hot press
By designing structural improvements to the housing, hot plate assembly, and support components in the hot press, the problem of housing breakage was solved, structural stability and safety were enhanced, heat transfer to the handle was prevented, and operational safety was improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN AIDUODUO TECH CO LTD
- Filing Date
- 2025-09-10
- Publication Date
- 2026-07-03
AI Technical Summary
The casing of existing hot presses is prone to breakage when the user applies force, leading to unsafe use.
A hot press is designed, comprising a shell, a hot plate assembly, and a support member. The shell consists of an upper shell and a lower shell. A handle is connected to a recess in the upper shell, and the support member is connected to the recess and the lower shell to enhance the shell strength. The structure is also strengthened by a heat insulation layer and a support column.
It effectively prevents the shell from breaking due to force during use, improving safety and structural stability. At the same time, the heat insulation layer prevents heat from being transferred to the handle, avoiding burns.
Smart Images

Figure CN224447169U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of hot pressing equipment technology, and in particular to a hot press machine. Background Technology
[0002] Hot presses use a hot plate assembly to generate heat. With the user applying pressure and time, patterns and text on transfer paper are transferred onto the material. When using a hot press, the user needs to hold the handle and apply force. However, existing hot presses on the market have hollow plastic shells, which can easily cause the shell to break due to the force applied to the handle. Utility Model Content
[0003] The present invention provides a hot press to solve the problem that the shell may break when the user applies force to the handle during the processing of workpieces using the hot press.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0005] A hot press, comprising:
[0006] The housing includes a connected shell and a handle, the shell including an upper shell and a lower shell, the upper shell having a recess extending toward the lower shell, and the handle being disposed above the recess;
[0007] A hot plate assembly, connected to the lower housing, is used to generate the heat required for heat transfer.
[0008] A support member is connected to the recess and the lower shell.
[0009] Furthermore, the recessed portion is configured as an arc surface, and the transition from the highest point to the lowest point of the recessed portion is smooth, with one end of the support member connected to the lowest point of the recessed portion.
[0010] Furthermore, the hot press also includes a heat insulation layer connected to the end of the support member away from the recess.
[0011] Furthermore, the heat insulation layer includes a first heat insulation layer and a second heat insulation layer, and the support member passes through the first heat insulation layer and is connected to the second heat insulation layer.
[0012] Furthermore, the hot plate assembly includes a transfer plate and a heating element, the heating element being mounted on the transfer plate, and the transfer plate being provided with a support column, the support column supporting the lower shell.
[0013] Furthermore, the number of support columns is set to multiple, and the multiple support columns are arranged in multiple rows along the extension direction of the handle, with the multiple support columns spaced apart.
[0014] Furthermore, the transfer plate is provided with a protective shell, the heating element is disposed inside the protective shell, and the shape of the protective shell is adapted to the shape of the heating element.
[0015] Furthermore, the support extends along the thickness direction of the hot press.
[0016] Furthermore, a support rod is provided inside the handle, and the support rod extends along the height direction of the hot press.
[0017] Furthermore, the hot press also includes a base disposed at one end of the hot plate assembly away from the housing.
[0018] As can be seen from the above technical solution, the embodiments of this utility model have at least the following advantages and positive effects:
[0019] The hot press of this utility model includes a shell, a hot plate assembly, and a support member. The shell includes a housing and a handle. The housing includes an upper shell and a lower shell. The support member is connected to the recess of the upper shell and the lower shell. The support member can strengthen the shell and prevent the shell from breaking due to the force applied to the handle when the user processes the workpiece using the hot press. Attached Figure Description
[0020] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0021] Figure 1 This is a schematic diagram of the overall structure of the hot press in one embodiment of the present invention;
[0022] Figure 2 for Figure 1 A schematic diagram of the cross-sectional structure of the hot press shown;
[0023] Figure 3 for Figure 1 The diagram shows the exploded structure of the hot press.
[0024] The annotations in the attached figures are explained as follows:
[0025] 10. Hot press; 100. Outer shell; 110. Housing; 111. Upper shell; 112. Lower shell; 113. Recess; 120. Handle; 121. Support rod; 200. Hot plate assembly; 210. Transfer plate; 211. Support column; 212. Protective shell; 220. Heating element; 300. Support component; 400. Insulation layer; 410. First insulation layer; 420. Second insulation layer; 500. Base. Detailed Implementation
[0026] Typical embodiments embodying the features and advantages of this utility model will be described in detail in the following description. It should be understood that this utility model can have various variations in different embodiments, all of which do not depart from the scope of this utility model, and the descriptions and illustrations therein are for illustrative purposes only and not intended to limit this utility model.
[0027] Please refer to the following first. Figure 1 This utility model provides a hot press 10 for heat-transferring patterns, text, etc. from transfer paper onto materials. When using the hot press 10 to process workpieces, the user holds the handle of the hot press 10 and applies force to the handle, which can reduce the possibility of shell breakage when the user uses the hot press 10 to process workpieces.
[0028] refer to Figure 1 and Figure 2 The hot press 10 includes a housing 100, a hot plate assembly 200, and a support member 300. The hot plate assembly 200 is connected to the housing 100 and is used to generate the heat required for heat transfer. The support member 300 is disposed inside the housing 100 and is used to support the housing 100.
[0029] refer to Figure 1 and Figure 2 It should be noted that the outer casing 100 includes a connected housing 110 and a handle 120. The handle 120 is for the user to hold. The housing 110 includes an upper housing 111 and a lower housing 112. The handle 120 is connected to the upper housing 111, and the lower housing 112 is connected to the hot plate assembly 200. The upper housing 111 has a recess 113 extending toward the lower housing 112, and the handle 120 is disposed above the recess 113.
[0030] refer to Figure 2 It should be noted that the support member 300 is connected to the recessed portion 113 and the lower shell 112.
[0031] refer to Figure 2 It should be noted that the support member 300 extends along the thickness direction of the hot press 10.
[0032] In summary, in this application, the hot press 10 includes a housing 100, a hot plate assembly 200, and a support member 300. The housing 100 includes a shell 110 and a handle 120. The shell 110 includes an upper shell 111 and a lower shell 112. The support member 300 is connected to the recess 113 of the upper shell 111 and the lower shell 112. The support member 300 can strengthen the shell 110 and effectively prevent the shell 110 from breaking due to the force applied to the handle 120 when the user processes the workpiece using the hot press 10.
[0033] refer to Figure 1 and Figure 2 It should be noted that the recessed portion 113 is set as an arc surface, and the highest point of the recessed portion 113 transitions smoothly to the lowest point of the recessed portion 113. One end of the support member 300 is connected to the lowest point of the recessed portion 113 to support the recessed portion 113.
[0034] refer to Figure 2 and Figure 3 The hot press 10 also includes a heat insulation layer 400, which is connected to the end of the support member 300 away from the recess 113. By providing the heat insulation layer 400, when the user uses the hot press 10, pressing the handle 120 causes the support member 300 to press the heat insulation layer 400, which in turn presses the hot plate assembly 200. This effectively prevents heat generated by the hot plate assembly 200 from being transferred to the handle 120, thus preventing burns to the user. It is understood that the heat insulation layer 400 can be omitted; any system where the hot plate assembly 200 generates heat should be protected.
[0035] refer to Figure 2 and Figure 3 It should be noted that the heat insulation layer 400 includes a first heat insulation layer 410 and a second heat insulation layer 420. The first heat insulation layer 410 is disposed inside the housing 110 and connected to the lower housing 112, and the second heat insulation layer 420 is disposed between the heat plate assembly 200 and the lower housing 112. The support member 300 passes through the first heat insulation layer 410 and is connected to the second heat insulation layer 420.
[0036] refer to Figure 2 and Figure 3 The hot plate assembly 200 includes a transfer plate 210 and a heating element 220. The heating element 220 is mounted on the transfer plate 210, which is provided with a support column 211 that supports the lower shell 112. By providing the support column 211, the strength of the lower shell 112 can be enhanced, effectively preventing the lower shell 112 from breaking due to the force applied to it when the user processes the workpiece using the hot press 10. It is understood that the support column 211 can also be omitted; any solution that allows the hot plate assembly 200 to generate heat should be protected.
[0037] refer to Figure 3 The number of support columns 211 is set to multiple, and the multiple support columns 211 are arranged in multiple rows along the extension direction of the handle 120, with the multiple support columns 211 spaced apart. For example Figure 3 As illustrated, in this embodiment, the number of support columns 211 is set to six, and the six support columns 211 are arranged in three rows along the extension direction of the handle 120. It can be understood that in other embodiments, the number of support columns 211 is set to four, and the four support columns 211 are arranged in two rows along the extension direction of the handle 120. This utility model does not specifically limit the number of support columns 211.
[0038] refer to Figure 3 The transfer plate 210 is provided with a protective shell 212, and the heating element 220 is disposed inside the protective shell 212, with the shape of the protective shell 212 matching the shape of the heating element 220. By placing the heating element 220 inside the protective shell 212, and separating it from the second heat insulation layer 420 or other components, the heating element 220 will not directly heat the second heat insulation layer 420 during operation, effectively preventing fires from igniting the second heat insulation layer 420 or other components, thus increasing the safety of using the hot press 10. It is understandable that, if safety is not a concern, the protective shell 212 may not be necessary; any method that allows the heating element 220 to generate energy should be protected.
[0039] refer to Figure 2 A support rod 121 is provided inside the handle 120, extending along the height direction of the hot press 10. By providing the support rod 121, the strength of the handle 120 can be enhanced, effectively preventing the handle 120 from breaking due to force applied by the user when processing workpieces using the hot press 10. It is understood that the support rod 121 can be omitted; any design where the hot press 10 includes a handle 120 should be protected.
[0040] refer to Figure 1 and Figure 3 The hot press 10 also includes a base 500, which is located at the end of the hot plate assembly 200 away from the housing 110. By providing the base 500, the friction between the transfer plate 210 and the placement surface can be effectively reduced, thereby increasing the service life of the hot press 10. It is understood that the base 500 may also be omitted.
[0041] Although the present invention has been described with reference to several typical embodiments, it should be understood that the above embodiments are not limited to any of the foregoing details, but should be interpreted broadly within the spirit and scope defined by the appended claims. Therefore, all variations and modifications falling within the scope of the claims or their equivalents should be covered by the appended claims.
Claims
1. A hot press, characterized in that, include: The housing includes a connected shell and a handle, the shell including an upper shell and a lower shell, the upper shell having a recess extending toward the lower shell, and the handle being disposed above the recess; A hot plate assembly, connected to the lower housing, is used to generate the heat required for heat transfer. A support member is connected to the recess and the lower shell.
2. Hot press according to claim 1, characterized in that The recessed portion is configured as an arc surface, and the highest point of the recessed portion transitions smoothly to the lowest point of the recessed portion. One end of the support member is connected to the lowest point of the recessed portion.
3. Hot press according to claim 2, characterized in that The hot press also includes a heat insulation layer connected to the end of the support member away from the recess.
4. Hot press according to claim 3, characterized in that The heat insulation layer includes a first heat insulation layer and a second heat insulation layer. The support member passes through the first heat insulation layer and is connected to the second heat insulation layer.
5. The hot press of claim 3, wherein, The hot plate assembly includes a transfer plate and a heating element. The heating element is mounted on the transfer plate, and the transfer plate is provided with a support column, which supports the lower shell.
6. The hot press of claim 5, wherein, The number of support columns is set to multiple, and the multiple support columns are arranged in multiple rows along the extension direction of the handle, with the multiple support columns spaced apart.
7. The hot press of claim 5, wherein, The transfer plate is provided with a protective shell, the heating element is disposed inside the protective shell, and the shape of the protective shell is adapted to the shape of the heating element.
8. The hot press according to claim 2, characterized in that, The support extends along the thickness direction of the hot press.
9. The hot press of claim 2, wherein, A support rod is provided inside the handle, and the support rod extends along the height direction of the hot press.
10. The hot press of claim 1, wherein, The hot press also includes a base disposed at one end of the hot plate assembly away from the housing.