A heat dissipation device

By designing a sliding and rotating structure for the support components, the problem of inconvenient mold placement in existing equipment has been solved, enabling convenient mold placement and uniform heat dissipation, thus improving the practicality of the equipment.

CN224446761UActive Publication Date: 2026-07-03CHONGQING GRINDERS PLASTIC CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING GRINDERS PLASTIC CO LTD
Filing Date
2025-08-08
Publication Date
2026-07-03

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Abstract

The utility model relates to mould heat dissipation technical field, concretely relates to a heat dissipation equipment, including base, body and support subassembly, body installs above the base, support subassembly includes installation rail, sliding strip, support component, support wheel, support plate, rotating member and rotating plate, installation rail is fixedly connected with the base, and is located the side that the base is close to body, sliding strip is connected with the installation rail sliding, and is located the side that the installation rail is away from the base, support wheel is connected with sliding strip through support component, and support component supports support wheel, support plate is fixedly connected with sliding strip, and is located the side that sliding strip is away from the installation rail, rotating plate is connected with support plate through rotating member, and rotating member drives rotating plate to rotate, and the more convenient placement mould carries out heat dissipation, reduces the physical exertion of staff, improves the practicability of equipment.
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Description

Technical Field

[0001] This utility model relates to the field of mold heat dissipation technology, and in particular to a heat dissipation device. Background Technology

[0002] In the prior art, such as patent ZL 201410582140.4, a heat sink is disclosed. However, in actual use, this heat sink is not convenient for quickly cooling the injection mold and has low cooling efficiency.

[0003] Existing patent CN205889807U describes an electric fan radiator for cooling injection molds, comprising a base plate, a support plate on the base plate, a fan box between the ends of the support plate, a fan housing at the front of the fan box, a top shell connected to the end side wall of the fan housing, and internal communication between the fan box, the fan housing, and the top shell; a first air outlet screen on the outward-facing surface of the fan housing, and a second air outlet screen at the lower part of the top shell; a support base at the bottom of the fan box, on which a fan is mounted, a drive shaft connected to the front of the fan, and blades at the end of the drive shaft positioned on the inward-facing surface of the second air outlet screen. This invention provides convenient airflow through the blades and facilitates ventilation through the air outlet screens, allowing the injection mold to be placed on the base plate for convenient air cooling.

[0004] In actual use, the existing equipment requires the mold to be placed on the carrier. However, due to the shape of the fan casing, the staff still need to move the mold after placing it on the carrier so that it is located under the fan casing. It cannot be placed directly in the designated position, which reduces its practicality. Utility Model Content

[0005] The purpose of this utility model is to provide a heat dissipation device that solves the problem that existing devices, due to the limitations of the shape of the fan housing, require workers to place the mold on the carrier base and then move the mold to position it under the fan housing, thus preventing it from being placed directly in a designated location and resulting in low practicality.

[0006] To achieve the above objectives, this utility model provides a heat dissipation device, including a base, a body, and a support assembly. The body is mounted on top of the base. The support assembly includes a mounting rail, a sliding bar, a support member, a support wheel, a support plate, a rotating member, and a rotating plate. The mounting rail is fixedly connected to the base and located on the side of the base closer to the body. The sliding bar is slidably connected to the mounting rail and located on the side of the mounting rail away from the base. The support wheel is connected to the sliding bar through the support member, which supports the support wheel. The support plate is fixedly connected to the sliding bar and located on the side of the sliding bar away from the mounting rail. The rotating plate is connected to the support plate through the rotating member, which drives the rotating plate to rotate.

[0007] The support assembly further includes a fixing rod, which is slidably connected to the mounting rail and located on the side of the mounting rail away from the base, and abuts against the sliding strip.

[0008] The support assembly further includes a side pull plate, which is fixedly connected to the sliding bar and located on the side of the sliding bar away from the mounting rail.

[0009] The supporting component includes a mounting base and a support rod. The mounting base is fixedly connected to the sliding bar and is located on the side of the sliding bar closer to the mounting rail. The support rod is fixedly connected to the mounting base and is located on the side of the mounting base away from the sliding bar, and is connected to a support wheel.

[0010] The rotating component includes a rotating shaft and a support block. The rotating shaft is fixedly connected to the support plate and is located on the side of the support plate away from the sliding bar, and is connected to the rotating plate. The support block is fixedly connected to the rotating plate and is located on the side of the rotating plate close to the rotating shaft, and abuts against the support plate.

[0011] This utility model discloses a heat dissipation device. The mounting rail is bolted to the base. A sliding bar is slidably mounted on the mounting rail, with one end of the sliding bar able to slide out of the mounting rail. A support wheel is mounted below the sliding bar via a support member, supporting the sliding bar and allowing it to slide stably. A support plate is bolted to the sliding bar, causing the sliding bar to move the support plate, partially removing it from the base. A rotating plate is mounted on the support plate via a rotating member, driving the rotating plate to rotate. This allows for multi-directional airflow cooling of the mold. The sliding bar moves the support plate and rotating plate below the main body, enabling more convenient placement of the mold for heat dissipation, reducing the physical exertion of workers, and improving the practicality of the equipment. Attached Figure Description

[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.

[0013] Figure 1 This is a schematic diagram of the overall structure of a heat dissipation device according to the first embodiment of this utility model.

[0014] Figure 2 This is a schematic diagram of the overall structure of the support component according to the first embodiment of the present invention.

[0015] Figure 3 This is a schematic diagram of the installation of the rotating shaft and support block according to the first embodiment of this utility model.

[0016] In the diagram: 100-base, 101-body, 102-mounting rail, 103-sliding bar, 104-support wheel, 105-support plate, 106-rotating plate, 107-fixed insert rod, 108-side pull plate, 109-mounting seat, 110-support rod, 111-rotating shaft, 112-support block. Detailed Implementation

[0017] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.

[0018] The first embodiment of this application is as follows:

[0019] Please see Figures 1 to 3 , Figure 1 This is a schematic diagram of the overall structure of a heat dissipation device according to the first embodiment of this utility model. Figure 2This is a schematic diagram of the overall structure of the support component according to the first embodiment of the present invention. Figure 3 This is a schematic diagram of the installation of the rotating shaft and support block according to the first embodiment of this utility model.

[0020] This utility model provides a heat dissipation device, including a body 101, a base 100, and a support assembly. The support assembly includes a mounting rail 102, a sliding bar 103, a support member, a support wheel 104, a support plate 105, a rotating member, a rotating plate 106, a fixed insert rod 107, and a side pull plate 108. The support member includes a mounting base 109 and a support rod 110. The rotating member includes a rotating shaft 111 and a support block 112. This solution solves the problem that existing equipment, due to the shape limitation of the fan casing, requires workers to place the mold on the carrier seat and then move the mold to position it below the fan casing, making it difficult to place directly in a designated location, resulting in low practicality.

[0021] In this specific embodiment, the main body 101 is installed above the base 100. The main body 101 is a heat dissipation structure described in the existing patent technology CN205889807U, a heat dissipation structure for an electric fan radiator for cooling injection molds. The main body 101 is installed above the base 100, and air is blown onto the mold through the main body 101 to cool the injection mold. This solution achieves a more convenient placement of the mold for heat dissipation, reduces the physical exertion of the workers, and improves the practicality of the equipment.

[0022] The mounting rail 102 is fixedly connected to the base 100 and located on the side of the base 100 closer to the body 101. The sliding bar 103 is slidably connected to the mounting rail 102 and located on the side of the mounting rail 102 away from the base 100. The support wheel 104 is connected to the sliding bar 103 through a support member, which supports the support wheel 104. The support plate 105 is fixedly connected to the sliding bar 103 and located on the side of the sliding bar 103 away from the mounting rail 102. The rotating plate 106 is connected to the support plate 105 through a rotating member, which drives the rotating plate 106 to rotate. The mounting rail 102 is bolted to the base 100. The sliding bar 103 is slidably mounted on the mounting rail 102, allowing one end of the sliding bar 103 to slide out of the mounting rail 102. The track 102, the support wheel 104 is installed below the sliding bar 103 via the support member, so that the support wheel 104 can support the sliding bar 103, thereby enabling the sliding bar 103 to slide stably. The support plate 105 is installed on the sliding bar 103 by bolts, so that the sliding bar 103 drives the support plate 105 to move, thereby causing the support plate 105 to partially move out of the body 101. The rotating plate 106 is installed on the support plate 105 via the rotating member, so that the rotating member drives the rotating plate 106 to rotate, thereby enabling the mold to be cooled by air blowing from multiple directions. The sliding bar 103 drives the support plate 105 and the rotating plate 106 to move below the body 101, thereby realizing a more convenient placement of the mold for heat dissipation, reducing the physical exertion of the workers, and improving the practicality of the equipment.

[0023] Secondly, the fixing rod 107 is slidably connected to the mounting rail 102 and is located on the side of the mounting rail 102 away from the base 100, and abuts against the sliding bar 103. The fixing rod 107 is slidably installed on the mounting rail 102 and passes through the sliding bar 103, thereby fixing the sliding bar 103 on the mounting rail 102, so that the support plate 105 and the rotating plate 106 stably support the mold.

[0024] Meanwhile, the side pull plate 108 is fixedly connected to the sliding bar 103 and is located on the side of the sliding bar 103 away from the mounting rail 102. The side pull plate 108 is installed on the sliding bar 103 by bolts. The two sliding bars 103 are connected by the side pull plate 108, so that the passing personnel can pull the sliding bar 103 to move by the side pull plate 108.

[0025] Additionally, the mounting base 109 is fixedly connected to the sliding bar 103 and is located on the side of the sliding bar 103 closest to the mounting rail 102; the support rod 110 is fixedly connected to the mounting base 109 and is located on the side of the mounting base 109 furthest from the sliding bar 103, and is connected to the support wheel 104. The mounting base 109 is bolted to the side of the sliding bar 103 closest to the mounting rail 102, and the support rod 110 is fixedly mounted on the mounting base 109 by a threaded structure. The mounting base 109 makes the support rod 110 more stably mounted on the sliding bar 103. The side of the support rod 110 furthest from the mounting base 109 is connected to the support wheel 104, so that the support wheel 104 can support the sliding bar 103.

[0026] Finally, the rotating shaft 111 is fixedly connected to the support plate 105 and located on the side of the support plate 105 away from the sliding bar 103, and is connected to the rotating plate 106; the support block 112 is fixedly connected to the rotating plate 106 and located on the side of the rotating plate 106 close to the rotating shaft 111, and abuts against the support plate 105. The rotating shaft 111 is mounted on the support plate 105 through bearings, and one end of the rotating shaft 111 is connected to the rotating plate 106, allowing the rotating plate 106 to rotate on the support. A motor that drives the rotating shaft 111 to rotate is mounted on the support plate 105, thereby making the rotating plate 106 rotate at a uniform speed to achieve uniform heat dissipation. The support block 112 is mounted on the rotating plate 106 through bolts, and one side of the support block 112 abuts against the support plate 105, allowing the support block 112 to slide on the support plate 105, thereby improving the stability of the rotating plate 106.

[0027] Using a heat dissipation device according to this embodiment, when placing a mold, firstly, the fixing rod 107 is removed, and the sliding bar 103 is moved by the side pull plate 108, so that the support plate 105 and the rotating plate 106 are moved out of the body 101. At this time, the mold is placed on the rotating plate 106, and then the sliding bar 103 is moved into the mounting rail 102, so that the mold is located below the body 101 and fixed by the fixing rod 107. This makes it easier to place the mold for heat dissipation, reduces the physical exertion of the workers, and improves the practicality of the equipment. The motor on the support plate 105 is started, so that the rotating shaft 111 drives the rotating plate 106 to rotate, achieving more uniform heat dissipation.

[0028] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.

Claims

1. A heat dissipation device, comprising a base and a body, wherein the body is mounted above the base, characterized in that, It also includes support components; The support assembly includes a mounting rail, a sliding bar, a support member, a support wheel, a support plate, a rotating member, and a rotating plate. The mounting rail is fixedly connected to the base and located on the side of the base closer to the main body. The sliding bar is slidably connected to the mounting rail and located on the side of the mounting rail away from the base. The support wheel is connected to the sliding bar through the support member, which supports the support wheel. The support plate is fixedly connected to the sliding bar and located on the side of the sliding bar away from the mounting rail. The rotating plate is connected to the support plate through the rotating member, which drives the rotating plate to rotate.

2. The heat dissipation device as described in claim 1, characterized in that, The support assembly further includes a fixing rod, which is slidably connected to the mounting rail and located on the side of the mounting rail away from the base, and abuts against the sliding strip.

3. The heat dissipation device as described in claim 1, characterized in that, The support assembly also includes a side pull plate, which is fixedly connected to the sliding bar and located on the side of the sliding bar away from the mounting rail.

4. The heat dissipation device as described in claim 1, characterized in that, The support member includes a mounting base and a support rod. The mounting base is fixedly connected to the sliding bar and is located on the side of the sliding bar closer to the mounting rail. The support rod is fixedly connected to the mounting base and is located on the side of the mounting base away from the sliding bar, and is connected to a support wheel.

5. The heat dissipation device as described in claim 1, characterized in that, The rotating component includes a rotating shaft and a support block. The rotating shaft is fixedly connected to the support plate and is located on the side of the support plate away from the sliding bar, and is connected to the rotating plate. The support block is fixedly connected to the rotating plate and is located on the side of the rotating plate close to the rotating shaft, and abuts against the support plate.