CN209744721U - High-efficient running roller temperature regulation and control structure - Google Patents

Abstract

The utility model discloses a high-efficient running roller temperature regulation and control structure, including correspond the three-way valve that connects in the oil inlet pipeline and the oil return pipeline of boiler, connect in the oil inlet pipeline, one of the export of three-way valve is connected the air cooling system, the export two is through connecting pipe intercommunication oil return pipeline, the air cooling system is connected in the built-in temperature regulation pipeline of running roller; the air cooling system comprises an air cooling pipeline, an air cooling piece arranged on the air cooling pipeline and a circulating driving piece arranged on the air cooling pipeline.

Description

High-efficient running roller temperature regulation and control structure

Technical Field

the utility model relates to a heat energy supply system, it is specific, its show a high-efficient running roller temperature regulation and control structure.

Background

In the modern production technology field, the utilization of heat energy is distributed in each link of social production, such as the hot-pressing production technology, the hot-pressing production technology generally realizes the hot-pressing by the heating of the roller, and the roller is alternately heated and cooled in the working stage.

The roller heating and cooling at the present stage is generally heated by hot oil, the roller is cooled by the plate heat exchanger after the oil is cooled by the plate heat exchanger when the cooling is needed, the heat exchange of the plate heat exchanger needs to be correspondingly provided with a cooling tower, the production resources are seriously wasted, and the production site is greatly occupied.

Therefore, it is necessary to provide an efficient roller temperature control structure to solve the above problems.

SUMMERY OF THE UTILITY MODEL

the utility model aims at providing a high-efficient running roller temperature regulation and control structure.

The technical scheme is as follows:

A high-efficiency roller temperature regulation structure comprises an oil inlet pipeline, an oil return pipeline and a three-way valve, wherein the oil inlet pipeline and the oil return pipeline are correspondingly connected to a boiler;

The air cooling system comprises an air cooling pipeline, an air cooling piece arranged on the air cooling pipeline and a circulating driving piece arranged on the air cooling pipeline.

further, the air-cooled pipeline comprises an air-cooled connecting pipe A and an air-cooled connecting pipe B which are respectively communicated with the three-way valve and the oil return pipe, and a connecting pipe C which is used for being communicated with the air-cooled connecting pipe A and the air-cooled connecting pipe B.

Further, the circulation driving member is constituted by a circulation pump.

Further, the air cooling piece comprises an air cooling chamber and a blower arranged in the air cooling chamber.

Furthermore, the air cooling pipelines in the air cooling chamber are distributed in a U-shaped disc shape.

further, the three-way valve is constituted by a proportional three-way valve.

Compared with the prior art, the utility model discloses a heating refrigerated an organic whole is set for, reduces the temperature regulation step, and directly carries out the running roller cooling after the forced air cooling through switching back circulation liquid, reduces the setting of cooling required equipment, reduces occuping of production place and production resource.

Drawings

Fig. 1 is one of the schematic structural diagrams of the present invention.

Fig. 2 is a second schematic structural diagram of the present invention.

Detailed Description

Example (b):

The embodiment shows a high-efficiency roller temperature regulation structure, which comprises an oil inlet pipeline 1, an oil return pipeline 2 and a three-way valve 3, wherein the oil inlet pipeline 1 and the oil return pipeline 2 are correspondingly connected to a boiler, the three-way valve 3 is connected to the oil inlet pipeline 1, one of outlets of the three-way valve 3 is connected with an air cooling system 4, the other outlet of the three-way valve is communicated with the oil return pipeline 2 through a connecting pipe 21, and the air cooling system 4;

The air cooling system 4 includes an air cooling duct 41, an air cooling member 6 provided on the air cooling duct 41, and a circulating drive member 7 provided on the air cooling duct 41.

The air-cooled duct 41 includes an air-cooled connecting pipe a42 and an air-cooled connecting pipe B43 communicating with the three-way valve 3 and the oil return pipe 2, respectively, and a connecting pipe C44 for communicating the air-cooled connecting pipe a42 and the air-cooled connecting pipe B43.

The circulation drive 7 is constituted by a circulation pump.

The air-cooling member 6 includes an air-cooling chamber 61, and a blower 62 provided in the air-cooling chamber 61.

The air-cooled ducts 41 in the air-cooled chamber 61 are distributed in a U-shape.

The three-way valve 3 is constituted by a proportional three-way valve.

The temperature adjusting step of this embodiment is:

1) referring to fig. 1, when heating, one of the outlets of the three-way valve 3 is directly communicated with the second outlet of the air cooling system 4 and is closed, the air cooling element 6 does not work and is driven by the circulating driving element 7, and hot oil in the boiler directly enters the roller 100 through the air cooling pipeline 41 to be heated;

2) Referring to fig. 2, during cooling, two outlets of the three-way valve 3 are connected to the connecting pipe 21 and directly communicated to the oil return pipe 2, hot oil in the boiler directly does not circulate to the roller 100, the circulating driving member 7 drives the circulating liquid in the air cooling pipe 41, and when reaching the air cooling chamber 61, the circulating liquid is cooled by cold air in the air cooling chamber 61 and then enters the roller 200, and the roller 100 is cooled by the cooled circulating liquid.

Compared with the prior art, the utility model discloses a heating refrigerated an organic whole is set for, reduces the temperature regulation step, and directly carries out the running roller cooling after the forced air cooling through switching back circulation liquid, reduces the setting of cooling required equipment, reduces occuping of production place and production resource.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (6)

1. The utility model provides a high-efficient running roller temperature regulation and control structure which characterized in that: the device comprises an oil inlet pipeline, an oil return pipeline and a three-way valve, wherein the oil inlet pipeline and the oil return pipeline are correspondingly connected with a boiler;

the air cooling system comprises an air cooling pipeline, an air cooling piece arranged on the air cooling pipeline and a circulating driving piece arranged on the air cooling pipeline.

2. A high efficiency roller temperature control structure as claimed in claim 1, wherein: the air cooling pipeline comprises an air cooling connecting pipe A and an air cooling connecting pipe B which are respectively communicated with the three-way valve and the oil return pipe, and a connecting pipe C which is used for communicating the air cooling connecting pipe A and the air cooling connecting pipe B.

3. A high efficiency roller temperature control structure as claimed in claim 2, wherein: the circulating drive member is constituted by a circulating pump.

4. A high-efficiency roller temperature regulating structure according to any one of claims 1 to 3, wherein: the air cooling piece comprises an air cooling chamber and a blower arranged in the air cooling chamber.

5. A high-efficient running roller temperature regulation and control structure of claim 4 characterized in that: the air cooling pipelines in the air cooling chamber are distributed in a U-shaped disc shape.

6. A high-efficient running roller temperature regulation and control structure of claim 5 characterized in that: the three-way valve is composed of a proportional three-way valve.