CN221054035U - Pressure cylinder with good heat dissipation effect - Google Patents

Abstract

The utility model relates to the technical field of booster cylinders, and discloses a booster cylinder with good heat dissipation effect, which comprises a booster cylinder body, wherein a bottom cover and a top cover are respectively arranged at two ends of the booster cylinder body, an intermediate cover is arranged on the arc surface of the booster cylinder body, and the booster cylinder further comprises: the plurality of radiating fins are arranged and uniformly arranged at intervals around the circular arc surface of the booster cylinder body to radiate heat for the booster cylinder body; the connecting pieces are arranged at two ends of the radiating fin and are used for connecting a plurality of connecting pieces to form a radiating assembly frame; the bottom plate is installed to one side of bottom, the circular arc surface of booster cylinder body encircles and is provided with many rings of liquid cooling pipes, the liquid cooling pipe is the heliciform, the liquid cooling pipe wears to locate the inside of fin, just the both ends of liquid cooling pipe all fixedly connected with business turn over liquid mouth of pipe, business turn over liquid mouth of pipe is used for UNICOM outside coolant conveying pipe, fin and connection piece are the aluminum sheet. The utility model has the advantage of enhancing the cooling effect of the booster cylinder during working.

Description

Pressure cylinder with good heat dissipation effect

Technical Field

The utility model relates to the technical field of booster cylinders, in particular to a booster cylinder with good heat dissipation effect.

Background

The booster cylinder is generally referred to as a booster cylinder, and achieves the effect of boosting by increasing the input pressure and outputting the pressure at a higher pressure, and by compressing the volume of air, the air pressure is increased, so that the air pressure is converted into mechanical energy, and the piston is pushed to move out.

Because the booster cylinder during operation needs compressed air volume, and piston and cylinder body closely laminate to can produce the friction, the compression of air volume can lead to the temperature to rise, and the piston body continuous reciprocating motion can also rise the temperature, and current booster cylinder does not have better heat radiation structure, leads to the pressure boost many times, makes piston reciprocating motion back surface temperature higher, if go on again and then can lead to the damage of booster cylinder, can only wait for after the cooling just can go on continuously.

Disclosure of utility model

In order to overcome the defects of the prior art, the utility model provides the booster cylinder with good heat dissipation effect, and the booster cylinder has the advantages that when the booster cylinder works, heat conduction and heat exchange are carried out through the cooling fin and the liquid cooling pipe, so that the cooling effect of the booster cylinder when working can be improved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a pneumatic cylinder that radiating effect is good, includes the pneumatic cylinder body, bottom and top cap are installed respectively at the both ends of pneumatic cylinder body, the intermediate cap is installed to the arc surface of pneumatic cylinder body, and wherein, the gas injection mouth has all been seted up to one side of bottom, top cap and intermediate cap, and the gas injection mouth is used for connecting the solenoid valve, to the internal gas injection of pneumatic cylinder for pressure boost or return, in addition, still includes:

The plurality of radiating fins are arranged and uniformly arranged at intervals around the circular arc surface of the booster cylinder body to radiate heat for the booster cylinder body;

The connecting pieces are arranged at two ends of the radiating fin and are used for connecting a plurality of connecting pieces to form a radiating assembly frame;

A bottom plate is arranged on one side of the bottom cover.

As a preferable technical scheme of the utility model, the radiating fin and the connecting sheet are both aluminum sheets.

As a preferable technical scheme of the utility model, the circular arc surface of the booster cylinder body is provided with a plurality of circles of liquid cooling pipes in a surrounding mode, the liquid cooling pipes are arranged in a spiral mode, the liquid cooling pipes penetrate through the inside of the radiating fins, two ends of the liquid cooling pipes are fixedly connected with liquid inlet and outlet pipe orifices, and the liquid inlet and outlet pipe orifices are used for communicating an external cooling liquid conveying pipe.

As a preferable technical scheme of the utility model, a limiting piece is arranged on the surface of the liquid inlet and outlet pipe orifice, and the limiting piece is in an arc horn shape.

As a preferable technical scheme of the utility model, the liquid cooling pipe and the liquid inlet and outlet pipe are copper pipes.

As a preferable technical scheme of the utility model, mounting holes are formed in four corners of the surface of the bottom plate, an oil filling port is formed in the surface of the bottom plate and used for filling hydraulic oil, and an oil filling cap is fastened on the inner wall of the oil filling port through threads.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the plurality of radiating groups formed by connecting the radiating fins with the connecting sheets are used for guiding out heat generated in the working of the booster cylinder body and rapidly diffusing outwards, so that the problems that the surface temperature of the booster cylinder body is too high and the surface quality and the working state of the booster cylinder body are influenced when the booster cylinder body works are avoided, the continuous working time of the booster cylinder is prolonged, and the working efficiency is improved.

2. The utility model can be used for connecting an external cooling liquid conveying pipe from the liquid inlet and outlet pipe orifice when the booster cylinder needs to continuously work through the multi-circle liquid cooling pipe which is arranged in a surrounding manner, continuously circulating cooling liquid on the surfaces of a plurality of cooling fins and taking away heat, improving the heat dissipation cooling efficiency, and the multi-circle liquid cooling pipe is spirally arranged, so that the cooling liquid can uniformly flow through the surface of the booster cylinder body, improving the uniformity of heat exchange.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the present utility model with the heat sink and the connecting tab removed;

FIG. 3 is a schematic diagram of the present utility model for separately showing the connection state of the heat sink and the liquid cooling tube;

FIG. 4 is an enlarged view of the utility model at A in FIG. 3;

Fig. 5 is a side view of the present utility model.

In the figure: 1. a booster cylinder body; 11. a bottom cover; 12. a middle cover; 13. a top cover; 2. a bottom plate; 21. an oiling cap; 3. a heat sink; 31. a connecting sheet; 4. a liquid-cooled tube; 41. a liquid inlet and outlet pipe orifice; 42. and a limiting piece.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 5, the present utility model provides a booster cylinder with good heat dissipation effect, including a booster cylinder body 1, two ends of the booster cylinder body 1 are respectively provided with a bottom cover 11 and a top cover 13, an arc surface of the booster cylinder body 1 is provided with a middle cover 12, wherein, one sides of the bottom cover 11, the top cover 13 and the middle cover 12 are provided with air injection ports, the air injection ports are used for connecting electromagnetic valves, and injecting air into the booster cylinder body for boosting or returning, and in addition, the booster cylinder further comprises:

The cooling fins 3 are arranged in a plurality, uniformly spaced and installed around the circular arc surface of the booster cylinder body 1 and used for cooling the booster cylinder body 1;

the connecting pieces 31 are arranged at two ends of the radiating fin 3 and are used for connecting a plurality of connecting pieces 31 to form a radiating assembly frame;

a bottom plate 2 is installed at one side of the bottom cover 11.

Through implementation of the technical scheme, the following effects are achieved: the heat dissipation group frame formed by connecting the connecting sheets 31 and the radiating fins 3 is used for leading out heat generated in the working of the booster cylinder body 1 and rapidly diffusing outwards, so that the surface of the booster cylinder body 1 is cooled when the booster cylinder body 1 works, the problem that the surface temperature of the booster cylinder body 1 is too high when the booster cylinder body works and the surface quality and the working state of the booster cylinder are influenced is avoided, the continuous working time of the booster cylinder is prolonged, and the working efficiency is improved.

Wherein, fin 3 and connection piece 31 are both aluminum sheets.

Through the setting of aluminum sheet, the heat conduction efficiency of aluminum sheet is high, and then can accelerate the heat conduction speed on pressure boost jar body 1 surface.

As shown in fig. 3, 4 and 5, in this embodiment, the circular arc surface of the cylinder body 1 is provided with a plurality of circles of liquid cooling pipes 4 in a spiral shape, the liquid cooling pipes 4 penetrate through the cooling fins 3, and two ends of the liquid cooling pipes 4 are fixedly connected with liquid inlet and outlet pipe orifices 41, and the liquid inlet and outlet pipe orifices 41 are used for communicating an external cooling liquid conveying pipe.

Through the multiturn liquid cooling pipe 4 that encircles the setting for when the pneumatic cylinder needs continuous operation, can follow the external outside coolant liquid conveyer pipe of business turn over liquid mouth of pipe 41, constantly circulate at a plurality of fin 3 surface with the coolant liquid, and take away the heat, improve the heat transfer rate with the surface of pneumatic cylinder body 1, through the cooperation setting of liquid cooling pipe 4 and fin 3, the inside heat of pneumatic cylinder body 1 can be derived fast to fin 3, and liquid cooling pipe 4 can take away the heat of gathering on the fin 3, effectively improve the heat dissipation cooling efficiency of pneumatic cylinder body 1.

Wherein, the surface of the liquid inlet and outlet pipe orifice 41 is provided with a limiting piece 42, and the limiting piece 42 is in an arc horn shape.

Through setting up of locating part 42 for carry out spacingly to the connecting pipe of connecting at business turn over liquid mouth of pipe 41, avoid when pressure boost jar body 1 during operation, the connecting pipe takes place to buckle in business turn over liquid mouth of pipe 41 department, leads to the problem that the coolant liquid can not carry.

The liquid cooling pipe 4 and the liquid inlet/outlet pipe 41 are copper pipes.

Through the setting of copper pipe, the heat conduction is faster, can accelerate the cold and hot exchange speed on pressure boost jar body 1 surface, improves radiating efficiency.

Mounting holes are formed in four corners of the surface of the bottom plate 2, an oil filling port is formed in the surface of the bottom plate 2 and used for filling hydraulic oil, and an oil filling cap 21 is fastened on the inner wall of the oil filling port in a threaded manner.

And a plurality of mounting holes are formed in the surface of the bottom plate 2 and are used for fixing the whole booster cylinder body 1, and in addition, when hydraulic oil is required to be filled in the booster cylinder body 1, the oil injection cap 21 is screwed out outwards, so that the hydraulic oil can be injected through the oil injection port.

The working principle and the using flow of the utility model are as follows:

When the booster cylinder body 1 works, heat generated by air compression and piston movement in the booster cylinder body is outwards diffused to the surface of the booster cylinder body 1, and then the heat is led in by the radiating fins 3 which are arranged around the surface of the booster cylinder body 1, the heat is quickly outwards dissipated by the radiating fins 3, meanwhile, when the booster cylinder body 1 needs to be continuously used, the liquid inlet and outlet pipe 41 is connected with an external cooling liquid conveying pipe, the limiting piece 42 limits the cooling liquid conveying pipe, the cooling liquid conveying pipe is prevented from bending, the cooling liquid is conveyed into the liquid cooling pipe 4 by the external cooling liquid conveying pipe, the radiating fins 3 are continuously cooled by the liquid cooling pipe 4, the heat on the surface of the radiating fins 3 is taken away, and the liquid cooling pipe 4 is spirally arranged in a surrounding mode, so that the heat exchange cooling process is more comprehensive and stable, the radiating efficiency of the whole booster cylinder body 1 is improved, and the booster cylinder can continuously run.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a good booster cylinder of radiating effect, includes booster cylinder body (1), its characterized in that: bottom (11) and top cap (13) are installed respectively at the both ends of booster cylinder body (1), intermediate cap (12) are installed to the arc surface of booster cylinder body (1), and gas injection mouth has all been seted up to one side of bottom (11), top cap (13) and intermediate cap (12), in addition, still includes:

the cooling fins (3) are arranged in a plurality, uniformly spaced and arranged around the arc surface of the booster cylinder body (1) and used for cooling the booster cylinder body (1);

the connecting pieces (31) are arranged at two ends of the radiating fin (3) and are used for connecting a plurality of connecting pieces (31) to form a radiating assembly frame;

A bottom plate (2) is arranged on one side of the bottom cover (11).

2. The cylinder of claim 1, wherein the cylinder has a good heat dissipation effect, and further comprises: the radiating fins (3) and the connecting sheet (31) are all aluminum sheets.

3. The cylinder of claim 1, wherein the cylinder has a good heat dissipation effect, and further comprises: the circular arc surface of the booster cylinder body (1) is provided with a plurality of circles of liquid cooling pipes (4) in a surrounding mode, the liquid cooling pipes (4) are spiral, the liquid cooling pipes (4) penetrate through the cooling fins (3), liquid inlet and outlet pipe openings (41) are fixedly connected to two ends of the liquid cooling pipes (4), and the liquid inlet and outlet pipe openings (41) are used for communicating an external cooling liquid conveying pipe.

4. A cylinder according to claim 3, characterized in that: the surface of the liquid inlet and outlet pipe orifice (41) is provided with a limiting piece (42), and the limiting piece (42) is in an arc horn shape.

5. A cylinder according to claim 3, characterized in that: the liquid cooling pipe (4) and the liquid inlet and outlet pipe orifice (41) are copper pipes.

6. The cylinder of claim 1, wherein the cylinder has a good heat dissipation effect, and further comprises: mounting holes are formed in four corners of the surface of the bottom plate (2), an oil filling port is formed in the surface of the bottom plate (2) and used for filling hydraulic oil, and an oil filling cap (21) is fastened on the inner wall of the oil filling port in a threaded manner.