CN211102926U - Novel upper and lower feeding mechanism - Google Patents

Abstract

The utility model discloses a novel up-down feeding mechanism, which comprises a body, a power part, a front-back feeding part, an upper-down feeding part, a front-back feeding part, an upper-down feeding part, a cam roller, an upper cam groove and a lower cam groove, wherein the front-back feeding part and the upper-down feeding part are arranged in the body in a penetrating way, one end of the front-back feeding part is connected with the power part, the side surface of the front-back feeding part is provided with the cam roller, the side surface of the upper-down feeding part is provided with the upper-down cam groove, the cam roller is driven to move along the track of the upper-down cam groove, the body is also provided with an ascending limit floating block and a descending limit floating block, the ascending limit floating block is used for preventing the upper-down feeding part from moving backwards when descending, the power part is adopted to provide power, the production cost is saved, and meanwhile, the 0.2 second cycle time is saved.

Description

Novel upper and lower feeding mechanism

Technical Field

The utility model belongs to connector production field especially relates to a novel upper and lower feeding mechanism.

Background

In the production process of the connector, the traditional feeding mechanism needs to realize the movement of front and back feeding and up and down feeding, two power parts are usually needed to be arranged, namely the power parts driving the front and back direction and the up and down direction are respectively adopted, and no matter how to optimize the design, the cost is hardly saved and the production period is hardly shortened.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem to the defect that exists among the above-mentioned prior art, provide a practice thrift the cost, shorten production cycle time's novel upper and lower feeding mechanism.

In order to solve the technical problem, the utility model discloses the technical scheme who takes as follows:

the utility model provides a novel upper and lower feeding mechanism, includes body, power spare, front and back feeding member and upper and lower feeding member wear to establish in this body, and the one end and the power spare of feeding member are connected around this, the side of front and back feeding member is equipped with cam roller, the side of upper and lower feeding member is equipped with upper and lower cam groove, cam roller is driven along the orbit motion of upper and lower cam groove, still be equipped with on the body and rise spacing slider and decline spacing slider, the spacing slider that rises is used for preventing the forward motion of feeding member when going up from top to bottom, descend spacing slider and be used for preventing feeding member backward motion when going down from top to bottom, feeding member carries out the upper and lower pay-off with the product from top to.

Preferably, the body comprises a first mounting block, a second mounting block and a product track, the first mounting block is connected with the second mounting block, the product track is arranged at the upper ends of the first mounting block and the second mounting block, a sliding groove is formed in the first mounting block, the front feeding piece and the rear feeding piece are arranged in the sliding groove in a penetrating mode, a movable groove is formed in the second mounting block, and the upper feeding piece and the lower feeding piece are contained in the movable groove.

Preferably, the ascending limit slider and the descending limit slider respectively penetrate through the bottom of the movable groove, one end of the ascending limit slider is connected with a first spring stop block, the first spring stop block is used for mounting the ascending limit slider, a spring is arranged between the first spring stop block and the ascending limit slider, the descending limit slider is connected with a second spring stop block, the second spring stop block is used for mounting the descending limit slider, and a spring is arranged between the second spring stop block and the descending limit slider.

Preferably, the ascending limit floating block is arranged on one side of the upper feeding member and the lower feeding member and abuts against the front end faces of the upper feeding member and the lower feeding member, the descending limit floating block is arranged on the other side of the upper feeding member and the lower feeding member, the lower end face of the descending limit floating block is higher than the upper end faces of the upper feeding member and the lower feeding member, the ascending limit floating block is provided with a first chamfer, a first notch corresponding to the first chamfer is arranged on the upper feeding member and the lower feeding member, a second chamfer is arranged on the descending limit floating block, and a second notch corresponding to the second chamfer is arranged on the upper feeding member and the lower.

Preferably, the upper side of the upper feeding piece and the lower feeding piece is provided with a feeding block, and the feeding block is used for clamping products.

Preferably, the front and rear feeding members are provided with limiting members, the limiting members are provided with buffers, and the buffers are installed between the feeding air cylinders and the body.

The utility model discloses a power spare provides power, can accomplish the removal about, about the product, compares with traditional upper and lower feeding mechanism, has used less a power spare, has saved manufacturing cost, has practiced thrift 0.2 second cycle time simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a sectional view of this embodiment A-A;

FIG. 3 is a schematic view of the upper and lower feeding members of the present embodiment;

wherein, the body 1; a first mounting block 11; a chute 111; a second mounting block 12; a movable groove 121; a lift-limiting slider 121; a descending limit slider 122; a first spring stop 123; a second spring stop 124; a product track 13; a feeding cylinder 2; a cylinder holder 21; a front and rear feeding member 3; a cam roller 31; an upper and lower feeding member 4; a feeding block 41; upper and lower cam grooves 42; a first notch 43; a second notch 44; a limiting member 5; a buffer 6.

Detailed Description

In the following, an embodiment of the present invention will be described in detail with reference to the drawings, but it should be understood that the scope of the present invention is not limited by the embodiment.

Referring to fig. 1-3, a novel up-down feeding mechanism comprises a body 1, a power member, a front-back feeding member 3, an up-down feeding member 4, wherein in this embodiment, the power member adopts a feeding cylinder 2, the feeding cylinder 2 is mounted on the cylinder support 21, the front-back feeding member 3, the up-down feeding member 4 and the feeding cylinder 2 are inserted into the body 1, the body 1 comprises a first mounting block 11, a second mounting block 12 and a product rail 13, the first mounting block 11 is connected with the second mounting block 12, the product rail 13 is arranged at the upper ends of the first mounting block 11 and the second mounting block 12, the first mounting block 11 is provided with a chute 111, the front-back feeding member 3 is inserted into the chute 111, the second mounting block 12 is provided with a movable groove 121, the up-down feeding member 4 is accommodated in the movable groove 121, the upper side of the up-down feeding member 4 is provided with a plurality of feeding blocks 41, the feeding block 41 is used for clamping products; one end of the front and rear feeding pieces 3 is connected with the feeding cylinder 2, the side surfaces of the front and rear feeding pieces 3 are provided with cam rollers 31, the side surfaces of the upper and lower feeding pieces 4 are provided with upper and lower cam grooves 42, the cam rollers 31 are driven to move along the tracks of the upper and lower cam grooves 42, the upper and lower cam grooves 42 are in a stretched S shape, when the cam rollers 31 are positioned at the upper half parts of the upper and lower cam grooves 42, the feeding blocks 41 of the upper and lower feeding pieces 4 are accommodated in the movable grooves 121, and when the cam rollers 31 are positioned at the lower half parts of the upper and lower cam grooves 42, the feeding blocks 41 of the upper and lower feeding pieces 4 extend out of the upper end surfaces of the second mounting; the second mounting block 12 is further provided with an ascending limit slider 121 and a descending limit slider 122, the ascending limit slider 121 and the descending limit slider 122 respectively penetrate through the bottom of the movable groove 121, one end of the ascending limit slider 121 is connected with a first spring stopper 123, the first spring stopper 123 is used for mounting the ascending limit slider 121, a spring is arranged between the first spring stopper 123 and the ascending limit slider 121, the descending limit slider 122 is connected with a second spring stopper 124, the second spring stopper 124 is used for mounting the descending limit slider 122, a spring is arranged between the second spring stopper 124 and the descending limit slider 122, the ascending limit slider 121 is arranged on one side of the upper and lower feeding members 4 and abuts against the front end faces of the upper and lower feeding members 4, the descending limit slider 122 is arranged on the other side of the upper and lower feeding members 4, the lower end surface of the lifting limiting floating block 121 is higher than the upper end surfaces of the upper and lower feeding members 4, a first chamfer is arranged on the lifting limiting floating block 121, a first notch 43 corresponding to the first chamfer is arranged on the upper and lower feeding members 4, a second chamfer is arranged on the lowering limiting floating block 122, a second notch 44 corresponding to the second chamfer is arranged on the upper and lower feeding members 4, the lifting limiting floating block 121 is used for preventing the upper and lower feeding members 4 from moving forwards during lifting, when the cam roller 31 is positioned on the upper half part of the upper and lower cam groove 42, the lower end surface of the lifting limiting floating block 121 and the lower end surfaces of the upper and lower feeding members 4 are positioned on the same horizontal plane, the lifting limiting floating block 121 supports against the front end surface of the upper and lower feeding members 4, the lower end surface of the lowering limiting floating block 122 is higher than the upper end surfaces of the upper and lower feeding members 4, and the position of; the descending limit floating block 122 is used for preventing the upper and lower feeding members 4 from moving backwards when descending, when the cam roller 31 is positioned at the lower half part of the upper and lower cam groove 42, the upper end surface of the ascending limit floating block 121 is lower than the lower end surfaces of the upper and lower feeding members 4, the position of the first chamfer corresponds to the position of the first notch 43, the upper end surface of the descending limit floating block 122 and the upper end surfaces of the upper and lower feeding members 4 are positioned on the same horizontal plane, and the descending limit floating block 122 abuts against the rear end surfaces of the upper and lower feeding members 4; and the front and rear feeding pieces 3 are provided with limiting pieces 5, the limiting pieces 5 are provided with buffers 6, and the buffers 6 are arranged between the feeding cylinder 2 and the body 1.

The working principle is as follows: the connector product is fed onto the product track 13, at the moment, the cam roller 31 is positioned at the upper half part of the upper and lower cam grooves 42, when feeding upwards, the piston rod of the feeding cylinder 2 extends out to drive the front and rear feeding members 3 to move forwards, the cam roller 31 moves to the lower half part of the upper and lower cam grooves 42, because the ascending limit floating block 121 abuts against the front end surface of the upper and lower feeding members 4 to prevent the front end surface from moving forwards, the upper and lower feeding members 4 can only move upwards, at the moment, the upper end surface of the ascending limit floating block 121 is lower than the lower end surface of the upper and lower feeding members 4, the second chamfer of the descending limit floating block 122 falls into and passes through the second notch 44, so that the spring between the descending limit floating block 122 and the second spring stop block 124 is compressed, the descending limit floating block 122 abuts against the side end surface of the second mounting block 12, thereby the limitation of the forward movement of the upper and lower feeding members 4 is, the product falls between every two feeding blocks 41 and the upward feeding action is realized; and the piston rod of the feeding cylinder 2 continues to extend out to drive the upper feeding piece and the lower feeding piece 4 to move forwards until the buffer 6 moves in place, so that front and back feeding is completed.

Similarly, the cam roller 31 is located at the lower half part of the upper and lower cam grooves 42 during resetting, the upper end surface of the ascending limit floating block 121 is lower than the lower end surfaces of the upper and lower feeding members 4, the position of the first chamfer corresponds to the position of the first notch 43, the upper end surface of the descending limit floating block 122 is at the same horizontal plane as the upper end surfaces of the upper and lower feeding members 4, the descending limit floating block 122 abuts against the rear end surfaces of the upper and lower feeding members 4, and when the piston rod of the feeding cylinder 2 retracts, the upper and lower feeding members 4 are driven to move downwards and then the upper and lower feeding members 4 are driven to move backwards, so that the feeding mechanism in the embodiment resets.

The above disclosure is only for the preferred embodiments of the present invention, and the scope of the present invention should not be limited thereby, and the scope of the present invention is not intended to be limited thereby.

Claims (6)

1. The utility model provides a novel upper and lower feeding mechanism, its characterized in that, includes body, power spare, front and back feeding member and upper and lower feeding member wear to establish in this body, and the one end of feeding member is connected with power spare around this, the side of front and back feeding member is equipped with cam roller, the side of feeding member is equipped with upper and lower cam groove from top to bottom, cam roller is driven along the orbit motion of upper and lower cam groove, still be equipped with on the body and rise spacing slider and descend spacing slider, the spacing slider that rises is used for preventing the forward motion of feeding member when rising from top to bottom, descend spacing slider is used for preventing feeding member rearward motion when descending from top to bottom.

2. The novel vertical feeding mechanism as claimed in claim 1, wherein the body comprises a first mounting block, a second mounting block and a product rail, the first mounting block is connected with the second mounting block, the product rail is arranged at the upper ends of the first mounting block and the second mounting block, a sliding groove is formed in the first mounting block, the front feeding piece and the rear feeding piece are arranged in the sliding groove in a penetrating manner, a movable groove is formed in the second mounting block, and the upper feeding piece and the lower feeding piece are accommodated in the movable groove.

3. The novel vertical feeding mechanism as claimed in claim 2, wherein the ascending limiting slider and the descending limiting slider respectively penetrate through the bottom of the movable groove, one end of the ascending limiting slider is connected with a first spring stop, the first spring stop is used for mounting the ascending limiting slider, a spring is arranged between the first spring stop and the ascending limiting slider, the descending limiting slider is connected with a second spring stop, the second spring stop is used for mounting the descending limiting slider, and a spring is arranged between the second spring stop and the descending limiting slider.

4. The novel vertical feeding mechanism as claimed in claim 3, wherein the ascending limit floating block is disposed on one side of the upper and lower feeding members and abuts against the front end faces of the upper and lower feeding members, the descending limit floating block is disposed on the other side of the upper and lower feeding members, the lower end face of the ascending limit floating block is higher than the upper end faces of the upper and lower feeding members, the ascending limit floating block is provided with a first chamfer, the upper and lower feeding members are provided with a first notch corresponding to the first chamfer, the descending limit floating block is provided with a second chamfer, and the upper and lower feeding members are provided with a second notch corresponding to the second chamfer.

5. The novel vertical feeding mechanism as claimed in claim 1, wherein the upper feeding member and the lower feeding member are provided with feeding blocks at the upper side, and the feeding blocks are used for clamping products.

6. The feeding mechanism as claimed in claim 1, wherein the front and rear feeding members are provided with a position-limiting member, the position-limiting member is provided with a buffer, and the buffer is installed between the feeding cylinder and the body.

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