CN217196210U - Water circulating device for gantry milling machine - Google Patents

Abstract

The application relates to the technical field of gantry mills, in particular to a water circulating device for a gantry mill, which comprises a water supply pipe, a first guide plate, a collecting pipe and a recovery mechanism, wherein the water supply pipe is arranged on the gantry mill, the first guide plate is arranged on the gantry mill, the collecting pipe is arranged on the first guide plate, and water flow on the gantry mill flows to the collecting pipe through the first guide plate; the recovery mechanism is arranged on the gantry mill, the recovery mechanism is communicated with the collecting pipe, and the recovery mechanism is communicated with the water supply pipe. The water circulating device that this application set up can retrieve water and recycle, has improved the utilization ratio of water resource, has reduced the waste of water resource, has reduced the processing cost of stone material simultaneously.

Description

Water circulating device for gantry milling machine

Technical Field

The application relates to the technical field of gantry mills, in particular to a water circulating device for a gantry mill.

Background

At present, a gantry milling machine is used for stone processing to turn and mill stone end faces, the gantry milling machine is called a gantry mill for short, and the gantry milling machine is a milling machine with a gantry frame and a horizontal long machine body. The gantry milling machine can simultaneously machine the surface by a plurality of milling cutters.

When the gantry mill is used for processing the stone, the surface of the stone needs to be flushed with water so as to reduce scraping of the milled sand and stone on the smooth surface of the milled stone; the water flow falls on the ground along the gantry mill and is discharged through a water discharge tank on the ground.

In realizing this application in-process, the inventor discovers that there is following problem at least in this technique, and the water that washes the stone material flows away along with water drainage tank, comparatively wastes water resource for the processing cost of stone material increases.

SUMMERY OF THE UTILITY MODEL

In order to reduce the waste of water resource, reduce the processing cost, this application provides a water circulating device for gantry mill.

The application provides a water circulating device for gantry milling, adopts following technical scheme:

a water circulation device for a gantry mill comprises a water supply pipe, a first guide plate, a collecting pipe and a recovery mechanism, wherein the water supply pipe is arranged on the gantry mill, the first guide plate is arranged on the gantry mill, the collecting pipe is arranged on the first guide plate, and water flow on the gantry mill flows to the collecting pipe through the first guide plate; the recovery mechanism is arranged on the gantry mill, the recovery mechanism is communicated with the collecting pipe, and the recovery mechanism is communicated with the water supply pipe.

By adopting the technical scheme, water on the gantry mill flows to the first guide plate, then is collected to the collecting pipe through the first guide plate, and then is conveyed to the recovery mechanism through the collecting pipe; the recovery mechanism conveys water flow to a water supply pipe, and the water supply pipe washes the stone on the gantry mill; the water circulating device who sets up can retrieve water and recycle, has improved the utilization ratio of water resource, has reduced the waste of water resource, has reduced the processing cost of stone material simultaneously.

Optionally, the recovery mechanism comprises a flow guide block, a recovery box, a water pumping piece and a filtering assembly, the flow guide block is arranged on the gantry mill, and one end of the flow guide block is positioned below the collecting pipe; the recycling bin is connected with one end, far away from the collecting pipe, of the flow guide block, a filtering assembly is arranged on the recycling bin, and the water pumping piece is arranged in the recycling bin and connected with the water supply pipe.

By adopting the technical scheme, water flows into the first diversion trench on the diversion block through the collection pipe, then enters the filtering assembly through the first diversion trench for precipitation, then enters the recovery tank, and is pumped out by the pumping piece and conveyed to the water supply pipe; the recovery mechanism that sets up simple structure for the water that flows out is through filtering recycle, and then makes the impurity in the rivers that wash the stone material reduce, has reduced the damage to the stone material surface.

Optionally, the filter assembly includes funnel and filter screen, the funnel sets up on the collection box, just the funnel is located the below of water conservancy diversion piece, the filter screen sets up on the funnel.

By adopting the technical scheme, water flows onto the funnel through the first flow guide groove and then enters the recovery box through the filter screen on the funnel; the filter component has simple structure and better effect, and reduces sand in water flow.

Optionally, the filter assembly further comprises a second guide plate, the second guide plate is arranged on the funnel, the other end of the second guide plate is abutted to the side wall of the recycling box, a drainage groove is formed in the second guide plate, the drainage groove is obliquely arranged, and the drainage groove enables water flow to be attached to the side wall of the recycling box in a flowing mode.

By adopting the technical scheme, the water flow falls on the second guide plate after being filtered by the filter screen, then flows to the drainage groove along the second guide plate, flows to the side wall of the recovery box along with the drainage groove, and then flows down along the side wall of the recovery box; the second guide plate enables water flow to flow along the side wall of the recycling box, disturbance of the water flow on the water precipitated in the recycling box is reduced, and therefore the water conveyed to the gantry mill is relatively clean.

Optionally, the water pumping piece is a water pump arranged in the recycling box, and the water pump is connected with the water supply pipe.

Through adopting above-mentioned technical scheme, start the suction pump, the suction pump takes water out to carry to the delivery pipe, then rivers are carried to the stone material on through the delivery pipe.

Optionally, be provided with in the collection box and block the sand subassembly, it includes and blocks the sand net and block the sand board to block the sand subassembly, it sets up to block the sand board on the diapire of collection box, it centers on to block the sand board the suction pump sets up, block the height of sand board with the upper end wall of the end of drawing water of suction pump flushes, it sets up to block the sand net on the sand board, it will to block the sand net including the suction pump cover is established.

By adopting the technical scheme, after water flow enters the recovery tank, sand and stones are accumulated on the bottom wall of the recovery tank through self-sedimentation, and the sand blocking plate blocks the sedimentary sand and stones, so that the probability that the sedimentary sand and stones are conveyed to stones is reduced; and the sand blocking net is arranged to further filter water.

Optionally, an anti-blocking mechanism is arranged on the funnel, and the anti-blocking mechanism is used for cleaning the surface of the filter screen.

Through adopting above-mentioned technical scheme, rivers are through the filtration of filter screen, and the grit of partial aquatic doping is by the filter screen interception, dredges the filter screen with anti-blocking mechanism, has reduced and has plugged up the filter screen with the grit that the mesh is the same big, and then makes the filter effect of filter screen can keep.

Optionally, prevent stifled mechanism includes mount, axis of rotation, scraper blade, brush and power component, the mount sets up on the funnel, the axis of rotation rotates to be set up on the mount, the one end of axis of rotation is passed the filter screen with the scraper blade is connected, the brush sets up on the scraper blade, the brush is located the scraper blade with between the filter screen and with the filter screen butt, power component sets up in the axis of rotation, power component drives the axis of rotation rotates.

By adopting the technical scheme, the power assembly drives the rotating shaft on the fixing frame to rotate, the rotating shaft drives the scraper to rotate, the scraper drives the hairbrush to rotate, and the hairbrush cleans sand stones on the filter screen; the anti-blocking mechanism is simple in structure, so that sand and stones for blocking and filtering the meshes can be cleaned.

Optionally, power component is including rotating the oar, it sets up to rotate the oar on the axis of rotation, and water impact rotate the oar and drive the axis of rotation rotates.

By adopting the technical scheme, the water flow impacts the rotating paddle to rotate, and the rotating paddle drives the rotating shaft to rotate; the rotation oar that sets up can the rational utilization impact force of rivers, does not need the manual work to clear up, and then makes the cost of labor reduce, has the effect that improves work efficiency simultaneously.

To sum up, the application comprises the following beneficial technical effects:

1. the water circulation device can recycle water, so that the utilization rate of water resources is improved, the waste of the water resources is reduced, and the processing cost of the stone is reduced;

2. the recovery mechanism is simple in structure, so that the effluent water is filtered and recycled, impurities in the water flow for washing the stone are reduced, and the damage to the surface of the stone is reduced;

3. after water flow enters the recovery box, sand and stone are gathered on the bottom wall of the recovery box through self-sedimentation, and the sand blocking plate blocks the sedimentary sand and stone, so that the probability that the sedimentary sand and stone are conveyed to a stone is reduced; meanwhile, the sand blocking net is arranged to further filter water;

4. the rotation oar that sets up can the rational utilization impact force of rivers, does not need the manual work to clear up, and then makes the cost of labor reduce, has the effect that improves work efficiency simultaneously.

Drawings

FIG. 1 is a schematic overall structure diagram of a gantry milling water circulation device in an embodiment of the present application;

fig. 2 is a schematic view of the overall structure of the recovery mechanism in the embodiment of the present application.

Reference numerals: 100. a water supply pipe; 200. a first baffle; 300. a collection tube; 400. a recovery mechanism; 410. a flow guide block; 411. a first diversion trench; 420. a recycling bin; 430. a filter assembly; 431. a funnel; 432. a filter screen; 433. a second baffle; 434. a drainage groove; 440. a water pump; 500. milling a gantry; 510. a second guiding gutter; 600. a sand blocking assembly; 610. a sand blocking plate; 620. a sand blocking net; 700. an anti-blocking mechanism; 710. a fixed mount; 720. a rotating shaft; 730. a squeegee; 740. a brush; 750. a power assembly; 751. a rotating frame; 752. an arc-shaped plate; 753. a flow gathering nozzle.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a water circulating device for a gantry mill.

Referring to fig. 1, the gantry mill water circulation device includes a first guide plate 200 disposed on a gantry mill 500, the first guide plate 200 is disposed in an inclined manner, a second guide groove 510 is disposed on the gantry mill 500, the second guide groove 510 is connected to the first guide plate 200, and one end of the first guide plate 200, which is far away from the second guide groove 510, is lower than one end of the first guide plate 200, which is close to the second guide groove 510; one end of the first guide plate 200, which is far away from the second guide groove 510, is provided with a flow collecting groove, and the flow collecting groove is formed along the length direction of the first guide plate 200; the collecting groove is obliquely arranged, the gantry mill 500 is fixedly connected with a collecting pipe 300, and the collecting pipe 300 is communicated with the lower end of the collecting groove; the gantry mill 500 is provided with a recovery mechanism 400 for recovering water flowing in the collection pipe 300.

Referring to fig. 1 and 2, the recycling mechanism 400 includes a guide block 410 fixedly connected to the gantry mill 500, one end of the guide block 410 is located right below the collecting pipe 300, the guide block 410 is disposed obliquely, and one end of the guide block 410 close to the collecting pipe 300 is higher than one end of the guide block 410 far away from the collecting pipe 300; the flow guide block 410 is provided with a first flow guide groove 411, and the first flow guide groove 411 is formed along the length direction of the flow guide block 410; a recovery box 420 is arranged at one end of the guide block 410, which is far away from the collecting pipe 300, and the recovery box 420 is positioned below the guide block 410; a filter assembly 430 is arranged on the recovery tank 420, the filter assembly 430 comprises a funnel 431 fixedly connected to the recovery tank 420, a filter screen 432 is fixedly connected to the funnel 431, and the filter screen 432 is positioned below the flow guide block 410; the side wall of the recycling bin 420 is fixedly connected with a second guide plate 433, one end of the second guide plate 433 is connected with the funnel 431, one end, far away from the funnel 431, of the second guide plate 433 is abutted against the inner side wall of the recycling bin 420, the second guide plate 433 is located below the funnel 431, and all water flowing down from the funnel 431 flows through the second guide plate 433; the second guide plate 433 is obliquely arranged, and one end of the second guide plate 433 far away from the funnel 431 is lower than one end of the second guide plate 433 close to the funnel 431; one end of the second guide plate 433, which is abutted against the inner side wall of the recycling bin 420, is provided with a drainage groove 434, and the drainage groove 434 is obliquely arranged to enable water flow to slide along the inner side wall of the recycling bin 420.

Referring to fig. 1 and 2, an anti-blocking mechanism 700 is arranged on the funnel 431, the anti-blocking mechanism 700 includes a fixing frame 710, the fixing frame 710 is fixedly connected to a peripheral side wall of the funnel 431, a rotating shaft 720 is rotatably connected to the fixing frame 710, the rotating shaft 720 is perpendicular to the filter screen 432 and penetrates through the filter screen 432 and is fixedly connected with a scraper 730, and the scraper 730 is parallel to the filter screen 432 and has a gap; a brush 740 is fixedly connected to the side wall of the scraping plate 730 close to the filter screen 432, and the brush 740 is abutted against the filter screen 432; the power assembly 750 is arranged on the rotating shaft 720, the power assembly 750 comprises a rotating paddle, the rotating paddle is fixedly connected to one end, far away from the scraper 730, of the rotating shaft 720, the rotating paddle comprises a rotating frame 751, the rotating frame 751 is fixedly connected to one end, far away from the brush plate, of the rotating shaft 720, the rotating frame 751 is in a round cake shape, a plurality of arc-shaped plates 752 are fixedly connected to the peripheral side wall of the rotating frame 751, the arc-shaped plates 752 are all inclined, and the arc-shaped plates 752 are evenly arranged; one end of the flow guide block 410, which is far away from the collecting pipe 300, is fixedly connected with a flow gathering nozzle 753, and the flow gathering nozzle 753 faces the arc-shaped plate 752.

Referring to fig. 1 and 2, a water pumping member is disposed at the bottom of the recycling tank 420, the water pumping member is a water pump 440 fixedly connected to the bottom of the recycling tank 420, and the water pump 440 is located at one side of the recycling tank 420 far from the lower end of the second guide plate 433; the water outlet end of the water pump 440 is communicated with a water supply pipe 100 fixedly connected to the gantry mill 500, and the water supply pipe 100 is used for washing the stone; the bottom wall of the recovery tank 420 is provided with a sand blocking assembly 600, the sand blocking assembly 600 comprises a sand blocking plate 610 fixedly connected to the bottom wall of the recovery tank 420, two ends of the sand blocking plate 610 are connected with the side wall of the water pump 440 fixedly connected to the recovery tank 420, and the height of the sand blocking plate 610 is flush with the upper end face of the water pumping end of the water pump 440; one end of the sand blocking plate 610 far away from the bottom wall of the recovery tank 420 is fixedly connected with a sand blocking net 620, the sand blocking net 620 is arranged around the water pump 440, and the water pump 440 is covered by the sand blocking net 620.

The implementation principle of the water circulating device for the gantry milling machine in the embodiment of the application is as follows: the water for washing the stone on the gantry mill 500 flows to the first guide plate 200 through the second guide groove 510, then flows to the collecting groove through the first guide plate 200, then flows to the collecting pipe 300 through the collecting groove, flows through the first guide groove 411 on the guide block 410 through the collecting pipe 300, flows through the flow gathering nozzle 753 and then impacts on the arc-shaped plate 752, the arc-shaped plate 752 drives the rotating shaft 720 to rotate, the rotating shaft 720 drives the scraper 730 to rotate, and the scraper 730 drives the brush 740 to clean the filter screen 432; the water flow falls on the filter screen 432 through the rotating paddle, then falls on the second guide plate 433 after being filtered by the filter screen 432, flows to the drainage groove 434 through the second guide plate 433, and then flows along the side wall of the recovery tank 420 through the drainage groove 434; the water flow slowly flows to the bottom of the recycling tank 420 to be settled, and the settled water flow flows to the water supply pipe 100 through the water suction pump 440 and then washes the stone through the water supply pipe 100.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The water circulating device for the gantry mill is characterized by comprising a water supply pipe (100), a first guide plate (200), a collecting pipe (300) and a recovery mechanism (400), wherein the water supply pipe (100) is arranged on the gantry mill (500), the first guide plate (200) is arranged on the gantry mill (500), the collecting pipe (300) is arranged on the first guide plate (200), and water flow on the gantry mill (500) flows to the collecting pipe (300) through the first guide plate (200); the recovery mechanism (400) is arranged on the gantry mill (500), the recovery mechanism (400) is communicated with the collecting pipe (300), and the recovery mechanism (400) is communicated with the water supply pipe (100).

2. The gantry mill water circulation device as claimed in claim 1, wherein the recovery mechanism (400) comprises a flow guide block (410), a recovery box (420), a water pumping part and a filtering assembly (430), the flow guide block (410) is arranged on the gantry mill (500), and one end of the flow guide block (410) is positioned below the collecting pipe (300); the water supply device is characterized in that a first guide groove (411) is formed in the guide block (410), the recovery box (420) is placed on the ground, the recovery box (420) is connected with one end, far away from the collecting pipe (300), of the guide block (410), a filtering assembly (430) is arranged on the recovery box (420), and the water pumping piece is arranged in the recovery box (420) and connected with the water supply pipe (100).

3. The gantry milling water circulation device as claimed in claim 2, wherein the filter assembly (430) comprises a funnel (431) and a filter screen (432), the funnel (431) is disposed on the recovery tank (420), the funnel (431) is located below the flow guide block (410), and the filter screen (432) is disposed on the funnel (431).

4. The gantry milling water circulation device as claimed in claim 3, wherein the filter assembly (430) further comprises a second guide plate (433), the second guide plate (433) is disposed on the hopper (431), the other end of the second guide plate (433) is abutted against the side wall of the recovery box (420), the second guide plate (433) is provided with a drainage groove (434), the drainage groove (434) is obliquely disposed, and the drainage groove (434) enables water flow to flow along the side wall of the recovery box (420).

5. The water circulating device for the gantry mill as claimed in claim 2, wherein the water pumping member is a water pump (440) disposed in the recycling tank (420), and the water pump (440) is connected to the water supply pipe (100).

6. The water circulating device for the gantry mill as recited in claim 5, wherein a sand blocking assembly (600) is arranged in the recovery box (420), the sand blocking assembly (600) comprises a sand blocking net (620) and a sand blocking plate (610), the sand blocking plate (610) is arranged on the bottom wall of the recovery box (420), the sand blocking plate (610) is arranged around the water pump (440), the height of the sand blocking plate (610) is flush with the upper end wall of the water pumping end of the water pump (440), the sand blocking net (620) is arranged on the sand blocking plate (610), and the sand blocking net (620) covers the water pump (440).

7. The gantry milling water circulation device as claimed in claim 3, wherein an anti-blocking mechanism (700) is arranged on the hopper (431), and the anti-blocking mechanism (700) cleans the surface of the filter screen (432).

8. The gantry milling water circulation device as claimed in claim 7, wherein the anti-blocking mechanism (700) comprises a fixing frame (710), a rotating shaft (720), a scraper (730), a brush (740) and a power assembly (750), the fixing frame (710) is arranged on the funnel (431), the rotating shaft (720) is rotatably arranged on the fixing frame (710), one end of the rotating shaft (720) penetrates through the filter screen (432) to be connected with the scraper (730), the brush (740) is arranged on the scraper (730), the brush (740) is positioned between the scraper (730) and the filter screen (432) and abuts against the filter screen (432), the power assembly (750) is arranged on the rotating shaft (720), and the power assembly (750) drives the rotating shaft (720) to rotate.

9. The gantry mill water circulation device as claimed in claim 8, wherein the power assembly (750) comprises a rotating paddle, the rotating paddle is arranged on the rotating shaft (720), and water flow impacts the rotating paddle to rotate and drive the rotating shaft (720) to rotate.

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