CN214000071U - Cutting fluid adding device for slicing machine - Google Patents

Abstract

The utility model relates to a cutting fluid adding device for a slicing machine, which comprises a cutting fluid supply component for providing cutting fluid for the slicing machine and a centralized cooling component for cooling the slicing machine; the cutting liquid supply assembly comprises a cutting liquid supply cylinder, the centralized cooling assembly comprises a filter barrel assembly, and the filter barrel assembly is communicated with the cutting liquid supply cylinder. The utility model discloses a cutting supplies the liquid subassembly and the concentrated cooling module cooperatees, and each equipment of rethread pipeline and slicer is linked together, provides cutting fluid for cutting region at the slicer during operation, also provides the coolant liquid for other positions of slicer simultaneously and carries out the equipment cooling, has improved the work efficiency of slicer, has guaranteed the cutting quality of hard and brittle material.

Description

Cutting fluid adding device for slicing machine

Technical Field

The utility model belongs to the technical field of the silicon rod processing, specifically speaking relates to a device is added to cutting fluid for slicer.

Background

The crystalline silicon is a main raw material of the solar cell panel, and the crystalline silicon can be prepared into a crystalline silicon slice for use only through processes of squaring, slicing and the like. Cutting fluid loss can be caused by reasons such as evaporation of cutting fluid in the existing slicing machine machining process, if the cutting fluid is not added in time, the slicing machine does not have a cooled cutting environment, and cutting faults of the slicing machine can be caused. At present, after people actively discover that the cutting fluid is insufficient, the operation mode of manually adding the cutting fluid is adopted, the defect of untimely discovery or addition exists, the cost waste is brought to the production, and the labor cost is high.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the inventor researches and designs a cutting fluid adding device for a slicing machine in long-term practice.

In order to achieve the above object, the utility model provides a following technical scheme:

a cutting fluid adding device for a slicing machine comprises a cutting fluid supply assembly and a centralized cooling assembly, wherein the cutting fluid supply assembly is used for supplying cutting fluid to the slicing machine, and the centralized cooling assembly is used for cooling the slicing machine; the cutting liquid supply assembly comprises a cutting liquid supply cylinder, the centralized cooling assembly comprises a filter barrel assembly, and the filter barrel assembly is communicated with the cutting liquid supply cylinder.

Furthermore, the cutting liquid supply assembly comprises a liquid supply pump, a drainage pipe assembly, a pure water adding port, a liquid pumping pipe assembly and a limiting buffer seat, the liquid supply pump, the drainage pipe assembly, the pure water adding port, the liquid pumping pipe assembly and the limiting buffer seat are arranged on the cutting liquid supply cylinder, an inner cavity of the cutting liquid supply cylinder is respectively communicated with the liquid supply pump and the drainage pipe assembly, the pure water adding port is communicated with the drainage pipe assembly, and the limiting buffer seat is fixed on the side wall of the cutting liquid supply cylinder in a protruding mode.

Further, the centralized cooling assembly comprises a flow monitoring assembly and an integrated heat exchange assembly, and the flow monitoring assembly is arranged at a liquid discharge end of the integrated heat exchange assembly.

Furthermore, the integrated heat exchange assembly comprises two cutting fluid heat exchangers, a cooling fluid water tank arranged between the two cutting fluid heat exchangers and an anti-freezing fluid heat exchanger arranged at the top of the cooling fluid water tank.

Further, the integrated heat exchange assembly also comprises a concentrated cooling pipe and a concentrated liquid return pipe.

Furthermore, a pure water supply pipeline is arranged on one side of the integrated heat exchange assembly; and the integrated heat exchange assembly is also provided with a pure water liquid supply assembly.

Furthermore, a cooling liquid inlet and a cooling liquid outlet are further formed in one side of the cutting liquid heat exchanger.

Further, the flow monitoring assembly comprises a mass flow meter and a display screen; the mass flowmeter is fixed through a fixing seat.

Further, the filter vat assembly comprises a plurality of filter vats and a drainage pinch valve arranged at the bottom of the filter vats.

Furthermore, the filter vat is fixed on the bottom connecting beam, and the bottom connecting beam is fixedly connected with the integrated heat exchange assembly.

The utility model has the advantages that:

adopt the cutting to supply liquid subassembly and concentrate cooling module and cooperate, each equipment of rethread pipeline and slicer is linked together, for cutting the region provides cutting fluid when the slicer is worked, also provide the coolant liquid for other positions of slicer simultaneously and carry out equipment cooling, realize carrying cutting fluid and coolant liquid for the slicer is automatic, can effectively prevent that the slicer from breaking down because the temperature is too high when cutting hard and brittle material, improved the work efficiency of slicer, reduced the human cost, guaranteed the cutting quality of hard and brittle material.

Drawings

FIG. 1 is a schematic view of a cutting fluid assembly of the present invention;

FIG. 2 is a schematic view of a cutting liquid supply assembly of the present invention;

FIG. 3 is a schematic view of the centralized cooling assembly of the present invention;

figure 4 is a schematic view of an integrated heat exchange assembly of the present invention.

In the drawings:

10. cutting the liquid supply assembly; 101. cutting the liquid supply cylinder; 102. a liquid supply pump; 103. a drain tube assembly; 104. A pure water addition port; 105. a fluid extraction tube assembly; 106. a limiting buffer seat;

20. a centralized cooling assembly; 201. a filter vat assembly; 2011. the bottom is connected with a cross beam; 2012. a liquid discharge pinch valve;

202. an integrated heat exchange assembly; 2021. a cutting fluid heat exchanger; 2022. a pure water supply line; 2023. a coolant tank; 2024. an antifreeze heat exchanger; 203. a pure water supply assembly; 204. a mass flow meter; 2041. a display screen; 2042. a fixed seat; 205. a centralized cooling pipe; 206. a centralized liquid return pipe; 207. a coolant inlet; 208. and a cooling liquid outlet.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the following description is given with reference to the accompanying drawings of the present invention for clear and complete description of the technical solution of the present invention. Based on the embodiments in the present application, other similar embodiments obtained by persons of ordinary skill in the art without any creative effort shall fall within the protection scope of the present application. In addition, directional terms such as "upper", "lower", "left", "right", etc. in the following embodiments are directions with reference to the drawings only, and thus, the directional terms are used for the purpose of illustrating the present invention and not for the purpose of limiting the same.

The present invention will be further described with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1, the cutting fluid adding device for a slicing machine of the present invention includes a cutting fluid supply assembly 10 and a centralized cooling assembly 20, wherein the cutting fluid supply assembly 10 and the centralized cooling assembly 20 are communicated with each other through a pipeline.

Referring to fig. 2, the cutting and liquid supplying assembly 10 includes two cutting and liquid supplying cylinders 101 arranged in parallel, and a liquid supplying pump 102 and a cutting liquid drainage tube assembly 103 are arranged on the cutting and liquid supplying cylinders 101. The fluid supply pump 102 supplies cutting fluid to the entire apparatus, and the drain assembly 103 drains the cutting fluid from the cutting area back into the cutting fluid supply cylinder 101 during the cutting process.

A pure water adding port 104 is arranged on the drainage tube component 103, and pure water is added through the port. The cutting fluid supply cylinder 101 is further provided with a fluid pumping pipe assembly 105, and the diaphragm pump pumps waste fluid used for cutting through the fluid pumping pipe assembly 105. A limit buffer seat 106 is arranged on one side of the cutting liquid supply cylinder 101 and used for preventing the components from hard collision with equipment in the pushing and pulling process.

Referring to fig. 3 and 4, the concentrated cooling module 20 includes a filter vat assembly 201, a flow monitoring assembly and an integrated heat exchange assembly 202. The flow monitoring assembly includes a mass flow meter 204 and a display screen 2041. The mass flow meter 204 is fixed by the fixing base 2042, and the display screen 2041 can display flow parameters. The integrated heat exchange assembly 202 is also provided with a pure water supply assembly 203.

The pure water supply assembly 203 is connected with the pure water adding port 104 through a pipeline to supply pure water to the cutting liquid supply cylinder 101. The filter barrel assembly 201 is connected with the cutting liquid supply cylinder 101 through a pipeline, the cutting liquid supply cylinder 101 outputs cutting liquid to the filter barrel assembly 201, then the cutting liquid passes through the flow monitoring assembly at a set temperature after passing through the integrated heat exchange assembly 202, and then the cutting liquid outputs a specific flow through the flow monitoring assembly, finally reaches a cutting area of the slicing machine, and the temperature of the hard and brittle materials is reduced.

The filter basket assembly 201 includes a plurality of filter baskets and a drain pinch valve 2012 disposed at the bottom of the filter baskets. The filter vat is fixed on bottom connection crossbeam 2011, and bottom connection crossbeam 2011 is fixed with integrated heat exchange assemblies 202. The drain pinch valve 2012 is a ball valve which is opened to drain the liquid from the interior of the canister when the device is cut.

The integrated heat exchange assembly 202 comprises two cutting fluid heat exchangers 2021, a coolant water tank 2023 disposed between the two cutting fluid heat exchangers 2021, and an antifreeze heat exchanger 2024 disposed on top of the coolant water tank 2023. The two cutting fluid heat exchangers 2021 exchange heat with cutting fluid used in different cutting zones of the microtome, respectively. The antifreeze heat exchanger 2024 exchanges heat with the coolant in the coolant tank 2023.

The integrated heat exchange assembly 202 further comprises a centralized cooling pipe 205 and a centralized liquid return pipe 206, the cooling liquid stored in the cooling liquid tank 2023 is conveyed to each device of the slicing machine through the centralized cooling pipe 205 to cool each device, and the used cooling liquid returns to the cooling liquid tank 2023 through the centralized liquid return pipe 206.

A pure water supply pipeline 2022 is arranged on one side of the integrated heat exchange assembly 202, the pure water supply pipeline 2022 supplies pure water to the pure water supply assembly 203, and the pure water is conveyed to the cutting liquid supply cylinder 101 through the pure water supply assembly 203. A cooling liquid inlet 207 and a cooling liquid outlet 208 are further arranged on one side of the cutting liquid heat exchanger 2021, factory cooling water enters the centralized cooling assembly 20 through the cooling liquid inlet 207 and is used for cooling the cutting liquid heat exchanger 2021 and the cooling liquid water tank 2023, and the used factory cooling water flows out through the cooling liquid outlet 208.

The utility model discloses a cutting fluid device is linked together through each equipment of several pipeline and slicer when using, provides cutting fluid and coolant liquid for each equipment when the slicer carries out the cutting of hard and brittle material. Specifically, when the hard and brittle materials are cut, the cutting fluid stored in the cutting fluid supply cylinder 101 is conveyed to the filter barrel assembly 201, then the cutting fluid is conveyed to the integrated heat exchange assembly 202 by the filter barrel assembly to be subjected to temperature setting, after the cutting fluid heat exchanger 2021 exchanges heat with the cutting fluid to reach the set temperature, the cutting fluid passes through the flow monitoring assembly at the set temperature to be subjected to flow setting, and finally, the cutting fluid is output to a cutting area of the slicing machine at a specific flow rate to cool the hard and brittle materials. Meanwhile, the cooling liquid stored in the cooling liquid tank 2023 is delivered to each device of the slicer through the centralized cooling pipe 205 to cool each device, and the used cooling liquid returns to the cooling liquid tank 2023 through the centralized liquid return pipe 206. During cutting operation, factory cooling water enters the centralized cooling assembly 20 through the cooling liquid inlet 207, cools the cutting liquid heat exchanger 2021 and the cooling liquid water tank 2023, and the used factory cooling water flows out through the cooling liquid outlet 208.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (10)

1. The cutting fluid adding device for the slicing machine is characterized by comprising a cutting fluid supply assembly (10) used for supplying cutting fluid to the slicing machine and a centralized cooling assembly (20) used for cooling the slicing machine; the cutting liquid supply assembly (10) comprises a cutting liquid supply cylinder (101), the centralized cooling assembly (20) comprises a filter barrel assembly (201), and the filter barrel assembly (201) is communicated with the cutting liquid supply cylinder (101).

2. The cutting fluid adding device for the slicer according to claim 1, wherein the cutting fluid supply assembly (10) comprises a fluid supply pump (102), a drainage tube assembly (103), a pure water adding port (104), a fluid pumping tube assembly (105) and a limiting buffer seat (106), the fluid supply pump (102) and the drainage tube assembly (103) are arranged on the cutting fluid supply cylinder (101), an inner cavity of the cutting fluid supply cylinder (101) is respectively communicated with the fluid supply pump (102) and the drainage tube assembly (103), the pure water adding port (104) is communicated with the drainage tube assembly (103), and the limiting buffer seat (106) is fixed on a side wall of the cutting fluid supply cylinder (101) in a protruding mode.

3. The cutting fluid adding device for the slicer according to claim 2, wherein the centralized cooling assembly (20) comprises a flow monitoring assembly and an integrated heat exchange assembly (202), and the flow monitoring assembly is arranged at a liquid discharge end of the integrated heat exchange assembly (202).

4. The cutting fluid adding device for the slicer according to claim 3, wherein the integrated heat exchange assembly (202) comprises two cutting fluid heat exchangers (2021), a cooling fluid tank (2023) disposed between the two cutting fluid heat exchangers (2021), and an antifreeze fluid heat exchanger (2024) disposed on top of the cooling fluid tank (2023).

5. The cutting fluid adding device for the slicer according to claim 4, wherein the integrated heat exchange assembly (202) further comprises a centralized cooling pipe (205) and a centralized liquid return pipe (206).

6. The cutting fluid adding device for the slicer according to claim 4, wherein a pure water supply pipeline (2022) is arranged at one side of the integrated heat exchange assembly (202); and the integrated heat exchange assembly (202) is also provided with a pure water liquid supply assembly (203).

7. The cutting fluid adding device for the slicer according to claim 6, wherein a cooling fluid inlet (207) and a cooling fluid outlet (208) are further provided at one side of the cutting fluid heat exchanger (2021).

8. The cutting fluid adding device for the slicer of claim 7, wherein the flow monitoring assembly comprises a mass flow meter (204) and a display screen (2041); the mass flow meter (204) is fixed through a fixing seat (2042).

9. The cutting fluid adding device for the slicing machine as claimed in claim 3, wherein the filter vat assembly (201) comprises a plurality of filter vats and a drainage pinch valve (2012) disposed at the bottom of the filter vats.

10. The cutting fluid adding device for the slicer according to claim 9, wherein the filter barrel is fixed on a bottom connecting beam (2011), and the bottom connecting beam (2011) is fixedly connected with the integrated heat exchange assembly (202).

Images