CN211165184U - An energy-saving injection mold processing heat sink - Google Patents

Abstract

The utility model discloses an energy-saving injection mold processing heat dissipation device, which comprises a main body, a rotating rod and an installation groove. A first pipe runs through the inside of the main body, and the first pipe and the main body are movably connected. A connection block is arranged on the periphery of the first pipe, and one end of the connection block is connected with a second pipe, and the connection block and the second pipe are connected by a thread, the bottom inner wall of the main body is provided with a base, and the base and the main body are provided with a base. for a fixed connection. The energy-saving injection mold processing heat dissipation device is provided with detachable pipes, which can be increased or decreased according to different situations, which is more conducive to the energy saving of the equipment. The buffer can better support the mold during the mold heat dissipation process, making the equipment better and more efficient. Efficient operation, the heat sink can better contact the mold with the air flow, heat dissipation faster and save electricity, two sets of fans can better dissipate heat to the mold, so that the equipment can be cooled faster and reduce the mold release and adhesion. .

Description

An energy-saving injection mold processing heat sink

technical field

The utility model relates to the technical field of heat dissipation devices, in particular to a heat dissipation device for processing an energy-saving injection mold.

Background technique

Radiator equipment is a device that dissipates heat to the room in two ways: convection and radiation. It is currently widely used in my country. The classification of radiators includes cast iron, steel and other radiators according to their materials; Airfoil type, column type, flat plate type, etc.; according to their heat transfer methods, there are convection type (convection heat transfer accounts for more than 60%), radiation type (radiation heat transfer accounts for more than 60%), using wall-mounted boilers or boilers to heat circulating water, It is then transmitted to the radiator through the pipe, and finally the appropriate temperature is output through the radiator to form an indoor temperature difference, and finally the thermal cycle is carried out to make the entire indoor temperature rise evenly.

Most of the heat dissipation devices on the market are inconvenient to move, and the heat dissipation method is relatively simple, which cannot fully dissipate heat in all directions, which may cause adhesion phenomenon when the mold is demolded, and the problem of large energy consumption. For this reason, we propose an energy-saving type. Heat sink for injection mold processing.

Utility model content

The purpose of this utility model is to provide an energy-saving injection mold processing heat dissipation device, in order to solve the problem that most of the heat dissipation devices on the market proposed in the above background technology are inconvenient to move, and the heat dissipation method is relatively simple, and cannot fully dissipate heat in all directions. Adhesion may occur when the mold is demolded, and the problem of large energy consumption.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an energy-saving injection mold processing heat dissipation device, comprising a main body, a rotating rod and a mounting groove, the inside of the main body is penetrated with a first pipe, and the first pipe is connected to the main body. There is an active connection between them, a connection block is provided on the periphery of the first pipe, and one end of the connection block is connected with a second pipe, and the connection block and the second pipe are threadedly connected, and the bottom inner wall of the main body is provided with a The base is fixedly connected between the base and the main body, the rotating rod is arranged at one end of the base, and the periphery of the rotating rod is provided with a buffer, the periphery of the rotating rod penetrates a movable shaft, and the periphery of the movable shaft penetrates The platen, the installation grooves are respectively installed at both ends of the platen, and the installation grooves and the platen are connected by welding, the bottom of the installation groove is provided with a chute, and a pulley is installed inside the chute, the One end of the pulley is connected with a connecting shaft, and a fixing block is arranged on the periphery of the connecting shaft, and a spring is connected under one side of the fixing block, and the two sides of the bottom inner wall of the main body are respectively provided with rotating shafts, and the periphery of the rotating shaft is evenly distributed with fans leaf.

Preferably, a movable structure is formed between the first pipe and the second pipe through the connecting block, and one second pipe is symmetrically arranged with respect to the central axis of the first pipe.

Preferably, the rotating rod forms a rotating structure between the base and the main body, and the central axes of the rotating rod and the main body coincide with each other.

Preferably, the rotating rod and the platen form a rotating structure through a movable shaft, and the platen and the rotating rod are perpendicular to each other.

Preferably, the sliding groove forms a sliding structure between the pulley and the fixed block, the pulley and the fixed block form a fixed structure through the main body, and a telescopic structure is formed between the fixed block and the fixed block by a spring.

Preferably, the fan blade forms a rotating structure between the rotating shaft and the main body, and the rotating shaft and the fan blade are integrally arranged.

Compared with the prior art, the beneficial effects of the present utility model are:

1. This energy-saving injection mold processing heat sink is provided with a main body that is opened from the top, and a first pipe runs through the inside. When in use, the second pipe can be connected to the bottom of the first pipe through a connecting block, so that the water cooling effect can be obtained. Lift, make the cooling effect better, and the detachable pipes can be increased or decreased according to different situations, which is more conducive to the energy saving of the equipment. The rotating rod drives the platen through the movable shaft, so that the equipment can rotate better and dissipate heat evenly on the mold. Moreover, the bottom of the platen is provided with a heat sink, which can better make the mold contact with the air flow, dissipate heat faster and save power.

2. This energy-saving injection mold processing heat sink is provided with a buffer, which can better support the mold during the mold heat dissipation process, so that the equipment can operate better and more efficiently. The slidable installation groove can move the fixed block to make the The pulley rotates about the connecting shaft, so that the pulley slides in the chute and drives the spring between the fixed blocks, so that the mold can be better fixed in the equipment and the equipment can operate stably.

3. This energy-saving injection mold processing heat dissipation device is provided with two sets of fans. After the fan blades are turned on, they rotate about the rotating shaft. In the case of adhesion, the top and the surrounding are provided with ventilation holes, which can better allow air convection and facilitate the work of the heat sink.

Description of drawings

Fig. 1 is the side view internal structure schematic diagram of the utility model;

Fig. 2 is the utility model rotary table structure schematic diagram;

FIG. 3 is a schematic diagram of the structure of the installation groove of the present invention.

In the figure: 1. Main body; 2. The first pipe; 3. The connecting block; 4. The second pipe; 5. The base; 6. The rotating rod; 7. The buffer; 8. The movable shaft; Installation groove; 11, chute; 12, pulley; 13, connecting shaft; 14, fixing block; 15, spring; 16, fan blade; 17, rotating shaft.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the implementations. example. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

1-3, the present utility model provides a technical solution: an energy-saving injection mold processing heat dissipation device, comprising a main body 1, a first pipe 2, a connecting block 3, a second pipe 4, a base 5, and a rotating rod 6. The buffer 7, the movable shaft 8, the platen 9, the installation groove 10, the chute 11, the pulley 12, the connecting shaft 13, the fixed block 14, the spring 15, the fan blade 16 and the rotating shaft 17. A pipe 2, and the first pipe 2 and the main body 1 are movably connected, a connecting block 3 is arranged on the periphery of the first pipe 2, and one end of the connecting block 3 is connected with a second pipe 4, and the connecting block 3 and the second pipe 4 are connected. The pipes 4 are connected by screw threads. The first pipe 2 forms a movable structure between the connecting block 3 and the second pipe 4, and two second pipes 4 are symmetrically arranged about the central axis of the first pipe 2, so that the water cooling effect can be obtained. It can improve the cooling effect. The detachable pipes can be increased or decreased according to different situations, which is more conducive to the energy saving of the equipment. The bottom inner wall of the main body 1 is provided with a base 5, and the base 5 and the main body 1 are fixedly connected. The rotating rod 6 is arranged at one end of the base 5, and a buffer 7 is arranged on the periphery of the rotating rod 6. The rotating rod 6 forms a rotating structure between the base 5 and the main body 1, and the central axes of the rotating rod 6 and the main body 1 coincide with each other. When the equipment is working, it can rotate better to dissipate heat evenly to the mold. The buffer 7 can better support the mold in the process of mold heat dissipation, so that the equipment can operate better and more efficiently. A platen 9 runs through the periphery of the shaft 8, and the rotating rod 6 and the platen 9 form a movable structure through the movable shaft 8, and the platen 9 and the rotating rod 6 are perpendicular to each other, and the bottom of the platen 9 is provided with a heat sink, which can be more The mold is well contacted with the air flow, which dissipates heat faster and saves electricity. The installation grooves 10 are respectively installed on both ends of the platen 9, and the installation grooves 10 and the platen 9 are connected by welding. The bottom of the installation groove 10 is provided with a sliding Slot 11, and a pulley 12 is installed inside the chute 11, one end of the pulley 12 is connected with a connecting shaft 13, and a fixing block 14 is arranged on the periphery of the connecting shaft 13, and a spring 15 is connected under one side of the fixing block 14, and the sliding The groove 11 forms a sliding structure between the pulley 12 and the fixed block 14, and the pulley 12 and the fixed block 14 form a fixed structure through the main body 1, and the spring 15 forms a telescopic structure between the fixed block 14 and the fixed block 14, so that the mold can be more flexible. It is convenient and better to be fixed in the equipment, so that the equipment can operate stably. There are rotating shafts 17 on both sides of the bottom inner wall of the main body 1, and fan blades 16 are evenly distributed on the periphery of the rotating shaft 17. The fan blades 16 pass between the rotating shaft 17 and the main body 1. A rotating structure is formed, and the shaft 17 and the fan blades 16 are integrally arranged, and the two sets of fans can better dissipate heat to the mold, so that the equipment can be cooled faster and reduce the mold release and adhesion.

Working principle: For this type of heat sink, first open the main body 1, and the first pipe 2 runs through it. When in use, the second pipe 4 can be connected to the bottom of the first pipe 2 through the connecting block 3, so that the water cooling effect can be improved. , so that the cooling effect is better, the detachable pipes can be increased or decreased according to different situations, which is more conducive to the energy saving of the equipment, and then the rotating rod 6 will drive the table 9 through the movable shaft 8, so that the equipment can rotate better when it is working. The mold dissipates heat evenly, and the bottom of the platen 9 is provided with a heat sink, which can better make the mold in contact with the airflow, heat dissipation faster and save power. After that, the buffer 7 can better support the mold during the mold heat dissipation process, making the equipment more efficient. In order to operate more efficiently, the slidable installation groove 10 can then move the fixed block 14 to make the pulley 12 rotate about the connecting shaft 13, so that the pulley 12 slides in the chute 11, and drives the spring 15 between the fixed blocks 14 to make the mold It can be better fixed in the equipment to make the equipment operate stably. Finally, there are two sets of fans at the bottom. After opening, the fan blades 16 rotate about the shaft 17. In the case of mold release and adhesion, and the top and the surrounding are provided with ventilation holes, air convection can be better, and the work of the heat sink is more convenient, thus completing the use of the entire heat sink.

Although the embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes and modifications can be made to these embodiments without departing from the principles and spirit of the present invention , alternatives and modifications, the scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

1. The utility model provides an energy-saving heat abstractor is used in injection mold processing, includes main part (1), rotary rod (6) and mounting groove (10), its characterized in that: a first pipeline (2) penetrates through the main body (1), the first pipeline (2) is movably connected with the main body (1), a connecting block (3) is arranged on the periphery of the first pipeline (2), one end of the connecting block (3) is connected with a second pipeline (4), the connecting block (3) is in threaded connection with the second pipeline (4), a base (5) is arranged on the inner wall of the bottom of the main body (1), the base (5) is fixedly connected with the main body (1), a rotary rod (6) is arranged at one end of the base (5), a buffer (7) is arranged on the periphery of the rotary rod (6), a movable shaft (8) penetrates through the periphery of the rotary rod (6), a table plate (9) penetrates through the periphery of the movable shaft (8), mounting grooves (10) are respectively mounted at two ends of the table plate (9), and the mounting grooves (10) are in welded connection with the table plate (9), the bottom of mounting groove (10) is provided with spout (11), and the internally mounted of spout (11) has pulley (12), the one end of pulley (12) is connected with connecting axle (13), and the periphery of connecting axle (13) is provided with fixed block (14) to one side below of fixed block (14) is connected with spring (15), the bottom inner wall both sides of main part (1) are provided with pivot (17) respectively, and the peripheral evenly distributed of pivot (17) has flabellum (16).

2. The heat dissipation device for processing of energy-saving injection mold according to claim 1, wherein: first pipeline (2) pass through to constitute the active structure between connecting block (3) and second pipeline (4), and second pipeline (4) are provided with 2 about the axis symmetry of first pipeline (2).

3. The heat dissipation device for processing of energy-saving injection mold according to claim 1, wherein: rotating rod (6) pass through and constitute revolution mechanic between base (5) and main part (1), and the axis of rotating rod (6) and main part (1) coincides each other.

4. The heat dissipation device for processing of energy-saving injection mold according to claim 1, wherein: the rotating rod (6) and the bedplate (9) form a rotating structure through the movable shaft (8), and the bedplate (9) and the rotating rod (6) are perpendicular to each other.

5. The heat dissipation device for processing of energy-saving injection mold according to claim 1, wherein: the sliding chute (11) forms a sliding structure through the pulley (12) and the fixed block (14), the pulley (12) and the fixed block (14) form a fixed structure through the main body (1), and a telescopic structure is formed through the spring (15) between the fixed block (14) and the fixed block (14).

6. The heat dissipation device for processing of energy-saving injection mold according to claim 1, wherein: the fan blade (16) forms a rotating structure with the main body (1) through the rotating shaft (17), and the rotating shaft (17) and the fan blade (16) are integrally arranged.

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