CN211565309U

CN211565309U - Cutting fluid circulation refrigerating system

Info

Publication number: CN211565309U
Application number: CN201921672270.1U
Authority: CN
Inventors: 嵇士全
Original assignee: Kunshan Zhensu Machinery Equipment Co ltd
Current assignee: Kunshan Zhensu Machinery Equipment Co ltd
Priority date: 2019-10-08
Filing date: 2019-10-08
Publication date: 2020-09-25
Anticipated expiration: 2029-10-08

Abstract

A cutting fluid circulating refrigeration system comprises a cutting fluid pool, a conveying pipeline, a collecting pipeline, a purifying device and a cooling device; the cutting liquid pool is positioned on one side of the cutting equipment and is positioned on the ground of a workshop; the conveying pipeline is positioned on one side of the cutting fluid pool and communicated with the cutting fluid pool; the collecting pipeline is positioned below the cutting machine head and corresponds to the conveying pipeline in position; the purification device is positioned at one end of the collection pipeline and is communicated with the collection pipeline; the cooling device is positioned at one side of the purifying device, one end of the cooling device is communicated with the purifying device, and the other end of the cooling device is communicated with the cutting fluid pool. The utility model provides a pair of cutting fluid circulation refrigerating system utilizes cutting fluid and iron fillings separation to purify, and rethread cold water pipe cools off, alright with recycling, reduces the temperature of cutting machine head simultaneously, stops the atomizing phenomenon of cutting fluid, reduces cost in business when the environmental protection.

Description

Cutting fluid circulation refrigerating system

Technical Field

The utility model relates to an automation equipment especially relates to a cutting fluid circulation refrigerating system.

Technical Field

At present, thereby the cutting aircraft nose is because high-speed rotation produces high temperature, in order to produce quality and safety guarantee, need lubricate the aircraft nose, just need carry out the pouring of cutting fluid, but can make the cutting fluid atomizing under the high temperature to influence the production environment, the cutting fluid of high temperature is unfavorable for retrieving and recycling simultaneously, has improved the cost of enterprise, and traditional method adopts the separator of atomizing to collect the processing, the cost of enterprise that further increases.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cutting fluid circulation refrigerating system through circulative cooling cutting fluid, not only can reduce the high temperature of cutting machine head, can also improve lubricated effect, and saving equipment reforms transform the cost.

In order to solve the above problem, the utility model provides a pair of cutting fluid circulation refrigerating system has adopted following technical scheme:

a cutting fluid circulating refrigeration system comprises a cutting fluid pool, a conveying pipeline, a collecting pipeline, a purifying device and a cooling device; the cutting liquid pool is positioned on one side of the cutting equipment and is positioned on the ground of a workshop; the conveying pipeline is positioned on one side of the cutting fluid pool and communicated with the cutting fluid pool; the collecting pipeline is positioned below the cutting machine head and corresponds to the conveying pipeline in position; the purification device is positioned at one end of the collection pipeline and is communicated with the collection pipeline; the cooling device is positioned at one side of the purifying device, one end of the cooling device is communicated with the purifying device, and the other end of the cooling device is communicated with the cutting fluid pool.

Furthermore, the conveying pipeline comprises a conveying pump, a conveying pipe and a spray head; the delivery pump is positioned in the cutting fluid pool and fixed in the cutting fluid pool; the delivery pipe is positioned at one side of the delivery pump and is communicated with the delivery pump, and the other end of the delivery pipe is communicated with the spray head; the spray head is positioned at one side of the cutting machine head, and the position of the spray head corresponds to the machine head and the collecting pipeline.

Furthermore, the collecting pipeline comprises a collecting hopper and a return pipe; the collecting hopper is positioned at one side of the cutting machine head and corresponds to the conveying pipeline in position; the return pipe is positioned at one side of the collecting hopper and is communicated with the collecting hopper.

Furthermore, the collecting hopper is in a conical shape, and the caliber of the upper end is larger than that of the lower end.

Further, the purification device comprises a purification box, a first filter screen, a second filter screen, a purifier and a circulating pipe; the purifying box is positioned at one end of the collecting pipeline and is communicated with the collecting pipeline; the first filter screen is positioned in the purifying box and is fixedly connected with the purifying box; the purifier is positioned on one side of the first filter screen and adsorbs metals in the cutting fluid; the second filter screen is positioned at the other side of the purifier and is fixedly connected with the purifying box; the circulating pipe is positioned at one side of the purifying device and is communicated with the purifying device and the cooling device.

Furthermore, the purifier is provided with an electromagnet or a permanent magnet and is used for adsorbing metal.

Further, the cooling device comprises a cold water pipe, a cooling tank and a recovery pipe; the cooling box is positioned at one side of the purification device and is communicated with the purification device; the cold water pipe penetrates through the cooling tank, and the direction of the cold water pipe is vertical to that of the cooling tank; the recovery pipe is positioned at one side of the cooling box and communicated with the cooling box, and the other side of the recovery pipe is communicated with the cutting fluid pool.

Furthermore, the cooling pipe is provided with at least one cooling pipe which uniformly penetrates through the cooling box.

The beneficial effects of the utility model reside in that: the utility model provides a pair of cutting fluid circulation refrigerating system utilizes cutting fluid and iron fillings separation to purify, and rethread cold water pipe cools off, alright with recycling, reduces the temperature of cutting machine head simultaneously, stops the atomizing phenomenon of cutting fluid, reduces cost in business when the environmental protection.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Wherein: 1. the cutting fluid recovery device comprises a cutting fluid pool, 2 conveying pipelines, 3 collecting pipelines, 4 purifying devices, 5 cooling devices, 6 conveying pumps, 7 conveying pipes, 8 spray heads, 9 collecting hoppers, 10 return pipes, 11 purifying boxes, 12 first filter screens, 13 second filter screens, 14 purifiers, 15 circulating pipes, 16 cold water pipes, 17 cooling boxes and 18 recovery pipes.

Detailed Description

In order to more clearly understand the technical solutions provided by the present invention, the present invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in the attached drawings, the cutting fluid circulating refrigeration system provided by the utility model comprises a cutting fluid pool 1, a conveying pipeline 2, a collecting pipeline 3, a purifying device 4 and a cooling device 5; the cutting fluid pool 1 is positioned on one side of the cutting equipment and is positioned on the ground of a factory building; the conveying pipeline 2 is positioned on one side of the cutting fluid pool 1 and communicated with the cutting fluid pool 1; the collecting pipeline 3 is positioned below the cutting machine head and corresponds to the conveying pipeline 2 in position; the purification device 4 is positioned at one end of the collecting pipeline 3 and is communicated with the collecting pipeline 3; the cooling device 5 is positioned at one side of the purifying device 4, one end of the cooling device is communicated with the purifying device 4, and the other end of the cooling device is communicated with the cutting fluid pool 1.

Further, the conveying pipeline 2 comprises a conveying pump 6, a conveying pipe 7 and a spray head 8; the delivery pump 6 is positioned in the cutting fluid pool 1 and fixed in the cutting fluid pool 1; the delivery pipe 7 is positioned at one side of the delivery pump 6 and communicated with the delivery pump 6, and the other end of the delivery pipe is communicated with the spray head 8; the spray head 8 is positioned at one side of the cutting machine head, and the position of the spray head corresponds to the machine head and the collecting pipeline 3.

Further, the collecting pipeline 3 comprises a collecting hopper 9 and a return pipe 10; the collecting hopper 9 is positioned at one side of the cutting machine head and corresponds to the conveying pipeline 2 in position; the return pipe 10 is located at one side of the collecting hopper 9 and is communicated with the collecting hopper 9.

Furthermore, the collecting hopper 9 is in a conical shape, and the caliber of the upper end is larger than that of the lower end.

Further, the purification device 4 comprises a purification box 11, a first filter screen 12, a second filter screen 13, a purifier 14 and a circulating pipe 15; the purifying box 11 is positioned at one end of the collecting pipeline 3 and is communicated with the collecting pipeline 3; the first filter screen 12 is positioned inside the purifying box 11 and fixedly connected with the purifying box 11; the purifier 14 is positioned at one side of the first filter screen 12 and adsorbs metal in the cutting fluid; the second filter screen 13 is positioned at the other side of the purifier 14 and is fixedly connected with the purifying box 11; the circulation pipe 15 is located at one side of the purification device 4 and communicates the purification device 4 and the cooling device 5.

Further, the purifier 14 is configured as an electromagnet or a permanent magnet for adsorbing metal.

Further, the cooling device 5 comprises a cold water pipe 16, a cooling tank 17 and a recovery pipe 18; the cooling box 17 is positioned at one side of the purifying device 4 and is communicated with the purifying device 4; the cold water pipe 16 passes through the cooling tank 17, and the direction of the cold water pipe is vertical to that of the cooling tank 17; the recovery pipe 18 is positioned at one side of the cooling tank 17 and communicated with the cooling tank 17, and the other side of the recovery pipe is communicated with the cutting fluid pool 1.

Furthermore, the number of the cooling pipes is not less than one, and the cooling pipes uniformly penetrate through the cooling box 17.

Claims

1. A cutting fluid circulating refrigeration system is characterized by comprising a cutting fluid pool, a conveying pipeline, a collecting pipeline, a purifying device and a cooling device; the cutting liquid pool is positioned on one side of the cutting equipment and is positioned on the ground of a workshop; the conveying pipeline is positioned on one side of the cutting fluid pool and communicated with the cutting fluid pool; the collecting pipeline is positioned below the cutting machine head and corresponds to the conveying pipeline in position; the purification device is positioned at one end of the collection pipeline and is communicated with the collection pipeline; the cooling device is positioned at one side of the purifying device, one end of the cooling device is communicated with the purifying device, and the other end of the cooling device is communicated with the cutting fluid pool.

2. The cutting fluid circulating refrigeration system according to claim 1, wherein the delivery pipeline comprises a delivery pump, a delivery pipe and a spray head; the delivery pump is positioned in the cutting fluid pool and fixed in the cutting fluid pool; the delivery pipe is positioned at one side of the delivery pump and is communicated with the delivery pump, and the other end of the delivery pipe is communicated with the spray head; the spray head is positioned at one side of the cutting machine head, and the position of the spray head corresponds to the machine head and the collecting pipeline.

3. The cutting fluid circulating refrigeration system as claimed in claim 1, wherein the collecting pipeline comprises a collecting hopper and a return pipe; the collecting hopper is positioned at one side of the cutting machine head and corresponds to the conveying pipeline in position; the return pipe is positioned at one side of the collecting hopper and is communicated with the collecting hopper.

4. The cutting fluid circulating refrigeration system according to claim 3, wherein the collecting hopper has a tapered shape, and the caliber of the upper end is larger than that of the lower end.

5. The cutting fluid circulating refrigeration system according to claim 1, wherein the purification device comprises a purification tank, a first filter screen, a second filter screen, a purifier and a circulation pipe; the purifying box is positioned at one end of the collecting pipeline and is communicated with the collecting pipeline; the first filter screen is positioned in the purifying box and is fixedly connected with the purifying box; the purifier is positioned on one side of the first filter screen and adsorbs metals in the cutting fluid; the second filter screen is positioned at the other side of the purifier and is fixedly connected with the purifying box; the circulating pipe is positioned at one side of the purifying device and is communicated with the purifying device and the cooling device.

6. The cutting fluid circulating refrigeration system according to claim 5, wherein the purifier is provided with an electromagnet or a permanent magnet for adsorbing metal.

7. The cutting fluid circulating refrigeration system according to claim 1, wherein the cooling device comprises a cold water pipe, a cooling tank and a recovery pipe; the cooling box is positioned at one side of the purification device and is communicated with the purification device; the cold water pipe penetrates through the cooling tank, and the direction of the cold water pipe is vertical to that of the cooling tank; the recovery pipe is positioned at one side of the cooling box and communicated with the cooling box, and the other side of the recovery pipe is communicated with the cutting fluid pool.

8. The cutting fluid circulating refrigeration system according to claim 7, wherein at least one cooling pipe is uniformly arranged to penetrate through the cooling tank.