CN212870855U

CN212870855U - Cooling device for producing metal working fluid

Info

Publication number: CN212870855U
Application number: CN202020956710.2U
Authority: CN
Inventors: 何俞漫
Original assignee: Hangzhou Yizixin Hardware Crafts Co ltd
Current assignee: Hangzhou Yizixin Hardware Crafts Co ltd
Priority date: 2020-05-31
Filing date: 2020-05-31
Publication date: 2021-04-02
Anticipated expiration: 2030-05-31

Abstract

A cooling device for producing metal working fluid comprises a cold water pool, a cold water pump set, a delivery device, a curved cold-heat exchanger, a delivery device, a hot water pool, a hot water pump set and a water chiller; the metal working fluid to be cooled enters the central pipeline of the curved cold-heat exchanger from the feeding device at the uppermost layer, heat is transferred to cold water which is fed by a cold water pump and flows through the circular central pipeline, heat exchange is completed, the cooled metal working fluid is sent out from the central pipeline at the lowermost layer, and the hot water flows out of the circular central pipeline of the feeding device at the uppermost layer to a hot water tank and is sent into a water cooler by a hot water pump to be cooled and recycled. The device utilizes the curved cold-heat exchanger to transfer heat from hot metal working fluid to cooling water, so that the temperature of the metal working fluid is reduced; the device has the characteristics of large capacity and high production efficiency.

Description

Cooling device for producing metal working fluid

Technical Field

The utility model relates to a cooling arrangement technical field, specific cooling device for producing metal working fluid that says so.

Background

The existing tubular heat exchanger has the condition of low heat exchange efficiency, and the existing plate heat exchanger has the condition of easy blockage.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a cooling device for producing metal working fluid.

A cooling device for producing metal working fluid comprises a curved cold-heat exchanger, a sending-out device arranged at the left side of the curved cold-heat exchanger, a feeding-in device arranged at the right side of the curved cold-heat exchanger, and a water cooler arranged at the rear upper part of the curved cold-heat exchanger;

a cold water pump set is arranged on the left surface of the delivery device, and a cold water pool is arranged on the left surface of the cold water pump set;

a hot water pool is arranged on the right side of the feeding device, and a hot water pump set is arranged on the right side of the hot water pool;

a flexible curved pipeline and an outer straight pipeline are arranged outside the curved cold-heat exchanger, an O-shaped sealing ring is arranged in the flexible curved pipeline, a large screw, a large spring washer and a large nut are arranged at the joint of the flexible curved pipeline and the outer straight pipeline, the curved pipeline and the inner straight pipeline are arranged in the curved cold-heat exchanger, and the curved pipeline and the inner straight pipeline are connected through a straight joint;

the delivery device is provided with a tee joint, the back of the tee joint is connected with a bent pipe, the right side of the tee joint is provided with a connecting bent pipe which is connected with a curved cold-heat exchanger, an O-shaped sealing ring is also arranged in the bent pipe, the left side of the large stop valve is connected with a large stop valve, the left side of the large stop valve is connected with a pump-out pipe, the joint of the tee joint and the bent pipe is also provided with a large screw and a large spring washer, a straight pipe is arranged in the tee joint, the left side of the straight pipe is connected with a small stop valve, the left side of the small stop valve is connected with a water receiving pipe, the left side of;

the feeding device is also provided with a tee joint, the front of the tee joint is also connected with a bent pipe, the left side of the tee joint is also provided with a connecting bent pipe connected with a curved cold-heat exchanger, an O-shaped sealing ring is also arranged in the bent pipe, the right side of the bent pipe is also connected with a large stop valve, the right side of the large stop valve is also connected with a water outlet pipe, the joint of the tee joint and the bent pipe is also provided with a large screw and a large spring washer, a straight pipe is also arranged in the tee joint, the right side of the straight pipe is also connected with a small stop valve, the right side of the small stop valve is also connected with a water receiving pipe, the right side of the tee joint is also provided;

preferably, a small stop valve is also arranged below the water cooler, the left side of the water cooler is connected with a water pipe, the right side of the water pipe is connected with a water supply pipe, the right side of the water pipe is also connected with a large stop valve, the right side of the large stop valve is connected with a cold water pipe, and the lower part of the cold water pipe is connected with a cold water pool;

preferably, the cold water pump group is provided with a pump suction pipe, the right side of the pump suction pipe is connected with a water pump, the rear side of the water pump is connected with a motor, and the right side of the water pump is connected with a pump outlet pipe;

preferably, the hot water pump group is also provided with a pump suction pipe, the pump suction pipe is also connected with a water pump, the rear of the water pump is also connected with a motor, and the right side of the water pump is connected with a water supply pipe;

preferably, the cold water tank is also provided with a small stop valve, and the hot water tank is also provided with a small stop valve;

preferably, the pump suction pipe adopts a 45-degree oblique notch structure.

Compared with the prior art, the beneficial effects of the utility model are that:

the device is difficult for blockking up, dismantles easy maintenance, and heat exchange capacity is big, production efficiency is high, produces, promotes enterprise economic benefits and provides reliable assurance for the enterprise fast.

Drawings

FIG. 1 is a front view of a cooling apparatus for producing a metalworking fluid according to the present invention;

FIG. 2 is a top plan view of a cooling apparatus for producing a metalworking fluid in accordance with the present invention;

FIG. 3 is a view of the internal structure of a curved cold heat exchanger of a cooling apparatus for producing a metal working fluid according to the present invention;

FIG. 4 is a drawing of a delivery apparatus of a cooling apparatus for producing a metal working fluid according to the present invention;

FIG. 5 is a schematic diagram of a feed apparatus for a cooling apparatus for producing a metal working fluid according to the present invention

FIG. 6 is a diagram of a cold water pump assembly for producing a metalworking fluid in accordance with the present invention;

figure 7 is a diagram of a hot water pump set for use in producing metalworking fluid according to the present invention.

In the figure: 1. the water cooling device comprises a cold water pool, 2, a cold water pump group, 3, a delivery device, 4, a curved cold-heat exchanger, 5, a water cooling machine, 6, a delivery device, 7, a hot water pump group, 8, a hot water pool, 9, a water delivery pipe, 10, a small stop valve, 11, a water pipe, 12, a large stop valve, 13, a cold water pipe, 14, a pump outlet pipe, 15, a bent pipe, 16, a large screw, 17, an O-shaped sealing ring, 18, a large spring gasket, 19, a connecting bent pipe, 20, a water receiving pipe, 21, a small screw, 22, a small spring gasket, 23, a flange, 24, a V-shaped combined sealing ring, 25, a tee joint, 26, a straight pipe, 27, a flexible curved pipeline, 28, a curved pipeline, 29, a straight joint, 30, a large nut, 31, an outer straight pipeline, 32, a pump suction pipe, 33, a water pump, 34, a motor.

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.

A cooling device for producing metal working fluid comprises a curved cold-heat exchanger 4, a feeding device 3 arranged at the left side of the curved cold-heat exchanger 4, a feeding device 6 arranged at the right side of the curved cold-heat exchanger 4, and a water cooler 5 arranged at the rear upper part of the curved cold-heat exchanger 4;

a cold water pump set 2 is arranged on the left surface of the delivery device 3, and a cold water pool 1 is arranged on the left surface of the cold water pump set 2;

a hot water pool 8 is arranged on the right side of the feeding device 6, and a hot water pump group 7 is arranged on the right side of the hot water pool 8;

the curved cold heat exchanger 4 is externally provided with a flexible curved conduit 27 and an outer straight conduit 31, an O-shaped sealing ring 17 is arranged in the flexible curved pipeline 27, a large screw 16, a large spring washer 18 and a large nut 30 are arranged at the joint of the flexible curved pipeline 27 and the outer straight pipeline 31, the O-ring 17, the large screw 16, the large spring washer 18 and the large nut 30 are mainly used to ensure that the curved cold heat exchanger 4 does not leak outwards, ensure the external sealing performance of the curved cold heat exchanger 4, the curved pipe 28 and the inner straight pipe 36 are arranged in the curved cold-heat exchanger 4, the curved pipe and the inner straight pipe 36 are connected through the straight-through joint 29, a taper sealing thread structure is adopted, the sealing performance of the inner pipe is ensured, thereby ensuring that the inner and outer pipelines of the curved cold-heat exchanger 4 have no cross leakage and ensuring that the heat exchange of the metal working fluid and the cold water is carried out smoothly.

The delivery device 3 is provided with a tee 25, the rear of the tee 25 is connected with an elbow 15, the right of the tee 25 is provided with a connecting elbow 19 to be connected with the curved cold-heat exchanger 4, the elbow 15 is also provided with an O-shaped sealing ring 17, the left of the elbow is connected with a large stop valve 12, the left of the large stop valve 12 is connected with a pump outlet pipe 14, the joint of the tee 25 and the elbow 15 is also provided with a large screw 16 and a large spring washer 18, the tee 15 is internally provided with a straight pipe 26, the left of the straight pipe 26 is connected with a small stop valve 10, the left of the small stop valve 10 is connected with a water receiving pipe 20, the left of the tee 25 is provided with a V-shaped combined sealing ring 24 and a flange 23, the joint of the tee 25 and the flange 23 is provided with a small screw 21 and a small spring washer 22, the V-shaped combined sealing ring 24, the flange 23, the external sealing performance of the curved cold-heat exchanger 4 is also ensured;

the feeding device 6 is also provided with a tee joint 25, the front of the tee joint 25 is also connected with an elbow pipe 15, the left side is also provided with a connecting elbow pipe 19 to be connected with the curved cold-heat exchanger 4, an O-shaped sealing ring 17 is also arranged in the elbow pipe 15, the right side is also connected with a large stop valve 12, the right side of the large stop valve 12 is also connected with a water outlet pipe 35, a large screw 16 and a large spring washer 18 are also arranged at the joint of the tee joint 25 and the elbow pipe 15, a straight pipe 26 is also arranged in the tee joint 25, the right side of the straight pipe 26 is also connected with a small stop valve 10, the right side of the small stop valve 10 is also connected with a water receiving pipe 20, a V-shaped combined sealing ring 24 and a flange 23 are also arranged at the joint of the tee joint 25 and the flange 23, a small screw 21 and a small spring washer 22 are also arranged at the joint of the tee joint 25 and the flange 23, the V, the external sealing properties of the curved cold heat exchanger 4 are also ensured at the same time.

In a further preferred embodiment, a small stop valve 10 is also arranged below the water chiller 5, the left side of the water chiller is connected with a water pipe 11, the right side of the water pipe 11 is connected with a water supply pipe 9, the right side of the water pipe 11 is also connected with a large stop valve 12, the right side of the large stop valve 12 is connected with a cold water pipe 13, and the lower part of the cold water pipe 13 is connected with the cold water pool 1.

In a further preferred embodiment, the cold water pump group 2 is provided with a pump suction pipe 32, the right side of the pump suction pipe 32 is connected with a water pump 33, the rear side of the water pump 33 is connected with a motor 34, and the right side of the water pump 33 is connected with a pump outlet pipe 14.

In a further preferred embodiment, the hot water pump group 7 is also provided with a pump suction pipe 32, the pump suction pipe 32 is also connected with a water pump 33, the rear of the water pump 33 is also connected with a motor 34, and the right side of the water pump 33 is connected with the water supply pipe 9.

In a further preferred embodiment, the cold water basin 1 is also provided with a small shut-off valve 10, and the hot water basin 8 is also provided with a small shut-off valve 10.

In a further preferred embodiment, the suction pipe 32 has a 45-degree oblique-cut structure, so that the contact area between the suction port of the suction pipe 32 and water is increased, the adsorption effect of the water pump 33 is facilitated, the flow rate of cold water is accelerated, and the heat exchange efficiency of the curved cold-heat exchanger 4 is improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A cooling device for producing metal working fluid is characterized by comprising a curved cold heat exchanger (4), a sending-out device (3) arranged at the left side of the curved cold heat exchanger (4), a feeding-in device (6) arranged at the right side of the curved cold heat exchanger (4), and a water cooler (5) arranged at the rear upper part of the curved cold heat exchanger (4);

a cold water pump set (2) is arranged on the left surface of the delivery device (3), and a cold water pool (1) is arranged on the left surface of the cold water pump set (2);

the hot water tank (8) is arranged on the right side of the feeding device (6), and the hot water pump set (7) is arranged on the right side of the hot water tank (8).

2. A cooling apparatus for producing a metalworking fluid according to claim 1, wherein a flexible curved pipe (27) and a straight pipe (31) are provided outside the curved heat exchanger (4), an O-ring (17) is provided in the flexible curved pipe (27), a large screw (16), a large spring washer (18) and a large nut (30) are provided at a junction of the flexible curved pipe (27) and the straight pipe (31), a curved pipe (28) and an inner straight pipe (36) are provided inside the curved heat exchanger (4), and the curved pipe (28) and the inner straight pipe (36) are connected by a through joint (29).

3. The cooling device for producing metal working fluid according to claim 1, wherein the sending device (3) is provided with a tee joint (25), the rear of the tee joint (25) is connected with an elbow (15), the right side is provided with a connecting elbow (19) to be connected with a curved cold-heat exchanger (4), the elbow (15) is also provided with an O-shaped sealing ring (17), the left side is connected with a large stop valve (12), the left side of the large stop valve (12) is connected with a pump-out pipe (14), the joint of the tee joint (25) and the elbow (15) is also provided with a large screw (16) and a large spring washer (18), the tee joint (25) is provided with a straight pipe (26), the left side of the straight pipe (26) is connected with a small stop valve (10), the left side of the small stop valve (10) is connected with a water receiving pipe (20), the left side of the tee joint (25) is provided with a V-shaped combined, and a small screw (21) and a small spring washer (22) are arranged at the joint of the tee joint (25) and the flange (23).

4. The cooling device for producing metal working fluid according to claim 1, wherein the feeding device (6) is also provided with a tee joint (25), the front of the tee joint (25) is also connected with an elbow (15), the left side is also provided with a connecting elbow (19) to be connected with a curved cold-heat exchanger (4), the elbow (15) is also provided with an O-shaped sealing ring (17), the right side is also connected with a large stop valve (12), the right side of the large stop valve (12) is also connected with a water outlet pipe (35), the joint of the tee joint (25) and the elbow (15) is also provided with a large screw (16) and a large spring washer (18), the tee joint (25) is also provided with a straight pipe (26), the right side of the straight pipe (26) is also connected with a small stop valve (10), the right side of the small stop valve (10) is also connected with a water receiving pipe (20), the right side of the tee joint (25) is also provided with a V-shaped combined sealing, and a small screw (21) and a small spring washer (22) are also arranged at the joint of the tee joint (25) and the flange (23).

5. The cooling device for producing metal working fluid according to claim 1, wherein a small stop valve (10) is also arranged below the water chiller (5), a water pipe (11) is connected to the left side, a water supply pipe (9) is connected to the right side, a large stop valve (12) is also connected to the right side of the water pipe (11), a cold water pipe (13) is connected to the right side of the large stop valve (12), and the lower part of the cold water pipe (13) is connected with the cold water tank (1).

6. A cooling device for producing metal working fluid according to claim 1, characterized in that the cold water pump group (2) is provided with a pump suction pipe (32), a water pump (33) is connected to the right of the pump suction pipe (32), a motor (34) is connected behind the water pump (33), and a pump outlet pipe (14) is connected to the right.

7. A cooling apparatus for producing a metal working fluid according to claim 1, characterized in that the hot water pump group (7) is also provided with a pump suction pipe (32), a water pump (33) is also connected to the pump suction pipe (32), a motor (34) is also connected to the rear of the water pump (33), and the right side of the water pump (33) is connected to the water supply pipe (9).

8. A cooling device for producing a metal working fluid according to claim 1, characterized in that the cold water basin (1) is also provided with a small stop valve (10) and the hot water basin (8) is also provided with a small stop valve (10).

9. A cooling apparatus for use in the production of metal working fluids according to claim 6, characterized in that the pump suction pipe (32) is of 45 degree chamfered configuration.