CN219507038U - Transfer chain reposition of redundant personnel subassembly - Google Patents

Abstract

The utility model discloses a transfer line split assembly, and relates to the technical field of logistics transfer lines. The utility model comprises a conveying line body, wherein a diversion baffle plate, a first pi-shaped mounting bracket and a second pi-shaped mounting bracket are sequentially arranged on the conveying line body along the conveying direction of the conveying line body; the top of the first pi-shaped mounting bracket is fixedly provided with a first connecting plate, and the bottom of the connecting plate is rotatably provided with a guide plate and a first driving mechanism; one side of the second pi-shaped mounting bracket is movably connected with a baffle and a second driving mechanism. According to the utility model, the first driving mechanism can drive the guide plates to guide the cargoes to the two sides of the diversion partition plates to achieve diversion, and the second driving mechanism can drive the baffle plates to fall down in the process of controlling the guide plates by the first driving mechanism, so that the flowing cargoes are blocked, the cargoes are prevented from clamping the guide plates, and the diversion transportation efficiency is improved.

Description

Transfer chain reposition of redundant personnel subassembly

Technical Field

The utility model belongs to the technical field of logistics conveying lines, and particularly relates to a conveying line split-flow assembly.

Background

With the progress of modern technology, most factories also realize a flow line production mode so as to improve the production efficiency as much as possible and reduce the production cost. The transfer chain is one of the important equipment of storage commodity circulation, and simultaneously, the output of material transfer chain is unidirectional. At present, in the process of transporting goods, the mixed transportation of goods with different demands is often involved, automatic diversion is needed according to the types of the goods, and the conventional processing mode is to arrange a bifurcation line for diverting the goods on the same transportation layer or to use a lifter for diverting the goods to the transportation lines on different height layers.

The current chinese patent of the disclosure No. CN211254068U discloses a transfer chain diverging device, including transfer chain and the diverging device of setting on the transfer chain, the transfer chain is located the equipment rack, still is provided with transfer chain power device on the equipment rack, diverging device includes flow distribution plate and reposition of redundant personnel cylinder, sets up in the one end of transfer chain through the diverging device rack, and the flow distribution plate erects in the diverging device rack, and one end is fixed on the horizontal pole of diverging device rack, and the other end passes through the reposition of redundant personnel cylinder to be fixed on the montant of diverging device rack, and the lower surface of flow distribution plate is pressed close to but not contacted with the transfer chain. The paper box is used in packaging, the product is light, the friction force between the paper box and the conveying line is very small, when the conveying line moves, the product is pushed to the corresponding side by the split baffle, so that the product can be guided in a moving way, the purpose of split conveying of the product is achieved, the split mechanism is very simple, and the split purpose can be achieved only by correspondingly controlling the movement of the split air cylinder.

The shunt device of this transfer chain is accomplished the reposition of redundant personnel action by flow distribution plate and reposition of redundant personnel cylinder cooperation, but in the reposition of redundant personnel in-process, because the device does not set up the blocking mechanism that is used for separating the goods and the cooperation of shunt device, this just leads to at the in-process of controlling the flow distribution plate through the reposition of redundant personnel cylinder, the goods is any along with the transfer chain flows, the circumstances that the goods blocked can take place, if stop the transfer chain at the in-process of controlling the flow distribution plate through the reposition of redundant personnel cylinder flows, can influence cargo transportation efficiency.

Disclosure of Invention

The utility model aims to provide a conveyor line split-flow assembly, which solves the problem that in the split-flow process, a blocking mechanism for separating cargoes is not arranged to be matched with a split-flow device, so that the cargoes are easy to block the split-flow device.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a transfer line split assembly, which comprises a transfer line body, wherein a split baffle is arranged on the transfer line body, a first n-shaped mounting bracket and a second n-shaped mounting bracket are fixedly arranged on the transfer line body, and the second n-shaped mounting bracket, the first n-shaped mounting bracket and the split baffle are sequentially arranged along the transfer direction of the transfer line body; the top of the first pi-shaped mounting bracket is fixedly provided with a first connecting plate, the bottom of the first connecting plate is movably provided with guide plates for guiding cargoes to two sides of the split-flow partition plate, and the top of the first pi-shaped mounting bracket is also provided with a first driving mechanism for driving the guide plates to finish the guide action; the baffle plate used for blocking the goods from flowing and preventing the goods from clamping the guide plate is movably arranged on one side, far away from the first pi-shaped mounting bracket, of the second pi-shaped mounting bracket, and a second driving mechanism used for driving the baffle plate to complete blocking action is further arranged on the top of the second pi-shaped mounting bracket.

As a preferential technical scheme of the utility model, a second connecting plate is fixedly arranged at the top end of the guide plate, a connecting rotating shaft is fixedly arranged at the top part of the second connecting plate, which is close to one end of the first pi-shaped mounting bracket, a connecting rotary drum is fixedly arranged on the connecting plate, a limiting cylinder is rotatably arranged on the connecting rotary drum, and the connecting rotating shaft is in threaded connection with the limiting cylinder.

As a preferential technical scheme of the utility model, one side of the second connecting plate is provided with an auxiliary connecting plate, the top of the auxiliary connecting plate is fixedly provided with a connecting seat, and the connecting seat is fixedly provided with a driving shaft.

As a preferential technical scheme of the utility model, the first driving mechanism comprises a driving cylinder, an L-shaped mounting frame is fixedly arranged at the top of the same side of the first II-shaped mounting frame and the driving shaft, a hinged support is arranged on the inner side surface of the L-shaped mounting frame, the piston end of the driving cylinder is rotationally connected with the driving shaft, and the other end of the driving cylinder is hinged with the hinged support.

As a preferential technical scheme of the utility model, one surface of the baffle close to the second pi-shaped mounting bracket is symmetrically provided with limiting sliding blocks, the second pi-shaped mounting bracket is correspondingly provided with limiting sliding grooves, and the limiting sliding blocks are in sliding connection in the corresponding limiting sliding grooves.

As a preferential technical scheme of the utility model, two ends of the limiting slide block are provided with limiting blocks, two ends of the limiting slide groove are correspondingly provided with limiting grooves, and when the limiting slide block slides to the limiting position, the limiting blocks are clamped with the corresponding limiting grooves.

As a preferential technical scheme of the utility model, the second driving mechanism comprises a driving motor and a driving gear, wherein the driving motor is fixedly arranged at the top of the second pi-shaped mounting bracket, and the driving gear is fixedly connected with a rotating shaft of the driving motor.

As a preferential technical scheme of the utility model, one surface of the baffle plate, which is close to the second pi-shaped mounting bracket, is provided with a matching groove, one side of the matching groove is provided with a rack, and the rack is meshed with the driving gear.

The utility model has the following beneficial effects:

according to the utility model, the second pi-shaped mounting bracket, the first pi-shaped mounting bracket and the diversion partition plate are arranged on the conveying line body, the guide plate and the first driving mechanism for driving the guide plate to finish the flow guiding action are arranged on the first pi-shaped mounting bracket, the baffle and the second driving mechanism for driving the baffle to finish the blocking action are arranged on the second pi-shaped mounting bracket, when goods flow along the conveying line direction, the first driving mechanism can drive the guide plate to guide the goods to the two sides of the diversion partition plate to realize the diversion, and in the process of controlling the guide plate by the first driving mechanism, the second driving mechanism can drive the baffle to fall down to block the flowing goods, so that the goods are prevented from clamping the guide plate, and the diversion conveying efficiency is improved.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall structure of a conveyor line diverter assembly of the present utility model;

FIG. 2 is a schematic view of a structure mounted on a first "n" shaped mounting bracket;

fig. 3 is a schematic structural view of a first pi-shaped mounting bracket and a driving cylinder;

FIG. 4 is a schematic view of a baffle structure;

FIG. 5 is a schematic view of a structure mounted on a second "n" shaped mounting bracket;

fig. 6 is a schematic structural diagram of a second pi-shaped mounting bracket and a driving motor;

fig. 7 is a schematic view of a baffle structure.

In the drawings, the list of components represented by the various numbers is as follows:

the device comprises a 1-conveying line body, a 101-split partition board, a 2-first pi-shaped mounting bracket, a 201-first connecting plate, a 202-connecting rotary drum, a 203-limiting drum, a 3-second pi-shaped mounting bracket, a 301-limiting sliding chute, a 302-limiting groove, a 303-driving motor, a 304-driving gear, a 4-guide plate, a 401-second connecting plate, a 4011-auxiliary connecting plate and a 402-connecting rotating shaft, a 403-connecting seat, a 404-driving shaft, a 405-driving cylinder, a 406-L-shaped mounting bracket, a 407-hinged bracket, a 5-baffle plate, a 501-limiting sliding block, a 502-limiting block, a 503-matching groove and a 504-rack.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present utility model and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1, the present utility model is a transfer line split assembly, including a transfer line body 1, a split partition 101 is disposed on the transfer line body 1, a first pi-shaped mounting bracket 2 and a second pi-shaped mounting bracket 3 are fixedly mounted on the transfer line body 1 through bolts, the second pi-shaped mounting bracket 3, and the first pi-shaped mounting bracket 2 and the split partition 101 are sequentially arranged along the transfer direction of the transfer line body 1.

Referring to fig. 1-4, a first connecting plate 201 is fixedly mounted on the top of the first pi-shaped mounting bracket 2 through bolts, a guide plate 4 for guiding the goods to two sides of the split-flow partition 101 is movably arranged at the bottom of the first connecting plate 201, a second connecting plate 401 is fixedly mounted on the top of the guide plate 4 through bolts, a connecting rotating shaft 402 is fixedly mounted on the top of the second connecting plate 401, which is close to one end of the first pi-shaped mounting bracket 2, through a locking piece, a connecting rotary drum 202 is fixedly mounted on the connecting plate 201, a limiting cylinder 203 is rotatably mounted on the connecting rotary drum 202, the connecting rotating shaft 402 is in threaded connection with the limiting cylinder 203, when the limiting cylinder 203 rotates in the connecting rotary drum 202, the connecting rotating shaft 402 in threaded connection with the limiting cylinder 203 rotates together, and drives the guide plate 4 to rotate around the connecting rotating shaft 402, and the goods conveyed by the conveying line body 1 can be guided by the fact that the rotating plate is designed and rotated in advance. In addition, a secondary connection plate 4011 is arranged on one side of the second connection plate 401, a connection seat 403 is fixedly mounted on the top of the secondary connection plate 4011 through bolts, a driving shaft 404 is fixedly mounted on the connection seat 403, and the whole guide plate 4 can be driven to rotate by taking the connection rotating shaft 402 as an axis only by applying driving force to the driving shaft 404.

The top of the first pi-shaped mounting bracket 2 is also provided with a first driving mechanism for driving the deflector 4 to finish the flow guiding action; the first driving mechanism comprises a driving air cylinder 405, an L-shaped mounting frame 406 is fixedly mounted on the top of the same side of the first pi-shaped mounting frame 2 and the driving shaft 404 through bolts, a hinge bracket 407 is arranged on the inner side surface of the L-shaped mounting frame 406, the piston end of the driving air cylinder 405 is rotationally connected with the driving shaft 404, the other end of the driving air cylinder 405 is hinged with the hinge bracket 407, the driving air cylinder 405 can provide driving force for the driving shaft 404, the guide plate 4 can rotate by taking the connecting rotating shaft 402 as the axis, and the purpose of guiding the goods conveyed by the conveying line body 1 is achieved.

Referring to fig. 1 and fig. 5-7, a baffle 5 for blocking the flow of goods and preventing the goods from blocking the baffle 4 is movably arranged on one side of the second pi-shaped mounting bracket 3 away from the first pi-shaped mounting bracket 2, a limit slide block 501 is symmetrically arranged on one surface of the baffle 5 close to the second pi-shaped mounting bracket 3, the second pi-shaped mounting bracket 3 is correspondingly provided with a limit slide groove 301, the limit slide block 501 is slidably connected in the corresponding limit slide groove 301, and the baffle 5 can realize the function of blocking the flowing goods by vertically sliding through the cooperation of the limit slide block 501 and the limit slide groove 301. Limiting blocks 502 are arranged at two ends of the limiting slide block 501, limiting grooves 302 are correspondingly formed in two ends of the limiting slide groove 301, when the limiting slide block 501 slides to the limiting position, the limiting blocks 502 are clamped with the corresponding limiting grooves 302, and the limiting blocks 502 can limit the sliding stroke of the baffle 5.

In addition, a second driving mechanism for driving the baffle plate 5 to complete the blocking action is also arranged on the top of the second pi-shaped mounting bracket 3. The second driving mechanism comprises a driving motor 303 and a driving gear 304, the driving motor 303 is fixedly arranged on the top of the second pi-shaped mounting bracket 3 through bolts, the driving gear 304 is fixedly connected with a rotating shaft of the driving motor 303, and the driving motor 303 is started to drive the driving gear 304 to rotate. The baffle 5 is close to the one side of second "pi" shape installing support 3 and has been seted up cooperation groove 503, and one side of cooperation groove 503 is equipped with rack 504, and rack 504 and drive gear 304 meshing can drive baffle 5 and slide from top to bottom through the drive of driving motor 303 and the cooperation of rack 504 and drive gear 304 to accomplish the function that blocks the goods that flow.

In actual working, when goods flow along the conveying direction of the conveying line body 1, the driving air cylinder 405 in the first driving mechanism can drive the guide plates 4 to guide the goods to the two sides of the split flow partition plate 101 to realize split flow, and in the process of controlling the guide plates 4 by the first driving mechanism, the driving motor 303 in the second driving mechanism can control the baffle plate 5 to fall down through the matching of the racks 504 and the driving gears 304, so that the flowing goods are blocked, the guide plates 4 are prevented from being blocked, the conveying of the conveying line body 1 is not required to be stopped, and the split flow conveying efficiency is greatly improved.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (8)

1. A transfer chain reposition of redundant personnel subassembly, its characterized in that: the novel conveying device comprises a conveying line body (1), wherein a diversion partition plate (101) is arranged on the conveying line body (1), a first pi-shaped mounting bracket (2) and a second pi-shaped mounting bracket (3) are fixedly arranged on the conveying line body (1), and the second pi-shaped mounting bracket (3), the first pi-shaped mounting bracket (2) and the diversion partition plate (101) are sequentially distributed along the conveying direction of the conveying line body (1);

the top of the first pi-shaped mounting bracket (2) is fixedly provided with a first connecting plate (201), the bottom of the first connecting plate (201) is movably provided with guide plates (4) for guiding cargoes to two sides of the split-flow partition plate (101), and the top of the first pi-shaped mounting bracket (2) is also provided with a first driving mechanism for driving the guide plates (4) to finish the guide action;

the second 'pi' shaped mounting bracket (3) is movably provided with a baffle (5) for blocking the flow of goods and preventing the goods from clamping the guide plate (4) on one side far away from the first 'pi' shaped mounting bracket (2), and a second driving mechanism for driving the baffle (5) to complete blocking action is also arranged at the top of the second 'pi' shaped mounting bracket (3).

2. A conveyor line diverter assembly as in claim 1 wherein: the top fixed mounting of guide plate (4) has second connecting plate (401), the top that second connecting plate (401) is close to first "pi" shape installing support (2) one end is fixed and is equipped with connection pivot (402), fixed mounting has connection rotary drum (202) on connecting plate (201), connection rotary drum (202) internal rotation is installed spacing section of thick bamboo (203), connection pivot (402) and spacing section of thick bamboo (203) threaded connection.

3. A conveyor line diverter assembly as in claim 2 wherein: one side of the second connecting plate (401) is provided with an auxiliary connecting plate (4011), the top of the auxiliary connecting plate (4011) is fixedly provided with a connecting seat (403), and the connecting seat (403) is fixedly provided with a driving shaft (404).

4. A conveyor line diverter assembly according to claim 3, wherein: the first driving mechanism comprises a driving air cylinder (405), an L-shaped mounting frame (406) is fixedly mounted at the top of the same side of the first n-shaped mounting frame (2) as the driving shaft (404), a hinged support (407) is arranged on the inner side surface of the L-shaped mounting frame (406), the piston end of the driving air cylinder (405) is rotationally connected with the driving shaft (404), and the other end of the driving air cylinder (405) is hinged with the hinged support (407).

5. A conveyor line diverter assembly as in claim 1 wherein: the baffle (5) is close to one side symmetry of second "pi" shape installing support (3) and is equipped with spacing slider (501), spacing spout (301) have been seted up to second "pi" shape installing support (3) correspondence, spacing slider (501) are in corresponding spacing spout (301) sliding connection.

6. A conveyor line diverter assembly according to claim 5, wherein: limiting blocks (502) are arranged at two ends of the limiting sliding block (501), limiting grooves (302) are correspondingly formed in two ends of the limiting sliding groove (301), and when the limiting sliding block (501) slides to the limiting position, the limiting blocks (502) are clamped with the corresponding limiting grooves (302).

7. A conveyor line diverter assembly according to claim 6, wherein: the second driving mechanism comprises a driving motor (303) and a driving gear (304), the driving motor (303) is fixedly arranged at the top of the second pi-shaped mounting bracket (3), and the driving gear (304) is fixedly connected with a rotating shaft of the driving motor (303).

8. A conveyor line diverter assembly as in claim 7 wherein: one surface of the baffle (5) close to the second pi-shaped mounting bracket (3) is provided with a matching groove (503), one side of the matching groove (503) is provided with a rack (504), and the rack (504) is meshed with the driving gear (304).