CN214933061U - Double-output push rod feeding mechanism and assembly - Google Patents

Abstract

The utility model discloses a dual output push rod feeding mechanism, it includes two conveyer belts that set up side by side and locates the material subassembly that pushes away between two conveyer belts, it includes the shell to push away the material subassembly, rotationally locate the rotating member in the shell, locate two push rods at the relative both ends of shell slidable and articulate two connecting rods between every push rod and rotating member respectively, the centre of gyration of rotating member is located the center department of line between two pin joints, the push pedal is installed to the tip of push rod, the push pedal is located the outside of shell, be connected with L shape baffle on the lateral wall of push rod, the laminating of L shape baffle and the lateral wall of push pedal, and the diapire of push pedal and the up end slidable of the equal relative conveyer belt of diapire of L shape baffle. The utility model relates to an electric putter spare part pay-off field has realized that two-way automatic output pushes away the material, uses manpower sparingly and efficient. The utility model also discloses a dual output push rod pay-off assembly with this dual output push rod feeding mechanism.

Description

Double-output push rod feeding mechanism and assembly

Technical Field

The utility model relates to an electric putter spare part pay-off technique, in particular to a dual output push rod feeding mechanism and assembly.

Background

The electric push rod is an electric driving device which converts the rotary motion of an electric motor into the linear reciprocating motion of the push rod, realizes the extension and retraction of the push rod through the forward and reverse rotation of the motor, can be used as an execution machine to realize remote control, and is widely applied to daily products, such as electric sofas, lifting beds and the like.

The electric motor is used as a driving part of the electric push rod and plays an important role in the stable operation of the electric push rod. In the production process of the electric motor, in order to convey the material, i.e. the electric motor, a feeding mechanism is usually required, the most common feeding mechanism is a conveying belt, and generally, when the electric motor is used, the produced electric motor is placed on the conveying belt, and the electric motor is conveyed from one side of the conveying belt to the other side of the conveying belt. In actual work, in order to adapt to the unloading position of the electric motor, the electric motor needs to be removed from the conveying process of the conveying belt, so that an unloading person needs to be arranged on one side of the conveying belt to manually unload materials, the operation is troublesome, and the labor cost is increased. In addition, aiming at the condition that two parallel conveying belts are conveyed simultaneously, two discharging personnel are required to be arranged for discharging, so that the labor intensity is increased, the labor cost is further increased, and the feeding efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: in order to overcome the defects in the prior art, a double-output push rod feeding mechanism and assembly which are labor-saving, cost-effective and efficient are provided.

The utility model provides a technical scheme that its technical problem adopted is: a double-output push rod feeding mechanism, which comprises two parallel conveyer belts and a material pushing component arranged between the two conveyer belts, the pushing assembly comprises a shell with two through ends, a rotating part rotatably arranged in the shell, two push rods slidably arranged at two opposite ends of the shell and two connecting rods respectively hinged between each push rod and the rotating part, the rotation center of the rotating part is positioned at the center of a connecting line between the connecting rod and two hinge points of the rotating part, the end part of the push rod is provided with a push plate which is positioned outside the shell, the side wall of the push rod is connected with an L-shaped baffle, the L-shaped baffle is connected with the side wall of the end part of the shell in a sliding way, the L-shaped baffle is attached to the side wall of the push plate, and the bottom wall of the push plate and the bottom wall of the L-shaped baffle plate can slide relative to the upper end surface of the conveying belt.

Further, the shell is of a flat hollow shell structure, the shell comprises an accommodating portion and guide portions connected to two opposite sides of the accommodating portion, the cross section of the accommodating portion is of a circular structure, the rotating member is rotatably mounted in the accommodating portion, and the push rod is slidably connected with the guide portions.

Furthermore, the rotating member is of a rectangular plate-shaped structure, a rotating shaft is rotatably mounted on the bottom wall of the accommodating part, the rotating center of the rotating member is fixedly connected with the rotating shaft, one end of one of the connecting rods is hinged with one end of the rotating member, and one end of the other connecting rod is hinged with the other end of the rotating member.

Furthermore, a sliding groove is formed in the side wall of the guide portion along the length direction of the guide portion, and the L-shaped baffle is in sliding fit with the sliding groove.

Further, the push plate is of a rectangular plate-shaped structure, the push plate is perpendicular to the central axis of the push rod, the push rod is connected with the center of the push plate and projects along the moving direction of the push plate, and the projection area of the push plate is larger than that of the push rod.

Furtherly, every the striker plate is all installed to the relative both sides of conveyer belt, the push rod reaches one of them side is all passed to L shape baffle the striker plate, two in the striker plate, keep away from shell one side the discharge gate has been seted up on the striker plate, the discharge gate with the push pedal reaches L shape baffle is corresponding.

Further, vertically install the limiting plate between two the striker plate, the limiting plate is located the push pedal is kept away from one side of L shape baffle and with push pedal sliding connection, the diapire of limiting plate with the up end laminating of conveyer belt.

A dual-output push rod feeding assembly comprises the dual-output push rod feeding mechanism.

Further, double output push rod pay-off assembly still includes bears seat and driving motor, the lower terminal surface of shell through the support fixed connection of two relative settings bear on the up end of seat, driving motor fixed mounting be in the bottom of shell, driving motor drive the rotating member rotates.

The utility model has the advantages that: the utility model provides a dual output push rod feeding mechanism or pay-off assembly removes through rotating member and then drive push rod and push pedal, has realized pushing away the function of material to both sides simultaneously, and degree of automation is high, has saved the manpower, and through setting up L shape baffle, has guaranteed conveyer belt continuous operation, need not the intermittent type and has stopped carrying, and then has guaranteed transport material and has pushed away material efficiency, convenient to popularize and use.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a front view of the dual output pusher feed assembly of the present invention;

FIG. 2 is a top view of the dual output pusher feed mechanism of the dual output pusher feed assembly of FIG. 1 (with the top plate of the housing omitted).

In the figure: 1. the device comprises a conveying belt, 11, a material baffle plate, 12, a discharge port, 13, a limiting plate, 20, a material pushing assembly, 21, a shell, 211, an accommodating part, 212, a guide part, 213, a rotating shaft, 214, a sliding groove, 22, a rotating part, 23, a push rod, 231, a push plate, 232, an L-shaped baffle plate, 24, a connecting rod, 30, a bearing seat, 31, a support, 40 and a driving motor.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

Please refer to fig. 1 and 2, the utility model provides a dual output push rod feeding mechanism, including two conveyer belts 10 that set up side by side and the material pushing component 20 of setting between two conveyer belts 10, during the use, will be used for assembling electric putter's electric motor and place on conveyer belt 10 and along with the conveyer belt 10 removal, start material pushing component 20 for material pushing component 20 relative both sides are reciprocal flexible, thereby will place the material on two conveyer belts 10 and push down conveyer belt 10 simultaneously, thereby realize carrying midway function of unloading.

The material pushing assembly 20 comprises a housing 21 with two through ends, a rotating member 22 rotatably installed in the housing 21, two push rods 23 slidably installed at two opposite ends of the housing 21, and two connecting rods 24 respectively hinged between each push rod 23 and the rotating member 22, the rotating center of the rotating member 22 is located at the center of a connecting line between two hinge points of the connecting rods 24 and the rotating member 22, a push plate 231 is installed at the end of the push rod 23, the push plate 231 is located outside the housing 21, an L-shaped baffle 232 is connected to the side wall of the push rod 23, the L-shaped baffle 232 is slidably connected to the side wall of the end of the housing 21, the L-shaped baffle 232 is attached to the side wall of the push plate 231, and the bottom wall of the push plate 231 and the bottom wall of the L-shaped baffle 232 are both slidable relative to the upper end face of the conveyor belt 10. In order to clearly show the positions and connection relationships of the components inside the housing 21 in the top view, the top plate of the housing 21 is omitted in fig. 2.

In operation, the drive revolving part 22 anticlockwise rotates, under the pushing action of the connecting rod 24, two push rods 23 respectively connected to the connecting rod 24 extend out towards the direction of deviating from each other, and then drive the push plate 231 and the L-shaped baffle 232 to move together, when the push plate 231 moves, the electric motor which is positioned on the conveyer belt 10 and is conveyed can be pushed down to one side of the conveyer belt 10 (namely, the rear side of the push plate 231), meanwhile, the L-shaped baffle 232 moves together with the push plate 231, the electric motor which is conveyed afterwards can be blocked, it is avoided that part of the electric motor moves to one side of the push plate 231 close to the revolving part 22 due to the blocking action of the L-shaped baffle 232, and then the push plate 231 is reversely pushed when retracting. When the rotating member 22 rotates to a certain angle, so that the pushing plate 231 pushes the material, the rotating member 22 rotates clockwise, and the pushing plate 231 and the L-shaped baffle 232 are retracted to the initial position, and then enter the next material pushing process. In the material pushing process, the L-shaped baffle 232 has a blocking effect on the electric motor, and prevents the material on the conveying belt 10 from moving to the rear of the push plate 231, so that the continuous work of the conveying belt 10 can be ensured, the intermittent stop of conveying is not needed, and the material pushing efficiency is further ensured.

In this embodiment, the housing 21 has a flat hollow shell structure, the housing 21 includes an accommodating portion 211 and guide portions 212 connected to opposite sides of the accommodating portion 211, the accommodating portion 211 has a circular cross section, the rotating member 22 is rotatably mounted in the accommodating portion 211, and the push rod 23 is slidably connected to the guide portions 212.

The rotary member 22 has a substantially rectangular plate-like structure, the bottom wall of the accommodating portion 211 is rotatably provided with a rotating shaft 213, the center of rotation of the rotary member 22 is fixedly connected to the rotating shaft 213, one end of one of the links 24 is hinged to one end of the rotary member 22, and one end of the other link 24 is hinged to the other end of the rotary member 22, thereby achieving the rotation function of the rotary member 22 with respect to the housing 21.

The side wall of the guide part 212 is provided with a sliding groove 214 along the length direction of the guide part 212, and the L-shaped baffle 232 is in sliding fit with the sliding groove 214. When the push rod 23 reciprocally moves telescopically with respect to the housing 21, the L-shaped baffle 232 slides along the slide groove 213.

In this embodiment, the push plate 231 is a rectangular plate-shaped structure, the central axes of the push plate 231 and the push rod 23 are perpendicular to each other, the push rod 23 is connected with the center of the push plate 231, and the projection is performed along the moving direction of the push plate 231, the projection area of the push plate 231 is larger than the projection area of the push rod 23, so that the pushing area of the push plate 231 is ensured, and more materials can be pushed in unit time. Further, install L-shaped baffle 232 on push rod 23 and avoid connecting on push plate 231, avoided the condition that the load of relative both sides differs on push plate 231, guaranteed push plate 231 steady operation.

In order to avoid the free falling of the electric motor from the two sides of the conveying belt 10 in the conveying process of the conveying belt 10, the baffle plates 11 are installed on the two opposite sides of each conveying belt 10, the push rod 23 and the L-shaped baffle 232 penetrate through the baffle plate 11 on one side, in the two baffle plates 11, the discharge port 12 is formed in the baffle plate 11 on one side far away from the shell 21, the discharge port 12 corresponds to the push plate 231 and the L-shaped baffle 232, during the pushing process, the push plate 231 and the L-shaped baffle 232 push the electric motor, so that the electric motor is pushed down through the discharge port 12, and the material pushing function is realized.

In addition, vertically install limiting plate 13 between two striker plates 11, limiting plate 13 is located one side that L-shaped baffle 232 was kept away from to push pedal 231 and is connected with push pedal 231 sliding, and the diapire of limiting plate 13 and the up end laminating of conveyer belt 10, so, limiting plate 13 can block electric motor and continue to move forward along conveyer belt 10, effectively prevents that electric motor from removing too fast and surpassing the material pushing range of push pedal 231, has guaranteed that the material is pushed down completely.

Referring to fig. 1 again, the utility model also provides a dual output push rod feeding assembly, it includes foretell dual output push rod feeding mechanism, this dual output push rod feeding assembly still holds carrier 30 and driving motor 40, wherein, the lower terminal surface of shell 21 is through two relative support 31 fixed connection that set up on holding the up end of carrier 30, driving motor 40 fixed mounting is in the bottom of shell 21, driving motor 40 drives rotating member 22 and rotates. In the present embodiment, the output shaft of the drive motor 40 is fixedly connected to the rotation shaft 213.

In addition, bear and install two belt conveyor on the seat 30, belt conveyor includes conveyer belt 10, belt conveyor still include with conveyer belt 10 complex belt pulley, drive belt pulley pivoted belt motor, belt conveyor belongs to prior art, and concrete connection structure between each spare part is no longer repeated here.

The utility model provides a dual output push rod feeding mechanism or pay-off assembly removes through rotating member 22 and then drive push rod 23 and push pedal 231, has realized pushing away the function of material to both sides simultaneously, and degree of automation is high, has saved the manpower, and through setting up L shape baffle 232, has guaranteed conveyer belt 10 continuous operation, need not the intermittent type and has stopped carrying, and then has guaranteed transported substance material and has pushed away material efficiency, convenient to popularize and use.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides a dual output push rod feeding mechanism which characterized in that: comprises two parallel conveyer belts and a pushing component arranged between the two conveyer belts, wherein the pushing component comprises a shell with two through ends, a rotating part rotatably arranged in the shell, two push rods slidably arranged at two opposite ends of the shell and two connecting rods respectively hinged between each push rod and the rotating part, the rotation center of the rotating part is positioned at the center of a connecting line between the connecting rod and two hinge points of the rotating part, the end part of the push rod is provided with a push plate which is positioned outside the shell, the side wall of the push rod is connected with an L-shaped baffle, the L-shaped baffle is connected with the side wall of the end part of the shell in a sliding way, the L-shaped baffle is attached to the side wall of the push plate, and the bottom wall of the push plate and the bottom wall of the L-shaped baffle plate can slide relative to the upper end surface of the conveying belt.

2. The dual output pusher feed mechanism of claim 1, wherein: the shell is a flat hollow shell structure, the shell comprises an accommodating part and guide parts connected to two opposite sides of the accommodating part, the cross section of the accommodating part is of a circular structure, the rotating part is rotatably installed in the accommodating part, and the push rod is connected with the guide parts in a sliding mode.

3. The dual output pusher feed mechanism of claim 2, wherein: the rotary member is in a rectangular plate-shaped structure, a rotary shaft is rotatably arranged on the bottom wall of the accommodating part, the rotary center of the rotary member is fixedly connected with the rotary shaft, one end of one of the connecting rods is hinged with one end of the rotary member, and one end of the other connecting rod is hinged with the other end of the rotary member.

4. The dual output pusher feed mechanism of claim 2, wherein: the side wall of the guide part is provided with a sliding groove along the length direction of the guide part, and the L-shaped baffle is in sliding fit with the sliding groove.

5. The dual output pusher feed mechanism of claim 1, wherein: the push plate is of a rectangular plate-shaped structure, the push plate is perpendicular to the central axis of the push rod, the push rod is connected with the center of the push plate and projects along the moving direction of the push plate, and the projection area of the push plate is larger than that of the push rod.

6. The dual output pusher feed mechanism of claim 1, wherein: every the relative both sides of conveyer belt all install the striker plate, the push rod reaches one of them side is all passed to L shape baffle the striker plate, two in the striker plate, keep away from shell one side the discharge gate has been seted up on the striker plate, the discharge gate with the push pedal reaches L shape baffle is corresponding.

7. The dual output pusher feed mechanism of claim 6, wherein: and a limiting plate is vertically arranged between the two material blocking plates, the limiting plate is positioned on one side of the L-shaped baffle plate away from the push plate and is in sliding connection with the push plate, and the bottom wall of the limiting plate is attached to the upper end face of the conveying belt.

8. The utility model provides a dual output push rod pay-off assembly which characterized in that: the dual output pusher feed assembly comprising the dual output pusher feed mechanism of any of claims 1-7.

9. The dual output pusher feed assembly of claim 8, wherein: the double-output push rod feeding assembly further comprises a bearing seat and a driving motor, the lower end face of the shell is fixedly connected to the upper end face of the bearing seat through two oppositely arranged supports, the driving motor is fixedly installed at the bottom of the shell, and the driving motor drives the rotating part to rotate.

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