CN218930807U - Feeding mechanism - Google Patents

Abstract

The utility model relates to the technical field of feeding mechanisms, in particular to a feeding mechanism. It comprises the following steps: the side beams are arranged at intervals, at least one belt conveying mechanism is arranged on the inner sides of the side beams, and the side beams are connected with a driving motor for driving the belt conveying mechanism to work; the upper right end of the side beam is provided with a unidirectional placing structure for placing the carrier, and a jacking device is arranged between the right ends of the two side beams, when the carrier is jacked up upwards by the jacking device, the carrier passes through the unidirectional placing structure, and when the top frame device resets, the carrier moves downwards until being abutted with the unidirectional placing structure. According to the utility model, the unidirectional placing structure and the jacking device are arranged, so that the carrier is jacked up at the tail end of the feeding mechanism to leave the feeding mechanism, the normal operation of the feeding mechanism can be prevented from being interfered, and the resetting operation of the jacking device is not needed.

Description

Feeding mechanism

Technical Field

The utility model relates to the technical field of feeding mechanisms, in particular to a feeding mechanism.

Background

When the product is conveyed, the product is carried and conveyed by the carrier, when the product is conveyed to a feeding area or a discharging area, the carrier is blocked by the blocking unit, then the product is transferred, and the carrier is manually moved at the tail end of the feeding mechanism; when in use, the utility model is not always moved in time by manpower; in order to prevent the carrier from falling off the conveying, a plurality of manufacturers are provided with blocking units; when the carrier still stays on the feeding mechanism, a load is still formed on the conveying line; in order to solve the problem, a large manufacturer is provided with a jacking device for jacking the carrier, wherein the carrier is temporarily separated from the conveying line; because of uncertainty of manual handling, the working state of the jacking device is relieved and manual operation is needed; and adding extra workload to the human.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a feeding mechanism, wherein a carrier placement structure is arranged at the tail end of the feeding mechanism, so that the feeding mechanism is convenient to use.

A feed mechanism, comprising: the side beams are arranged at intervals, at least one belt conveying mechanism is arranged on the inner sides of the side beams, and the side beams are connected with a driving motor for driving the belt conveying mechanism to work; the upper right end of the side beam is provided with a unidirectional placing structure for placing the carrier, and a jacking device is arranged between the right ends of the two side beams, when the carrier is jacked up upwards by the jacking device, the carrier passes through the unidirectional placing structure, and when the top frame device resets, the carrier moves downwards until being abutted with the unidirectional placing structure.

Further, the side beams are connected with supporting legs; the jacking device comprises a supporting frame, a supporting table is arranged at the upper end of the supporting frame, a jacking cylinder is connected to the lower end of the middle of the supporting table, and a jacking block is connected to the push rod of the jacking cylinder through the supporting table.

Preferably, the both sides of supporting bench are connected with linear bearing, and linear bearing cup joints the guide post, and the upper end and the jacking piece fixed connection of guide post.

Further, the placement structure includes: the L-shaped block is fixedly connected with the side beam, the horizontal section of the L-shaped block is positioned above the side beam, and the vertical section of the L-shaped block is positioned at the outer side of the side beam; the vertical section is fixedly connected with the side beam; the upper end of the horizontal section is provided with a notch, a placing block is hinged in the notch, the inner end of the placing block extends out of the notch, the lower end of the placing block is provided with an inclined plane, one end of the placing block is provided with a limiting part propped against the horizontal section, and the limiting part prevents the inner end of the placing block from rotating downwards relative to the horizontal section.

Further, a hinge shaft is arranged in the notch, and the placement block is provided with a shaft hole.

Still preferably, the hinge shaft is connected with a torsion spring.

Further, the right end of the side beam is provided with an inductor.

The utility model has the beneficial effects that: according to the utility model, the unidirectional placing structure and the jacking device are arranged, so that the carrier is jacked up at the tail end of the feeding mechanism to leave the feeding mechanism, the normal operation of the feeding mechanism can be prevented from being interfered, and the resetting operation of the jacking device is not needed.

Drawings

Fig. 1 is a schematic structural diagram of an application of the present embodiment.

Fig. 2 is a schematic diagram of another structure applied to the present embodiment.

Fig. 3 is a schematic structural view of the jacking device.

The reference numerals include:

1, a belt conveying mechanism; 2-jacking device; 3-side beams; 4-a drive motor; 5-a carrier; 6, a notch; 7, placing a block; 8-L-shaped block; 9—an inductor; 10-one-way placement structure; 11-support legs; 12-inclined plane; 21—a support table; 22—a guide post; 23-jacking cylinder; 24-a supporting frame; 25—a jacking block; 26-linear bearings.

Detailed Description

The utility model is described in detail below with reference to the accompanying drawings. As shown in fig. 1-2.

Example 1: a feed mechanism, comprising: two side beams 3 arranged at intervals, at least one belt conveying mechanism 1 is arranged on the inner side of each side beam 3, and each side beam 3 is connected with a driving motor 4 for driving the belt conveying mechanism 1 to work; the upper right end of the side beam 3 is provided with a unidirectional placing structure 10 for placing the carrier 4, a jacking device 2 is arranged between the right ends of the two side beams 3, when the jacking device 2 jacks up the carrier 4 upwards, the carrier 4 passes through the unidirectional placing structure 10, and when the top frame device resets, the carrier 4 moves downwards until being abutted with the unidirectional placing structure 10.

The carrier 4 is conveyed, two sides of the carrier 4 are respectively lapped on the belts on the belt conveying mechanisms 1 at two sides, and the carrier 4 is driven to move forwards through the movement of the belts at two sides; the right end in the technical scheme is the tail end of the feeding mechanism; according to the technical scheme, the unidirectional placing structure 10 is arranged at the right upper end of the side beam 3, so that the carrier 4 can be received; the carrier 4 can pass through unidirectionally and is placed on the unidirectionally placing structure 10 with the assistance of the top frame device, so that the carrier is separated from the belt conveying mechanism 1, and the use is convenient.

Further, the side members 3 are connected with support legs 11; referring to fig. 3, the jacking device 2 includes a supporting frame 24, a supporting table 21 is disposed at an upper end of the supporting frame 24, a jacking cylinder 23 is connected to a lower end of a middle portion of the supporting table 21, and a jacking block 25 is connected to a push rod of the jacking cylinder 23 through the supporting table 21.

Preferably, two sides of the supporting table 21 are connected with linear bearings 26, the linear bearings 26 are sleeved with guide columns 22, and the upper ends of the guide columns 22 are fixedly connected with the jacking blocks 25.

The side beam 3 is provided with the supporting legs 11 to increase the height thereof so as to facilitate the arrangement of the jacking device 2, and the jacking device 2 mainly completes the jacking action through the jacking cylinder 23.

In order to allow the jacking block 25 to move smoothly during lifting, guide posts 22 and linear bearings 26 are provided.

See fig. 1, 2; further, the placement structure includes: an L-shaped block 8 fixedly connected with the side beam 3, wherein the horizontal section of the L-shaped block 8 is positioned above the side beam 3, and the vertical section of the L-shaped block 8 is positioned outside the side beam 3; the vertical section is fixedly connected with the side beam 3; the upper end of horizontal segment is equipped with breach 6, is equipped with in the breach 6 to articulate has to place the piece 7, places the inner of piece 7 and stretches out breach 6, and places the lower extreme of piece 7 and be equipped with inclined plane 12, places the one end of piece 7 and be equipped with the spacing portion that offsets with the horizontal segment, and the spacing portion prevents to place the inner of piece 7 and rotate downwards relative to the horizontal segment.

The placing block 7 is basically kept horizontal under the action of self gravity, the limiting part of the placing block 7 is propped against the horizontal section, and the inclined plane 12 of the placing block 7 is positioned below; when the jacking device 2 jacks up the carrier 4, the carrier 4 is propped against the inclined surface 12 of the placement block 7, the inner end of the placement block 7 moves upwards, the placement block 7 rotates, when the carrier 4 passes over the placement structure, the placement block 7 resets under the self gravity, the jacking device 2 resets, the carrier 4 is propped against the placement block 7 and is positioned above the side beam 3, and the work of the feeding mechanism is not influenced. The width of the jacking plate is smaller in design; without interfering with the placement block 7. The placement blocks 7 may be in the shape of a right triangle.

Further, a hinge shaft is arranged in the notch 6, and the placement block 7 is provided with a shaft hole.

Still preferably, the hinge shaft is connected with a torsion spring.

In order to facilitate the hinging between the placement block 7 and the L-shaped block 8, the water-proof structure with the hinging shaft and the shaft hole matched is adopted. Secondly, in order to enable the placement block 7 to reset rapidly, a torsion spring is additionally arranged. Of course, other types of springs, etc. may be provided.

Further, the right end of the side member 3 is provided with an inductor 9.

An inductor 9 is provided for monitoring whether the carrier 4 arrives, and once the carrier 4 arrives, the jacking device 2 is started, and the jacking device 2 is reset immediately after being operated, and the carrier 4 is carried on the unidirectional placement structure 10.

The foregoing is merely exemplary of the utility model, and those skilled in the art will recognize that the utility model is not limited thereto, except insofar as modifications may be made by those skilled in the art in light of the teachings of the utility model.

Claims (7)

1. A feed mechanism, comprising: the side beams are arranged at intervals, at least one belt conveying mechanism is arranged on the inner sides of the side beams, and the side beams are connected with a driving motor for driving the belt conveying mechanism to work; the method is characterized in that: the upper right end of the side beam is provided with a unidirectional placing structure for placing the carrier, and a jacking device is arranged between the right ends of the two side beams, when the carrier is jacked up upwards by the jacking device, the carrier passes through the unidirectional placing structure, and when the top frame device resets, the carrier moves downwards until being abutted with the unidirectional placing structure.

2. A feed mechanism as claimed in claim 1, wherein: the side beams are connected with supporting legs; the jacking device comprises a supporting frame, a supporting table is arranged at the upper end of the supporting frame, a jacking cylinder is connected to the lower end of the middle of the supporting table, and a jacking block is connected to the push rod of the jacking cylinder through the supporting table.

3. A feed mechanism as claimed in claim 2, wherein: the both sides of supporting bench are connected with linear bearing, and linear bearing cup joints the guide post, and the upper end and the jacking piece fixed connection of guide post.

4. A feed mechanism as claimed in claim 1, wherein: the placement structure comprises: the L-shaped block is fixedly connected with the side beam, the horizontal section of the L-shaped block is positioned above the side beam, and the vertical section of the L-shaped block is positioned at the outer side of the side beam; the vertical section is fixedly connected with the side beam; the upper end of the horizontal section is provided with a notch, a placing block is hinged in the notch, the inner end of the placing block extends out of the notch, the lower end of the placing block is provided with an inclined plane, one end of the placing block is provided with a limiting part propped against the horizontal section, and the limiting part prevents the inner end of the placing block from rotating downwards relative to the horizontal section.

5. A feed mechanism as claimed in claim 4, wherein: the notch is internally provided with a hinge shaft, and the placement block is provided with a shaft hole.

6. A feed mechanism as claimed in claim 5, wherein: the hinge shaft is connected with a torsion spring.

7. A feed mechanism as claimed in claim 1, wherein: the right end of the side beam is provided with an inductor.

Images