CN217837298U - Vibration dish unloading improves device - Google Patents

Abstract

The utility model discloses a vibration dish unloading improves device. Vibration dish unloading improves device, including vibration dish body, with the transmission work piece passageway that vibration dish body meets, its characterized in that, transmission work piece passageway includes: conveying the end face of the workpiece; the side end face is connected with one side of the end face of the transmission workpiece; the end face of the transmission workpiece is also provided with a first step group end face and a second step group end face; the first step group end face specifically comprises: a first stepped end face; a second step end face connected with the first step end face; the second step end face is connected with the side end face; and an arc-shaped plate is arranged on the side end face connected with the end face of the second step. In this way, the utility model provides a vibration dish unloading improves device can realize the stable unloading of work piece.

Description

Vibration dish unloading improves device

Technical Field

The utility model relates to a transmission work piece field especially relates to a vibration dish unloading improves device.

Background

The vibrating disk is an auxiliary feeding device of an automatic assembling or automatic processing machine, and is called a feeding device for short. The working principle of the vibrating disk is that the frequency converter and the motor realize the automatic conveying function. The pulse electromagnet is arranged below the vibrating disc hopper, so that the hopper can vibrate in the vertical direction, and the inclined spring piece drives the hopper to do torsional vibration around the vertical shaft of the hopper. The parts in the hopper, as a result of being subjected to such vibrations, rise along a helical track. During the ascending process, the parts can automatically enter the assembling or machining position in a uniform state according to the assembling or machining requirements through screening or posture change of a series of tracks. The working purpose is to automatically, orderly, directionally and neatly arrange the disordered workpieces by vibration and accurately convey the disordered workpieces to the next procedure.

In the process of implementing the prior art, the inventor finds that:

when the vibration disc arranges the disordered workpieces into ordered workpieces for blanking, the workpieces still pop up from the disc surface, so that ordered directional arrangement and accurate conveying to the next procedure cannot be realized. In the process, if the air-blowing workpieces are arranged in order, the problem that the workpieces cannot be conveyed to the next procedure in order still occurs.

Therefore, a vibration disk discharging improvement device for stably conveying workpieces needs to be provided to solve the problem that the disk surface is easy to pop up due to instability of the workpieces conveyed by the vibration disk in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves is the problem of solving among the prior art vibration dish transmission work piece unstability and popping out the quotation easily.

In order to solve the technical problem, the utility model discloses a technical scheme be:

the utility model provides a vibration dish unloading improves device, including vibration dish body, with the transmission work piece passageway that vibration dish body meets, its characterized in that, transmission work piece passageway includes: conveying the end face of the workpiece; the side end face is connected with one side of the end face of the transmission workpiece;

the end face of the transmission workpiece is also provided with a first step group end face and a second step group end face;

the first step group end face specifically comprises: a first stepped end face; a second step end face connected with the first step end face; the second step end face is connected with the side end face;

an arc-shaped plate is arranged on the side end face connected with the end face of the second step;

the second step group end face specifically includes: a third stepped end face; a fourth step end face connected with the third step end face; the fourth step end face is connected with the side end face;

a square plate is further arranged on the side end face connected with the fourth step end face;

the cross section of the fourth step end surface is concave.

In a preferred embodiment of the present invention, a spacing distance is provided between the arc-shaped plate on the side end surface connected to the second step end surface and the second step end surface;

the spacing distance is set at least according to the length of the conveyed workpiece.

In a preferred embodiment of the present invention, one end of the square plate on the side end surface connected to the fourth step end surface is further provided with a concave groove;

the concave groove is butted with the concave cross section of the fourth step end surface.

In a preferred embodiment of the present invention, the first step end surface is an inclined end surface.

The utility model has the advantages that: through the vibrating disk discharging improvement device provided by the application, the disordered workpieces can be automatically, orderly, directionally and regularly arranged and accurately conveyed to the next procedure.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a vibrating plate blanking improving apparatus 100 according to the present invention;

the parts in the drawings are numbered as follows: a vibrating disk blanking improving device-100; a vibrating disk body-1; a workpiece conveying channel-2; conveying the end face-20 of the workpiece; a first step set end-201; a first step end-2011; second step end-2012; a second step group end face-202; third step end-2021; fourth step end-2022; a side end face-21; an arc-shaped plate-211; square plate-212.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1, the utility model provides a vibration dish unloading improves device 100, including vibration dish body 1, with the transmission work piece passageway 2 that vibration dish body 1 meets, its characterized in that, transmission work piece passageway 2 includes: a conveying workpiece end face 20; a side end face 21 connected to the side of the work conveying end face 20; the end face 20 of the transmission workpiece is also provided with a first step group end face 201 and a second step group end face 202; the first step group end surface 201 specifically includes: a first step end face 2011; a second step end face 2012 joined to the first step end face 2011; the second step end face 2012 is connected to the side end face 21; an arc-shaped plate 211 is arranged on the side end face 21 connected with the second step end face 2012; the second step group end surface 202 specifically includes: a third step end 2021; a fourth step end 2022 connected to the third step end 2021; the fourth step end surface 2022 is connected to the side end surface 21; a square plate 212 is further arranged on the side end face 21 connected with the fourth step end face 2022; the cross section of the fourth step end surface 2022 is concave.

Specifically, the vibrating disk blanking improving device 100 provided by the application is mainly improved aiming at the problem that workpieces cannot be stably and orderly conveyed on the workpiece conveying channel 2. It will be appreciated that the workpiece will generally contact the end face 20 of the workpiece being transported and the side end face 21 which abuts the end face 20 of the workpiece being transported during transport through the transport path.

It should be noted that in order to avoid the workpiece from falling out of the side of the workpiece-conveying end face 20 where the side end face 21 is not provided during conveyance of the workpiece-conveying end face 20, the inclination of the angle of the workpiece-conveying end face 20 to the side end face 21 may be set to ensure stable conveyance of the workpiece at the workpiece-conveying end face 20.

The end face 20 of the transmission workpiece is also provided with a first step group end face 201 and a second step group end face 202. It is understood that the first step group end face 201 provided in the end face 20 of the conveying workpiece is a section of the whole end face 20 of the conveying workpiece, and the second step group end face 202 is also a section of the whole end face 20 of the conveying workpiece.

The first step group end surface 201 specifically includes: a first step end face 2011; a second step end face 2012 joined to the first step end face 2011; the second step end surface 2012 abuts the side end surface 21. It will be appreciated that the gradient between the first step end surface 2011 and the second step end surface 2012 of the first step group end surface 201 is different, i.e., different in height. When the workpiece passes through the first step end face 201, some workpieces may pass through the first step end face 2011, and some workpieces may pass through the second step end face 2012. It should be noted that the second step end face 2012 of the first step group end face 201 is abutted against the side end face 21, and the conveyed workpiece end face 20 is abutted against the side end face 21, and obviously, the second step end face 2012 of the first step group end face 201 is abutted against the conveyed workpiece end face 20. It will be appreciated that as the workpiece passes over the first step set end face 201, the workpiece continues to be transported as it passes over the second step end face 2012 and onto the transport workpiece end face 20 which abuts the second step end face 2012.

It should also be noted that in one embodiment provided herein, the first step end face 2011 is a slanted end face. As the workpiece passes over the first stepped end surface 2011, the workpiece moves along the inclined end surface. The step end face is provided so that only the workpiece remaining on the second step end face 2012 can pass by the workpiece, and the workpiece on the first step end face 2011 can be rearranged in order.

It will be appreciated that the provision of the first step set end face 201 on the conveyed workpiece end face 20 will separate the workpieces conveyed thereon. The workpiece passing through the first stepped end face 2011 moves along the inclined end face, passes through the second stepped end face 2012, and is transferred to the workpiece transfer end face 20 connected to the second stepped end face 2012. It can be seen that the workpieces passing through the first step group end face 201 can be continuously conveyed only through the second step end face 2012, and the possibility of conveying the workpieces side by side at the workpiece end faces 20 is reduced. It should also be noted that the workpiece passing through the first stepped end face 2011 is moved in a direction in which the first stepped end face 2011 is inclined, which is set in a direction inclined toward the vibration plate, so that the workpiece is re-conveyed to the conveyed workpiece end face 20.

The side end face 21 connected with the second step end face 2012 is provided with an arc-shaped plate 211, and the arc-shaped plate 211 is mainly used for preventing the erected workpiece from passing through by the arc-shaped plate 211 when the workpiece passes through the second step end face 2012, so that the consistency of workpiece arrangement is realized, and meanwhile, the stability of the workpiece on the second step end face 2012 is ensured. Of course, the arc plates 211 can also separate the workpieces stacked together in pairs to realize the sequential conveying of the workpieces on the conveying workpiece end face 20. The arc plate 211 may be formed by welding a bent plate material to the side end surface 21, or may be formed by an arc iron piece supported by an end block (not shown). The present application preferably employs a segment of circular iron supported by a break block, in view of the integrity of the part.

It should also be noted that there is a spacing distance between the arc-shaped plate 211 on the side end face 21 that meets the second step end face 2012 and the second step end face 2012;

the spacing distance is set at least according to the length of the conveyed workpiece.

Specifically, the distance between the arc plate 211 and the second step end surface 2012 should be a distance that ensures stable conveyance of the workpiece. It should be noted that the precondition for ensuring the distance of stable conveyance of the workpiece is to ensure the stability of conveyance of the workpiece on the second step end face 2012. For example, when the workpiece is placed horizontally, the stability is high, and the distance between the arc plate 211 and the second step end surface 2012 is set to be the distance through which the workpiece can pass horizontally. It should also be understood that the arcuate plate 211 may be spaced from the second step end 2012 a distance that is greater than the distance that the workpiece can traverse, but less than the distance that the workpiece can traverse when placed in other positions, such as when the workpiece is standing.

The second step group end face 202 specifically includes: a third step end 2021; a fourth step end 2022 connected to the third step end 2021; the fourth step end surface 2022 is in contact with the side end surface 21. It is understood that the gradient, i.e., the height, is different between the third step end surface 2021 and the fourth step end surface 2022 of the second step group end surface 202. When the workpiece passes through the end faces of the third step group, some of the workpieces pass through the third step end face 2021, and some of the workpieces pass through the fourth step end face 2022. It should be noted that the fourth step end surface 2022 of the second step end surface 202 is in contact with the side end surface 21, and the workpiece-transferring end surface 20 is in contact with the side end surface 21, and obviously, the fourth step end surface 2022 of the second step end surface 202 is in contact with the workpiece-transferring end surface 20. It will be appreciated that as the workpiece passes the second stepped end face 202, the workpiece continues to be transported as it passes the fourth stepped end face 2022 and is transported to the transported workpiece end face 20 which is adjacent to the fourth stepped end face 2022.

It should also be noted that in one embodiment provided herein, the third step end 2021 is a slanted end. As the workpiece passes over the third stepped end 2021, the workpiece moves along the inclined end. The inclination angle of the third step end 2021 is set to an angle that facilitates the dropping of the workpiece, considering that the step end is set so that the workpiece can be rearranged in order to retain only the workpiece on the fourth step end 2022 when the workpiece passes by.

It will be appreciated that the provision of the second stepped set of end surfaces 202 on the conveyed workpiece end surface 20 will separate the workpieces conveyed thereon. The workpiece passing through the third step end surface 2021 moves along the inclined end surface, and is transferred to the workpiece transfer end surface 20 connected to the fourth step end surface 2022 via the fourth step end surface 2022. It can be seen that the workpieces passing through the third stepped end 2022 can be transported continuously, and the possibility of transporting the workpieces side by side at the end 20 of the workpieces is reduced. It should also be noted that the workpiece passing through the third step end face 2021 moves in a direction in which the third step end face 2021 is inclined, the direction being set to be inclined toward the vibratory pan, so that the workpiece is re-conveyed to the conveyed workpiece end face 20.

The side end face 21 connected with the fourth step end face 2022 is further provided with a square plate 212. The square plate 212 is mainly used for blocking materials which do not enter the rail through the square plate 212 when the workpiece passes through the fourth step end face 2022, and then preventing the workpiece from being blocked.

It should be noted that the cross section of the fourth step end surface 2022 is concave, i.e. the above-mentioned rail, and the workpiece which is not on the fourth step end surface 2022 is shielded by the square plate 212. The main reason for providing the square-shaped plate 212 is to remove a wrongly-placed workpiece. For example, the workpiece is most stably laid transversely, but some workpieces are not laid transversely on the rail of the fourth stepped end surface 2022, and the square plate 212 is arranged to block the workpiece which is not laid transversely on the rail of the fourth stepped end surface 2022 in order to prevent the workpiece from blocking the blanking of the vibrating east pan. The square plate 212 is provided with a concave groove connected with the fourth stepped end surface 2022, and the workpiece can only pass through the concave groove of the square plate 212 and the concave cross section of the opposite fourth stepped end surface 2022, so that the workpiece can be stably conveyed.

Through the vibration dish unloading improvement device 100 that this application provided, can cancel the mode through the air-blowing product in the past, realize the orderly range of product, reduce the condemned probability of product, improve the stable transmission performance of product. Meanwhile, air blowing products are not adopted, and waste of air sources is reduced.

The above-mentioned only be the embodiment of the present invention, not consequently the restriction of the patent scope of the present invention, all utilize the equivalent structure or equivalent flow transform made of the content of the specification and the attached drawings, or directly or indirectly use in other relevant technical fields, all including in the same way the patent protection scope of the present invention.

Claims (4)

1. The utility model provides a vibration dish unloading improves device, including vibration dish body, with the transmission work piece passageway that vibration dish body meets, its characterized in that, transmission work piece passageway includes: conveying the end face of the workpiece; the side end face is connected with one side of the end face of the transmission workpiece;

the end face of the transmission workpiece is also provided with a first step group end face and a second step group end face;

the first step group end face specifically comprises: a first stepped end face; a second step end face connected to the first step end face; the second step end face is connected with the side end face;

an arc-shaped plate is arranged on the side end face connected with the end face of the second step;

the second step group end face specifically includes: a third stepped end face; a fourth step end face connected with the third step end face; the fourth step end face is connected with the side end face;

a square plate is further arranged on the side end face connected with the fourth step end face;

the cross section of the fourth step end surface is concave.

2. The improved blanking device for the vibrating disk according to claim 1, wherein a spacing distance is provided between the arc-shaped plate on the side end face connected with the second step end face and the second step end face;

the spacing distance is set at least according to the length of the conveyed workpiece.

3. The improved blanking device for the vibrating disk according to claim 1, wherein one end of the square plate on the side end surface connected with the fourth step end surface is further provided with a concave groove;

the concave groove is butted with the concave cross section of the fourth step end surface.

4. The vibrating pan blanking improvement device of claim 1, wherein said first stepped end surface is a beveled end surface.

Images