CN217599606U - Carrier reversing structure of clip-shaped conveying line - Google Patents

Abstract

The utility model discloses a carrier switching-over structure of returning type transfer chain, include frame, rectilinear movement module, carrier locating plate and dial material mechanism, the rectilinear movement module includes sharp cylinder and first rail block mechanism, first rail block mechanism level sets up on the mesa of frame, sharp cylinder is on a parallel with first rail block mechanism fixed mounting in the frame, slidable mounting has the carrier locating plate in the first rail block mechanism, it is provided with two to dial material mechanism, sets up respectively in rectilinear movement module both ends top, dial and be provided with the pull cylinder in the material mechanism. The utility model provides a carrier switching-over structure of type transfer chain returns adopts to dial material mechanism and dials the material when feeding and the ejection of compact, makes the accurate carrier that gets into of product during the feeding, makes during the ejection of compact that the product removes to setting for the setting position after all breaking away from the carrier, and the rectilinear movement module drives the carrier transverse motion who carries the product, realizes the switching-over action of product.

Description

Carrier reversing structure of clip-shaped conveying line

Technical Field

The utility model relates to a carrier conveying equipment technical field specifically is a carrier switching-over structure of type transfer chain returns.

Background

The conveying line is mainly used for completing the conveying task of the materials. In the places surrounding the storehouses, the production workshops and the packaging workshops, a conveying chain consisting of a plurality of belt conveyors, roller conveyors and the like is arranged, and the continuous conveying line is formed by connecting the belt conveyors, the roller conveyors and the like end to end. And a path fork device, a lifter and a ground conveying line are arranged at the inlet and the outlet of the material. Thus, a closed circulation conveying line system which can smoothly reach all production positions is formed in the range of a storehouse, a production workshop and a packaging workshop. The circular conveying action of the clip-shaped conveying line is commonly used for a production line of a complete process to realize closed-loop production, and the problem that a carrier cannot be accurately positioned exists during reversing of the existing clip-shaped conveying line.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a carrier switching-over structure of type transfer chain returns to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a carrier switching-over structure of type transfer chain returns, includes frame, rectilinear movement module, carrier locating plate and dials the material mechanism, the rectilinear movement module includes sharp cylinder and first guide rail slider mechanism, first guide rail slider mechanism level sets up on the mesa of frame, sharp cylinder is on a parallel with first guide rail slider mechanism fixed mounting in the frame, slidable mounting has the carrier locating plate in the first guide rail slider mechanism, the movable part and the carrier locating plate fixed connection of sharp cylinder, it is provided with two to dial the material mechanism, sets up respectively in rectilinear movement module both ends top, it is provided with the pull cylinder in the mechanism to dial.

Preferably, the material stirring mechanism comprises a material stirring plate, a second guide rail slider mechanism, a guide rail mounting plate and a material stirring cylinder, the guide rail mounting plate is fixedly connected to the frame, a guide rail of the second guide rail slider mechanism is perpendicular to a guide rail of the first guide rail slider mechanism, the guide rail is horizontally arranged above the first guide rail slider mechanism, the drawing cylinder is slidably mounted on the second guide rail slider mechanism, the material stirring cylinder is fixedly connected to the frame, a telescopic part of the material stirring cylinder is fixedly connected with the drawing cylinder, and the material stirring plate is mounted on the movement of the drawing cylinder.

Preferably, the lower end of the material poking plate is provided with a material poking block, and the material poking block is arranged on the material poking plate in a distance-adjustable manner.

Preferably, the material stirring block is provided with a limiting through hole and a distance adjusting threaded hole, the lower end of the material stirring plate is rotatably provided with a bolt, the bolt is in threaded connection with the distance adjusting threaded hole on the material stirring block, and the end part of the bolt is provided with a locking nut.

Preferably, a limiting pin is arranged in the limiting through hole in the material stirring block, and the limiting pin is connected with the pin hole of the material stirring block.

Preferably, the carrier positioning plate is of a unilateral groove structure, the bottom of the carrier positioning plate is provided with a limiting strip, and two ends of the limiting strip are arranged to be V-shaped and pointed.

Preferably, limit stops are arranged at two ends of the guide rail of the first guide rail sliding block mechanism.

Advantageous effects

The utility model provides a carrier switching-over structure of type transfer chain returns adopts and dials the material mechanism and dials the material when feeding and ejection of compact, makes the product accurately enter the carrier during feeding, makes the product all break away from and move to setting for the fixed position after the carrier during ejection of compact, and the straight line removes the transverse motion of module drive carrier that carries the product, realizes the switching-over action of product, gets into next production processes; the distance-adjustable setting block is arranged on the setting plate and can be suitable for setting various carriers with structural characteristics.

Drawings

Fig. 1 is a three-dimensional schematic diagram of the overall structure of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of the carrier positioning plate of the present invention.

Reference numerals

The device comprises a rack 10, a linear moving module 20, a linear air cylinder 21, a first guide rail slide block mechanism 22, a carrier positioning plate 30, a limiting strip 31, a material poking mechanism 40, a material poking plate 41, a second guide rail slide block mechanism 42, a guide rail mounting plate 43, a material poking air cylinder 44, a material poking block 45 and a drawing air cylinder 46.

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.

Examples

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the content of the present invention within the protection scope of the present invention.

Referring to fig. 1 and 2, a carrier reversing structure of a clip-type conveying line includes a frame 10, a linear moving module 20, a carrier positioning plate 30 and a material shifting mechanism 40, where the linear moving module 20 includes a linear cylinder 21 and a first guide rail slider mechanism 22, the first guide rail slider mechanism 22 is horizontally disposed on a table top of the frame 10, the linear cylinder 21 is parallel to the first guide rail slider mechanism 22 and fixedly mounted on the frame 10, the first guide rail slider mechanism 22 is slidably mounted with the carrier positioning plate 30, a movable portion of the linear cylinder 21 is fixedly connected with the carrier positioning plate 30, the material shifting mechanism 40 is provided with two pieces and respectively disposed above two end portions of the linear moving module 20, the material shifting mechanism 40 is provided with a pull cylinder 46, during feeding, the pull cylinder 46 goes upward, the material shifting mechanism 40 shifts a carrier at a previous station onto the carrier positioning plate 30 and then returns to an initial position, the linear cylinder 21 pushes the carrier positioning plate 30 to move to another end along the first guide rail slider mechanism 22, the material shifting mechanism at a discharge end shifts the carrier from the carrier positioning plate 30 and enters a next station, and then the linear moving module 20 returns to the initial position and drives the carrier positioning plate to a product reversing cycle, thereby completing the product reversing cycle.

As a further optimization, the material-shifting mechanism 40 includes a material-shifting plate 41, a second guide rail slider mechanism 42, a guide rail mounting plate 43 and a material-shifting cylinder 44, the guide rail mounting plate 43 is fixedly connected to the frame 10, the guide rail of the second guide rail slider mechanism 42 is perpendicular to the guide rail of the first guide rail slider mechanism 22 and is horizontally disposed above the first guide rail slider mechanism 22, the drawing cylinder 46 is slidably mounted on the second guide rail slider mechanism 42, the material-shifting cylinder 44 is fixedly connected to the frame 10, the extension portion of the material-shifting cylinder 44 is fixedly connected to the drawing cylinder 46, the material-shifting plate 41 is mounted on the movable portion of the drawing cylinder 46, the lower end of the material-shifting plate 41 is provided with a material-shifting block 45, the material-shifting block 45 is mounted on the material-shifting plate 41 with an adjustable distance, the drawing cylinder 46 retracts, the material-shifting plate 41 goes upward, the material-shifting block 45 is far away from the carrier plate, the material-shifting cylinder 44 drives the material-shifting plate 41 to move to the far end of the carrier, the drawing cylinder 46 retracts, the material-shifting block 41 drives the material-shifting block 45 to go downward, and the material-shifting cylinder 44 drives the material-shifting block 45 to move into the carrier positioning plate 30.

As a further optimization, a limiting through hole and a distance adjusting threaded hole are formed in the material shifting block 45, a bolt is rotatably mounted at the lower end of the material shifting plate 41 and is in threaded connection with the distance adjusting threaded hole in the material shifting block 45, a locking nut is mounted at the end of the bolt, the locking nut is loosened, the bolt is rotated to adjust the distance between the material shifting block 45 and the material shifting plate 41, and when the retraction state of the drawing cylinder 46 is maintained, the material shifting block 45 can push the carrier plate along with the material shifting cylinder 44.

As further optimization, a limit pin is arranged in the limit through hole on the material stirring block 45, and the limit pin is connected with the pin hole of the material stirring plate 41 and used for limiting and connecting the material stirring block 45.

As furtherly optimizing, carrier locating plate 30 sets up to unilateral limit groove structure, and the bottom is provided with spacing 31, and spacing 31 both ends set up to V-arrangement cusp form, and the V-arrangement cusp form plays the guide effect for the carrier board gets into carrier locating plate 30 more smoothly, prevents to block the material.

Preferably, limit stops are disposed at two ends of the guide rail of the first rail-slider mechanism 22 for limiting the moving position of the carrier positioning plate 30 along the first rail-slider mechanism 22.

The working principle is as follows: during feeding, the drawing cylinder 46 moves upwards, the drawing cylinder 46 contracts, the material shifting plate 41 moves upwards, the material shifting block 45 is far away from the carrier plate, the material shifting cylinder 44 drives the material shifting plate 41 to move to the far end of the carrier, the drawing cylinder 46 contracts, the material shifting plate 41 drives the material shifting block 45 to move downwards, the material shifting cylinder 44 drives the material shifting block 45 to move and enter the carrier positioning plate 30, the material shifting mechanism 40 shifts the carrier of the previous station onto the carrier positioning plate 30 and then returns to the initial position, the linear cylinder 21 pushes the carrier positioning plate 30 to move to the other end along the first guide rail slider mechanism 22, the material shifting mechanism at the discharge end shifts the carrier away from the carrier positioning plate 30 and enters the next station, then the linear moving module 20 drives the carrier positioning plate 30 to return to the initial position and enter the next working cycle, and the carrier drives the product to complete reversing.

Claims (7)

1. The utility model provides a carrier switching-over structure of type transfer chain returns, includes frame (10), rectilinear movement module (20), carrier locating plate (30) and dials material mechanism (40), its characterized in that: linear movement module (20) includes straight line cylinder (21) and first rail slide mechanism (22), first rail slide mechanism (22) level sets up on the mesa of frame (10), straight line cylinder (21) are on a parallel with first rail slide mechanism (22) fixed mounting on frame (10), slidable mounting has carrier locating plate (30) on first rail slide mechanism (22), the movable part and carrier locating plate (30) fixed connection of straight line cylinder (21), it is provided with two to dial material mechanism (40), sets up respectively in linear movement module (20) both ends top, dial and be provided with pull cylinder (46) on material mechanism (40).

2. The carrier reversing structure of a loop conveyor line according to claim 1, characterized in that: kick-out mechanism (40) are including kickoff (41), second guide rail slider mechanism (42), guide rail mounting panel (43) and kick-out cylinder (44), guide rail mounting panel (43) fixed connection is in frame (10), the guide rail of the first guide rail slider mechanism of guide rail perpendicular to (22) of second guide rail slider mechanism (42), and the level setting is in first guide rail slider mechanism (22) top, pull cylinder (46) slidable mounting is on second guide rail slider mechanism (42), kick-out cylinder (44) fixed connection is on frame (10), and the pars contractilis and pull cylinder (46) fixed connection of kick-out cylinder (44), and the movable part at pull cylinder (46) is installed in kickoff (41).

3. The carrier reversing structure of a loop conveyor line as claimed in claim 2, wherein: the lower end of the material poking plate (41) is provided with a material poking block (45), and the material poking block (45) is arranged on the material poking plate (41) in an adjustable distance mode.

4. The carrier reversing structure of the loop conveying line according to claim 3, characterized in that: the material stirring device is characterized in that a limiting through hole and a distance adjusting threaded hole are formed in the material stirring block (45), a bolt is rotatably installed at the lower end of the material stirring plate (41), the bolt is in threaded connection with the distance adjusting threaded hole in the material stirring block (45), and a locking nut is installed at the end of the bolt.

5. The carrier reversing structure of a loop conveyor line as claimed in claim 4, wherein: and limiting pins are arranged in the limiting through holes in the material stirring block (45) and are connected with the material stirring plate (41) through pin holes.

6. The carrier reversing structure of the loop conveying line according to claim 1, characterized in that: carrier locating plate (30) set up to unilateral limit groove structure, and the bottom is provided with spacing (31), spacing (31) both ends set up to V-arrangement cusp form.

7. The carrier reversing structure of the loop conveying line according to claim 1, characterized in that: and limit stops are arranged at two ends of the guide rail of the first guide rail sliding block mechanism (22).

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