CN212558264U - Sorting mechanism - Google Patents

Abstract

The utility model relates to a finishing mechanism. The technical problems that the design is unreasonable and the like in the prior art are solved. This arrangement mechanism is including arranging in the aftertreatment baffle on accepting the board, aftertreatment baffle and back drive arrangement are connected and back drive arrangement drive aftertreatment baffle will arrange in the material package of accepting on the board and promote to the ejection of compact side from accepting the side of accepting the board, be equipped with the lift baffle that is located and accepts the board ejection of compact side on the crane, lift baffle and lift drive arrangement are connected and lift baffle descends and the aftertreatment baffle forms one row at least orderly material package between aftertreatment baffle and the lift baffle when with material package to the propelling movement of lift baffle side. The utility model has the advantages that: the after-finishing baffle and the lifting baffle force the material bags arranged on the bearing plate to be in the same row, and simultaneously, the gap between the two adjacent rows of material bags can be reduced or eliminated, so that the space utilization rate can be greatly improved, the smoothness of stacking can be improved, and the design is more reasonable.

Description

Sorting mechanism

Technical Field

The utility model belongs to the technical field of cement manufacture, especially, relate to an arrangement mechanism.

Background

After the materials are packaged by the packaging bags, stacking is needed.

For example, after the cement bags are packaged, the cement bags are conveyed to a set position one by one and continuously by a manual conveying line, and the cement bags can be arranged on a transport vehicle or a stacking platform.

The position difference of the cement on the same row exists, the distance exists between the cement falling from front to back, and the difference and the distance are inconsistent, so that subsequent mechanical stacking is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a design more reasonable arrangement mechanism.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this arrangement mechanism, it installs on the crane to accept the board, this mechanism is including arranging the aftertreatment baffle on accepting the board in, aftertreatment baffle and back drive arrangement are connected and back drive arrangement drive aftertreatment baffle will arrange the material package on accepting the board in and promote to the ejection of compact side from accepting the side of accepting the board, be equipped with the lift baffle that is located and accepts the board ejection of compact side on the crane, lift baffle and lift drive arrangement are connected and lift baffle descends and after the aftertreatment baffle with the material package form one row at least orderly material package between aftertreatment baffle and the lift baffle when promoting the side promotion of lift baffle.

In the arrangement mechanism, when two rows of material bags are arranged between the after-arrangement baffle and the lifting baffle, the after-arrangement baffle and the lifting baffle force the space between the two rows of material bags to be reduced or eliminated.

In foretell arrangement mechanism, after arrangement baffle with accept sliding connection between the board, back drive arrangement include two horizontal racks that are parallel to each other and are located pan feeding conveyer belt both sides, horizontal rack and pan feeding conveyer belt horizontal sliding connection, the meshing has the propelling movement gear respectively on every horizontal rack, two propelling movement gears install at a transverse rotating shaft both ends and transverse rotating shaft one be connected with first power supply, transverse rotating shaft one runs through the pan feeding conveyer belt and is connected with the support frame rotation of pan feeding conveyer belt.

In the arrangement mechanism, two ends of the after-arrangement baffle are respectively provided with the roller, two ends of the bearing plate are respectively provided with the roller groove for the roller to extend into, and the roller travels in the roller groove.

In the arrangement mechanism, the lifting driving device comprises two vertically arranged lifting racks, two ends of the lifting baffle are fixed on the lifting racks, each lifting rack is respectively meshed with a driving gear, the two driving gears are arranged at two ends of the second transverse rotating shaft, the second transverse rotating shaft is rotatably connected with the lifting rack, and the second transverse rotating shaft is connected with the second power source.

In the arrangement mechanism, each lifting rack is provided with a vertical guide sleeve and a guide rod penetrating through the vertical guide sleeve, and two ends of the guide rod are fixed on the lifting frame through the mounting seat.

In the arrangement mechanism, the lifting frame is provided with two rotating shaft seats, and the transverse rotating shaft II penetrates through the two rotating shaft seats and is rotatably connected with the rotating shaft seats.

In the arrangement mechanism, each rotating shaft seat is fixed on the lifting frame through a fixed seat.

In the above arrangement mechanism, the second power source is a motor with a speed reducer, and the motor is fixed on one of the fixing seats.

In foretell arrangement mechanism, pan feeding conveyer belt both sides are installed the curb plate, and horizontal rack passes through uide bushing and curb plate sliding connection.

Compared with the prior art, the sorting mechanism has the advantages that:

the after-finishing baffle and the lifting baffle force the material bags arranged on the bearing plate to be in the same row, and simultaneously, the gap between the two adjacent rows of material bags can be reduced or eliminated, so that the space utilization rate can be greatly improved, the smoothness of stacking can be improved, and the design is more reasonable.

Drawings

Fig. 1 is a schematic structural diagram of the arranging mechanism of the device provided by the present invention.

Fig. 2 is a schematic structural diagram of an arranging mechanism of another viewing angle device provided by the present invention.

Fig. 3 is a schematic structural diagram of the utility model after the lifting baffle is removed.

Fig. 4 is a schematic view of a state that the roller is placed in the groove.

Fig. 5 is a schematic view of the connection and matching state between the horizontal rack and the sleeve provided by the present invention.

In the figure, a bearing plate 10, a lifting frame 11, a feeding conveying belt 12, a side plate 13, a finishing baffle 2, a roller 20, a rear driving device 3, a horizontal rack 30, a pushing gear 31, a first transverse rotating shaft 32, a guide sleeve 33, a lifting baffle 4, a lifting driving device 5, a lifting rack 50, a driving gear 51, a second transverse rotating shaft 52, a vertical guide sleeve 53, a guide rod 54, a rotating shaft seat 55, a fixed seat 56 and a motor 57.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 3, the receiving plate 10 is mounted on a crane 11, and a feed conveyor 12 is located above the receiving end side of the receiving plate 10, the feed conveyor 12 feeding and dropping material bales onto the receiving plate 10.

As shown in fig. 1-3, the finishing mechanism includes a finishing baffle 2 disposed on a receiving plate 10 and slidably connected to the receiving plate 10, specifically, as shown in fig. 2 and 4, rollers 20 are respectively disposed at two ends of the finishing baffle 2, roller grooves into which the rollers 20 extend are respectively disposed at two ends of the receiving plate 10, and the rollers 20 run in the roller grooves, which are in a long strip shape. For example, the roller groove includes a bar-shaped block, and a bar-shaped roller groove is provided in the bar-shaped block to satisfy the requirement of the smoothness of movement of the finishing fence 2.

As shown in fig. 2-3 and fig. 5, the rear finishing baffle 2 may be vertically or obliquely disposed, the rear finishing baffle 2 is connected to the rear driving device 3, and the rear driving device 3 drives the rear finishing baffle 2 to push the material pack placed on the receiving plate 10 from the receiving side to the discharging side of the receiving plate 10, specifically, the rear finishing baffle 2 and the receiving plate 10 are slidably connected, the rear driving device 3 includes two horizontal racks 30 which are parallel to each other and located at two sides of the feeding conveyor belt 12, the horizontal racks 30 are horizontally slidably connected to the feeding conveyor belt 12, further, the side plates 13 are installed at two sides of the feeding conveyor belt 12, and the horizontal racks 30 are slidably connected to the side plates 13 through the guide sleeves 33. Each horizontal rack is sleeved with at least two guide sleeves 33 to ensure the smoothness of the movement of the horizontal rack 30.

Each horizontal rack 30 is respectively engaged with a pushing gear 31, the two pushing gears 31 are mounted at two ends of a first transverse rotating shaft 32, the first transverse rotating shaft 32 is connected with a first power source, and the first transverse rotating shaft 32 penetrates through the feeding conveyer belt 12 and is rotatably connected with a supporting frame of the feeding conveyer belt 12.

The first power source is arranged in the feeding conveyer belt 12 to further improve the space utilization rate. The mounting and fixing manner of the first transverse rotating shaft 32 can be the same as the following mounting and fixing manner of the second transverse rotating shaft 52.

As shown in fig. 1 to 3, a lifting baffle 4 located on the discharging side of the receiving plate 10 is arranged on the lifting frame 11, the lifting baffle 4 is connected with the lifting driving device 5, and when the lifting baffle 4 descends and the material bag is pushed to the lifting baffle 4 side by the post-finishing baffle 2, at least one orderly row of material bags is formed between the post-finishing baffle 2 and the lifting baffle 4. When two rows of material bags are arranged between the after-finishing baffle plate 2 and the lifting baffle plate 4, the after-finishing baffle plate 2 and the lifting baffle plate 4 force the space between the two rows of material bags to be reduced or eliminated.

Specifically, the lifting driving device 5 of the embodiment includes two vertically disposed lifting racks 50, two ends of the lifting baffle 4 are fixed on the lifting racks 50, each lifting rack 50 is respectively engaged with a driving gear 51, the two driving gears 51 are installed at two ends of the second transverse rotating shaft 52, the second transverse rotating shaft 52 is rotatably connected with the lifting frame 11, and the second transverse rotating shaft 52 is connected with the second power source.

When the first row of material packages need to be sorted, the lifting baffle 4 descends and contacts with the bearing plate 10 or keeps a small distance so as to provide a mountain leaning function. Of course, if the second row of material bags is to be sorted, the lifting baffle 4 may be in the descending state.

Each lifting rack 50 is provided with a vertical guide sleeve 53 and a guide rod 54 penetrating the vertical guide sleeve 53, and two ends of the guide rod 54 are fixed on the lifting frame 11 through a mounting seat.

Two rotating shaft seats 55 are installed on the lifting frame 11, and the second transverse rotating shaft 52 penetrates through the two rotating shaft seats 55 and is rotatably connected with the rotating shaft seats 55.

Each rotating shaft seat 55 is fixed on the lifting frame 11 through a fixed seat 56.

The second power source is a motor 57 with a speed reducer, and the motor 57 is fixed on one of the fixed seats 56.

The working principle of the embodiment is as follows:

s1, inputting material bags (such as cement) by the feeding conveyor belt 12, simultaneously dropping the material bags onto the receiving plate 10 one by one, and pushing the material bags dropped onto the lifting frame 11 at the left side and the right side by a material shifting plate (see another material shifting mechanism patent of the applicant) arranged on the lifting frame 11 so that the material bags are distributed on the receiving plate 10;

s2, the lifting baffle 4 descends, the horizontal rack 30 is driven and contacts the rear side of the after-finishing baffle 2, and after the after-finishing baffle 2 contacts the horizontal rack 30, the material bag is continuously close to the lifting baffle 4, so that the finishing purpose is achieved;

repeating the above operation can satisfy the arrangement of two rows of material bags.

S3, the lifting baffle 4 rises, the bearing plate 10 moves towards the feeding conveyer belt 12, the material bags are limited by the after-treatment baffle 2 at the moment, and a row of material bags fall from the discharging side of the bearing plate 10 to achieve the purpose of stacking.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The arrangement mechanism is characterized by comprising an after-arrangement baffle (2) which is arranged on the bearing plate (10) and is in sliding connection with the bearing plate (10), the after-arrangement baffle (2) is connected with a back driving device (3), the back driving device (3) drives the after-arrangement baffle (2) to push material bags arranged on the bearing plate (10) to a discharge side from the bearing side of the bearing plate (10), be equipped with on crane (11) and be located lifting baffle (4) of accepting board (10) ejection of compact side, lifting baffle (4) and lift drive arrangement (5) are connected and lifting baffle (4) descend and after arrangement baffle (2) form at least one row of orderly material package between after arrangement baffle (2) and lifting baffle (4) when with the material package to lifting baffle (4) side propelling movement.

2. The collating mechanism of claim 1, wherein when there are two rows of material packages between the collating baffle (2) and the lifting baffle (4), the collating baffle (2) and the lifting baffle (4) force the spacing between the rows of material packages to be reduced or eliminated.

3. The arrangement mechanism according to claim 1, wherein the rear driving device (3) comprises two horizontal racks (30) parallel to each other and located at two sides of the feeding conveyor belt (12), the horizontal racks (30) are horizontally slidably connected with the feeding conveyor belt (12), a pushing gear (31) is respectively engaged with each horizontal rack (30), the two pushing gears (31) are installed at two ends of a transverse rotating shaft I (32) and the transverse rotating shaft I (32) is connected with the first power source, and the transverse rotating shaft I (32) penetrates through the feeding conveyor belt (12) and is rotatably connected with a support frame of the feeding conveyor belt (12).

4. The arrangement mechanism according to claim 1 or 3, characterized in that the two ends of the after-arrangement baffle (2) are respectively provided with a roller (20), the two ends of the bearing plate (10) are respectively provided with a roller groove for the roller (20) to extend into, and the roller (20) runs in the roller groove.

5. The arrangement mechanism as claimed in claim 1, wherein the lifting driving device (5) comprises two vertically arranged lifting racks (50), two ends of the lifting baffle (4) are fixed on the lifting racks (50), each lifting rack (50) is respectively engaged with a driving gear (51), the two driving gears (51) are installed at two ends of a second transverse rotating shaft (52), the second transverse rotating shaft (52) is rotatably connected with the lifting frame (11), and the second transverse rotating shaft (52) is connected with a second power source.

6. The arrangement mechanism according to claim 5, characterized in that each lifting rack (50) is provided with a vertical guide sleeve (53) and a guide rod (54) arranged in the vertical guide sleeve (53), and both ends of the guide rod (54) are fixed on the lifting frame (11) through a mounting seat.

7. The sorting mechanism according to claim 5, characterized in that two rotating shaft seats (55) are mounted on the lifting frame (11), and the transverse rotating shaft II (52) penetrates through the two rotating shaft seats (55) and is rotatably connected with the rotating shaft seats (55).

8. The organizing mechanism according to claim 7, characterized in that each spindle seat (55) is fixed to the crane (11) by means of a fixing seat (56).

9. The organizing mechanism of claim 8 wherein the second power source is a motor (57) with a speed reducer, the motor (57) being fixed to one of the holders (56).

10. The collating mechanism of claim 3, wherein side plates (13) are mounted on both sides of the feed conveyor belt (12), and the horizontal rack (30) is slidably connected to the side plates (13) through guide sleeves (33).

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