CN216835963U - Dislocation feedway - Google Patents

Abstract

The utility model relates to an auto parts technical field that moulds plastics especially relates to a dislocation feedway. The utility model discloses a dislocation feedway includes base plate and two sets of fortune material mechanisms, and two sets of fortune material mechanism parallel arrangement are on the base plate, and fortune material mechanism includes driving piece, sharp module and product carrier, and driving piece and sharp module all set up on the base plate, and the product carrier activity sets up on sharp module, and the output and the product carrier of driving piece are connected. One of the two groups of material conveying mechanisms is used for manual feeding on the left side, and the other group is used for machine material taking on the right side. The product carriers of the two groups of material conveying mechanisms work in a staggered mode on the corresponding linear modules respectively, when the product carriers of one group of material conveying mechanisms move from the left side to the right side, the product carriers of the other group of material conveying mechanisms move from the right side to the left side to ensure that an operator only needs to discharge materials on the left side, and a machine only needs to take materials on the right side, so that circular feeding and non-stop operation can be ensured, and meanwhile, the safety of the operator can be ensured.

Description

Dislocation feedway

Technical Field

The utility model relates to an auto parts technical field that moulds plastics especially relates to a dislocation feedway.

Background

In the technical field of automobile part injection molding, a feeding mechanism requiring man-machine interaction is frequently used, and particularly in some complicated occasions requiring high product positioning requirements, manual work and machines are required to simultaneously feed. In the existing production equipment, the positions of manual feeding and material taking of a machine are in the same position, and because an operator and the machine act in the same position, the action of material taking of the machine possibly affects the action of the operator, so that the risk of injuring the operator exists.

Therefore, a staggered feeding device is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a dislocation feedway can realize artifical feed and the dislocation of getting the material of machine and go on to guarantee operating personnel's safety, can realize circulation feed and not shut down the operation in addition.

To achieve the purpose, the utility model adopts the following scheme:

the utility model provides a dislocation feedway, includes base plate and two sets of fortune material mechanisms, and two sets of fortune material mechanisms parallel arrangement are on this base plate, and this fortune material mechanism includes driving piece, sharp module and product carrier, and this driving piece and this sharp module all set up on this base plate, and this product carrier activity sets up on this sharp module, and the output and the product carrier of this driving piece are connected, and this driving piece is configured to drive this product carrier and removes.

As an alternative, the dislocation feeding device further includes a limiting member, the limiting member is fixedly connected to the substrate, and the limiting member is disposed at two ends of the linear module.

As an alternative, the product carrier comprises a base and a jig, the base is connected with the linear module in a sliding mode, and the jig is configured to position and clamp the product to be transported.

Optionally, the product carrier further includes a handle coupled to the base.

Alternatively, the handle is provided with an anti-slip layer on the outer periphery.

As an alternative, the linear module includes a guide rail and a slider, the guide rail is disposed on the substrate, a bottom surface of the slider is slidably connected to the guide rail, and a top surface of the slider is fixedly connected to the base.

Alternatively, the jig is detachably connected with the base.

Alternatively, the drive is a cylinder drive.

As an alternative, the stopper is provided with a buffer layer on its outer periphery.

Alternatively, the cushioning layer is a cushioning layer made of a rubber material.

The utility model has the advantages that:

the utility model provides an among the dislocation feedway, the product carrier is used for bearing and treats the transportation product, through setting up two sets of fortune material mechanisms, and a set of is used for artifical blowing in the left side, and another group is used for the machine on the right side to get the material. The product carriers of the two groups of material conveying mechanisms work in a staggered mode on the corresponding linear modules respectively, when the product carriers of one group of material conveying mechanisms move from the left side to the right side, the product carriers of the other group of material conveying mechanisms move from the right side to the left side to ensure that an operator only needs to discharge materials on the left side, and a machine only needs to take materials on the right side, so that circular feeding and non-stop operation can be ensured, and meanwhile, the safety of the operator can be ensured.

Drawings

Fig. 1 is a schematic structural diagram of a dislocation feeding device according to an embodiment of the present invention.

In the figure:

100. a substrate; 200. a material conveying mechanism; 210. a drive member; 220. a linear module; 221. a guide rail; 222. a slider; 230. a product carrier; 231. a base; 232. a jig; 233. a handle; 300. and a limiting member.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some but not all of the elements related to the present invention are shown in the drawings.

The present invention is limited to certain orientation words, and when no opposite explanation is given, the used orientation words are "upper", "lower", "left", "right", "inner" and "outer", and these orientation words are adopted for easy understanding, and therefore do not constitute a limitation to the scope of the present invention.

In the present application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, the embodiment provides a dislocation feeding device, which includes a substrate 100 and two material transporting mechanisms 200, wherein the two material transporting mechanisms 200 are disposed in parallel on the substrate 100, the material transporting mechanism 200 includes a driving member 210, a linear module 220 and a product carrier 230, the driving member 210 and the linear module 220 are both disposed on the substrate 100, the product carrier 230 is movably disposed on the linear module 220, an output end of the driving member 210 is connected to the product carrier 230, and the driving member 210 is used for driving the product carrier 230 to move. The product carrier 230 is used for carrying the products to be transported, and through setting up two sets of fortune material mechanism 200, one set is used for artifical blowing on the left side, and another set is used for the machine on the right side and gets the material. The product carriers 230 of the two groups of material conveying mechanisms 200 respectively work on the corresponding linear modules 220 in a staggered mode, when the product carriers 230 of one group of material conveying mechanisms 200 move from left to right, the product carriers 230 of the other group of material conveying mechanisms 200 move from right to left to ensure that an operator only needs to discharge materials on the left, and a machine only needs to take materials on the right, so that circular feeding and non-stop operation can be ensured, and meanwhile, the safety of the operator can be ensured.

In order to ensure the position degree of the product carrier 230, the dislocation feeding device in the embodiment further includes a limiting member 300, the limiting member 300 is fixedly connected to the substrate 100, and the limiting members 300 are disposed at two ends of the linear module 220. By providing the stoppers 300, the product carriers 230 can be stopped at two ends of the linear module 220, so as to ensure that the initial positions of the product carriers 230 moving at each time are consistent, thereby ensuring the accuracy of the staggered operation of the two sets of product carriers 230. Specifically, the number of the limiting members 300 in the embodiment is four, and the four limiting members 300 are respectively disposed at two ends of the two sets of linear modules 220. Preferably, the stopper 300 may be welded to the substrate 100 to ensure connection stability therebetween. It is understood that the limiting member 300 is not limited to a block structure, and may be designed into other shapes according to the characteristics of the product carrier 230, so as to achieve the blocking effect on the product carrier 230.

Further, the limiting member 300 in this embodiment is provided with a buffer layer on the periphery. Through setting up the buffer layer, can provide cushioning effect for product carrier 230, avoid product carrier 230 to carry out rigid collision with locating part 300 when sharp module 220 tip, can reduce the harm to product carrier 230.

Further preferably, the cushion layer in the present embodiment is a cushion layer made of a rubber material. The rubber material has low cost and good buffering effect, and the buffering layer made of the rubber material is stable and reliable.

Specifically, the product carrier 230 in this embodiment includes a base 231 and a fixture 232, the base 231 is slidably connected to the linear module 220, and the fixture 232 is used for positioning and clamping the product to be transported. The shape of the jig 232 is determined according to the shape of the product to be transported as long as the product can be clamped. The mounting position of the fixture 232 is determined according to the positioning requirement of the product.

Further, the jig 232 in this embodiment is detachably connected to the base 231. Through setting up tool 232 and base 231 detachable connections, can guarantee to change tool 232 fast to satisfy the specification of different model products and the demand of location.

Further, the product carrier 230 in this embodiment further includes a handle 233, and the handle 233 is connected to the base 231. The product carrier 230 in this embodiment can be replaced to meet the requirement of transporting products of different models, and in order to conveniently replace the product carrier 230, the handle 233 is arranged to ensure that the product carrier 230 can be conveniently taken and placed to replace the product carrier 230.

Preferably, the outer periphery of the handle 233 in this embodiment is provided with an anti-slip layer to increase the friction of the outer periphery of the handle 233 and avoid slipping when the product carrier 230 is taken. Specifically, the anti-slip layer can be made of rubber or silica gel materials. Further, the outer side of the anti-slip layer can be provided with anti-slip lines to further improve the friction force of the anti-slip layer.

The linear module 220 in this embodiment includes a guide rail 221 and a slider 222, the guide rail 221 is disposed on the substrate 100, a bottom surface of the slider 222 is slidably connected to the guide rail 221, and a top surface of the slider 222 is fixedly connected to the base 231. The guide rail 221 and the sliding block 222 are selected as the linear module 220, so that the cost is low, the transmission is accurate, and the precision is high. In other embodiments, the linear module 220 may also be a ball screw linear module 220, which is not described herein.

The driver 210 in this embodiment is a cylinder driver 210. The transmission precision of the cylinder driving piece 210 is high, the response speed is high, and the speed of conveying products can be improved. In this embodiment, any connection relationship, specific structure, and specific control manner between the driving element 210 and other components in the prior art may be adopted, and the connection relationship, specific structure, and specific control manner between the driving element 210 and other components are not described in detail in this embodiment.

It is to be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments thereof. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides a dislocation feedway, characterized in that, includes base plate (100) and two sets of fortune material mechanism (200), and is two sets of fortune material mechanism (200) parallel arrangement in on base plate (100), fortune material mechanism (200) are including driving piece (210), sharp module (220) and product carrier (230), driving piece (210) with sharp module (220) all set up in on base plate (100), product carrier (230) activity set up in on sharp module (220), the output of driving piece (210) with product carrier (230) are connected, driving piece (210) are configured as the drive product carrier (230) remove.

2. The dislocation feeding device according to claim 1, further comprising a limiting member (300), wherein the limiting member (300) is fixedly connected to the base plate (100), and the limiting members (300) are disposed at two ends of the linear module (220).

3. The offset feeding device according to claim 2, wherein the product carrier (230) comprises a base (231) and a jig (232), the base (231) is slidably connected with the linear module (220), and the jig (232) is configured to position and clamp the product to be transported.

4. The malposition feeding device of claim 3, wherein said product carrier (230) further comprises a handle (233), said handle (233) being connected to said base (231).

5. The malposition feeding device according to claim 4, characterized in that the handle (233) is provided with an anti-slip layer on its periphery.

6. The misalignment feeding device according to claim 3, wherein the linear module (220) comprises a guide rail (221) and a slider (222), the guide rail (221) is disposed on the base plate (100), a bottom surface of the slider (222) is slidably connected to the guide rail (221), and a top surface of the slider (222) is fixedly connected to the base (231).

7. The dislocation feeding device according to claim 3, characterized in that said jig (232) is removably connected with said base (231).

8. The misalignment feeding device of claim 1, wherein the driving member (210) is a cylinder driving member.

9. The misalignment feeding device according to claim 2, characterized in that the limiting member (300) is provided with a buffer layer on the periphery.

10. The misalignment feeding device of claim 9, wherein the buffer layer is a buffer layer made of a rubber material.

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