CN111703860A

CN111703860A - Conveying device for core bar member processing

Info

Publication number: CN111703860A
Application number: CN202010596071.8A
Authority: CN
Inventors: 张�杰; 钟明
Original assignee: Jiaxing Outstanding Precision Machinery Co ltd
Current assignee: Jiaxing Outstanding Precision Machinery Co ltd
Priority date: 2020-06-28
Filing date: 2020-06-28
Publication date: 2020-09-25

Abstract

The invention provides a conveying device for core bar member processing, which comprises a feeding mechanism, a material guiding mechanism, a material bearing mechanism and a material discharging mechanism, wherein the feeding mechanism is assembled in a rack, and is connected with a feeding device, the feeding device feeds the core bar component to be processed into a feeding mechanism, the feeding mechanism arranges and temporarily stores the core bar component, a material guide mechanism is assembled in the machine frame, and is connected with a feeding mechanism, the core bar member is fed into the material guiding mechanism by the feeding mechanism, the material bearing mechanism is assembled in the machine frame, and is connected with the material guiding mechanism, the core bar member is sent into the material bearing mechanism by the material guiding mechanism, and is supported by the material bearing mechanism, the material discharging mechanism is assembled in the machine frame, and is connected with a material bearing mechanism, the processed core bar member is conveyed to a material discharging mechanism by the material bearing mechanism, the discharging mechanism is connected with a material storage device, and the processed core rod member is stored by the material storage device.

Description

Conveying device for core bar member processing

Technical Field

The invention relates to metal member processing equipment, in particular to a conveying device for core rod member processing.

Background

In the processing procedure of a core rod component, due to the requirements of production technology, the core rod components to be processed need to be sequentially conveyed and positioned to be matched with processing equipment for processing, the commonly used conveying device occupies a large space, the core rod components are difficult to process when being out of order or stacked in the conveying procedure and need to be manually corrected, so that the production cost is high, and the production efficiency is not favorably improved. Therefore, there is a need for a conveyor of this type which is structurally optimized to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide a conveying device for processing a core rod member, which is used for conveying the core rod member one by one so as to position the core rod member.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a conveying device for core rod member processing comprises a feeding mechanism, a material guiding mechanism, a material bearing mechanism and a material discharging mechanism, wherein the feeding mechanism is assembled in a rack, and is connected with a feeding device, the feeding device feeds the core bar component to be processed into a feeding mechanism, the feeding mechanism arranges and temporarily stores the core bar component, a material guide mechanism is assembled in the machine frame, and is connected with a feeding mechanism, the core bar member is fed into the material guiding mechanism by the feeding mechanism, the material bearing mechanism is assembled in the machine frame, and is connected with the material guiding mechanism, the core bar member is sent into the material bearing mechanism by the material guiding mechanism, and is supported by the material bearing mechanism, the material discharging mechanism is assembled in the machine frame, and is connected with a material bearing mechanism, the processed core bar member is conveyed to a material discharging mechanism by the material bearing mechanism, the discharging mechanism is connected with a material storage device, and the processed core rod member is stored by the material storage device.

In particular, the amount of the solvent to be used,

the feeding mechanism comprises an upper layer material plate, a lower layer material plate and a folding end plate, the upper layer material plate is assembled in the frame and extends along a first slant direction, the top end of the upper layer material plate is connected with the feeding equipment, a core rod component output by the feeding equipment can slide along the upper layer material plate, two sides of the upper layer material plate are respectively provided with an upper layer side plate, the sliding path of the core rod component in the upper layer material plate is limited by the upper layer side plate, the lower layer material plate is assembled in the frame and is positioned below the upper layer material plate and extends along a second slant direction, the top end of the lower layer material plate is connected with the bottom end of the upper layer material plate, the core rod component output by the upper layer material plate can slide along the lower layer material plate, two sides of the lower layer material plate are respectively provided with a lower layer side plate, the sliding path of the core rod component in the lower layer material plate is limited by the lower layer side plate, the folding end plate is assembled at the top end of the lower layer material, the core rod component output by the upper material plate is shielded by the folding end plate and slides to the lower material plate;

the guide mechanism comprises a guide bottom plate and a material blocking end plate, the guide bottom plate is assembled in the rack and is positioned below the lower-layer material plate and extends along a third oblique direction, the top end of the guide bottom plate is connected with the bottom end of the lower-layer material plate, a core rod member output by the lower-layer material plate can slide along the guide bottom plate, guide side plates are respectively arranged on two sides of the guide bottom plate, the sliding path of the core rod member in the guide bottom plate is limited by the guide side plates, the material blocking end plate is assembled at the top end of the guide bottom plate and extends upwards, a gap for the core rod member to pass through is reserved between the tail end of the lower-layer material plate and the material blocking end plate, and the core rod member output by the lower-layer material plate is blocked by the material blocking end plate and slides onto the guide;

the material bearing mechanism comprises a material bearing bottom plate, the discharge end of the material bearing bottom plate is assembled in the rack through a deflection shaft lever, the feed end of the material bearing bottom plate is connected with a deflection cylinder, the deflection cylinder drives the material bearing bottom plate to deflect, when the material bearing bottom plate deflects downwards to a first height, the feed end of the material bearing bottom plate is connected with the bottom end of the material guide bottom plate, the core bar member on the material guide bottom plate slides onto the material bearing bottom plate, when the material bearing bottom plate deflects upwards to a second height, the feed end of the material bearing bottom plate blocks the bottom end of the material guide bottom plate, the core bar members on the material guide bottom plate and the material bearing bottom plate stop moving, when the material bearing bottom plate deflects upwards continuously to a third height, the feed end of the material bearing bottom plate continues to block the bottom end of the material guide bottom plate, the core bar member;

the discharging mechanism comprises a discharging bottom plate, the discharging bottom plate is assembled in the rack and extends along a fourth oblique direction, the top end of the discharging bottom plate is connected with the discharging end of the material bearing bottom plate, the core rod members output by the material bearing bottom plate can slide along the discharging bottom plate, discharging side plates are arranged on two sides of the discharging bottom plate respectively, and the sliding paths of the core rod members in the discharging bottom plate are limited by the discharging side plates.

In one embodiment of the invention, the deflection cylinder is served by a multi-stage cylinder.

The invention has the advantages that:

this positioner adopts the different upper flitch of incline direction and lower floor's flitch to form feed mechanism, feed path obtains the extension, make the core bar component constantly adjust the position in feed path, reach the purpose of arranging in order, and occupation space is less, assist again and roll over the sheltering from to the end plate, avoid the core bar component to stack, adopt the old bottom plate that becomes that can deflect as holding material mechanism, realize a plurality of operating condition at the in-process that deflects, can make equipment structure simplify, high durability and convenient operation, and be favorable to reducing production cost, and the promotion work efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a conveying device for core rod member processing according to the present invention.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the invention is further described with reference to the figures and the specific embodiments.

As shown in fig. 1, the conveying device for core rod member processing according to the present invention includes a feeding mechanism, a material guiding mechanism, a material loading mechanism and a material discharging mechanism, the feeding mechanism is assembled in a frame, and is connected with a feeding device, the feeding device feeds the core bar component to be processed into a feeding mechanism, the feeding mechanism arranges and temporarily stores the core bar component, a material guide mechanism is assembled in the machine frame, and is connected with a feeding mechanism, the core bar member is fed into the material guiding mechanism by the feeding mechanism, the material bearing mechanism is assembled in the machine frame, and is connected with the material guiding mechanism, the core bar member is sent into the material bearing mechanism by the material guiding mechanism, and is supported by the material bearing mechanism, the material discharging mechanism is assembled in the machine frame, and is connected with a material bearing mechanism, the processed core bar member is conveyed to a material discharging mechanism by the material bearing mechanism, the discharging mechanism is connected with a material storage device, and the processed core rod member is stored by the material storage device. In this embodiment, the feeding mechanism includes an upper layer material plate 101, a lower layer material plate 102 and a folding end plate 103, the upper layer material plate is assembled in the frame and extends along a first slant direction, the top end of the upper layer material plate is connected with the feeding device, the core rod component output by the feeding device can slide along the upper layer material plate, two sides of the upper layer material plate are respectively provided with an upper layer material plate 104, the sliding path of the core rod component in the upper layer material plate is limited by the upper layer material plate, the lower layer material plate is assembled in the frame and is located below the upper layer material plate and extends along a second slant direction, the top end of the lower layer material plate is connected with the bottom end of the upper layer material plate, the core rod component output by the upper layer material plate can slide along the lower layer material plate, two sides of the lower layer material plate are respectively provided with a lower layer material plate 105, the sliding path of the core rod component in the lower layer material plate is limited by the lower layer material plate, a gap for the core rod component to pass through is reserved between the tail end of the upper layer material plate and the folding end plate, and the folding end plate shields the core rod component output by the upper layer material plate so that the core rod component slides to the lower layer material plate; the material guiding mechanism comprises a material guiding bottom plate 201 and a material stopping end plate 202, the material guiding bottom plate is assembled in the rack and located below the lower-layer material plate and extends along a third oblique direction, the top end of the material guiding bottom plate is connected with the bottom end of the lower-layer material plate, a core rod member output by the lower-layer material plate can slide down along the material guiding bottom plate, material guiding side plates 203 are respectively arranged at two sides of the material guiding bottom plate, the sliding path of the core rod member in the material guiding bottom plate is limited by the material guiding side plates, the material stopping end plate is assembled at the top end of the material guiding bottom plate and extends upwards, a gap for the core rod member to pass through is reserved between the tail end of the lower-layer material plate and the material stopping end plate, and the core rod member output by the material stopping end plate is shielded and slides; the material bearing mechanism comprises a material bearing bottom plate 301, the discharge end of the material bearing bottom plate is assembled in the rack through a deflection shaft lever 302, the feed end of the material bearing bottom plate is connected with a deflection cylinder 303, the deflection cylinder drives the material bearing bottom plate to deflect, when the material bearing bottom plate deflects downwards to a first height, the feed end of the material bearing bottom plate is connected with the bottom end of the material guide bottom plate, the core rod member on the material guide bottom plate slides onto the material bearing bottom plate, when the material bearing bottom plate deflects upwards to a second height, the feed end of the material bearing bottom plate blocks the bottom end of the material guide bottom plate, the material guide bottom plate and the core rod member on the material bearing bottom plate stop moving, when the material bearing bottom plate continuously deflects upwards to a third height, the feed end of the material bearing bottom plate continuously blocks the bottom end of the material guide bottom plate, the core rod member on; the discharging mechanism comprises a discharging bottom plate 401, the discharging bottom plate is assembled in the rack and extends along a fourth oblique direction, the top end of the discharging bottom plate is connected with the discharging end of the material bearing bottom plate, the core rod members output by the material bearing bottom plate can slide along the discharging bottom plate, discharging side plates 402 are arranged on two sides of the discharging bottom plate respectively, and the sliding paths of the core rod members in the discharging bottom plate are limited by the discharging side plates. In the present embodiment, the deflecting cylinder is filled with a multi-stage cylinder. This positioner adopts the different upper flitch of incline direction and lower floor's flitch to form feed mechanism, feed path obtains the extension, make the core bar component constantly adjust the position in feed path, reach the purpose of arranging in order, and occupation space is less, assist again and roll over the sheltering from to the end plate, avoid the core bar component to stack, adopt the old bottom plate that becomes that can deflect as holding material mechanism, realize a plurality of operating condition at the in-process that deflects, can make equipment structure simplify, high durability and convenient operation, and be favorable to reducing production cost, and the promotion work efficiency.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the scope of the present invention.

Claims

1. A conveyor for core rod member machining, comprising:

the feeding mechanism is assembled in the rack and is connected with feeding equipment, the core rod member to be processed is fed into the feeding mechanism by the feeding equipment, and the core rod member is arranged and temporarily stored by the feeding mechanism;

the material guide mechanism is assembled in the rack, is connected with the feeding mechanism, and sends the core bar member into the material guide mechanism by the feeding mechanism;

the material bearing mechanism is assembled in the rack and is connected with the material guide mechanism, the core rod member is sent into the material bearing mechanism by the material guide mechanism, and the core rod member is supported by the material bearing mechanism;

and the discharging mechanism is assembled in the rack and is connected with the material bearing mechanism, the processed core rod member is conveyed to the discharging mechanism by the material bearing mechanism, the discharging mechanism is connected with the material storage equipment, and the processed core rod member is stored by the material storage equipment.

2. The delivery device for core rod member tooling of claim 1, wherein the feed mechanism comprises:

the upper-layer material plate is assembled in the rack, extends along a first oblique direction, the top end of the upper-layer material plate is connected with the feeding equipment, the core rod component output by the feeding equipment can slide along the upper-layer material plate, the two sides of the upper-layer material plate are respectively provided with an upper-layer side plate, and the sliding path of the core rod component in the upper-layer material plate is limited by the upper-layer side plates;

the lower-layer material plate is assembled in the rack, is positioned below the upper-layer material plate and extends along a second oblique direction, the top end of the lower-layer material plate is connected with the bottom end of the upper-layer material plate, the core rod component output by the upper-layer material plate can slide along the lower-layer material plate, two sides of the lower-layer material plate are respectively provided with a lower-layer side plate, and the sliding path of the core rod component in the lower-layer material plate is limited by the lower-layer side plates;

and the folding end plate is assembled at the top end of the lower material plate and extends upwards, a gap for the core rod component to pass through is reserved between the tail end of the upper material plate and the folding end plate, and the core rod component output by the upper material plate is shielded by the folding end plate and slides to the lower material plate.

3. The conveying device for core rod member processing according to claim 2, wherein the material guiding mechanism comprises:

the guide bottom plate is assembled in the rack, is positioned below the lower-layer material plate and extends along a third oblique direction, the top end of the guide bottom plate is connected with the bottom end of the lower-layer material plate, the core rod component output by the lower-layer material plate can slide down along the guide bottom plate, guide side plates are respectively arranged at two sides of the guide bottom plate, and the slide-down path of the core rod component in the guide bottom plate is limited by the guide side plates;

keep off the material end plate, this keep off the material end plate assembly in the top of guide bottom plate, keep off the material end plate and extend to the top, leave the clearance that supplies core bar component to pass through between lower floor's flitch end and the fender material end plate, keep off by keeping off the material end plate core bar component of lower floor's flitch output, make its landing to on the guide bottom plate.

4. The conveying device for core rod member processing according to claim 3, wherein the material loading mechanism comprises:

the discharge end of the material bearing bottom plate is assembled in the rack through a deflection shaft lever, the feed end of the material bearing bottom plate is connected with a deflection cylinder, the deflection cylinder drives the material bearing bottom plate to deflect, when the material bearing bottom plate deflects downwards to a first height, the feed end of the material bearing bottom plate is connected with the bottom end of the material guide bottom plate, the core bar member on the material guide bottom plate slides onto the material bearing bottom plate, when the material bearing bottom plate deflects upwards to a second height, the feed end of the material bearing bottom plate blocks the bottom end of the material guide bottom plate, the material guide bottom plate and the core bar member on the material bearing bottom plate both stop moving, when the material bearing bottom plate continuously deflects upwards to a third height, the feed end of the material bearing bottom plate continuously blocks the bottom end of the material guide bottom plate, the core bar member on the material guide bottom plate continuously.

5. The delivery device of claim 4, wherein the discharge mechanism comprises:

the discharging bottom plate is assembled in the rack and extends along a fourth oblique direction, the top end of the discharging bottom plate is connected with the discharging end of the material bearing bottom plate, the core rod component output by the material bearing bottom plate can slide down along the discharging bottom plate, discharging side plates are arranged on two sides of the discharging bottom plate respectively, and the sliding path of the core rod component in the discharging bottom plate is limited by the discharging side plates.

6. The transport device for core rod member machining according to claim 4, wherein:

the deflecting cylinder is filled with a multi-stage cylinder.