CN212892754U - Quantitative bagging and stacking system for water purification material production - Google Patents

Abstract

The utility model relates to a water purification material production is with ration bagging-off stack system. This quantitative bagging-off stack system for water purification material production includes pile up neatly device, pile up neatly device includes conveying unit and is located the pile up neatly unit of conveying unit discharge end one side, the pile up neatly unit includes the bottom plate, accept the board, elevating system and actuating mechanism, it is used for accepting the bagged water purification material of conveying unit output to accept the board, elevating system is used for the drive to accept the board up-and-down motion, actuating mechanism sets up on the bottom plate, be used for driving elevating system along the direction of delivery motion of perpendicular to conveying unit, it is equipped with the accepting part of accepting the bagged water purification material on the board to accept, it is equipped with push pedal and first telescoping cylinder in one side of accepting the board, it still is equipped with the second telescoping cylinder on the board to accept, so that. The utility model discloses convenient operation, pile up neatly in-process bagging-off water purification material is difficult for dropping, avoids using the manipulator and has the problem that water purification material easily drops in bags.

Description

Quantitative bagging and stacking system for water purification material production

Technical Field

The utility model belongs to the technical field of the pile up neatly device, especially, relate to a water purification material production is with ration bagging-off stack system.

Background

Polyaluminium chloride is a water purifying material, an inorganic high-molecular coagulant, which is also called polyaluminium for short; the polyaluminium chloride is mainly applied to the field of water treatment, including water purification treatment, such as domestic water, industrial water, municipal sewage treatment, treatment of industrial wastewater, sewage and sludge, recovery of certain residues in the sewage and the like.

The polyaluminium chloride has strong bridge adsorbability, can be divided into solid and liquid in form, and the solid polyaluminium chloride is divided into tan, yellow and white according to different colors. At present, solid polyaluminium chloride is usually packaged in bags, and the polyaluminium chloride packaged into the bags is stacked in a stacking way. Pile up neatly the in-process often carries out the pile up neatly through the manipulator, and is concrete, and the conveyer belt transmits the polyaluminium chloride in bags to certain position, and the manipulator snatchs the polyaluminium chloride in bags on the conveyer belt and carries out the pile up neatly. However, when the manipulator grabs the bagged polyaluminium chloride, the bagged polyaluminium chloride is tightly attached to the conveyer belt, so that the manipulator is not easy to completely grab the bagged polyaluminium chloride from the bottom, and the bagged polyaluminium chloride is easy to drop or damage.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a water purification material production is with ration bagging-off stack system to solve the technical problem that the manipulator caused bagged polymerization aluminium chloride to drop or damage easily.

The utility model discloses a water purification material production is with quantitative bagging-off stack system's technical scheme is:

a quantitative bagging and stacking system for producing water purifying materials comprises a stacking device, wherein the stacking device comprises a conveying unit and a stacking unit positioned on one side of the discharge end of the conveying unit, the stacking unit comprises a bottom plate, a receiving plate, a lifting mechanism and a driving mechanism, the receiving plate is used for receiving bagged water purifying materials output by the conveying unit, the lifting mechanism is used for driving the receiving plate to move up and down, the driving mechanism is arranged on the bottom plate and used for driving the lifting mechanism to move along the conveying direction vertical to the conveying unit, a receiving part for receiving the bagged water purifying materials is arranged on the receiving plate, a push plate is arranged on one side of the receiving part of the receiving plate and used for driving the push plate to enter a first telescopic cylinder of the receiving part along the conveying direction vertical to the conveying unit, and a second telescopic cylinder used for driving the first telescopic cylinder to move along the conveying direction of the conveying unit is further arranged on the receiving, so that the push plate pushes out the bagged water purification material on the bearing plate.

As a further improvement to the above technical solution, the lifting mechanism includes a third telescopic cylinder, and a piston rod of the third telescopic cylinder is fixedly connected to the bearing plate.

As a further improvement to the technical scheme, a dovetail groove is formed in the bottom plate, a dovetail tenon matched with the dovetail groove is arranged at the lower end of the cylinder body of the third telescopic cylinder, the driving mechanism comprises a screw rod and a speed reducing motor, the screw rod is rotatably assembled in the dovetail groove and is in threaded fit with the dovetail tenon, and the speed reducing motor is used for driving the screw rod to rotate.

As a further improvement to the technical scheme, the bearing part is provided with a groove, and a plurality of rollers are rotatably assembled in the groove.

As a further improvement to the technical scheme, the piston rod of the second telescopic cylinder is fixedly connected with the cylinder body of the first telescopic cylinder through a connecting plate.

As a further improvement to the above technical solution, the conveying unit includes a housing and a conveying belt disposed on the housing.

As a further improvement to the technical scheme, the conveying unit is fixedly connected with the stacking unit, and universal wheels are respectively arranged on the lower sides of the conveying unit and the stacking unit.

The utility model provides a water purification material production is with ration bagging-off stack system compares in prior art, and its beneficial effect lies in:

the utility model discloses a when quantitative bagging-off stack system used for water purification material production, water purification material in bags carried to accepting the board through the conveying unit on, elevating system will accept the board drive to the height that water purification material in bags needs the pile up neatly, and first telescoping cylinder drive push pedal gets into to accepting the portion of accepting of board on, and the first telescoping cylinder of second telescoping cylinder drive push pedal pushes away water purification material in bags to the pile up neatly position. And repeating the operation, and after the stack of bagged water purification materials is completely stacked, driving the lifting mechanism to move by the driving mechanism to start stacking the stack of bagged water purification materials. Compared with the prior art, the utility model discloses a water purification material production is with quantitative bagging-off stack system convenient operation, pile up neatly in-process bagging-off water purification material is difficult for dropping, avoids using the manipulator and has the problem that water purification material easily drops in bags.

The utility model discloses a water purification material production is with ration bagging-off stack system has reduced bagged water purification material and has accepted the frictional force between the board through set up the recess and at recess internal rotation assembly running roller in the portion of accepting the board, more helps bagged water purification material on the conveying unit to get into to accept on the board and the push pedal is released bagged water purification material from accepting the board.

Utility model's water purification material production is with ration bagging-off stack system is through setting up the dovetail on the bottom plate, and the lower extreme setting of third telescoping cylinder helps playing the stability of guide effect and reinforcing third telescoping cylinder to the third telescoping cylinder with dovetail assorted dovetail.

Drawings

FIG. 1 is a first schematic structural diagram of a quantitative bagging and stacking system for producing water purification materials according to the present invention;

FIG. 2 is a schematic structural diagram of a quantitative bagging and stacking system for producing water purification materials according to the present invention;

FIG. 3 is a third schematic structural view of the quantitative bagging and stacking system for producing water purifying material of the present invention;

FIG. 4 is an enlarged view at A of FIG. 1;

FIG. 5 is an enlarged view at B in FIG. 1;

in the figure: 1. a housing; 2. a conveyor belt; 3. a universal wheel; 4. a base plate; 5. a dovetail groove; 6. a reduction motor; 7. a driving pulley; 8. a driven pulley; 9. a synchronous belt; 10. a screw rod; 11. dovetail joints; 12. a third telescopic cylinder; 13. a connecting flange; 14. a bearing plate; 15. a groove; 16. a roller; 17. pushing the plate; 18. a first telescoping cylinder; 19. a second telescoping cylinder; 20. a connecting plate.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The utility model discloses a water purification material production is with ration bagging-off stack system's concrete embodiment, as shown in fig. 1 to 5, including the pile up neatly device, the pile up neatly device includes conveying unit and pile up neatly unit.

Specifically, the conveying unit comprises a shell 1, the shell 1 is of a U-shaped structure, at least two belt pulleys are rotatably assembled in the U-shaped shell 1, and a conveying belt 2 is wound between the belt pulleys. A driving motor (not shown) for driving the pulley to rotate is fixedly connected to the outer side of the housing 1. The conveying direction of the conveying belt 2 is defined as the left and right direction, and a plurality of universal wheels 3 are fixedly connected to the lower side surface of the shell 1, so that the conveying unit is convenient to move.

In this embodiment, the stacking unit is located on the right side of the conveying unit, and the stacking unit includes a bottom plate 4, a lifting mechanism, a receiving plate 14, and a driving mechanism. The driving base plate 4 is a rectangular plate having a length extending in the front-rear direction. Fixedly connected with a plurality of universal wheel 3 on the downside of the bottom plate 4 of rectangle, the left end and the 1 welded fastening of casing of bottom plate 4 to remove conveying unit and pile up neatly unit simultaneously. Of course, in other embodiments, the conveying unit and the palletizing unit may not be fixed. The upper side surface of the bottom plate 4 is provided with a dovetail groove 5 extending along the front-back direction, and the driving mechanism comprises a screw rod 10 and a speed reducing motor 6. Wherein, the screw rod 10 is rotatably assembled in the dovetail groove 5 through a bearing and a bearing seat, and one end of the screw rod 10 extends out of the bottom plate 4. Gear motor 6 passes through motor fixing base fixed mounting on bottom plate 4, fixedly connected with driving pulley 7 on gear motor 6's the output shaft, and lead screw 10 stretches out one of the 4 outsides of bottom plate and serves fixedly connected with driven pulley 8, and it has hold-in range 9 to surround between driven pulley 8 and the driving pulley 7. When the screw driver is used, the gear motor 6 drives the driving belt wheel 7 to rotate, the driving belt wheel 7 drives the driven belt wheel 8 to rotate through the synchronous belt 9, and the driven belt wheel 8 drives the screw rod 10 to rotate.

In this embodiment, the lifting mechanism includes a third telescopic cylinder 12, and the third telescopic cylinder 12 is a multi-stage telescopic cylinder to increase the telescopic length of the third telescopic cylinder 12. The lower end of the third telescopic cylinder 12 is welded with a dovetail 11 matched with the dovetail groove 5, so that the third telescopic cylinder 12 is assembled in the dovetail groove 5 of the bottom plate 4 in a sliding mode. The upper end of the third telescopic cylinder 12 is welded with a connecting flange 13, and the connecting flange 13 is fixedly connected to the bearing plate 14 through bolts.

In this embodiment, the receiving plate 14 has a receiving portion for receiving the bagged water purification material output by the conveyor belt 2, and in order to reduce the friction between the receiving plate 14 and the bagged water purification material, the plurality of rollers 16 are rotatably mounted in the groove 15, and the rotation axes of the plurality of rollers 16 all extend in the front-back direction. In order to avoid that the roller 16 damages the bagged water purification material, the roller 16 is a rubber roller.

In this embodiment, the second telescopic cylinder 19 is fixedly attached to the receiving plate 14 on one side of the receiving portion, and the telescopic direction of the second telescopic cylinder 19 is the left-right direction. The end of the piston rod of the second telescopic cylinder 19 is fixedly connected with a connecting plate 20, the connecting plate 20 is an S-shaped plate, one end of the S-shaped connecting plate 20 is fixed at the end of the piston rod of the second telescopic cylinder 19, and the other end is fixedly connected with a first telescopic steel. The first telescopic cylinder 18 extends in a front-rear direction, and a gap is formed between the first telescopic cylinder 18 and the receiving plate 14. The end of the piston rod of the first telescopic cylinder 18 is fixedly connected with a push plate 17, the push plate 17 extends along the front-back direction, and the lower end of the push plate 17 is positioned on the upper side of the roller 16. When the water purifier is used, the first telescopic cylinder 18 drives the push plate 17 to enter the bearing part, the second telescopic cylinder 19 drives the first telescopic cylinder 18 to move towards the right side, and the first telescopic cylinder 18 drives the push plate 17 to move towards the right side to push out bagged water purifying materials.

In this embodiment, the quantitative bagging and stacking system for producing water purification material further includes a control system, and the control system includes a controller, and the controller is in signal connection with the driving motor of the conveyor belt 2, the control mechanism of the first telescopic cylinder 18, the control mechanism of the second telescopic cylinder 19, the control mechanism of the third telescopic cylinder 12, and the speed reduction motor 6.

The utility model discloses a water purification material production is with ration bagging-off stack system's theory of operation does: the bagged water purification material is placed on the conveyer belt 2, the controller controls the conveyer belt 2 to rotate, and when the bagged water purification material on the conveyer belt 2 enters the roller 16 of the bearing plate 14, the controller controls the conveyer belt 2 to stop moving. The controller controls the speed reducer to act, and drives the third telescopic cylinder 12 to a position needing stacking. The receiving plate 14 is driven to a height position needing stacking by the action of the third telescopic cylinder 12, the first telescopic cylinder 18 drives the push plate 17 to enter the receiving part, the second telescopic cylinder 19 drives the first telescopic cylinder 18 to act, and the first telescopic cylinder 18 drives the push plate 17 to push bagged water purifying materials to stacked water purifying materials. Then, the second telescopic cylinder 19 drives the first telescopic cylinder 18 to the initial position, and the first telescopic cylinder 18 drives the push plate 17 to the initial position. The third telescopic cylinder 12 drives the bearing plate 14 to the same height as the conveyer belt 2, and the speed reducing motor 6 drives the bearing plate 14 to the conveyer belt 2. The controller controls the conveyor belt 2 to act, and the operation is repeated.

The utility model provides a water purification material production is with ration bagging-off stack system compares in prior art, has following advantage:

the utility model discloses a water purification material production is with quantitative bagging-off stack system convenient operation, pile up neatly in-process bagging-off water purification material is difficult for dropping, avoids using the manipulator and has the problem that water purification material in bags easily dropped.

The utility model discloses a water purification material production is with ration bagging-off stack system has reduced bagged water purification material and has accepted the frictional force between the board 14 through set up recess 15 and at recess 15 internal rotation assembly running roller 16 on accepting the portion of accepting board 14, more helps bagged water purification material on the conveying unit to get into to accepting on the board 14 and the push pedal 17 releases bagged water purification material from accepting board 14.

Utility model's water purification material production is with ration bagging-off stack system is through setting up dovetail 5 on bottom plate 4, and the lower extreme setting of third telescoping cylinder 12 helps playing the guide effect and strengthening the stability of third telescoping cylinder 12 with 5 assorted dovetails 11 of dovetail to third telescoping cylinder 12.

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

Claims (7)

1. The utility model provides a water purification material production is with ration bagging-off stack system which characterized in that: comprises a stacking device, the stacking device comprises a conveying unit and a stacking unit positioned on one side of the discharge end of the conveying unit, the stacking unit comprises a bottom plate, a bearing plate, a lifting mechanism and a driving mechanism, the bearing plate is used for bearing the bagged water purifying material output by the conveying unit, the lifting mechanism is used for driving the bearing plate to move up and down, the driving mechanism is arranged on the bottom plate and used for driving the lifting mechanism to move along the conveying direction vertical to the conveying unit, the bearing plate is provided with a bearing part for bearing bagged water purification materials, one side of the bearing part of the bearing plate is provided with a push plate and a first telescopic cylinder for driving the push plate to enter the bearing part along the conveying direction vertical to the conveying unit, the bearing plate is also provided with a second telescopic cylinder used for driving the first telescopic cylinder to move along the conveying direction of the conveying unit, so that the bagged water purification material on the bearing plate is pushed out by the push plate.

2. The quantitative bagging and stacking system for producing water purifying material as claimed in claim 1, wherein: the lifting mechanism comprises a third telescopic cylinder, and a piston rod of the third telescopic cylinder is fixedly connected with the bearing plate.

3. The quantitative bagging and stacking system for producing water purifying material as claimed in claim 2, wherein: the bottom plate is provided with a dovetail groove, the lower end of the cylinder body of the third telescopic cylinder is provided with a dovetail joint matched with the dovetail groove, the driving mechanism comprises a screw rod and a speed reducing motor, the screw rod is rotatably assembled in the dovetail groove and is in threaded fit with the dovetail joint, and the speed reducing motor is used for driving the screw rod to rotate.

4. The quantitative bagging and stacking system for producing water purifying material as claimed in claim 1, wherein: the bearing part is provided with a groove, and a plurality of rollers are rotationally assembled in the groove.

5. The quantitative bagging and stacking system for producing water purifying material as claimed in claim 1, wherein: and a piston rod of the second telescopic cylinder is fixedly connected with a cylinder body of the first telescopic cylinder through a connecting plate.

6. The quantitative bagging and stacking system for producing water purifying material as claimed in claim 1, wherein: the conveying unit comprises a shell and a conveying belt arranged on the shell.

7. The quantitative bagging and stacking system for producing water purifying material as claimed in claim 1, wherein: the conveying unit is fixedly connected with the stacking unit, and universal wheels are respectively arranged on the lower sides of the conveying unit and the stacking unit.

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