CN211029230U - Automatic circulating supply system for workshop cutting fluid - Google Patents

Abstract

The utility model relates to a cutting fluid circulation supplies with the field, especially relates to a be used for workshop cutting fluid automatic cycle feed system, and this system adopts intelligent control, and reducible manual work can accomplish the recovery and the circulation supply of coolant liquid, effectively solves the problem that proposes in the background art. The cutting fluid stock solution storage box is connected with a cutting fluid main water tank through a first connecting pipe, the left side wall of the cutting fluid main water tank is communicated with a tap water conveying pipe, the cutting fluid main water tank is connected with a pressure tank through a second connecting pipe, the pressure tank is connected with a conveying main pipe through a third connecting pipe, the conveying main pipe is connected with a pipe network, the pipe network is connected with all machine tools, all machine tools are connected with the top of a recovery fluid tank through an oil-water separator, and the bottom of the left side wall of the recovery fluid tank is connected with the cutting fluid main water tank through a sixth connecting pipe. The operation is simple, the use is convenient, and the device is suitable for various places.

Description

Automatic circulating supply system for workshop cutting fluid

Technical Field

The utility model relates to a cutting fluid circulation supplies with the field, specifically is a be used for workshop cutting fluid automatic cycle feed system.

Background

With the progress of science and technology and the development of society, the machining technology in China is rapidly developed, and the rapid development of the workshop cutting fluid circulation technology is followed. Other equipment such as workshop lathe need cool off the processing, and this just needs to use the coolant liquid, and the supply of coolant liquid and retrieve all manual operation usually, and efficiency is lower, also has an intelligent recovery plant, but the cost is expensive, and the cost is higher, is unfavorable for reducing enterprise's manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be directed against prior art not enough, the utility model provides a be used for workshop cutting fluid automatic cycle supply system, this system adopts intelligent control, and reducible manual work can accomplish the recovery and the circulation supply of coolant liquid, effectively solves the problem that proposes in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a be used for workshop cutting fluid automatic cycle feed system which characterized in that: the cutting fluid self-priming pump device comprises a cutting fluid stock solution storage box, wherein the cutting fluid stock solution storage box is connected with a cutting fluid main water tank through a first connecting pipe; the left side wall of the cutting fluid main water tank is communicated and connected with a tap water conveying pipe, a first submersible pump is fixedly arranged at the right bottom inside the cutting fluid main water tank, the right side of the first submersible pump is connected with the left end part of a second connecting pipe, the second connecting pipe penetrates out of the cutting fluid main water tank rightwards and is connected with the inlet of a pressure tank at the tail end, the outlet of the pressure tank is connected with a main pipe joint through a third connecting pipe, the main pipe joint is connected with the left end part of a conveying main pipe, the conveying main pipe is respectively connected with a first branch pipe and a second branch pipe through a first tee joint, the first branch pipe is connected with a spin dryer, the spin dryer is connected with the upper end part of a fourth connecting pipe, the conveying main pipe is connected with the top part of an aluminum scrap auger sedimentation tank through the second branch pipe, the second submersible pump is arranged at the bottom of the, the bottom of the fourth connecting pipe and the bottom of the fifth connecting pipe are respectively connected with two inlets of a second three-way joint, the other outlet of the fourth connecting pipe and the fifth connecting pipe is connected with the inlet of an oil-water separator, the outlet of the oil-water separator is connected with the top of a recovery liquid tank, the bottom of the left side wall of the recovery liquid tank is connected with a cutting liquid main water tank through a sixth connecting pipe, and a second self-sucking pump is arranged on the sixth connecting pipe.

Preferably, the tap water conveying pipe is provided with a first electromagnetic control valve, the right side wall in the cutting fluid main water tank is provided with a liquid level detection switch, the liquid level detection switch is connected with an electrical control box through a connecting line, and the electrical control box is connected with the first electromagnetic control valve through the connecting line.

Preferably, the delivery main pipe is provided with a second electromagnetic control valve, the second electromagnetic control valve is connected with the electric control box through a connecting line, the water delivery main pipe is further provided with a first pressure sensor, the first branch pipe and the second branch pipe are respectively provided with a second pressure sensor, and the first pressure sensor and the second pressure sensor are respectively connected with the electric control box through the connecting line.

Preferably, the pressure tank is provided with a pressure control switch, the pressure control switch is connected with the electric control box through a connecting line, and the electric control box is connected with the first submersible pump through the connecting line.

Preferably, the right side wall in the aluminium bits auger sedimentation tank in install first high low water level control switch, first high low water level control switch is connected with the electrical control box through interconnecting link, the electrical control box is connected with the second immersible pump through interconnecting link.

Preferably, the second high-low water level control switch is installed to the right side wall in the recovery liquid case, and the second high-low water level control switch is connected with the electric control box through interconnecting link, and the electric control box is connected with the second self-priming pump through interconnecting link.

Preferably, the fourth connecting pipe and the fifth connecting pipe are respectively provided with a filter screen.

Compared with the prior art, the utility model provides a be used for workshop cutting fluid automatic cycle feed system possesses following beneficial effect: the utility model discloses a cutting fluid main water tank, recycle liquor case, immersible pump, self priming pump, water oil separating centrifuge, filter screen, overhead tank and electrical control box's setting can realize intelligent control through the electrical control box for cutting fluid can automatic feed and retrieve, has reduced manual operation, has improved official website operating efficiency.

Drawings

Fig. 1 is a schematic view of the pipeline connection of the present invention.

The following are marked in the figure:

1. a cutting fluid stock solution storage box; 2. a first connecting pipe; 21. a first self-priming pump; 3. a cutting fluid main water tank; 31. a liquid level detection switch; 32. a first submersible pump; 33. a second connecting pipe; 4. a tap water delivery pipe; 41. a first solenoid control valve; 5. a pressure tank; 51. a pressure control switch; 52. a third connecting pipe; 521. a header pipe joint; 6. a delivery main pipe; 61. a second solenoid control valve; 7. a first three-way joint; 71. a first branch pipe; 72. a second branch pipe; 8. a spin dryer; 81. a fourth connecting pipe; 9. an aluminum scrap auger sedimentation tank; 91. a second submersible pump; 92. a fifth connecting pipe; 93. a first high and low water level control switch 10, a filter screen; 11. a liquid recovery tank; 111. a sixth connecting pipe; 112. a second self-priming pump; 113. a second high and low water level control switch; 12. an oil-water separator; 121. and a second three-way joint.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figure 1, a be arranged in workshop cutting fluid automatic cycle feed system, including cutting fluid stoste storage tank 1, cutting fluid stoste storage tank 1 be connected with cutting fluid main water tank 3 through first connecting pipe 2, first connecting pipe 2 on be equipped with first self priming pump 21, first self priming pump 21 is connected with the electrical control box through interconnecting link (according to 3 internal volumes of cutting fluid main water tank in pour into cutting fluid stoste storage tank 1 into cutting fluid stoste, through first self priming pump 21 cutting fluid stoste input cutting fluid main water tank in 3). The left side wall of the cutting fluid main water tank 3 is communicated and connected with a tap water conveying pipe 4, a first submersible pump 32 is fixedly arranged at the right bottom inside the cutting fluid main water tank 3, the right side of the first submersible pump 32 is connected with the left end part of a second connecting pipe 33, the second connecting pipe 33 penetrates out of the cutting fluid main water tank 3 to the right and is connected with the inlet of a pressure tank 5 at the tail end, the outlet of the pressure tank 5 is connected with a main pipe joint 521 through a third connecting pipe 52, the main pipe joint 521 is connected with the left end part of a conveying main pipe 6, the conveying main pipe 6 is respectively connected with a first branch pipe 71 and a second branch pipe 72 through a first three-way joint 7, the first branch pipe 71 is connected with a spin dryer 8, the spin dryer 8 is connected with the upper end part of a fourth connecting pipe 81, the conveying main pipe 6 is connected with the top of an aluminum scrap auger sedimentation tank 9 (communicated with the inside) through, the water outlet of the second submersible pump 91 is connected with the upper end of a fifth connecting pipe 92, the bottoms of the fourth connecting pipe 81 and the fifth connecting pipe 92 are respectively connected with two inlets of a second three-way joint 121, the other outlet is connected with the inlet of an oil-water separator 12 (the treatment capacity is 120 liters of water per hour, the treated recovered liquid achieves the purpose of oil-water separation), the outlet of the oil-water separator 12 is connected with the top of a recovered liquid tank 11, the bottom of the left side wall of the recovered liquid tank 11 is connected with a cutting liquid main water tank 3 through a sixth connecting pipe 111, and a second self-priming pump 112 is arranged on the sixth connecting pipe 111.

In the above embodiment, specifically, the tap water delivery pipe 4 is provided with a first electromagnetic control valve 41, the right side wall inside the cutting fluid main water tank 3 is provided with a liquid level detection switch 31, the liquid level detection switch 31 is connected with an electrical control box (not shown in the figure) through a connection line, and the electrical control box is connected with the first electromagnetic control valve 41 through a connection line. After the stock solution is added, the first electromagnetic control valve 41 is opened through the electric control box, so that the tap water conveying pipe 4 supplies water into the main water tank to complete cutting fluid blending (the water injection position is set by the liquid level detection switch 31 according to the proportioning concentration of the stock solution, after the water injection position is reached, the liquid level detection switch 31 transmits a signal to the electric control box, and the electric control box controls the first electromagnetic control valve to be closed, so that the tap water conveying pipe 4 is closed).

In the above embodiment, specifically, the delivery main pipe 6 is provided with a second electromagnetic control valve 61, the second electromagnetic control valve 61 is connected to the electrical control box through a connection line, the delivery main pipe 6 is further provided with a first pressure sensor (not shown in the figure), the first branch pipe 71 and the second branch pipe 72 are respectively provided with a second pressure sensor (not shown in the figure), and the first pressure sensor and the second pressure sensor are respectively connected to the electrical control box through connection lines. The pressure of the delivery main pipe 6 (pressure tank 5) should be higher than the pressure of the pipe network (the first branch pipe 71 and the second branch pipe 72), and when the pressure of the pipe network is higher than the pressure set value of the delivery main pipe 6 (pressure tank 5), the first submersible pump 32 starts to supply liquid and pressurize to the pressure tank 5.

In the above embodiment, specifically, the pressure tank 5 is provided with the pressure control switch 51, the pressure control switch 51 is connected with the electrical control box through a connecting line, and the electrical control box is connected with the first submersible pump 32 through a connecting line. When the pressure of the liquid in the tank reaches a set value (the pressure tank 5 is provided with a pressure control switch 51 for controlling the submersible pump to start and stop, and the pressure is adjusted according to needs), the first submersible pump 32 stops injecting water into the tank.

In the above embodiment, specifically, the first high-low water level control switch 93 is installed on the right side wall in the aluminum scrap auger sedimentation tank 9, the first high-low water level control switch 93 is connected with the electric control box through a connecting line, and the electric control box is connected with the second submersible pump 91 through a connecting line. When the water level of the recovery liquid in the aluminum scrap auger sedimentation tank 9 reaches the highest water level warning line, the second submersible pump 91 is started to input the recovery liquid into the recovery liquid tank 11; when the water level reaches the lowest water level warning line, the second submersible pump 91 stops operating.

In the above embodiment, specifically, the second high-low water level control switch 113 is installed on the right side wall in the recovery liquid tank 11, the second high-low water level control switch 113 is connected to the electric control box through a connection line, and the electric control box is connected to the second self-priming pump 112 through a connection line. When the water level of the recovery liquid in the recovery liquid tank 11 reaches the highest water level warning line, the second self-priming pump 112 starts to input the recovery liquid into the main water tank 3 of the liquid cutting tank; the second self-primer pump 112 stops feeding liquid when the water level reaches the lowest water level alarm line.

In the above embodiment, specifically, the fourth connecting pipe 81 and the fifth connecting pipe 92 are respectively provided with a filter screen (in the prior art, the structure of the filter screen is known to those skilled in the art, and the filter screen is used for filtering impurities in the cutting fluid).

The components used in the present invention are all common standard components or components known to those skilled in the art, and the structure and principle thereof are well known to those skilled in the art.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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 invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a be used for workshop cutting fluid automatic cycle feed system which characterized in that: the cutting fluid self-priming pump device comprises a cutting fluid stock solution storage box, wherein the cutting fluid stock solution storage box is connected with a cutting fluid main water tank through a first connecting pipe; the left side wall of the cutting fluid main water tank is communicated and connected with a tap water conveying pipe, a first submersible pump is fixedly arranged at the right bottom inside the cutting fluid main water tank, the right side of the first submersible pump is connected with the left end part of a second connecting pipe, the second connecting pipe penetrates out of the cutting fluid main water tank rightwards and is connected with the inlet of a pressure tank at the tail end, the outlet of the pressure tank is connected with a main pipe joint through a third connecting pipe, the main pipe joint is connected with the left end part of a conveying main pipe, the conveying main pipe is respectively connected with a first branch pipe and a second branch pipe through a first tee joint, the first branch pipe is connected with a spin dryer, the spin dryer is connected with the upper end part of a fourth connecting pipe, the conveying main pipe is connected with the top part of an aluminum scrap auger sedimentation tank through the second branch pipe, the second submersible pump is arranged at the bottom of the, the bottom of the fourth connecting pipe and the bottom of the fifth connecting pipe are respectively connected with two inlets of a second three-way joint, the other outlet of the fourth connecting pipe and the fifth connecting pipe is connected with the inlet of an oil-water separator, the outlet of the oil-water separator is connected with the top of a recovery liquid tank, the bottom of the left side wall of the recovery liquid tank is connected with a cutting liquid main water tank through a sixth connecting pipe, and a second self-sucking pump is arranged on the sixth connecting pipe.

2. The automatic circulation supply system for the workshop cutting fluid as claimed in claim 1, wherein: the cutting fluid main water tank is characterized in that a first electromagnetic control valve is arranged on the tap water conveying pipe, a liquid level detection switch is arranged on the right side wall in the cutting fluid main water tank, the liquid level detection switch is connected with an electric control box through a connecting line, and the electric control box is connected with the first electromagnetic control valve through the connecting line.

3. The automatic circulation supply system for the workshop cutting fluid as claimed in claim 1, wherein: the water supply main pipe is provided with a first pressure sensor, the first branch pipe and the second branch pipe are respectively provided with a second pressure sensor, and the first pressure sensor and the second pressure sensor are respectively connected with the electric control box through connecting lines.

4. The automatic circulation supply system for the workshop cutting fluid as claimed in claim 1, wherein: the pressure tank on install pressure control switch, pressure control switch be connected with the electrical control box through interconnecting link, the electrical control box is connected with first immersible pump through interconnecting link.

5. The automatic circulation supply system for the workshop cutting fluid as claimed in claim 1, wherein: the aluminum scrap auger sedimentation tank in the right side wall install first height water level control switch, first height water level control switch is connected with the electrical control box through interconnecting link, the electrical control box is connected with the second immersible pump through interconnecting link.

6. The automatic circulation supply system for the workshop cutting fluid as claimed in claim 1, wherein: the recovery liquid incasement right side wall install the high low water level control switch of second, the high low water level control switch of second is connected with the electric control box through interconnecting link, the electric control box is connected with the second self priming pump through interconnecting link.

7. The automatic circulation supply system for the workshop cutting fluid as claimed in claim 1, wherein: and filter screens are respectively arranged on the fourth connecting pipe and the fifth connecting pipe.

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