CN218169665U - High-pressure cooling device - Google Patents

Abstract

The utility model discloses a high-pressure cooling equipment relates to cutting fluid processing field, including the equipment main part, the top of equipment main part is connected with the feed liquor pipe, and one side of feed liquor pipe is connected with the pressure relief pipe, the inside of equipment main part is provided with first solid fixed cylinder, and one side of first solid fixed cylinder is connected with the solid fixed cylinder of second, the inside of first solid fixed cylinder and the solid fixed cylinder of second all is provided with strains a section of thick bamboo, and strains the inside below of a section of thick bamboo and be provided with the filter screen, the outside of straining a section of thick bamboo is connected with tooth, and one side of tooth is connected with the gear, the motor is installed to the bottom of gear. The utility model discloses a pressure release effect can be played in the big time of pressure to the pressure release pipe of feed liquor pipe one side, avoids the cutting fluid because the too big not good problem of filter effect who causes of pressure, and two sets of filter cylinders rotate and to utilize centrifugal force to leave cutting fluid and impurity separation for impurity is stayed in the inside of filter screen, and the cutting fluid is discharged, and the binocular filters, and the filter effect is good and filter speed is fast.

Description

High-pressure cooling device

Technical Field

The utility model relates to a cutting fluid field of handling specifically is high-pressure cooling equipment.

Background

The high-pressure cooling equipment is applied to various gold cutting numerical control equipment and gold cutting numerical control machine tools, can realize high-pressure chip breaking and high-pressure chip flushing in the gold cutting processing process, prolong the service life of gold cutting tools, improve the cutting efficiency, and effectively solve the problems of iron chip winding and the like of automatic wire assembly of the gold cutting machine tools.

The existing high-pressure cooling equipment adopts a single-barrel filtering structure when the cutting fluid is filtered, the filtering effect is poor, and therefore the high-pressure cooling equipment is urgently needed.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing high-pressure cooling equipment to solve current high-pressure cooling equipment and adopt single-barrel filtration structure, the relatively poor technical problem of filter effect when to cutting fluid filtration treatment.

In order to achieve the above object, the utility model provides a following technical scheme: high-pressure cooling equipment, including the equipment main part, the top of equipment main part is connected with the feed liquor pipe, and one side of feed liquor pipe is connected with the pressure release pipe, the inside of equipment main part is provided with first solid fixed cylinder, and one side of first solid fixed cylinder is connected with the solid fixed cylinder of second, the inside of first solid fixed cylinder and the solid fixed cylinder of second all is provided with strains a section of thick bamboo, and strains the inside below of a section of thick bamboo and be provided with the filter screen, the outside of straining a section of thick bamboo is connected with the tooth, and one side of tooth is connected with the gear, the motor is installed to the bottom of gear, the bottom of first solid fixed cylinder and the solid fixed cylinder of second all is connected with the fluid-discharge tube, and the one end of fluid-discharge tube is connected with the cooling cylinder, the inside of cooling cylinder is provided with the installation cavity, and one side of installation cavity is connected with the inner tube, the inside of installation cavity is provided with first heat exchange tube, and one side of first heat exchange tube is connected with the second heat exchange tube, the one end that first heat exchange tube and second heat exchange tube kept away from the inlet tube is connected with the outlet pipe, the one end of inner tube is connected with the output tube, the booster pump.

Preferably, the liquid inlet pipe penetrates through the equipment main body and extends to the interior of the equipment main body, the bottom end of the liquid inlet pipe is connected with two groups of liquid outlet pipes, the two groups of liquid outlet pipes penetrate through the first fixing cylinder and the second fixing cylinder respectively and extend to the interior of the filter cylinder, and mechanical seals are arranged at the joints of the two groups of liquid outlet pipes and the filter cylinder.

Preferably, the outer side of the pressure relief pipe is connected with a control valve, the number of the teeth is multiple, multiple groups of teeth are distributed on the outer side of the filter cylinder at equal intervals, and the multiple groups of teeth are all meshed with the gear.

Preferably, the outer side of the filter cylinder is connected with a sliding block, the inner walls of the first fixed cylinder and the second fixed cylinder are provided with sliding grooves matched with the sliding block, and the filter cylinder is rotatably connected with the first fixed cylinder and the second fixed cylinder through the sliding grooves and the sliding block.

Preferably, the liquid discharge pipe penetrates through the cooling cylinder and extends to the inside of the inner cylinder, and the first heat exchange pipe and the second heat exchange pipe are both positioned on the outer side of the inner cylinder.

Preferably, the quantity of inlet tube and outlet pipe all is two sets of, and is two sets of inlet tube and outlet pipe run through the installation cavity respectively and can dismantle with first heat exchange tube and second heat exchange tube and be connected, and two sets of the outside of inlet tube and outlet pipe all is connected with the control valve.

Preferably, the input pipe penetrates through the cooling cylinder, the installation cavity and extends to the inside of the inner cylinder, and the output pipe penetrates through the equipment main body and extends to the outside of the equipment main body.

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

1. the utility model discloses a device main part, feed liquor pipe, pressure release pipe, first solid fixed cylinder, second solid fixed cylinder, a filter cylinder, filter screen, tooth, gear, motor, fluid-discharge tube that set up, realized that the pressure release pipe of feed liquor pipe one side can play the pressure release effect when pressure is big, avoided the problem that the filter effect is not good because the pressure is too big for the cutting fluid, two sets of filter cylinders rotate and can utilize centrifugal force to separate cutting fluid and impurity, make the impurity stay in the inside of filter screen, the cutting fluid is discharged, binocular filters, the filter effect is good and the filter speed is fast;

2. the utility model discloses a cooling cylinder, installation cavity, inner tube, first heat exchange tube, second heat exchange tube, inlet tube, outlet pipe that set up have realized that after cutting fluid got into the inner tube inside, can get into the inside of first heat exchange tube and second heat exchange tube with coolant liquid transportation by the transportation pump, and two sets of heat exchange tubes carry out the heat transfer with cutting fluid respectively, twice heat transfer, and the cooling effect of cutting fluid is good;

3. the utility model discloses an input tube, booster pump, output tube that set up have realized that there is the booster pump to transport the cutting fluid that will handle, for its pressure boost, can directly use in getting into the lathe with its transportation, have increased the functionality of device for the use of device feels better, is connected with the lathe, can realize high-pressure chip breaking, dashes the bits, avoids the iron fillings winding.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view of the present invention;

FIG. 3 is an elevational view of the filter cartridge of the present invention;

fig. 4 is a front view of the inner cylinder of the present invention.

In the figure: 1. an apparatus main body; 2. a liquid inlet pipe; 3. a pressure relief pipe; 4. a first fixed cylinder; 5. a second fixed cylinder; 6. a filter cartridge; 7. filtering with a screen; 8. teeth; 9. a gear; 10. a motor; 11. a liquid discharge pipe; 12. a cooling cylinder; 13. a mounting cavity; 14. an inner barrel; 15. a first heat exchange tube; 16. a second heat exchange tube; 17. a water inlet pipe; 18. a water outlet pipe; 19. an input tube; 20. a booster pump; 21. and (5) outputting the product.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following describes an embodiment of the present invention according to its overall structure.

Referring to fig. 1-4, the high-pressure cooling apparatus includes an apparatus main body 1, a liquid inlet pipe 2 connected to a top end of the apparatus main body 1, a pressure relief pipe 3 connected to one side of the liquid inlet pipe 2, the liquid inlet pipe 2 penetrating through the apparatus main body 1 and extending into the inside thereof, liquid outlet pipes connected to a bottom end of the liquid inlet pipe 2, two groups of liquid outlet pipes respectively penetrating through a first fixing cylinder 4 and a second fixing cylinder 5 and extending into an interior of a filter cylinder 6, mechanical seals provided at joints of the two groups of liquid outlet pipes and the filter cylinder 6, a through hole not provided in an upper half portion of the filter cylinder 6, a filter screen 7 provided in a lower half portion of the filter cylinder 6 for filtering impurities, a first fixing cylinder 4 provided in the apparatus main body 1, a second fixing cylinder 5 connected to one side of the first fixing cylinder 4, a filter cylinder 6 provided in each of the first fixing cylinder 4 and the second fixing cylinder 5, and a filter screen 7 provided below the interior of the filter cylinder 6, the outer side of the filter cylinder 6 is connected with teeth 8, one side of each tooth 8 is connected with a gear 9, the outer side of the pressure relief pipe 3 is connected with a control valve, the number of the teeth 8 is multiple, the multiple sets of teeth 8 are distributed on the outer side of the filter cylinder 6 in an equidistant mode, the multiple sets of teeth 8 are all meshed with the gears 9, the motor 10 is a servo motor and drives the gears 9 to rotate, the two sets of filter cylinders 6 with the teeth 8 arranged on the outer sides are driven by the gears 9 to rotate, the motor 10 is installed at the bottom end of the gear 9, the outer side of each filter cylinder 6 is connected with a sliding block, sliding grooves matched with the sliding blocks are formed in the inner walls of the first fixed cylinder 4 and the second fixed cylinder 5, the filter cylinder 6 is rotationally connected with the first fixed cylinder 4 and the second fixed cylinder 5 through the sliding grooves and the sliding blocks, the bottom ends of the first fixed cylinder 4 and the second fixed cylinder 5 are both connected with a liquid discharge pipe 11, and the liquid discharge pipe 2 is arranged through the equipment main body 1, the liquid discharge pipe, the pressure relief pipe 3, the first fixed cylinder 4, the second fixed cylinder 5, the filter cylinder 6, the filter screen 7, the tooth 8, the gear 9, the motor 10, the fluid-discharge tube 11, it has been realized that the pressure relief pipe 3 of feed liquor pipe 2 one side can play the pressure release effect when pressure is big, avoid the cutting fluid because the problem that the filter effect is not good that pressure is too big caused, two sets of 6 rotations of straining are can utilize centrifugal force to cut liquid and impurity separation, make impurity stay in the inside of filter screen 7, the cutting fluid is discharged, the binocular filters, the filter effect is good and filter speed is fast, the internally mounted of equipment main body 1 has a monitoring system, real-time supervision equipment running state, intake, go out, filtration, pressure, the liquid level, various exceptions appear in circuit etc., the system all can in time send audible and visual alarm, show alarm information classification, and carry alarm information for lathe and display screen, can make required action according to the alarm classification, for example warn or stop.

Referring to fig. 1-4, in the high-pressure cooling device, one end of a liquid discharge pipe 11 is connected with a cooling cylinder 12, the liquid discharge pipe 11 penetrates through the cooling cylinder 12 and extends into an inner cylinder 14, a first heat exchange pipe 15 and a second heat exchange pipe 16 are both positioned outside the inner cylinder 14, the two sets of heat exchange pipes are made of red copper, the heat exchange speed of the red copper is high, the heat exchange effect is good, the two sets of heat exchange pipes are not connected, an installation cavity 13 is arranged inside the cooling cylinder 12, one side of the installation cavity 13 is connected with the inner cylinder 14, the first heat exchange pipe 15 is arranged inside the installation cavity 13, one side of the first heat exchange pipe 15 is connected with the second heat exchange pipe 16, one ends of the first heat exchange pipe 15 and the second heat exchange pipe 16 are both connected with a water inlet pipe 17, and one ends of the first heat exchange pipe 15 and the second heat exchange pipe 16, which are far away from the water inlet pipe 17, are connected with a water outlet pipe 18, the quantity of inlet tube 17 and outlet pipe 18 all is two sets of, two sets of inlet tube 17 and outlet pipe 18 run through installation cavity 13 respectively and can dismantle through the connecting piece with first heat exchange tube 15 and second heat exchange tube 16 and be connected, and the outside of two sets of inlet tube 17 and outlet pipe 18 all is connected with the control valve, through the cooling cylinder 12 that sets up, installation cavity 13, inner tube 14, first heat exchange tube 15, second heat exchange tube 16, inlet tube 17, outlet pipe 18, realized after the cutting fluid gets into inner tube 14 inside, can get into the inside of first heat exchange tube 15 and second heat exchange tube 16 with the cooling fluid transportation by the haulage pump, two sets of heat exchange tubes carry out the heat transfer with the cutting fluid respectively, twice heat transfer, the cooling effect of cutting fluid is good, install the water temperature sensor, monitoring system electric connection in water temperature sensor and the equipment main body 1.

Referring to fig. 1-4, in the high-pressure cooling device, one end of an inner cylinder 14 is connected with an input pipe 19, one end of the input pipe 19 is provided with a booster pump 20, the input pipe 19 penetrates through a cooling cylinder 12 and a mounting cavity 13 and extends into the inner cylinder 14, an output pipe 21 penetrates through a device main body 1 and extends to the outer side of the device main body, one end of the booster pump 20 is connected with an output pipe 21, and the booster pump 20, the booster pump 20 and the output pipe 21 are arranged to realize that the processed cutting fluid is transported by the booster pump 20, the cutting fluid is boosted and transported into a machine tool to be directly used, so that the functionality of the device is improved, the use feeling of the device is better, a clamping ring is connected between the output pipe 21 and the device main body 1, and one side of the device main body 1 is connected with a maintenance door, and the maintenance is convenient.

The working principle is as follows: when the device is used, an external power supply is required to be connected and supplies electric energy to the device, so that the device can normally run, firstly, cutting fluid used in a machine tool enters the two groups of filter cylinders 6 through the device main body 1, if the pressure is higher, a control valve on the outer side of the pressure relief pipe 3 can be opened firstly to achieve the purpose of pressure relief, the cutting fluid entering the two groups of filter cylinders 6 can be filtered by the filter screen 7, the motor 10 is started to drive the gear 9 to rotate by the motor 10, the gear 9 drives the two groups of filter cylinders 6 to rotate through the meshing relation, so that the two groups of filter cylinders 6 rotate inside the first fixed cylinder 4 and the second fixed cylinder 5, the cutting fluid is filtered by centrifugal force, impurities are left inside the filter screen 7, and clean cutting fluid is discharged to the inside the inner cylinder 14 through the liquid discharge pipe 11, the cutting fluid in the inner cylinder 14 is cooled, the cooling fluid enters the first heat exchange tube 15 and the second heat exchange tube 16 through the two sets of water inlet tubes 17, the cooling fluid exchanges heat with the cutting fluid in the inner cylinder 14 when flowing in the first heat exchange tube 15 and the second heat exchange tube 16, so that the cutting fluid is cooled, the temperature of the cooling fluid after heat exchange is increased, the cooling fluid is discharged through the water outlet tube 18, the cooling effect of the internal cutting fluid is good due to two cooling processes, the processed cutting fluid is pumped by the booster pump 20 through the input tube 19 and then is transported through the output tube 21, and the processed cutting fluid is pressurized and directly supplied to a machine tool for use.

The terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the scope of the invention.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. High-pressure cooling device, including equipment main part (1), its characterized in that: the heat exchanger is characterized in that a liquid inlet pipe (2) is connected to the top end of the equipment main body (1), a pressure relief pipe (3) is connected to one side of the liquid inlet pipe (2), a first fixed cylinder (4) is arranged inside the equipment main body (1), a second fixed cylinder (5) is connected to one side of the first fixed cylinder (4), a filter cylinder (6) is arranged inside the first fixed cylinder (4) and the second fixed cylinder (5), a filter screen (7) is arranged below the inside of the filter cylinder (6), teeth (8) are connected to the outer side of the filter cylinder (6), a gear (9) is connected to one side of the teeth (8), a motor (10) is installed at the bottom end of the gear (9), the bottom ends of the first fixed cylinder (4) and the second fixed cylinder (5) are connected with a liquid discharge pipe (11), one end of the liquid discharge pipe (11) is connected with a cooling cylinder (12), an installation cavity (13) is arranged inside the cooling cylinder (12), one side of the installation cavity (13) is connected with an inner cylinder (14), a first heat exchange pipe (15) is connected with one side of the first heat exchange pipe (15), one side of the second heat exchange pipe (16) is connected with one side of the second heat exchange pipe (16), and one side of the second heat exchange pipe (16) is connected with one side of the second heat exchange pipe (15) and one side of the second heat exchange pipe (16) is connected with a second heat exchange pipe (15) and one side of the second heat exchange pipe (16) is connected with a heat exchange pipe (15) and one side of the second heat exchange pipe (15) and one side of the heat exchange pipe (16) 17 Is connected with outlet pipe (18), the one end of inner tube (14) is connected with input tube (19), and booster pump (20) is installed to the one end of input tube (19), the one end of booster pump (20) is connected with output tube (21).

2. The high pressure cooling apparatus of claim 1, wherein: the liquid inlet pipe (2) penetrates through the equipment main body (1) and extends to the interior of the equipment main body, the bottom end of the liquid inlet pipe (2) is connected with liquid outlet pipes, the number of the liquid outlet pipes is two, the liquid outlet pipes penetrate through the first fixing cylinder (4) and the second fixing cylinder (5) respectively and extend to the interior of the filter cylinder (6), and the connection positions of the liquid outlet pipes and the filter cylinder (6) are provided with mechanical seals.

3. The high pressure cooling apparatus of claim 1, wherein: the outside of pressure release pipe (3) is connected with the control valve, the quantity of tooth (8) is the multiunit, multiunit tooth (8) equidistance distribution is in the outside of straining a section of thick bamboo (6), and multiunit tooth (8) all mesh mutually with gear (9).

4. The high pressure cooling apparatus of claim 1, wherein: the outer side of the filter cylinder (6) is connected with a sliding block, sliding grooves matched with the sliding block are formed in the inner walls of the first fixed cylinder (4) and the second fixed cylinder (5), and the filter cylinder (6) is rotationally connected with the first fixed cylinder (4) and the second fixed cylinder (5) through the sliding grooves and the sliding block.

5. The high pressure cooling apparatus of claim 1, wherein: the liquid discharge pipe (11) penetrates through the cooling cylinder (12) and extends to the inside of the inner cylinder (14), and the first heat exchange pipe (15) and the second heat exchange pipe (16) are located on the outer side of the inner cylinder (14).

6. The high pressure cooling apparatus of claim 1, wherein: the quantity of inlet tube (17) and outlet pipe (18) all is two sets of, two sets of inlet tube (17) and outlet pipe (18) run through installation cavity (13) respectively and can dismantle through the connecting piece with first heat exchange tube (15) and second heat exchange tube (16) and be connected, and two sets of the outside of inlet tube (17) and outlet pipe (18) all is connected with the control valve.

7. The high pressure cooling apparatus of claim 1, wherein: the input pipe (19) penetrates through the cooling cylinder (12) and the mounting cavity (13) and extends to the inside of the inner cylinder (14), and the output pipe (21) penetrates through the equipment main body (1) and extends to the outer side of the equipment main body.

Images