CN210079029U - Cooling water cyclic utilization system for stone processing - Google Patents

Abstract

The utility model discloses a cooling water cyclic utilization system for stone material processing, including guide plate, mud scraping device, filter equipment and circulating device. The guide plate is fixed on the ground and comprises a straight section and an upward inclined section, the end part of the straight section is provided with a drainage groove, and the end part of the inclined section is provided with a sludge drainage groove; the mud scraping device comprises guide rails, the guide rails comprise two guide rails which are respectively arranged on two sides of the guide plate, the guide rails are provided with rolling devices, and the rolling devices are provided with first mud scraping plates and second mud scraping plates which are densely distributed with meshes; the filtering device comprises a plurality of sedimentation tanks and is arranged at the tail end of the drainage tank; the circulating device comprises a water pump, the water pump is arranged in the sedimentation tank, and a cooling water pipe is connected to a water outlet of the water pump. The device can reposition of redundant personnel cooling water and rubble piece to reduce the easy problem that blocks filter equipment of rubble piece, but the device reuse cooling water many times improves the utilization ratio of water resource, thereby reduction in production cost.

Description

Cooling water cyclic utilization system for stone processing

Technical Field

The utility model belongs to the technical field of water cyclic utilization, concretely relates to cooling water cyclic utilization system is used in stone material processing.

Background

Stone material cutting device can cut into the small-size panel of specific shape with stone material as required, and its mechanical structure mainly comprises cutting feed system and machining workbench two parts, is carrying out stone material cutting course of working, in order to give the cutting blade cooling, avoids the dust to fly upward simultaneously, can spray water to the position of cutting blade and stone material contact, is usually with the direct discharge of spun water among the current stone material cutting device, can not effectual utilization water resource, can cause the waste of water resource.

In the stone material course of working, not only can produce a large amount of building stones powder, still can produce the garrulous stone of some volumes variation in size simultaneously, garrulous stone often can block circulating filter device, so ordinary circulating filter device is difficult to adapt to such processing environment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cooling water cyclic utilization system for stone material processing, aim at solve current circulating filter device and be difficult to handle stone material processing workshop water cyclic utilization's problem.

Therefore, the utility model adopts the following technical scheme:

a stone material processing is with cooling water cyclic utilization system includes:

the guide plate is fixed on the ground and comprises a straight section and an upward inclined section, a drainage groove is formed in the end part of the straight section, and a sludge discharge groove is formed in the end part of the inclined section;

the mud scraping device comprises guide rails, the guide rails comprise two guide rails which are respectively arranged on two sides of the guide plate, the guide rails are provided with rolling devices, the front ends of the rolling devices are fixedly provided with first mud scraping plates, the lower ends of the first mud scraping plates are hinged with second mud scraping plates, and meshes are densely distributed on the first mud scraping plates and the second mud scraping plates;

the filtering device comprises a plurality of sedimentation tanks, and the sedimentation tanks are arranged at the tail ends of the drainage grooves;

and the circulating device comprises a water pump, the water pump is arranged in the sedimentation tank, and a cooling water pipe is connected to a water outlet of the water pump.

Further, the first mud scraper is arranged vertically, and the second mud scraper is arranged obliquely.

Furthermore, the sedimentation tank comprises a first sedimentation tank, a second sedimentation tank and a third sedimentation tank, the first sedimentation tank is arranged at the tail end of the drainage tank, an overflow groove is arranged between the second sedimentation tank and the first sedimentation tank, a filter screen is arranged in the overflow groove, and the same overflow groove and the same filter screen are arranged between the third sedimentation tank and the second sedimentation tank.

Further, the rolling device comprises two groups of idler wheels and a driving motor, the idler wheels are respectively arranged on the two guide rails, a rotating shaft is connected between the idler wheels, the driving motor is connected to the rotating shaft, a motor box is further arranged on the rotating shaft, the driving motor is arranged in the motor box, and the first mud scraper is arranged at the front end of the motor box.

Further, still include controller and limit switch, limit switch includes two and locates the both ends of guide rail respectively, stopper and driving motor and controller electric connection.

Further, the length of the first mud scraper and the second mud scraper is slightly smaller than the distance between the two guide rails.

Further, the water pump is arranged in the third sedimentation tank.

The beneficial effects of the utility model reside in that: the device can reposition of redundant personnel cooling water and rubble piece, and the cooling water passes through water drainage tank and discharges, silt and rubble piece are discharged through the mud drainage tank to reduce the easy problem that blocks filter equipment of rubble piece, the device reuse cooling water improves the utilization ratio of water resource, thereby reduction in production cost.

Drawings

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

FIG. 2 is a front view of the structure of FIG. 1;

FIG. 3 is a top view of the structure of FIG. 1;

FIG. 4 is a schematic view of a portion of the structure of FIG. 1;

fig. 5 is a schematic structural diagram of the filtering device of the present invention;

FIG. 6 is a schematic diagram of the rolling device of the present invention;

in the figure: 1-guide plate, 11-straight section, 12-inclined section, 2-drainage groove, 3-drainage groove, 4-mud scraper, 41-guide rail, 42-roller, 43-rotating shaft, 44-motor box, 45-driving motor, 46-first mud scraper, 47-second mud scraper, 51-first sedimentation tank, 52-second sedimentation tank, 53-third sedimentation tank, 54-overflow groove, 55-filter screen, 61-first stopper and 62-second stopper.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1 to 6, a cooling water recycling system for stone processing comprises a guide plate 1, a mud scraping device 4, a filtering device and a circulating device.

Guide plate 1 includes straight section 11 and ascending slope section 12, and guide plate 1 is fixed in subaerially, and the end connection of straight section 11 has water drainage tank 2, and the end connection of slope section 12 has mud drainage tank 3, and guide plate 1 chooses for use hydrophobic material to make.

The mud scraping device 4 comprises guide rails 41, the guide rails 41 comprise two guide wheels 41 which are respectively arranged on two sides of the guide plate 1, two groups of idler wheels 42 are arranged on the guide rails 41, a rotating shaft 43 is connected between the two groups of idler wheels 42, and a bevel gear coaxial with one rotating shaft 43 is arranged on one rotating shaft 43. The two rotating shafts 43 are fixed with motor boxes 44, the motor boxes 44 are internally provided with driving motors 45, motor shafts of the driving motors 45 are provided with bevel gears, and the motor shafts are meshed with the bevel gears on the rotating shafts 43 through the bevel gears. When the motor shaft rotates, the rotation shaft 43 is driven to rotate by the bevel gear, so that the roller 42 reciprocates along the guide rail 41.

The front end of motor case 44 is fixed with first mud scraper 46, and the lower extreme of first mud scraper 46 articulates there is second mud scraper 47, and second mud scraper 47 sets up and its bottom contacts with guide plate 1 for first mud scraper 46 slope, and the contained angle between second mud scraper 47 and the first mud scraper 46 is 120 ~ 150. The length of the first and second scrapers 46 and 47 is slightly smaller than the distance between the two guide rails 41, and the first and second scrapers 46 and 47 are densely provided with meshes.

The filtering device comprises a plurality of sedimentation tanks, the sedimentation tanks comprise a first sedimentation tank 51, a second sedimentation tank 52 and a third sedimentation tank 53, the first sedimentation tank 51 is arranged at the tail end of the drainage tank 2, an overflow groove 54 is arranged between the second sedimentation tank 52 and the first sedimentation tank 51, a filter screen 55 is arranged in the overflow groove 54, and the same overflow groove 54 and the same filter screen 55 are arranged between the third sedimentation tank 53 and the second sedimentation tank 52.

The circulating device comprises a water pump (not shown in the figure), the water pump is arranged in the third sedimentation tank 53, and a water outlet of the water pump is connected with a cooling water pipe.

Still include controller and limit switch, limit switch is including setting up in first stopper 61 and the second stopper 62 at guide rail 41 both ends, and driving motor 45, first stopper 61 and second stopper 62 are connected with the controller electricity, and when triggering first stopper 61, controller control driving motor 45 reversal, and when triggering second stopper 62, controller control driving motor 45 stall.

The working principle of the utility model is as follows:

when the guide plate is used, the guide plate 1 is arranged on the ground of a stone cutting workshop, cooling water in the stone cutting process can flow to the guide plate 1, one end of a water outlet of the cooling water pipe is fixed on the cutting device, and the cooling water ejected by the cooling water pipe can cover the cutting area of the cutting knife. Before cutting, the mud scraping device 4 is controlled to move to the tail part of the straight section 11 of the guide rail 41.

Fixing the stone to be cut on the cutting device, then starting a water pump to spray cooling water to the cutting knife, and simultaneously starting the cutting device to start cutting operation. The cutting device produces a large amount of stone powder and because the rubble piece that produces of colliding with when the cutting, and stone powder and cooling water mix together and mix with the rubble piece and flow into on guide plate 1. The cooling water enters the drainage groove 2 through the meshes of the first and second mud scrapers 46 and 47, and the crushed stone is stopped on the guide plate 1 due to the blocking of the first and second mud scrapers 46 and 47.

The cooling water enters the first sedimentation tank 51 after passing through the drainage tank 2, enters the second sedimentation tank 52 through the overflow groove 54 after sedimentation, enters the third sedimentation tank 53 through the overflow groove 54 after secondary sedimentation, a large amount of silt mixed in the water is precipitated after the cooling water is subjected to multiple times of sedimentation, and the precipitated cooling water can be reused for cooling operation.

Open driving motor 45 after the cutting, driving motor 45 drives mud scraper 4 and removes along guide rail 41, because guide plate 1 is hugged closely to the lower extreme of second mud scraper 47, consequently, first mud scraper 46 and second mud scraper 47 remove the in-process and can promote remaining silt and rubble piece on guide plate 1 and move thereupon together, when mud scraper 4 moved to slope section 12, the mesh on first mud scraper 46 of remaining water accessible and the second mud scraper 47 is discharged, silt and rubble piece are then pushed in mud groove 3. Thus, the water and the silt are shunted, and the filter device is prevented from being blocked. When the mud scraping device 4 touches the first limiting stopper 61 at the inclined section 12 in the moving process, the controller controls the driving motor 45 to rotate reversely, so that the mud scraping device 4 moves towards the opposite direction, and when the mud scraping device moves to the end part of the straight section 11 and triggers the second limiting stopper 62, the controller controls the driving motor 45 to stop rotating. The cutting operation is carried out by the reciprocating circulation, and the recycling of the cooling water is realized.

It should be noted that the above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a stone material processing is with cooling water cyclic utilization system which characterized in that includes:

the guide plate (1) is fixed on the ground and comprises a straight section (11) and an upward inclined section (12), a drainage groove (2) is formed in the end of the straight section (11), and a sludge discharge groove (3) is formed in the end of the inclined section (12);

the mud scraping device (4) comprises guide rails (41), the guide rails (41) comprise two guide rails which are respectively arranged on two sides of the guide plate (1), a rolling device is arranged on the guide rails (41), a first mud scraping plate (46) is fixed at the front end of the rolling device, a second mud scraping plate (47) is hinged to the lower end of the first mud scraping plate (46), and meshes are densely distributed on the first mud scraping plate (46) and the second mud scraping plate (47);

the filtering device comprises a plurality of sedimentation tanks, and the sedimentation tanks are arranged at the tail end of the drainage tank (2);

and the circulating device comprises a water pump, the water pump is arranged in the sedimentation tank, and a cooling water pipe is connected to a water outlet of the water pump.

2. The cooling water recycling system for stone processing as claimed in claim 1, wherein the first scraper (46) is vertically disposed and the second scraper (47) is obliquely disposed.

3. The cooling water recycling system for stone processing according to claim 1, wherein the sedimentation tank comprises a first sedimentation tank (51), a second sedimentation tank (52) and a third sedimentation tank (53), the first sedimentation tank (51) is disposed at the tail end of the drainage tank (2), an overflow tank (54) is disposed between the second sedimentation tank (52) and the first sedimentation tank (51), a filter screen (55) is disposed in the overflow tank (54), and the same overflow tank (54) and filter screen (55) are disposed between the third sedimentation tank (53) and the second sedimentation tank (52).

4. The cooling water recycling system for stone processing as claimed in claim 1, wherein the rolling device comprises two sets of rollers (42) and a driving motor (45), the rollers (42) are respectively disposed on the two guide rails (41), a rotating shaft (43) is connected between the rollers (42), the rotating shaft (43) is connected with the driving motor (45), the rotating shaft (43) is further provided with a motor box (44), the driving motor (45) is disposed in the motor box (44), and the first scraper (46) is disposed at the front end of the motor box (44).

5. The cooling water recycling system for stone processing as claimed in claim 4, further comprising a controller and a limit switch, wherein the limit switch comprises two limit switches respectively disposed at two ends of the guide rail (41), and the limit switch and the driving motor (45) are electrically connected to the controller.

6. The cooling water recycling system for stone working as claimed in claim 1, wherein the length of the first and second scrapers (46, 47) is slightly less than the distance between the two guide rails (41).

7. The cooling water recycling system for stone processing as claimed in claim 3, wherein the water pump is provided in the third sedimentation tank (53).

Images