CN217188371U - Drilling platform is used in cloth chute production - Google Patents

Abstract

The utility model relates to a field of chute production, especially, relate to a drilling platform is used in production of cloth chute, which comprises a bracket, receiving station and operation panel, receiving station and support fixed connection, the operation panel sets up on the receiving station, the edge of receiving station encloses and is equipped with the breakwater, the operation panel is located the interior week side of breakwater, the outlet has been seted up to the receiving station, the receiving station is fixed and the intercommunication has the drain pipe in drain department, the below of receiving station is provided with setting tank and circulation tank, drain pipe and setting tank intercommunication, the intercommunication is provided with the warning pipe between the upper end of setting tank and the circulation tank, circulation tank is connected with the circulating pump, the intercommunication is provided with the connecting pipe between the end of intaking of circulation tank and circulating pump, the play water end of circulating pump passes through hose and sprinkler bead intercommunication. The cooling water circulation system has the effect of recycling cooling water, is beneficial to fully utilizing water resources, is energy-saving and environment-friendly, and reduces the production cost.

Description

Drilling platform for production of distribution chute

Technical Field

The application relates to the field of chute production, in particular to a drilling platform for distribution chute production.

Background

The drilling mode that the drilling is commonly used on panel class part has drilling machine drilling and lathe drilling, and the drilling machine is generally including being provided with the pedestal and the operation platform of drill bit, and the panel that will treat drilling is placed on operation platform, and then the pedestal drives the drill bit and removes to suitable position and carry out drilling work to panel.

Chinese patent with application number 201920975521.7 in the correlation technique provides a drilling work platform, including the workstation that is used for processing the panel, be used for reducing panel moving resistance's rolling support piece, be used for confirming the support column of processing the base face, rolling support piece and support column set up respectively in the workstation upper end, rolling support piece is 2 at least, sets up well cavity in the support column, and the diameter of well cavity matches with the drill bit diameter that is used for holing, and the height of support column matches with rolling support piece's height.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in order to prolong the service life of the drill bit, when the drill bit drills a plate, the water spray head is used for spraying water to the drill bit for cooling, but cooling water is directly sprayed to the drill bit and then flows away, and a large amount of water resources are wasted.

SUMMERY OF THE UTILITY MODEL

In order to improve the extravagant problem of cooling water, this application provides a drilling platform is used in cloth chute production.

The application provides a drilling platform for distribution chute production adopts following technical scheme:

drilling platform is used in cloth chute production, including support, receiving station and operation panel, the receiving station with support fixed connection, the operation panel set up in on the receiving station, the edge of receiving station encloses and is equipped with the breakwater, the operation panel is located the interior week side of breakwater, the outlet has been seted up to the receiving station, the receiving station in fixed and intercommunication in drain department has the drain pipe, the below of receiving station is provided with setting tank and circulating water tank, the drain pipe with the setting tank intercommunication, the upper end of setting tank with the intercommunication is provided with the warning pipe between the circulating water tank, circulating water tank is connected with the circulating pump, circulating water tank with the intercommunication is provided with the connecting pipe between the intake end of circulating pump, the outlet end of circulating pump passes through hose and sprinkler bead intercommunication.

Through adopting above-mentioned technical scheme, sprinkler bead spun cooling water drops to the receiving station on by the operation panel, utilize the breakwater to prevent that the cooling water from flowing away by the week of receiving station, the cooling water that the receiving station was collected gets into the setting tank by the drain pipe in, piece among the cooling water subsides to the bottom of setting tank, the cooling water that the portion was deposited on the setting tank gets into circulating water tank by the warning pipe, circulating pump work makes the cooling water in the circulating water tank get into the circulating pump by the connecting pipe, and get into the sprinkler bead blowout by the hose, realize the effect of cyclic utilization cooling water, do benefit to the make full use of water resource, energy-concerving and environment-protective, and the production cost is reduced.

Optionally, the receiving platform is provided with a first filter screen at the water discharge port.

Through adopting above-mentioned technical scheme, the cooling water on the receiving station is arranged to the setting tank in by the drain pipe behind first filter screen, does benefit to first filter screen and prevents that the waste residue from blockking up the drain pipe, the drain pipe discharge cooling water of being convenient for.

Optionally, the receiving platform has a water collecting tank along the edge close to the breakwater, the water collecting tank is annular and extends along the inner circumference of the breakwater, the receiving platform has a plurality of water chutes running through along the horizontal direction, both ends of the water chutes are communicated with the water collecting tank, and the water outlet is located at the bottom wall of the water collecting tank.

Through adopting above-mentioned technical scheme, the cooling water that drops on the operation panel flows into the guiding gutter, and the cooling water flows into in the water catch bowl along the guiding gutter to improve the efficiency that the water catch bowl collected the cooling water.

Optionally, the upper end of the circulating water tank is provided with an opening, a second filter screen is arranged below the overflow pipe of the circulating water tank, and the second filter screen is located above the connecting pipe.

Through adopting above-mentioned technical scheme, the cooling water that flows out by the warning pipe flows into circulation tank after the second filter screen filters, does benefit to and prevents that the sprinkler bead from blockking up, guarantees the smooth cyclic utilization of cooling water.

Optionally, the inner periphery fixedly connected with supporting ring of circulation tank, week side fixedly connected with frame of second filter screen, the frame is located the upside of supporting ring and with circulation tank's internal perisporium butt, the frame with be provided with the locking subassembly that is used for reciprocal anchorage between the supporting ring.

Through adopting above-mentioned technical scheme, place the frame on the bearing ring, utilize the bearing ring to be convenient for the bearing second filter screen, for the second filter screen provides the mounted position, utilize the locking subassembly fixed second filter screen of being convenient for, do benefit to the second filter screen and filter cooling water steadily.

Optionally, the locking subassembly includes a plurality of double-screw bolts, the double-screw bolt with supporting ring fixed connection and axial set up along vertical direction, a plurality of through-holes have been seted up to the frame, and are a plurality of the double-screw bolt respectively with a plurality of through-hole one-to-one and grafting adaptation, week side threaded connection of double-screw bolt has the nut.

Through adopting above-mentioned technical scheme, place the frame on the bearing ring and make a plurality of double-screw bolts peg graft respectively in a plurality of through-holes, twist the nut to the week side of double-screw bolt after that to in fixed second filter screen, take off the nut and be convenient for take off the second filter screen promptly, so that clear up the second filter screen.

Optionally, the upper end of setting tank is the opening setting, the bottom of setting tank is provided with receipts sediment box, receive the sediment box by the third filter screen with prevent the blanking board and constitute, prevent the blanking board fixed connection in week side of third filter screen and with the internal perisporium butt of setting tank, the drain pipe with distance between the opening of setting tank is greater than prevent the height of blanking board.

Through adopting above-mentioned technical scheme, deposit and drop to the waste residue of settling tank bottom to the third filter screen on, operating personnel utilizes the pull ring to be convenient for upwards take out and receive the sediment box, utilizes the third filter screen to take out the waste residue and prevents that the cooling water accumulation from receiving in the sediment box, utilizes the anti-falling board to prevent that the waste residue on the third filter screen from dropping in the week side of third filter screen, realizes the effect of the waste residue of being convenient for clear up in the settling tank.

Optionally, the inside wall department of the bottom of setting tank inlays and is equipped with the iron sheet, the board that prevents falling inlays and is equipped with the magnet piece, the magnet piece with the iron sheet is aimed at and adsorbs fixedly.

Through adopting above-mentioned technical scheme, will receive the sediment box and place in the bottom of setting tank for the periphery side of preventing the board that falls is aimed at and is adsorbed fixedly with the internal perisporium butt of setting tank, and magnet piece and iron sheet, thereby is convenient for fix and receives the sediment box.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the receiving station is used for collecting cooling water conveniently, the cooling water enters the settling tank through the drain pipe, the settled cooling water enters the circulating water tank through the overflow pipe, and the circulating pump works to enable the cooling water to enter the hose through the connecting pipe and be sprayed out through the water spray head, so that the effect of recycling the cooling water is realized, water resources are fully utilized, energy is saved, environment is protected, and the production cost is reduced;

2. the conical second filter screen can be taken out by taking down the nut, so that waste residues on the second filter screen can be cleaned, the pull ring is used for applying force upwards to separate the magnet block from the iron sheet, the residue collecting box can be taken out, so that waste residues at the bottom of the settling tank can be cleaned, the water spray head can be prevented from being blocked, and the smooth cyclic utilization of cooling water can be ensured.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic overall structure diagram of another view angle according to the embodiment of the present application.

Fig. 3 is an exploded view of the circulation tank and the second screen in the embodiment of the present application.

Fig. 4 is an explosion diagram between the settling tank and the slag collecting box in the embodiment of the application.

Reference numerals: 1. a support; 2. a base plate; 3. a receiving station; 4. an operation table; 5. supporting legs; 6. a water baffle; 7. a drain pipe; 8. a settling tank; 9. a circulating water tank; 10. an overflow pipe; 11. a connecting pipe; 12. a circulation pump; 13. a hose; 14. a sprinkler head; 15. a water inlet pipe; 16. a first valve; 17. a second valve; 18. a water collection tank; 19. a water chute; 20. a first filter screen; 21. a second filter screen; 22. a bearing ring; 23. a frame; 24. a stud; 25. a nut; 26. a butterfly handle; 27. a slag collection box; 28. a third filter screen; 29. a falling prevention plate; 30. a pull ring; 31. and a magnet block.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses drilling platform is used in cloth chute production.

Referring to fig. 1 and 2, drilling platform is used in cloth chute production, comprising a base plate 2, support 1, rectangular receiving station 3 and rectangular operation panel 4, support 1 and 2 fixed connection of bottom plate, receiving station 3 and 1 fixed connection of support, operation panel 4 is through 5 fixed connection of a plurality of supporting legss on receiving station 3, operation panel 4 runs through along vertical direction and has seted up a plurality of holes that leak, receiving station 3's edge encloses and is equipped with breakwater 6, operation panel 4 is located the week side of breakwater 6, the outlet has been seted up to receiving station 3, receiving station 3 is fixed and the intercommunication has drain pipe 7 in drain department.

Referring to fig. 1 and 2, a cylindrical settling tank 8 and a cylindrical circulating water tank 9 are arranged below the receiving platform 3, the settling tank 8 and the circulating water tank 9 are both fixed on the bottom plate 2, the drain pipe 7 is communicated with the settling tank 8, an overflow pipe 10 is communicated between the upper end peripheral wall of the settling tank 8 and the upper end peripheral wall of the circulating water tank 9, the circulating water tank 9 is connected with a circulating pump 12, a connecting pipe 11 is communicated between the bottom of the circulating water tank 9 and the water inlet end of the circulating pump 12, the water outlet end of the circulating pump 12 is communicated with a water spray head 14 through a hose 13, the water spray head 14 is fixed and communicated with a water inlet pipe 15 communicated with an external water source, a first valve 16 is arranged at the water inlet pipe 15, and a second valve 17 is arranged at the hose 13.

When the first valve 16 is opened and the second valve 17 is closed, the water inlet pipe 15 feeds water towards the water spray head 14, cooling water sprayed by the water spray head 14 falls onto the receiving table 3 from the operation table 4, the water baffle 6 is used for preventing the cooling water from flowing away from the peripheral side of the receiving table 3, the cooling water collected by the receiving table 3 enters the settling tank 8 from the water discharge pipe 7, fragments in the cooling water are settled to the bottom of the settling tank 8, and the upper part of the settling tank 8 enters the circulating water tank 9 from the overflow pipe 10 through the settled cooling water.

After accumulating sufficient cooling water in circulating water tank 9, close first valve 16, open second valve 17 and start circulating pump 12, circulating pump 12 work makes the cooling water in circulating water tank 9 get into circulating pump 12 by connecting pipe 11 to get into sprinkler bead 14 blowout by hose 13, realize the effect of cyclic utilization cooling water, do benefit to the make full use of water resource, energy-concerving and environment-protective, reduction in production cost.

Referring to fig. 1, for the convenience of drain pipe 7 discharge cooling water, receiving station 3 has seted up water catch bowl 18 along the edge that is close to breakwater 6, water catch bowl 18 is the annular and extends the setting along the interior lateral extension of breakwater 6, receiving station 3 runs through along the horizontal direction and sets up a plurality of water chutes 19 that are parallel to each other, water chute 19's both ends all communicate with water catch bowl 18, high and set up to the slope of both sides by the centre in the middle of water chute 19's diapire department, the outlet is located the diapire department of water catch bowl 18, receiving station 3 is in the first filter screen 20 of drain department fixedly connected with.

The cooling water that drops on operation panel 4 flows into in guiding gutter 19, and the tank bottom of guiding gutter 19 is by middle department towards the slope setting of water catch bowl 18, does benefit to in the cooling water flows into water catch bowl 18 along guiding gutter 19 to improve the efficiency that the cooling water was collected to water catch bowl 18, the cooling water that the water catch bowl 18 was collected is arranged to the setting tank 8 in by drain pipe 7 behind first filter screen 20, does benefit to first filter screen 20 and prevents that the waste residue from blockking up drain pipe 7, realizes the effect of the drain pipe 7 discharge cooling water of being convenient for.

Referring to fig. 3, in order to further filter the sludge in the circulation tank 9, the upper end of the circulation tank 9 is provided with an opening, and the circulation tank 9 is provided with a conical second strainer 21 below the overflow pipe 10, and the second strainer 21 is positioned above the connection pipe 11. An annular supporting ring 22 is coaxially and fixedly connected to the inner peripheral side of the circulating water tank 9, a rubber layer (not shown in the figure) is fixedly connected to the upper side face of the supporting ring 22, an annular frame 23 is coaxially and fixedly connected to the peripheral side of the end with the larger opening of the second filter screen 21, the frame 23 is located on the upper side of the supporting ring 22 and is abutted against the inner peripheral wall of the circulating water tank 9, and the tip end of the second filter screen 21 is arranged towards the bottom of the circulating water tank 9.

Referring to fig. 3, be provided with the locking subassembly that is used for reciprocal anchorage between frame 23 and the bearing ring 22, the locking subassembly includes a plurality of double-screw bolts 24, double-screw bolts 24 set up to two in this embodiment, double-screw bolt 24 and bearing ring 22 fixed connection and axial set up along vertical direction, two double-screw bolts 24 divide into the radial both ends that are located the cross-section circle of bearing ring 22, two through-holes have been seted up to frame 23, two double-screw bolts 24 respectively with two through-holes one-to-one and grafting adaptation, the week side threaded connection of double-screw bolt 24 has nut 25, one side fixedly connected with butterfly handle 26 that nut 25 deviates from frame 23.

The frame 23 is placed on the bearing ring 22, the two studs 24 are respectively inserted into the two through holes, the nuts 25 are screwed to the peripheral sides of the studs 24, the nuts 25 are conveniently screwed by using the butterfly handles 26, the frame 23 is tightly abutted to the rubber layer by screwing the nuts 25, and the effect of conveniently fixing the second filter screen 21 is achieved.

Utilize the rubber layer to reduce the gap between frame 23 and the support ring 22 for the cooling water that flows out by warning pipe 10 flows into circulating water tank 9 after second filter screen 21 filters, and second filter screen 21 does benefit to the filter area who improves second filter screen 21 for the toper, thereby filters the cooling water more high-efficiently, does benefit to and prevents that sprinkler bead 14 from blockking up, guarantees the smooth cyclic utilization of cooling water.

Referring to fig. 4, in order to facilitate cleaning of deposited waste residues at the bottom of the settling tank 8, the upper end of the settling tank 8 is provided with an opening, the bottom of the settling tank 8 is provided with a slag collecting box 27, the slag collecting box 27 is composed of a circular third filter screen 28 and a circular anti-falling plate 29, the anti-falling plate 29 is coaxially and fixedly connected with the peripheral side of the third filter screen 28, the peripheral side of the anti-falling plate 29 is abutted against the inner peripheral wall of the settling tank 8, the anti-falling plate 29 is far away from one end of the third filter screen 28 and is fixedly connected with a semi-circular pull ring 30, and the distance between the openings of the drain pipe 7 and the settling tank 8 is greater than the height of the anti-falling plate 29. The inside wall department of the bottom of setting tank 8 inlays and is equipped with the iron sheet, and the outside wall department of preventing falling board 29 inlays and is equipped with magnet piece 31, and magnet piece 31 and iron sheet are aimed at and adsorb fixedly.

The slag receiving box 27 is placed at the bottom of the settling tank 8, so that the outer peripheral side of the anti-falling plate 29 is abutted against the inner peripheral wall of the settling tank 8, and the magnet block 31 and the iron sheet are aligned and fixed in an adsorption manner, thereby facilitating the fixing of the slag receiving box 27. Deposit to the waste residue of settling tank 8 bottom drop to third filter screen 28 on, operating personnel utilizes pull ring 30 to be convenient for upwards take out and receive sediment box 27, utilizes third filter screen 28 to take out the waste residue and prevents that the cooling water accumulation from receiving in sediment box 27, utilizes and prevents that board 29 from falling to prevent that the waste residue on third filter screen 28 from dropping in the week side of third filter screen 28, realizes the effect of the waste residue in the settling tank 8 of being convenient for clear up.

The implementation principle of the drilling platform for the production of the distribution chute in the embodiment of the application is as follows:

the cooling water sprayed by the water spraying head 14 falls onto the receiving platform 3 from the operation platform 4, the cooling water flows into the water collecting tank 18 along the water guiding groove 19, the cooling water in the water collecting tank 18 enters the sedimentation tank 8 from the water discharging pipe 7, the fragments in the cooling water settle into the residue collecting box 27 at the bottom of the sedimentation tank 8, and the cooling water settled on the upper part of the sedimentation tank 8 enters the circulating water tank 9 from the overflow pipe 10.

The cooling water flowing out of the overflow pipe 10 is filtered by the second filter screen 21 and then flows into the circulating water tank 9, the circulating pump 12 works to enable the cooling water in the circulating water tank 9 to enter the circulating pump 12 through the connecting pipe 11 and enter the water spray head 14 through the hose 13 to be sprayed out, and the effect of recycling the cooling water is achieved.

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

Claims (8)

1. The utility model provides a drilling platform is used in production of distribution chute which characterized in that: including support (1), receiving station (3) and operation panel (4), receiving station (3) with support (1) fixed connection, operation panel (4) set up in on receiving station (3), the edge of receiving station (3) encloses and is equipped with breakwater (6), operation panel (4) are located the internal week side of breakwater (6), the outlet has been seted up in receiving station (3), receiving station (3) in the fixed and intercommunication of drain outlet has drain pipe (7), the below of receiving station (3) is provided with setting tank (8) and circulation tank (9), drain pipe (7) with setting tank (8) intercommunication, the upper end of setting tank (8) with the intercommunication is provided with warning pipe (10) between circulation tank (9), circulation tank (9) are connected with circulating pump (12), circulation tank (9) with the intercommunication is provided with connecting pipe (11) between the end of intaking of circulating pump (12) and is provided with connecting pipe (11) ) The water outlet end of the circulating pump (12) is communicated with a water spraying head (14) through a hose (13).

2. The drilling platform for the production of a distribution chute of claim 1, wherein: the receiving platform (3) is provided with a first filter screen (20) at the water discharge port.

3. The drilling platform for the production of a distribution chute of claim 1, wherein: receiving station (3) are along being close to water baffle (6) edge has seted up water catch bowl (18), water catch bowl (18) are the annular and extend the setting along the interior week lateral extension of water baffle (6), receiving station (3) run through along the horizontal direction and have seted up a plurality of guiding gutters (19), the both ends of guiding gutter (19) all with water catch bowl (18) intercommunication, the outlet is located the diapire department of water catch bowl (18).

4. The drilling platform for the production of a distribution chute of claim 1, wherein: the upper end of the circulating water tank (9) is provided with an opening, a second filter screen (21) is arranged below the overflow pipe (10) of the circulating water tank (9), and the second filter screen (21) is positioned above the connecting pipe (11).

5. The drilling platform for the production of a distribution chute of claim 4, wherein: the interior week side fixedly connected with support ring (22) of circulation tank (9), week side fixedly connected with frame (23) of second filter screen (21), frame (23) are located the upside of support ring (22) and with the interior perisporium butt of circulation tank (9), frame (23) with be provided with between support ring (22) and be used for the locking Assembly of reciprocal anchorage.

6. The drilling platform for the production of a distribution chute of claim 5, wherein: the locking assembly comprises a plurality of studs (24), the studs (24) are fixedly connected with the bearing ring (22) and axially arranged along the vertical direction, a plurality of through holes are formed in the frame (23), the studs (24) are in one-to-one correspondence with the through holes and are in splicing adaptation, and nuts (25) are connected to the screw threads of the lateral sides of the studs (24).

7. The drilling platform for the production of a distribution chute of claim 1, wherein: the upper end of setting up of setting tank (8) is the opening setting, the bottom of setting tank (8) is provided with receipts sediment box (27), receive sediment box (27) by third filter screen (28) with prevent that board (29) constitute, prevent board (29) fixed connection that falls in the week side of third filter screen (28) and with the internal perisporium butt of setting tank (8), drain pipe (7) with distance between the opening of setting tank (8) is greater than prevent the height of board (29) that falls.

8. The drilling platform for the production of a distribution chute of claim 7, wherein: the inside wall department of the bottom of setting tank (8) inlays and is equipped with the iron sheet, prevent that board (29) from falling inlays and is equipped with magnet piece (31), magnet piece (31) with the iron sheet is aimed at and adsorbs fixedly.

Images