CN214055780U - Excess material recycling mechanism of pumping machine - Google Patents

Abstract

The application relates to a surplus material recycling mechanism of a pumping machine, which belongs to the field of pumping equipment and comprises the pumping machine, wherein a waste material opening is arranged below the pumping machine, and a cover plate for opening and closing the waste material opening is arranged on the pumping machine; a spiral conveyor is arranged below the waste material port, and a feeding port of the spiral conveyor is positioned below the waste material port of the pumping machine; the discharge hole of the screw conveyor is obliquely arranged upwards; a material box is arranged below the discharge hole of the spiral conveyor on the ground. This application has the effect of using manpower sparingly, avoiding the concrete to solidify, improve production efficiency.

Description

Excess material recycling mechanism of pumping machine

Technical Field

The application relates to the field of pumping equipment, in particular to a surplus material recycling mechanism of a pumping machine.

Background

Currently, in the manufacturing process of the utility pole, concrete needs to be poured into the utility pole. The existing concrete conveying equipment is mostly carried out by adopting a pumping machine, and partial concrete is left in the pumping machine after the pumping machine works. In order to prevent cement left in the pumping machine from drying and blocking the pumping machine, a waste material port is formed in the bottom of the pumping machine, and a cover plate is arranged on the waste material port to seal the waste material port. After the pumping machine finishes working, the cover plate is manually opened, cement reserved in the pumping machine falls down, and the cement is manually cleaned by tools such as shovels and the like.

In view of the above-mentioned related technologies, the inventor believes that there is a defect that the cement retained in the pumping machine needs to be manually cleaned, which wastes manpower.

SUMMERY OF THE UTILITY MODEL

In order to use manpower sparingly, this application provides a mechanism is retrieved to pumping machine clout.

The application provides a pump sending machine clout recovery mechanism adopts following technical scheme:

a surplus material recycling mechanism of a pumping machine comprises the pumping machine, wherein a waste material opening is arranged below the pumping machine, and a cover plate for opening and closing the waste material opening is arranged on the pumping machine; a spiral conveyor is arranged below the waste material port, and a feeding port of the spiral conveyor is positioned below the waste material port of the pumping machine; the discharge hole of the spiral conveyor is obliquely arranged upwards; a feed box is arranged below a discharge port of the spiral conveyor on the ground, a first cart is arranged on the ground and comprises a pushing handle, the feed box is placed on the first cart, a water tank is arranged on the ground, a water pipe is connected in the water tank, and one end of the water pipe, which is positioned in the water tank, is connected with a water pump; one end of the water pipe, which is far away from the water pump, extends into the material box; the side wall of the material box is communicated with a water outlet pipe, the water outlet pipe is positioned above the water tank, and a filter plate is arranged above the water pump in the water tank.

By adopting the technical scheme, the cover plate is manually opened, the concrete waste falls from the waste opening, the concrete waste falls into the feeding opening of the screw conveyor, the concrete waste is conveyed out from the discharge opening by the screw conveyor, and the concrete waste falls into the material box to prevent concrete from being solidified in the pumping machine; the workload of manually cleaning concrete in the pumping machine is reduced, the material box is placed on the first trolley, and the trolley is pushed to push the material box to move, so that the transportation of the material box is facilitated, the labor is saved, and the construction efficiency is improved; the water pump pumps water in the water tank into the material tank through the water pipe, concrete waste in the material tank is diluted by water flushing, the water flows back into the water tank from the water outlet pipe, and sand and stone are filtered by the filter plate, so that water and sand and stone can be recycled.

Optionally, the water outlet pipe is connected with a valve.

Through adopting above-mentioned technical scheme, open or close the outlet pipe through the valve, according to the water yield in the demand control workbin, make things convenient for manual control, improve work efficiency.

Optionally, a stirring shaft vertically penetrates through the lower surface of the material box, and the stirring shaft rotates in the material box; the outer peripheral wall of the stirring shaft is connected with a plurality of stirring rods; the stirring shaft penetrates through and rotates in the first trolley, and a second motor connected with the stirring shaft is arranged below the first trolley.

By adopting the technical scheme, the stirring shaft is driven by the second motor, and the stirring shaft and the stirring rod synchronously rotate to stir the concrete waste and water in the material box; the sand and stones in the concrete sink under the action of gravity, and the separation effect on the concrete is better.

Optionally, a deep groove is formed in the ground, and a second cart is arranged on the bottom surface of the deep groove; the screw conveyor is placed on the second cart.

By adopting the technical scheme, when the conveyor is not needed, the second cart is pushed, so that the second cart and the spiral conveyor move synchronously; the transportation is convenient.

Optionally, two parallel guide rails are arranged on the ground, and each guide rail comprises a first rail and a second rail; the first track and the second track are parallel, and the horizontal distance is greater than the width of a wheel of the first trolley; one end of the first track and one end of the second track incline towards one side away from each other.

Through adopting above-mentioned technical scheme, when pushing away first shallow, through the direction of guide rail, first shallow gets into assigned position more easily, makes things convenient for manual operation.

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

1. the cover plate is manually opened, the concrete waste falls from the waste opening, the concrete waste falls into the feeding opening of the screw conveyor, the concrete waste is conveyed out from the discharge opening through the screw conveyor, and the concrete waste falls into the material box to prevent concrete from being solidified in the pumping machine; the workload of manually cleaning concrete in the pumping machine is reduced, the material box is placed on the first trolley, and the trolley is pushed to push the material box to move, so that the transportation of the material box is facilitated, the labor is saved, and the construction efficiency is improved; the water pump pumps water in the water tank into the material tank through the water pipe, the concrete waste in the material tank is flushed and diluted by the water, the water flows back into the water tank from the water outlet pipe, and the sand and stone are filtered by the filter plate, so that the water and the sand and stone can be recycled;

2. the stirring shaft is driven by a second motor and synchronously rotates with the stirring rod to stir the concrete waste and water in the material box; the sand and stones in the concrete sink under the action of gravity, and the separation effect on the concrete is better.

Drawings

FIG. 1 is a schematic overall structure diagram of a remainder recycling mechanism of a pumping machine according to an embodiment of the present application;

fig. 2 is a schematic cross-sectional view of the pumper surplus material recovery mechanism shown in fig. 1.

Description of reference numerals: 1. a pumping machine; 2. a waste material port; 3. a screw conveyor; 31. a housing; 32. a first motor; 33. a main shaft; 34. a helical blade; 35. a support; 4. a hopper; 5. a material box; 6. deep grooves; 7. a second cart; 8. a first cart; 81. turning a plate; 82. a pushing handle; 83. a universal wheel; 9. a guide rail; 91. a first track; 92. a second track; 10. a water tank; 11. a water pump; 12. a water pipe; 13. a strut; 14. a water outlet pipe; 15. a valve; 16. filtering the plate; 17. a support; 18. a stirring device; 181. a second motor; 182. a stirring shaft; 183. a stirring rod; 184. a machine base.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses mechanism is retrieved to pumping machine clout, refers to fig. 1 and 2, including pumping machine 1, waste material mouth 2 has been seted up to the diapire of pumping machine 1, is connected with the apron that is used for opening and close waste material mouth 2 on the pumping machine 1. The screw conveyor 3 is arranged below the waste opening 2, and a feeding opening of the screw conveyor 3 is positioned below the waste opening 2 of the pumping machine 1. A material box 5 is arranged on the ground, and the material box 5 is positioned below the discharge hole of the screw conveyor 3. The cover plate is opened, the concrete waste falls into the screw conveyor 3 from the waste opening 2, and the screw conveyor 3 conveys the waste to the bin 5.

The feeding port of the screw conveyor 3 is welded with the hopper 4, and concrete waste falls into the feeding port of the screw conveyor 3 through the guide of the hopper 4, so that the collection is more convenient.

The screw conveyor 3 includes a housing 31, a first motor 32, a main shaft 33, and a screw blade 34.

The casing 31 is cylindrical, and the casing 31 is hollow and the discharge hole is opened at one end of the casing 31 far away from the pumping machine 1. The upper part of the peripheral wall of the shell 31 far away from the opening end is provided with a feed inlet. The main shaft 33 is arranged at one end of the shell 31 close to the feeding hole in a penetrating way, and a helical blade 34 is welded on the peripheral wall of one section of the main shaft 33 in the shell 31. The main shaft 33 rotates in the housing 31, a support 35 is welded on the housing 31, the first motor 32 is welded on the support 35, and an output shaft of the first motor 32 is coaxially welded with the main shaft 33. The first motor 32 is started, and an output shaft of the first motor 32 drives the main shaft 33 and the helical blade 34 to synchronously rotate so as to realize conveying work.

The screw conveyor 3 is obliquely arranged from bottom to top in the direction vertical to the side wall of the through groove. And conveying the concrete waste at the bottom end upwards.

One end of the peripheral wall of the screw conveyor 3, which is close to the material box 5, is connected with a support 17 through a bolt, and the support 17 is vertically arranged and the bottom end of the support is connected with the ground through a bolt.

A deep groove 6 with a rectangular cross section is arranged on the ground along the direction of the discharge hole of the screw conveyor 3. A second cart 7 is placed on the bottom surface of the deep groove 6, and the second cart 7 moves in the length direction of the deep groove 6. The screw conveyor 3 is placed on a second cart 7. The screw conveyor 3 can move synchronously with the second cart 7.

The subaerial first shallow 8 that is provided with of screw conveyer 3 discharge gate below, first shallow 8 include sweep 81, pushing hands 82 and universal wheel 83, and pushing hands 82 welds in one side that the logical groove length direction of sweep 81 perpendicular to just kept away from pumping machine 1. The first cart 8 further includes four universal wheels 83 having a braking function provided at corners of the bottom surface of the cart board 81. The material box 5 is placed on the vehicle plate 81, and the upper surface of the material box 5 is provided with an opening. The feed box 5 is arranged below the discharge hole of the screw conveyor 3. Promote first shallow 8 and drive workbin 5 synchronous motion, workbin 5 accomodates the concrete waste material that screw conveyer 3 sent out.

Two groups of parallel guide rails 9 are arranged on the ground, and the guide rails 9 are parallel to the length direction of the deep groove 6. The guide rail 9 restricts the moving direction of the second cart 7.

The guide rail 9 includes a first rail 91 and a second rail 92, the first rail 91 and the second rail 92 are parallel and respectively disposed on two sides of the universal wheel 83, and a horizontal distance between the first rail 91 and the second rail 92 is greater than a width of the universal wheel 83. The first rail 91 and the second rail 92 are provided to be inclined to the side away from each other at the end close to the handle 82 of the first cart 8. The guide rails 9 limit the direction of travel of the first cart 8, facilitating alignment of the feed bin 5 with the discharge port of the screw conveyor 3. The inclined ends of the first rail 91 and the second rail 92 assist the entry of the first cart 8.

The water tank 10 is placed on the ground of one side, far away from the pumping machine 1, of the material box 5, the water pump 11 is arranged in the water tank 10, and the water pipe 12 is welded at the output end of the water pump 11. The water pipe 12 extends upwards, one end of the water pipe 12, which is far away from the water pump 11, extends into the inside of the feed box 5 along the upper part of the feed box 5, and the water pipe 12 faces the lower part of the discharge hole of the screw conveyor 3. The external power supply starts the water pump 11, and the water pump 11 pumps the water in the water tank 10 into the material box 5 through the water pipe 12 to wash the concrete waste output by the screw conveyor 3.

A supporting rod 13 is vertically welded on one side, close to the water tank 10, of the top surface of the feed box 5, and the top end of the supporting rod 13 clamps the water pipe 12 to support the water pipe 12. The water tube 12 is supported by struts 13.

A water outlet pipe 14 is vertically welded on one side of the feed box 5 close to the water tank 10 and above the water tank 10, and the water outlet pipe 14 is communicated with the inside of the feed box 5. The water inside the tank 5 is drained off through the outlet pipe 14.

The water outlet pipe 14 is connected with a valve 15, and the water outlet pipe 14 is opened and closed through the valve 15.

A horizontally arranged filter plate 16 is welded above the water pump 11 in the water tank 10. The filter plate 16 filters sand and stones.

The feed box 5 is provided with a stirring device 18 for stirring the concrete waste and water in the feed box 5. The sand and stones in the concrete are separated from the water by the stirring device 18.

The stirring device 18 comprises a second motor 181, a stirring shaft 182 and a stirring rod 183;

the lower surface of the first sweep 81 is vertically welded with a base 184, the second motor 181 is welded on the base 184, and the output shaft of the second motor 181 is vertically upward. The second motor 181 provides power to the stirring shaft 182.

The stirring shaft 182 vertically penetrates through and is rotatably connected to the lower surface of the material box 5, the stirring shaft 182 penetrates through and is rotatably connected to the vehicle plate 81, and the bottom end of the stirring shaft 182 is connected with the output shaft of the second motor 181 through a coupler. The output shaft of the second motor 181 drives the stirring shaft 182 to rotate coaxially.

The outer peripheral wall of the stirring shaft 182 is vertically welded with a plurality of horizontally arranged stirring rods 183, and the distances between the stirring rods 183 are the same. The agitating shaft 183 is provided in plurality along the circumference of the agitating shaft 182. The concrete waste is stirred by the stirring rod 183, and the stirring effect is better.

The implementation principle of the excess material recycling mechanism of the pumping machine in the embodiment of the application is as follows: when the pumping machine 1 is finished, the cover plate is opened. The concrete waste is discharged from the waste port 2 through the hopper 4 into the feed port of the screw conveyor 3. Start first motor 32 through external power supply, first motor 32 drives main shaft 33 and 34 synchronous rotations of helical blade and exports the concrete waste material from the discharge gate and fall into workbin 5, starts water pump 11 through external power supply, and water pump 11 passes through water pipe 12 with the water in the water tank 10 and goes into workbin 5, and the water in the water pipe 12 washes the concrete waste material of 3 discharge gates outputs of screw conveyer. The second motor 181 is started by the external power supply, and the output shaft of the second motor 181 drives the stirring shaft 182 and the stirring rod 183 to synchronously rotate. At the moment, the sand and the stone in the material box 5 sink into the bottom end of the material box 5, the valve 15 is opened, and the water outlet pipe 14 filters the water and the cement in the material box 5 through the filter plate 16 and discharges the water and the cement into the water tank 10 again.

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: 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 (5)

1. A surplus material recycling mechanism of a pumping machine comprises the pumping machine (1), a waste material opening (2) is arranged below the pumping machine (1), and a cover plate for opening and closing the waste material opening (2) is arranged on the pumping machine (1); the method is characterized in that: a spiral conveyor (3) is arranged below the waste opening (2), and a feeding opening of the spiral conveyor (3) is positioned below the waste opening (2) of the pumping machine (1); the discharge hole of the spiral conveyor (3) is obliquely and upwards arranged; a feed box (5) is arranged below a discharge port of the spiral conveyor (3) on the ground, a first cart (8) is arranged on the ground, the first cart (8) comprises a push handle (82), the feed box (5) is placed on the first cart (8), a water tank (10) is arranged on the ground, a water pipe (12) is connected in the water tank (10), and one end, located inside the water tank (10), of the water pipe (12) is connected with a water pump (11); one end of the water pipe (12) far away from the water pump (11) extends into the material box (5); the side wall of the feed box (5) is communicated with a water outlet pipe (14), the water outlet pipe (14) is positioned above the water tank (10), and a filter plate (16) is arranged above the water pump (11) in the water tank (10).

2. The pumper surplus material recycling mechanism of claim 1, wherein: the water outlet pipe (14) is connected with a valve (15).

3. The pumper surplus material recycling mechanism of claim 1, wherein: a stirring shaft (182) vertically penetrates through the lower surface of the material box (5), and the stirring shaft (182) rotates in the material box (5); the outer peripheral wall of the stirring shaft (182) is connected with a plurality of stirring rods (183); the stirring shaft (182) penetrates through and rotates in the first cart (8), and a second motor (181) connected with the stirring shaft (182) is arranged below the first cart (8).

4. The pumper surplus material recycling mechanism of claim 1, wherein: a deep groove (6) is formed in the ground, and a second cart (7) is arranged on the bottom surface of the deep groove (6); the screw conveyor (3) is placed on the second cart (7).

5. The pumper surplus material recycling mechanism of claim 1, wherein: two groups of parallel guide rails (9) are arranged on the ground, and the guide rails (9) comprise a first rail (91) and a second rail (92); the first track (91) is parallel to the second track (92) and has a horizontal distance greater than the width of the wheels of the first cart (8); one ends of the first rail (91) and the second rail (92) are respectively inclined to the sides far away from each other.

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