CN216071917U - Conveying system assembly device - Google Patents

Abstract

The utility model discloses a conveying system component collecting device, which comprises a circular disc which is driven by a motor to horizontally rotate around the center of the circular disc, wherein a material guide plate is arranged on the circular disc, and the material guide plate is configured into two states on the circular disc: the device comprises a fixed state and a release state, wherein in the fixed state, a material guide plate and a circular disc are relatively fixed, in the release state, the material guide plate and the circular disc are separated from each other, the gap between the material guide plate and the circular disc is smaller than the passing gap of conveyed goods and is fixed above the circular disc, and a goods flow channel A is formed by enclosing the material guide plate and the disc edge of the circular disc; one end of the material guide plate is fixedly provided with a baffle plate, the inlet end of the goods flow channel A is formed by a gap between the baffle plate and the surface of the circular disc, and the baffle plate vertically extends upwards to block upper-layer goods; when the material guide plate is in a release state, the exterior of a cargo flow channel formed by the material guide plate is butted with an outward conveying track, and an intermittent conveying mechanism is arranged on the outward conveying track. The utility model solves the problem that goods are damaged when being blocked in order to concentrate the goods on a production line.

Description

Conveying system assembly device

Technical Field

The utility model relates to the field of logistics conveying, in particular to a conveying system assembly device.

Background

In the existing conveying assembly line, logistics sorting is taken as an example, the logistics sorting is input to a specific sorting position through the assembly line, and then manual sorting is carried out.

When the goods are not too many, the goods are conveyed intermittently, and at the moment, workers cannot leave the work station and have to wait, so that the working efficiency is influenced, and therefore, a piece collecting device is required to be arranged on the production line for collecting the goods when the goods are few.

In fact, the traditional assembly line has similar devices, for example, a hidden/protruding blocking piece is arranged on the conveyor, when the goods are few, the protruding blocking piece blocks the goods on a section of the conveying line, the effectiveness of the method is undoubted, but for some special goods (such as express delivery), the conveyor cannot stop working, the blocked goods are stressed consistently, collision or bottom friction occurs, and certain damage is often caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a conveying system assembly device.

In order to achieve the purpose, the utility model provides the following technical scheme:

a conveying system assembly device comprises a circular disc which is driven by a motor to rotate horizontally around the center of the circular disc, wherein a material guide plate is installed on the circular disc and is configured to be in two states: the device comprises a fixed state and a release state, wherein in the fixed state, a material guide plate and a circular disc are relatively fixed, in the release state, the material guide plate and the circular disc are separated from each other, the gap between the material guide plate and the circular disc is smaller than the passing gap of conveyed goods and is fixed above the circular disc, and a goods flow channel A is formed by enclosing the material guide plate and the disc edge of the circular disc;

one end of the material guide plate is fixedly provided with a baffle plate, a gap between the baffle plate and the surface of the circular disc forms an inlet end of a goods flow channel A, the inlet end is only used for passing a single layer of goods, and the baffle plate vertically extends upwards to block the goods on the upper layer;

when the material guide plate is in a release state, the exterior of a cargo flow channel formed by the material guide plate is butted with an outward conveying track, and an intermittent conveying mechanism is arranged on the outward conveying track.

Preferably, the guide plate comprises an inclined plate, an arc-shaped plate and a guide-out plate which are connected in sequence, and the inclined plate is inclined outwards by taking the central position of the circular disc as a starting point.

Preferably, a support is arranged at the top of the circular plate, the support is fixed on the ground, and a clamping device is fixedly mounted on the support and used for fixedly clamping the material guide plate so that the material guide plate is switched from a fixed state to a release state.

Preferably, intermittent type formula conveying mechanism is provided with on the delivery track, and intermittent type formula conveying mechanism includes the cam by motor drive, and the top contact of cam has the separator, and the middle part of separator rotates to be connected at the delivery track, and the one end of separator extends and bends towards delivery track direction and become upper stop piece along delivery track direction after the kickup, and the other end extends and bends towards delivery track direction and become lower stop piece along delivery track direction after the kickdown, offer the window on the delivery track terminal surface and supply lower stop piece to wear out.

Compared with the prior art, the utility model has the beneficial effects that: the piece collecting device is arranged on the production line, when the goods are not plentiful, the goods which are intermittent are placed on the circular plate in a centralized mode, an operator on the station can do other things, when a certain amount of goods are accumulated, the operator can output the goods in a continuous mode, the operator returns the goods to operate, and the time utilization rate is improved.

In addition, when the goods are gathered on the circular plate, the goods can be fixedly placed on the circular plate or can rotate along with the circular plate, and the goods cannot be damaged by friction.

Drawings

Fig. 1 is an overall structural view of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the assembly device of the present invention.

Fig. 3 is a schematic structural diagram of the intermittent conveying mechanism of the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): the idea of the embodiment is that when the flow rate of goods is not large, the piece collecting operation is performed, that is, the goods on the assembly line are stored in a concentrated manner, and are sent out after reaching a certain amount, so that the staged continuous goods output is formed, and the arrangement on the working time is made by matching with the working personnel.

Specifically, the method comprises the following steps: referring to fig. 1, a pallet assembly 2 is provided on a line 1 formed of conveyors, and when the amount of the load on the line is small, the load is transferred to the pallet assembly 2 by a transfer conveyor 5 and temporarily stored, and after a predetermined amount of load, the load is successively discharged from the pallet assembly 2 to the line 1.

Based on the above thought, a plurality of the collecting devices 2 can be arranged on the production line, and each branch on the production line 11 provided with the branch can be arranged. Providing a plurality of manifold devices 2 can increase the amount of manifold.

The specific structure of the assembly device 2 is shown in fig. 2, and includes a circular disk 21, a motor is installed at the bottom of the circular disk 21, and can horizontally rotate around its axis, a material guide plate 22 is installed on the circular disk 21, and the material guide plate 22 is configured in two states on the circular disk 21: a fixed state and a released state, wherein the material guide plate 22 and the circular plate 21 are relatively fixed in the fixed state, the material guide plate 22 and the circular plate 21 are separated from each other in the released state, the clearance between the material guide plate 22 and the circular plate 21 is smaller than the passing clearance of the conveyed goods and is fixed above the circular plate 21, and the material guide plate 22 and the plate edge of the circular plate 21 enclose a goods flow channel (A in the figure);

referring to fig. 2, in the collecting state, the goods are temporarily stored on the circular plate 21 from the production line, and the material guiding plate 22 is fixed, in this embodiment, the material guiding plate 22 is placed on the circular plate 21, or an adsorbing member such as a magnet is disposed at a corresponding position of the circular plate 21, the material guiding plate 22 is adsorbed on the circular plate 21 and rotates along with the circular plate 21, and the material guiding plate 22 in the fixed state plays a role of material separation, so that the goods are distributed along the material guiding plate 22 until the circular plate 21 is full of the goods;

it is worth mentioning that the goods on the circular plate 21 rotate together with the circular plate without causing mutual extrusion and relative friction.

When the circular plate 21 is full of goods, the goods on the circular plate 21 can be discharged, and the goods on the circular plate 21 are output and returned to the production line for subsequent output. In this process, the guide plate 22 is switched to the release state. In this embodiment, a support is fixedly installed above the circular plate 21 (the support is separated from the circular plate 21 and fixed on the ground or a conveyor), a fixing tool is provided on the support, the fixing tool can be an electromagnetic valve or a mechanical arm, and is used for clamping the material guide plate 22, i.e., separating the material guide plate 22 from the circular plate 21, and here, the gap between the material guide plate 22 and the circular plate 21 is controlled so as not to be passed by goods. As shown in fig. 2, the material guide plate includes an inclined plate 221, an arc-shaped plate 222 and a guide-out plate 223 connected in sequence, wherein the inclined plate 221 is inclined outward from the center of the circular plate 21; the goods rotate on the circular plate 21, are guided to the goods flow channel A by the material guide plate 22, and sequentially arrive on the delivery track 23 for output.

In order to prevent the stacked goods from being discharged together, as shown in fig. 2, a baffle plate 24 is fixedly installed at one end of the guide plate 22, an inlet end of the goods flow passage a is formed by a gap between the baffle plate 24 and the disc surface of the circular disc 21, the inlet end is passed only by a single layer of goods, and the baffle plate 24 vertically extends upward for blocking the upper layer of goods. The baffle plate 24 is arranged to stack multiple layers of goods on the circular tray 21, and the goods can be output in sequence when being output.

Referring to fig. 1 again, goods on the assembly line are conveyed to the circular disc 21 through the steering conveyor 5, in order to achieve that the goods are fully distributed on the end face of the circular disc 21, a pushing platform is arranged at the tail end of the steering conveyor 5, a manipulator is installed on one side of the pushing platform, the steering conveyor 5 conveys the goods to the pushing platform, then the goods are pushed to different positions of the circular disc 21 through the manipulator, and the goods are fully distributed on the disc surface through rotation of the circular disc 21. .

In addition, in order to control the delivery interval of the goods when the circular disk 21 is delivered, an intermittent conveyance mechanism is installed on the delivery rail 23: referring to FIG. 3: the intermittent conveying mechanism comprises a motor-driven cam 43, a separating member 41 is contacted above the cam 43, the middle part of the separating member 41 is rotatably connected to the delivery track 23, one end of the separating member 41 bends upwards and extends along the delivery direction of the delivery track 23 and bends towards the delivery track 23 to form an upper blocking member 45, the other end bends downwards and extends along the delivery direction of the delivery track 23 and bends towards the delivery track 23 to form a lower blocking member 42, the end parts of the upper and lower blocking members are oppositely provided with blocking blocks 44, and a window 231 is arranged on the end surface of the delivery track 23 for the lower blocking member 42 to penetrate through.

In operation, a load is positioned between the upper and lower barriers 45, 42 and is blocked by the upper barrier 45, and the lower barrier 42 separates two adjacent loads. When the goods need to be delivered, the motor for driving the cam 43 is started, the cam 43 rotates to lift the separating piece 41, the upper blocking piece 45 lifts up randomly, the first goods are output, the cam 43 continues to rotate immediately, the separating piece falls down to block the second goods, the goods are output sequentially, and the delivery rail 23 can adopt a roller conveyor with power and can also carry out blanking according to height drop.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (4)

1. A conveying system assembly device is characterized in that: the device comprises a circular disc (21) which is driven by a motor to rotate horizontally around the center of the circular disc, wherein a material guide plate (22) is arranged on the circular disc (21), and the material guide plate (22) is configured into two states on the circular disc (21): the device comprises a fixed state and a released state, wherein in the fixed state, a material guide plate (22) and a circular disc (21) are relatively fixed, in the released state, the material guide plate (22) and the circular disc (21) are separated from each other, the gap between the material guide plate (22) and the circular disc (21) is smaller than the passing gap of conveyed goods and is fixed above the circular disc (21), and the material guide plate (22) and the disc edge of the circular disc (21) are enclosed to form a goods flow channel A;

a baffle plate (24) is fixedly arranged at one end of the material guide plate (22), an inlet end of a goods flow channel A is formed by a gap between the baffle plate (24) and the disc surface of the circular disc (21), the inlet end is only used for passing goods in a single layer, and the baffle plate (24) vertically extends upwards to block the goods on the upper layer;

when the material guide plate (22) is in a release state, the exterior of a cargo flow channel formed by the material guide plate is butted with an outward conveying track (23), and an intermittent conveying mechanism (4) is arranged on the outward conveying track (23).

2. A delivery system assembly device according to claim 1, wherein: the material guide plate (22) comprises an inclined plate (221), an arc-shaped plate (222) and a guide-out plate (223) which are sequentially connected, wherein the inclined plate (221) is arranged in an outward inclined mode by taking the central position of the circular disc (21) as a starting point.

3. A delivery system assembly device according to claim 2, wherein: the top of the circular plate (21) is provided with a bracket which is fixed on the ground, and a clamping device is fixedly arranged on the bracket and is used for fixedly clamping the material guide plate (22) so that the material guide plate (22) is switched from a fixed state to a release state.

4. A delivery system assembly device according to claim 3, wherein: intermittent type conveying mechanism (4) are arranged on the delivery track (23), the intermittent type conveying mechanism (4) comprises a cam (43) driven by a motor, a separating part (41) is in contact connection with the upper portion of the cam (43), the middle portion of the separating part (41) is rotatably connected to the delivery track (23), one end of the separating part (41) bends upwards and then extends along the delivery direction of the delivery track (23) and bends towards the delivery track (23) to form an upper blocking part (45), the other end bends downwards and then extends along the delivery direction of the delivery track (23) and bends towards the delivery track (23) to form a lower blocking part (42), and a window (231) is formed in the end face of the delivery track (23) and is used for the lower blocking part (42) to penetrate out.

Images