A hot table heat insulation tooling

By designing an adjustable heat-insulating fixture, the problem of insulation cotton slipping and burn risk during microwave product assembly was solved, achieving flexible insulation support and precise temperature control to adapt to assembly needs of different sizes and temperatures.

CN224464620UActive Publication Date: 2026-07-07WUXI HUACE ELECTRONICS SYST

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI HUACE ELECTRONICS SYST
Filing Date
2025-07-29
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

During the assembly of microwave products, the operating space is narrow and the product size varies greatly. The insulation cotton is prone to slipping and its thermal resistance performance decreases at high temperatures, resulting in a high risk of burns to operators.

Method used

A heat-insulating fixture for a hot table, including an adjustable frame and a heat insulation plate, was designed. The adjustable reference frame and placement frame form a placement area. The heat insulation plate is detachable and can be installed. The multi-layer structure of ceramic fiber board, honeycomb board and load-bearing plate allows for adjustable height and spacing to adapt to different size and temperature requirements.

Benefits of technology

It significantly reduces operational difficulty, improves operational flexibility and process stability, reduces the risk of burns, enhances the versatility of the device, and adapts to the assembly needs of microwave products of different sizes.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the technical field of microwave product assembly, and discloses a heat table heat insulation tool which comprises an adjusting frame and a heat insulation plate, the adjusting frame comprises a ring-shaped reference frame and a ring-shaped placing frame, the reference frame is arranged on a workbench, the placing frame is arranged above the reference frame, a placing area for placing a heat table is formed between the reference frame and the placing frame, and the heat insulation plate is detachably arranged on the placing frame. The application has the effect of facilitating the assembly of microwave products.
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Description

Technical Field

[0001] This application relates to the field of microwave product assembly technology, and in particular to a heat insulation fixture for a hot table. Background Technology

[0002] With the continuous advancement of information technology and mechanical equipment, the application of auxiliary tooling is becoming increasingly widespread. In order to ensure the safety of operators and improve work efficiency, it is necessary to continuously optimize and improve the tooling and equipment of mechanical equipment.

[0003] A "hot table" typically refers to a platform device used in laboratories or industrial settings to heat samples or workpieces to a set temperature and maintain that temperature. Depending on the application, assembly of microwave products generally takes place on a hot table during production.

[0004] When operators work on the hot table, the insulation cotton laid on the table often slips off due to the narrow operating space and large differences in product size. At the same time, when the hot table is under high temperature conditions, the insulation cotton that has been exposed for a long time will have reduced thermal resistance and reduced anti-scalding effect, resulting in the risk of burns to the operator's fingers and forearms. Utility Model Content

[0005] To facilitate the assembly of microwave products, this application provides a heat-insulating fixture for a heated stage.

[0006] The heat insulation fixture for a hot table provided in this application adopts the following technical solution:

[0007] A heat-insulating fixture for a heated platform includes an adjusting frame and a heat-insulating plate. The adjusting frame comprises an annular reference frame and an annular placement frame, wherein:

[0008] The reference is set up on the workbench;

[0009] The placement rack is positioned above the reference frame;

[0010] A placement area for the placement heating table is formed between the reference frame and the placement frame;

[0011] The heat insulation panel is detachably mounted on the placement rack.

[0012] Optionally, the height between the reference frame and the placement frame is adjustable.

[0013] Optionally, the reference frame includes placement bars and connecting rods;

[0014] The placement strip is provided in pairs;

[0015] The two placement strips are connected by a connecting rod.

[0016] Optionally, the placement strip is provided with a mounting strip at its end;

[0017] The placement strip and the mounting strip are generally arranged in a U-shape;

[0018] The end of the connecting rod is located on the mounting strip.

[0019] Optionally, the overall length of the connecting rod is adjustable.

[0020] Optionally, the connecting rod includes an adjusting rod and an adjusting cylinder, wherein:

[0021] The adjusting rod is placed inside the adjusting cylinder and slides in conjunction with the adjusting cylinder.

[0022] Optionally, the placement rack has a sliding hole on the side near the reference frame;

[0023] The reference frame is provided with a slide rod that is inserted into the slide hole.

[0024] Optionally, the heat insulation plate is bolted to the placement frame;

[0025] The heat insulation plate has a placement groove on the side near the placement rack, and part of the placement rack is placed in the placement groove.

[0026] Optionally, the heat insulation board includes a ceramic fiber board, a honeycomb board and a load-bearing board in a direction from bottom to top, wherein the surface of the ceramic fiber board is provided with an aluminum foil reflective layer;

[0027] The ceramic fiber board, the honeycomb board, and the load-bearing plate are connected by connectors.

[0028] Optionally, the connector includes multiple connecting plates, which are circumferentially distributed along the vertical center direction of the heat insulation board, and the connecting plates connect the side of the ceramic fiber board and the side of the load-bearing plate.

[0029] A gap is left between adjacent connecting plates to allow airflow.

[0030] In summary, this application includes at least one of the following beneficial technical effects:

[0031] 1. The heat insulation panels are detachably installed on the rack, allowing staff to easily replace them with the appropriate size and temperature according to operational needs, significantly reducing operational difficulty and improving operational flexibility;

[0032] 2. The reference frame and the placement frame are height-adjustable through the cooperation of sliding rods and sliding holes, which makes the distance between the microwave product to be assembled and the hot stage adjustable, thereby accurately controlling the degree of heating of the product and improving process stability;

[0033] 3. The connecting rod consists of an adjusting rod and an adjusting cylinder that slide together. The overall length is adjustable, thereby changing the distance between the two placement strips to adapt to microwave products of different sizes, enhancing the versatility of the device and reducing the frequency of tooling changes. Attached Figure Description

[0034] Figure 1 This is a schematic diagram of the overall structure of an embodiment of this application.

[0035] Figure 2 This is a schematic diagram illustrating the connecting rod structure in an embodiment of this application.

[0036] Figure 3 This is a schematic diagram illustrating the placement slot structure in an embodiment of this application.

[0037] Figure 4 This is a schematic diagram illustrating the positional relationship between the ceramic fiber board, the honeycomb board, and the load-bearing plate in the embodiments of this application.

[0038] Figure 5 This is a schematic diagram illustrating the honeycomb panel structure in an embodiment of this application.

[0039] Explanation of reference numerals in the attached figures:

[0040] 1. Adjusting frame; 2. Insulation board; 21. Placement slot; 3. Reference frame; 31. Placement strip; 311. Mounting strip; 312. Positioning hole; 32. Connecting rod; 321. Adjusting rod; 322. Adjusting cylinder; 33. Sliding rod; 4. Placement frame; 41. Sliding hole; 5. Heating table; 6. Ceramic fiber board; 7. Honeycomb board; 8. Load-bearing plate; 9. Connecting plate. Detailed Implementation

[0041] The following is in conjunction with the appendix Figures 1-5 This application will be described in further detail.

[0042] This application discloses a heat insulation fixture for a heated platform.

[0043] A heat insulation fixture for a hot table includes an adjustment frame 1 and a heat insulation plate 2. The adjustment plate has a placement area inside, and the hot table 5 is placed inside the placement area. The heat insulation plate 2 is detachably installed on the adjustment frame 1.

[0044] When working, the staff places the microwave product to be assembled on the heat insulation plate 2. The heat insulation plate 2 supports the microwave product to be assembled and also supports the staff to facilitate their work. At the same time, the heat insulation plate 2 insulates the heat, reducing the possibility of the staff burning their fingers and arms during operation. In addition, since the heat insulation plate 2 and the placement rack 4 are detachably connected, the heat insulation plate 2 of a suitable size and temperature can be replaced at any time according to the operational needs, thereby reducing the difficulty of operation for the staff.

[0045] The adjustment frame 1 includes a ring-shaped reference frame 3 and a ring-shaped placement frame 4. The reference frame 3 is placed on the workbench, and the placement frame 4 is located above the reference frame 3. A placement area is formed between the reference frame 3 and the placement frame 4. The heat insulation plate 2 is detachably fixedly installed on the reference frame 3.

[0046] During operation, the placement rack 4 is placed outside the hot table 5, placing the hot table 5 in the placement area. The microwave products to be assembled are placed on the heat insulation plate 2, which provides support for the staff to facilitate their operation.

[0047] The height between the reference frame 3 and the placement frame 4 is adjustable to accommodate the placement height required for the microwave product to be assembled. Additionally, the microwave product to be assembled receives different amounts of heat depending on its distance from the heating stage 5. Adjusting the distance between the placement frame 4 and the reference frame 3 helps to regulate the amount of heat received by the microwave product to be assembled.

[0048] The reference frame 3 includes a pair of placement bars 31 and a pair of connecting rods 32. The connecting rods 32 are located between the two placement bars 31 and are positioned near the ends of the placement bars 31. The ends of the connecting rods 32 are fixedly connected to the adjacent placement bars 31. The pair of connecting rods 32 together form a ring-shaped placement frame 4.

[0049] An installation strip 311 is provided on one side of the two placement strips 31 that are close to each other. The placement strip 31 and the installation strip 311 are integrally formed. The placement strip 31 and the installation strip 311 are arranged in a U-shape, and the openings of the U-shape are close to each other.

[0050] The connecting rod 32 and the mounting strip 311 are fixedly connected. The mounting strip 311 is provided with a positioning hole 312. The connecting rod 32 and the positioning hole 312 are inserted into each other. After the connecting rod 32 is inserted into the positioning hole 312 for positioning, the connecting rod 32 and the positioning hole 312 are fixedly connected. In this embodiment, a bolt is threaded onto the wall of the positioning hole 312. After the connecting rod 32 is inserted into the positioning hole 312, the bolt end is used to press the connecting rod 32 against the inner wall of the positioning hole 312.

[0051] Since the connecting rod 32 is detachably connected by bolts and mounting strip 311, the ease of assembling and disassembling the connecting rod 32 is improved.

[0052] The overall length of the connecting rod 32 is adjustable to adjust the distance between the two placement strips 31, and further adjust the distance between the two heat insulation plates 2 to accommodate microwave products of different sizes to be assembled.

[0053] The connecting rod 32 includes an adjusting rod 321 and an adjusting cylinder 322. One end of the adjusting rod 321 is mounted on the mounting strip 311, and the adjusting cylinder 322 is mounted on another mounting strip 311. The adjusting rod 321 is placed in the adjusting cylinder 322 and slides in cooperation with the adjusting cylinder 322, so that the adjusting rod 321 slides inside the adjusting cylinder 322 to adjust the overall length of the connecting rod 32.

[0054] The bottom of the placement strip 31 is equipped with multiple anti-slip pads.

[0055] The reference frame 3 and the placement frame 4 have similar overall structures. The difference between the reference frame 3 and the placement frame 4 is that the surface of the placement frame 4 near the reference frame 3 is provided with multiple sliding holes 41. Multiple sliding rods 33 corresponding to the sliding holes 41 are fixedly installed on the reference frame 3. The sliding rods 33 and the sliding holes 41 are inserted and matched. The sliding rods 33 and the sliding holes 41 cooperate with each other to limit the movement of the placement frame 4 in the height direction.

[0056] Bolts are threaded onto the wall of the sliding hole 41. After the height of the placement frame 4 and the reference frame 3 are adjusted, the sliding rod 33 is pressed against the inner wall of the sliding hole 41 by the bolts.

[0057] The heat insulation plate 2 is bolted to the placement frame 4, which improves the ease of installation of the heat insulation plate 2 on the placement frame 4. The bolted installation also facilitates adjustment of the initial positions of the heat insulation plate 2 and the placement frame 4. Furthermore, to facilitate the bolted connection between the placement frame 4 and the heat insulation plate 2, a placement groove 21 is provided on the side of the heat insulation plate 2 closest to the placement frame 4. Part of the placement frame 4 is placed in the placement groove 21, which positions the heat insulation plate 2 and the placement frame 4.

[0058] The heat insulation board 2 includes a ceramic fiber board 6, a honeycomb board 7, and a load-bearing board 8. The ceramic fiber board 6, the honeycomb board 7, and the load-bearing board 8 are distributed in a bottom-up direction, and the surface of the ceramic fiber board 6 is provided with an aluminum foil reflective layer.

[0059] The ceramic fiber board 6 blocks the heat radiation from the bottom and further enhances the blocking effect through the aluminum foil reflective layer. In this embodiment, the ceramic fiber board 6 is of type 1260.

[0060] The honeycomb panel 7 traps air, forming a dual insulation mechanism with the ceramic fiber panel 6, further enhancing the insulation effect. To ensure overall structural strength, the honeycomb panel 7 is made of 304 stainless steel, reducing the possibility of deformation when supporting workers' arms.

[0061] The ceramic fiber board 6, honeycomb board 7, and load-bearing plate 8 are connected by connectors to ensure the stability of the overall structure.

[0062] The connector includes multiple connecting plates 9, which are distributed circumferentially along the vertical center of the insulation board 2. The connecting plates 9 are fixedly connected to the side of the ceramic fiber board 6 and the side of the load-bearing plate 8. The honeycomb board 7 is clamped and fixed by the ceramic fiber board 6 and the load-bearing plate 8.

[0063] To facilitate convection between the honeycomb panel 7 and the outside air, gaps are left between adjacent connecting plates 9. The implementation principle of a heat-insulating fixture for a hot table according to an embodiment of this application is as follows: The operator places the reference frame 3 on the worktable, and uses the sliding rod 33 and sliding hole 41 to fit the placement frame 4 onto the outside of the hot table 5 to form a placement area. The sliding rod 33 is fixed with bolts to achieve height positioning. Then, the heat insulation plate 2, which is adapted to the size and temperature, is positioned through the placement groove 21 and fastened to the placement frame 4 with bolts. The microwave product to be assembled is then placed on the heat insulation plate 2. The heat insulation plate 2 provides support for both the product and the operator. The spacing of the placement strips 31 is changed by adjusting the sliding of the adjusting rod 321 of the connecting rod 32 within the adjusting cylinder 322 to adapt to the product size. Simultaneously, the height distance between the placement frame 4 and the reference frame 3 is adjusted to control the degree of product heating. Throughout the process, the heat insulation plate 2 continuously insulates against heat to reduce the risk of burns, and the connecting rod 32 or the heat insulation plate 2 can be replaced at any time to adapt to different operational needs.

[0064] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A heat insulation fixture for a heated platform, characterized in that: It includes an adjustment frame and a heat insulation plate. The adjustment frame includes a ring-shaped reference frame and a ring-shaped placement frame, wherein: The reference is set up on the workbench; The placement rack is positioned above the reference frame; A placement area for the placement heating table is formed between the reference frame and the placement frame; The heat insulation panel is detachably mounted on the placement rack.

2. The heat insulation fixture for a heated platform according to claim 1, characterized in that: The height between the reference frame and the placement frame is adjustable.

3. The heat insulation fixture for a heated platform according to claim 1, characterized in that: The reference frame includes placement bars and connecting rods; The placement strip is provided in pairs; The two placement strips are connected by a connecting rod.

4. The heat insulation fixture for a heated platform according to claim 3, characterized in that: The placement strip is provided with an installation strip at its end; The placement strip and the mounting strip are generally arranged in a U-shape; The end of the connecting rod is located on the mounting strip.

5. The heat insulation fixture for a heated platform according to claim 3, characterized in that: The overall length of the connecting rod is adjustable.

6. The heat insulation fixture for a heated platform according to claim 5, characterized in that: The connecting rod includes an adjusting rod and an adjusting cylinder, wherein: The adjusting rod is placed inside the adjusting cylinder and slides in conjunction with the adjusting cylinder.

7. The heat insulation fixture for a heated platform according to claim 2, characterized in that: The side of the placement rack closest to the reference frame has a sliding hole; The reference frame is provided with a slide rod that is inserted into the slide hole.

8. The heat insulation fixture for a heated platform according to claim 1, characterized in that: The heat insulation plate is connected to the placement frame by bolts and threads; The heat insulation plate has a placement groove on the side near the placement rack, and part of the placement rack is placed in the placement groove.

9. The heat insulation fixture for a heated platform according to claim 1, characterized in that: The heat insulation board comprises a ceramic fiber board, a honeycomb board, and a load-bearing board from bottom to top, wherein the surface of the ceramic fiber board is provided with an aluminum foil reflective layer; The ceramic fiber board, the honeycomb board, and the load-bearing plate are connected by connectors.

10. A heat insulation fixture for a heated platform according to claim 9, characterized in that: The connector includes multiple connecting plates, which are circumferentially distributed along the vertical center direction of the heat insulation board. The connecting plates connect the side of the ceramic fiber board and the side of the load-bearing plate. A gap is left between adjacent connecting plates to allow airflow.