular assembly structure, including:

the heating shell is provided with a containing cavity, and a fixing piece is arranged in the containing cavity;

the heating host module is arranged in the accommodating cavity and comprises a heating body support, a first side surface of the heating body support is provided with a sliding groove, and a first through hole is formed in the sliding groove; the sliding groove is used for guiding the fixing piece to the first through hole; the first through hole is used for being fixedly connected with the fixing piece.

In one embodiment, the heating host module further comprises a heating body, and the heating body is arranged on the heating body support.

In one embodiment, the heating host module further comprises a fan support and a fan arranged on the fan support, the fan support is arranged on the second side face of the heating body support, and the fan support is fixedly connected with the fan.

In one embodiment, the heating host module further comprises a power board disposed on the fan bracket, and the power board is electrically connected to the fan.

In one embodiment, the heating host module further comprises a control board arranged on the heating body support, and the control board is electrically connected with the power supply board and the fan respectively.

In one embodiment, the heating shell is provided with a gear and display installation area; the gear and display mounting area is used for accommodating and setting the control panel.

In one embodiment, the heating host module further comprises a temperature controller and a fuse respectively arranged on the first side surface of the heating body bracket; the temperature controller and the fuse are respectively electrically connected with the control panel.

In one embodiment, the number of the sliding grooves is 4, and the number of the fixing pieces is 4; each sliding groove and each fixing piece are respectively arranged in a one-to-one correspondence mode.

In one embodiment, the heat-generating body is a PCT heat-generating body.

In another aspect, the utility model further provides a heating device, which comprises the modular assembly structure.

One of the above technical solutions has the following advantages and beneficial effects:

in each embodiment of the modular assembly structure, the modular assembly structure comprises a heating shell and a heating host module, an accommodating cavity is formed in the heating shell, and a fixing piece is arranged in the accommodating cavity; heating host computer module locates and holds the intracavity, heating host computer module includes the heat-generating body support, the first side of heat-generating body support is equipped with the spout, be equipped with first through-hole in the spout, and then through set up the spout on the heat-generating body support, and then during assembly heating host computer module and heating casing, place the heating host computer module in the intracavity that holds of heating casing, and the guide effect based on the spout on the heat-generating body support, make mounting direction to first through-hole on the heating casing, then carry out fixed connection with mounting and first through-hole, and then realize assembling the heating host computer module at the heating casing. This application is through to the heating host computer modularization, has changed the assembly methods of part one by one, through set up the spout on heating host computer module, forms the slide for mounting on the heating casing leads to the first through-hole fast and assembles, and then has simplified the assembly step, has improved the assembly speed, and has avoided the assembly unusual, thereby has improved production efficiency.

Drawings

FIG. 1 is a first perspective structural view of a modular mounting structure according to one embodiment;

FIG. 2 is a second perspective structural view of the modular building structure of one embodiment;

FIG. 3 is an exploded view of the modular mounting structure of one embodiment;

FIG. 4 is a first assembled view of a modular assembly structure according to one embodiment;

FIG. 5 is a second assembly view of the modular assembly structure of one embodiment.

Description of reference numerals:

100. heating casing, 110, mounting, 200, heating host computer module, 210, heat-generating body support, 212, spout, 214, first through-hole, 220, heat-generating body, 230, fan support, 240, fan, 250, power strip, 260, control panel, 270, temperature controller, 280, fuse.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail with reference to the accompanying drawings 1 to 5 in conjunction with the embodiments.

In one embodiment, as shown in fig. 1, 2 and 3, there is provided a modular assembly structure comprising:

the heating device comprises a heating shell 100, wherein the heating shell 100 is provided with a containing cavity, and a fixing piece 110 is arranged in the containing cavity;

the heating host module 200 is arranged in the accommodating cavity, the heating host module 200 comprises a heating body support 210, a sliding groove 212 is formed in a first side face of the heating body support 210, and a first through hole 214 is formed in the sliding groove 212; the sliding groove 212 is used for guiding the fixing member 110 to the first through hole 214; the first through hole 214 is used for fixedly connecting with the fixing member 110.

The modularized assembling structure can be applied to heating equipment. The heating device may be, but is not limited to, a gas warmer, an electric warmer, a boiler warmer, or an electric fireplace warmer. Preferably, the heating device is an electric heating warmer.

Specifically, the heating housing 100 may be a plastic structural housing or a metal structural housing. The heating case 100 may be provided with a receiving cavity, which may be used to receive the heating host module 200. Heating casing 100 still sets up the air outlet, and the air outlet communicates with heating host computer module 200, and then when heating host computer module 200 starts the heating function, the air outlet of warm braw accessible heating casing 100 blew out for ambient temperature around risees, and then makes the user experience the heating effect. The fixing member 110 may be disposed near a wall of the receiving cavity, and the fixing member 110 may be integrally formed with the heating case 100. In one example, the fixing member 110 may be a screw post.

The heating host module 200 may be used to generate warm air. The heating host module 200 may be composed of a plurality of sub-modules, which in one example are pre-assembled to provide the heating host module 200. It should be noted that the sub-modules may be connected by clamping or screwing. The heating host module 200 may include a heating element holder 210, and the heating element holder 210 may be used to fix a heating element. The first side of the heating body supporter 210 may be provided with a slide groove 212, and the slide groove 212 corresponds to the fixing member 110. A first through hole 214 is formed in the sliding groove 212, and the first through hole 214 may be a screw hole, and the first through hole and the fixing member 110 may be fixedly connected through a screw. As shown in fig. 4 and 5, when being installed, the fixing member 110 may guide the fixing member 110 to the first through hole 214 based on the guiding effect of the sliding groove 212, so that the fixing member 110 is fixedly connected with the first through hole 214, and the assembly between the heating host module 200 and the heating housing 100 is realized.

In the above embodiment, the heating housing 100 is provided with the accommodating cavity, and the fixing member 110 is arranged in the accommodating cavity; heating host computer module 200 locates and holds the intracavity, heating host computer module 200 includes heat-generating body support 210, the first side of heat-generating body support 210 is equipped with spout 212, be equipped with first through-hole 214 in the spout 212, and then through set up spout 212 on heat-generating body support 210, and when assembly heating host computer module 200 and heating casing 100, place heating host computer module 200 in the intracavity that holds of heating casing 100, and the guide effect based on spout 212 on heat-generating body support 210, make the mounting 110 on the heating casing 100 guide to first through-hole 214, then carry out fixed connection with mounting 110 and first through-hole 214, and then realize assembling heating host computer module 200 at heating casing 100. This application has changed the assembly methods of part one by one through to the heating host computer modularization, through set up spout 212 on heating host computer module 200, forms the slide for mounting 110 on the heating casing 100 leads to first through-hole 214 fast and assembles, and then has simplified the assembly step, has improved the assembly speed, and has avoided the assembly unusual, thereby has improved production efficiency.

In one embodiment, as shown in fig. 2, the heating host module 200 further includes a heating element 220, and the heating element 220 is disposed on the heating element support 210.

The heating element 220 may be a heating tube or a heating wire. The heat generating body 220 may have a plurality of heat generating modes. For example, the heat generation mode of the heat generating body 220 may be a high warm mode, a low warm mode, and a natural wind mode.

In one example, the heat-generating body 220 may be a PCT (a kind of semiconductor ceramic material) heat-generating body 220.

Wherein, the PCT heating element 220 may be composed of a PTC ceramic heating element and an aluminum tube.

In one embodiment, as shown in fig. 1 and 3, the heating host module 200 further includes a fan support 230 and a fan 240 disposed on the fan support 230, the fan support 230 is disposed on the second side of the heating element support 210, and the fan support 230 is fixedly connected to the fan 240.

The connection mode between the fan bracket 230 and the heating element bracket 210 may be a clamping connection or a screw connection. The fan holder 230 may be used to fix the fan 240, and the fan 240 may be used to blow the airflow to the heating element 220, so as to blow out the warm air.

The second side surface of the heat-generating body holder 210 corresponds to the first side surface of the heat-generating body holder 210.

In one embodiment, as shown in fig. 1 and 3, the heating host module 200 further includes a power board 250 disposed on the fan bracket 230, wherein the power board 250 is electrically connected to the fan 240.

The power board 250 may be used to perform voltage-stabilizing conversion on the input commercial power and provide the converted electrical signal to the fan 240 and the control board 260.

Specifically, the power board 250 and the fan bracket 230 may be connected by a snap connection or a screw connection.

In one embodiment, as shown in fig. 1 and 3, the heating host module 200 further includes a control board 260 disposed on the heating element support 210, and the control board 260 is electrically connected to the power board 250 and the fan 240, respectively.

The control board 260 may include a PCB, a processing chip is disposed on the PCB, the processing chip may be electrically connected to the power board 250 and the fan 240, and the processing chip is further used to control the heating unit 220 to work. For example, when the processing chip obtains a control instruction from a user, the processing chip may control the fan 240 and the heating element 220 to operate respectively, so as to implement a warm air function.

Further, still be provided with gear subassembly and light-emitting component on the PCB circuit board, through processing chip difference electric connection light-emitting component and gear subassembly, and then the user can control the gear subassembly, and the level signal that the processing chip can receive the gear subassembly (for example, when triggering the gear subassembly, the processing chip can receive the high level of gear subassembly). The processing chip controls the corresponding light-emitting component to light according to the received level signal, the state of the gears is fed back more visually through the lighting effect, and the user experience effect of the gear adjustment prompt is improved.

In one embodiment, the heating housing 100 is provided with gear and display mounting areas (not shown); the gear and display mounting area is used to accommodate the setting control board 260.

The gear and display mounting area can be used to accommodate the setting control board 260.

Specifically, set up gear and demonstration installing zone through heating casing 100, and then can inlay gear subassembly and light-emitting component on the control panel 260 at gear and demonstration installing zone, make light-emitting component on the control panel 260 install the corresponding position on heating casing 100 with the cooperation of gear subassembly, make the user can directly control the gear subassembly simultaneously, and directly observe the light-emitting component on the control panel 260, and then when realizing that the user adjusts the gear subassembly, can switch heat-generating body 220 to corresponding heating mode, corresponding light-emitting component can be lighted simultaneously, make light-emitting component luminous, the realization is through the light efficiency state of feedback gear more directly perceivedly, the user experience effect of suggestion is adjusted to the gear has been improved. The realization both can satisfy gear operation mode and light effect, can not destroy modular structure again.

Furthermore, the gear and display installation area can be provided with a display panel which can be divided into a light-transmitting area and a non-light-transmitting area positioned on the periphery of the light-transmitting area; the light-transmitting area can be used for transmitting the light source. The shape of the light-transmitting area is various, for example, the shape of the light-transmitting area is designed to be a circular, square, pentagonal or hexagonal lamp structure. The light-transmitting area can be divided into a plurality of light-transmitting sub-areas in equal proportion. For example, the light-transmitting region is designed to be rectangular, and the light-transmitting region can be divided into a plurality of rectangular light-transmitting sub-regions with equal proportion.

In one example, the display panel is an acrylic panel. The preferred display panel is a transparent acrylic panel. The display panel may include a first side directly viewable by a user and a second side opposite the first side, the light emitting assembly being disposed proximate the second side of the display panel. The light emitting assembly is composed of a plurality of light emitting units, and the light emitting units can be used for generating light sources. Wherein, a luminous unit is correspondingly and closely arranged at a light-transmitting subregion, namely, each luminous unit and each light-transmitting subregion are correspondingly arranged one by one.

In one embodiment, as shown in fig. 2, the heating host module 200 further includes a temperature controller 270 and a fuse 280 respectively disposed on the first side of the heating element support 210; the temperature controller 270 and the fuse 280 are electrically connected to the control board 260, respectively.

The temperature controller 270 may be configured to monitor a temperature of the heating element 220, and control the heating element 220 to be turned off when the temperature data exceeds a threshold value according to the monitored temperature data. The fuse 280 is an electric appliance that fuses a melt by heat generated by itself to open a circuit when an operating current exceeds a predetermined value.

Specifically, the temperature controller 270 and the fuse 280 are disposed on the first side of the heating element support 210, so that a fault caused by an excessively high temperature of the heating element 220 is prevented, and the safety of the heating device is improved.

In the above embodiment, the fan and the power board 250 are mounted on the fan bracket 230 in advance, the heating element 220 is mounted on the heating element bracket 210, then the fan bracket 230 is mounted on the heating element bracket 210, and the control board 260, the temperature controller 270 and the fuse 280 are mounted on the heating element bracket 210, respectively, so as to obtain the heating host module 200, thereby realizing modularization of the heating host, further realizing reduction of steps of assembling each component on the housing, and reducing abnormal assembly. An accommodating cavity is formed through the heating shell 100, and a fixing piece 110 is arranged in the accommodating cavity; heating host computer module 200 locates and holds the intracavity, heating host computer module 200 includes heat-generating body support 210, the first side of heat-generating body support 210 is equipped with spout 212, be equipped with first through-hole 214 in the spout 212, and then through set up spout 212 on heat-generating body support 210, and when assembly heating host computer module 200 and heating casing 100, place heating host computer module 200 in the intracavity that holds of heating casing 100, and the guide effect based on spout 212 on heat-generating body support 210, make the mounting 110 on the heating casing 100 guide to first through-hole 214, then carry out fixed connection with mounting 110 and first through-hole 214, and then realize assembling heating host computer module 200 at heating casing 100. Through to the heating host computer modularization, changed the assembly methods of part one by one, through set up spout 212 on heating host computer module 200, form the slide for mounting 110 on the heating casing 100 leads to first through-hole 214 fast and assembles, and then has simplified the assembly step, has improved the assembly speed, and avoids the assembly unusual, thereby has improved production efficiency.

In one embodiment, as shown in fig. 2 and 3, the number of runners 212 is 4 and the number of mounts 110 is 4; the sliding grooves 212 are disposed corresponding to the fixing members 110.

Wherein, 4 chutes 212 can be diagonally arranged around the first side surface of the heating body support 210, and each chute 212 and each fixing member 110 are respectively arranged in one-to-one correspondence, so that each fixing member 110 can be fixedly connected with the first through hole 214 on each chute 212. By arranging 4 sliding grooves 212 and 4 corresponding fixing pieces 110, the installation firmness can be improved.

In one embodiment, there is also provided a heating appliance comprising the modular assembly structure of any one of the above.

Specifically, the modular assembly structure may include a heating housing 100 and a heating host module 200, wherein a receiving cavity is provided through the heating housing 100, and a fixing member 110 is provided in the receiving cavity; heating host computer module 200 locates and holds the intracavity, heating host computer module 200 includes heat-generating body support 210, the first side of heat-generating body support 210 is equipped with spout 212, be equipped with first through-hole 214 in the spout 212, and then through set up spout 212 on heat-generating body support 210, and when assembly heating host computer module 200 and heating casing 100, place heating host computer module 200 in the intracavity that holds of heating casing 100, and the guide effect based on spout 212 on heat-generating body support 210, make the mounting 110 on the heating casing 100 guide to first through-hole 214, then carry out fixed connection with mounting 110 and first through-hole 214, and then realize assembling heating host computer module 200 at heating casing 100. Through to the heating host computer modularization, changed the assembly methods of part one by one, through set up spout 212 on heating host computer module 200, form the slide for mounting 110 on the heating casing 100 leads to first through-hole 214 fast and assembles, and then has simplified the heating installation assembly step, has improved heating installation assembly speed, and avoids the assembly unusual, thereby has improved the production efficiency of heating installation.

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

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A modular assembly structure, comprising:

the heating shell is provided with an accommodating cavity, and a fixing piece is arranged in the accommodating cavity;

the heating host module is arranged in the accommodating cavity and comprises a heating body support, a first side surface of the heating body support is provided with a sliding groove, and a first through hole is formed in the sliding groove; the sliding groove is used for guiding the fixing piece to the first through hole; the first through hole is used for being fixedly connected with the fixing piece.

2. The modular assembly structure of claim 1, wherein the heating host module further comprises a heating element disposed on the heating element support.

3. The modular assembly structure of claim 2, wherein the heating host module further comprises a fan support and a fan disposed on the fan support, the fan support is disposed on the second side of the heat generator support, and the fan support is fixedly connected to the fan.

4. The modular assembly structure of claim 3, wherein the heating host module further comprises a power board disposed on the fan bracket, the power board being electrically connected to the fan.

5. The modular assembly structure of claim 4, wherein the heating host module further comprises a control board disposed on the heating element support, and the control board is electrically connected to the power board and the fan, respectively.

6. The modular assembly structure of claim 5, wherein the heating housing is provided with a gear and display mounting area; the gear and display mounting area is used for accommodating and arranging the control panel.

7. The modular assembly structure of claim 5, wherein the heating main unit module further comprises a temperature controller and a fuse respectively disposed on the first side surface of the heating element support; the temperature controller with the fuse is electric connection respectively the control panel.

8. The modular assembling structure of any one of claims 1 to 7, wherein the number of said sliding grooves is 4, and the number of said fixing members is 4; each sliding groove and each fixing piece are respectively arranged in a one-to-one correspondence mode.

9. The modular assembly structure of claim 2, wherein the heat generator is a PCT heat generator.

10. A heating installation comprising a modular assembly structure as claimed in any one of claims 1 to 9.

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