CN218988010U - Factory transfer equipment for canning parts - Google Patents

Abstract

The utility model discloses factory transferring equipment for canning components, which comprises a transferring box, wherein a plurality of transferring wheels which are gradually increased are sequentially arranged on the inner wall of one side of the transferring box from top to bottom, a plurality of transferring grooves for transferring canning components are formed in the outer side wall of each transferring wheel, a feeding conveying rail is arranged on one side of each transferring wheel, a discharging conveying rail is arranged on the other side of each transferring wheel, a guide cover for guiding the canning components is arranged above each transferring wheel, the upper end of a threaded adjusting rod penetrates through the upper surface of the transferring box and is connected with an adjusting ring.

Description

Factory transfer equipment for canning parts

Technical Field

The present utility model relates to factory floor transfer equipment for canned components.

Background

In the prior art, the tank body comprises a metal tank and a plastic tank, wherein the tank body is used for placing food, beverage and the like, and a plurality of working procedures are needed in the production and processing of the tank body, and the working procedures are respectively used for processing different operations; however, in the joining process of the process, there are the following problems due to the manual operation: low productivity, high labor intensity and high labor cost, and therefore, a factory transfer device for canning components has been developed.

Disclosure of Invention

The utility model aims to solve the defects of the prior art and provides factory floor transfer equipment for canned parts.

The utility model provides a factory transfer equipment for canning part, includes the transfer case, the both sides wall of transfer case is the opening design, and a plurality of transport wheels that increase gradually are installed in proper order from last to lower to one side inner wall of transfer case, and every transport wheel is all opened through the remote drive subassembly control of installing on the transfer case lateral wall and is stopped, and a plurality of transport grooves that are used for transporting canning part are all offered to the lateral wall of every transport wheel, and one side of every transport wheel all is equipped with the feeding transmission rail, and the opposite side of every transport wheel all is equipped with the ejection of compact transmission rail, the top of every transport wheel all is equipped with the guide housing that is used for canning part direction, the upper surface of guide housing has all connect the screw thread regulation pole soon, and the upper end of screw thread regulation pole runs through the upper surface of transfer case and links to each other with the adjusting ring.

As a further improvement, guide plates are connected to the outer walls of the two sides of the guide cover, and the guide plates separate stacked and overlapped tubular parts on the feeding transmission rail, so that canning parts enter the transfer grooves on the transfer wheels one by one and are transferred to the discharging transmission rail one by one through the transfer grooves, and even and standard feeding is guaranteed without a method that canning parts are placed one by workers, and further processing is facilitated.

As a further improvement, the width of the transfer wheel and the size of the groove body of the transfer groove are gradually increased from top to bottom, and the discharge transmission rail and the feed transmission rail are gradually increased, so that the transfer wheel is applicable to the transportation of various tank bodies with different sizes, can meet the purpose of simultaneous transmission of various tank bodies, and is higher in transmission efficiency and adaptability.

As a further improvement, the widths of the guide cover, the feeding transmission rail and the discharging transmission rail are gradually increased along with the width of the transfer wheel, so that the simultaneous transportation of different canning components is met, the efficiency of transmission work is improved, the production progress of a factory is accelerated, and the device is suitable for mass production.

As a further improvement, the width of the feeding transmission rail and the width of the discharging transmission rail corresponding to each transfer wheel are the same, the outer side wall of one end of the discharging transmission rail, which is close to the transfer wheel, is connected with an extension rail extending to the surface of the outer side wall of the transfer wheel, so that the tank body is prevented from falling off in the transmission process, and a buffering effect is achieved while a protection effect is achieved.

As a further improvement, the guide cover is semi-circular in shape, and the height of the guide cover can be adjusted through rotation of the threaded adjusting rod, so that the conveying of canning components with different diameters can be better met.

As a further improvement, the discharging transmission rail consists of a discharging platform and a buffering platform, so that abrasion and damage of canning components due to large impact force in the transmission process are prevented.

As a further improvement, the discharging platform and the feeding transmission rail are obliquely arranged on the inner wall of the transfer box.

The beneficial effects are that:

the device has simple structure and simple use, can simultaneously meet the transmission of tank parts with various different specifications, improves the production and transmission efficiency, accelerates the production progress of factories, and is suitable for mass production.

The device not only can meet the simultaneous transmission of different or same tank parts, but also can independently control a certain transmission rail, and has stronger equipment adaptability and functionality.

The special design of this device accessible transfer wheel and uide bushing realizes transporting one by one of jar body part, better reduction transmission in-process collision improves simultaneously and satisfies the requirement of transporting, improves and transports the effect, reduces and transports the loss.

The device solves the problem that the traditional transmission mode of manual transportation is utilized, the intelligent operation of the whole equipment is realized by utilizing a remote control function, so that the process connection in the production and processing process of the canned parts is quicker, the efficiency is greatly improved, the rotation speed of a remote driving component can be controlled, the purpose of adjusting the transmission speed is achieved, the feeding requirement of the next process is met more intelligently, the manual whole-day operation is not needed beside the processing equipment, the error rate and the efficiency of manual feeding are low, the defect of manual feeding is overcome, the processing requirement is better met, the error rate is reduced, and the labor intensity of workers is reduced.

Drawings

FIG. 1 is a schematic perspective view of one side of a factory floor transfer apparatus for a canned component;

FIG. 2 is another side schematic view of a factory floor transfer appliance of a canned component;

FIG. 3 is a schematic view of the internal structure of the transfer device;

FIG. 4 is a schematic side elevational view of a transfer device;

FIG. 5 is a schematic view of the external structure of the transfer device;

1. transfer box 2, feeding transmission rail 3, discharging transmission rail 4, guide cover 5, screw thread adjusting rod 6, transfer wheel 7, guide plate 8 and remote driving component.

Detailed Description

The present utility model will be further described in detail with reference to the following examples and drawings for the purpose of enhancing the understanding of the present utility model, which examples are provided for the purpose of illustrating the present utility model only and are not to be construed as limiting the scope of the present utility model.

As an embodiment of the present utility model, as shown in fig. 1 to 5, a factory-area transfer device for canned parts comprises a transfer box 1, a feeding transfer rail 2, a discharging transfer rail 3, a guide cover 4, a screw thread adjusting rod 5, a transfer wheel 6, a guide plate 7 and a remote driving assembly 8.

The utility model provides a factory transfer equipment for canning part, includes transfer case 1, the both sides wall of transfer case 1 is the opening design, and a plurality of progressively increasing transfer wheel 6 are installed in proper order from last to lower to one side inner wall of transfer case 1, and every transfer wheel 6 all opens through the control of the long-range drive subassembly 8 of installing on transfer case 1 lateral wall and stops, and a plurality of transport grooves that are used for transporting canning part are all offered to the lateral wall of every transfer wheel 6, and one side of every transfer wheel 6 all is equipped with feeding transmission rail 2, and the opposite side of every transfer wheel 6 all is equipped with ejection of compact transmission rail 3, the top of every transfer wheel 6 all is equipped with the uide bushing 4 that is used for canning part direction, the upper surface of uide bushing 4 all has the screw thread regulation pole 5, and the upper end of screw thread regulation pole 5 runs through the upper surface and links to each other with the adjusting ring of transfer case 1.

The guide plates 7 are connected to the outer walls of the two sides of the guide cover 4, and the guide plates 7 separate stacked and overlapped tubular parts on the feeding transmission rail 2, so that canning parts enter the transfer grooves on the transfer wheels 6 one by one and are transferred onto the discharging transmission rail 3 one by one through the transfer grooves, and the method that canning parts are placed one by staff is not needed to ensure uniform and standard feeding, so that the next processing is facilitated.

The width of the transfer wheel 6 and the size of the groove body of the transfer groove are gradually increased from top to bottom, the discharging transmission rail 3 and the feeding transmission rail 2 are gradually increased, the transfer wheel is applicable to the transportation of various tank bodies with different sizes, the purpose of simultaneously transferring various tank bodies can be met, the transmission efficiency is enhanced, and the adaptability is stronger.

The widths of the guide cover 4, the feeding transmission rail 2 and the discharging transmission rail 3 are gradually increased along with the width of the transfer wheel 6, so that the simultaneous transportation of different canning components is met, the efficiency of transmission work is improved, the production progress of a factory is accelerated, and the device is suitable for mass production.

The width of the feeding transmission rail 2 and the discharging transmission rail 3 corresponding to each transferring wheel 6 are the same, one end outer side wall of the discharging transmission rail 3, which is close to the transferring wheel 6, is connected with an extension rail which extends to the surface of the outer side wall of the transferring wheel 6, so that the tank body is prevented from falling off in the transferring process, and a buffer effect is achieved when a protection effect is achieved.

The shape of the guide cover 4 is semicircular, the height of the guide cover 4 can be adjusted through the rotation of the threaded adjusting rod 5, and the conveying of canning components with different diameters can be better met.

The discharging transmission rail 3 is composed of a discharging platform and a buffering platform, so that abrasion and damage of canning components due to large impact force in the transmission process are prevented.

The discharging platform and the feeding transmission rail 2 are obliquely arranged on the inner wall of the transfer box 1.

When the automatic tank feeding device is used, the feeding transmission rail is aligned to the outlet of the waiting discharging device, the discharging transmission rail is aligned to the inlet of the waiting feeding device, after the tank filling component automatically or manually enters the feeding transmission rail, the tank body component rolls downwards into the transferring groove of the transferring wheel due to the inertia effect of gravity, the transferring wheel is controlled by the remote driving component to rotate, the tank body component is driven to enter the discharging transmission rail one by one, finally slides to the waiting feeding device, the tank body component sequentially passes through the discharging platform and the buffering platform in the discharging process, the impact generated by the gravity or inertia of the tank body is reduced, the remote driving component is connected with the remote control system through telecommunication, the start and stop speed of the remote driving component can be adjusted through the remote control system, the control of the transmission speed is realized, the automatic tank feeding device is better used for next processing, and the production and use requirements are met.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

The foregoing description is only illustrative of the preferred embodiments of the present utility model, and therefore should not be taken as limiting the scope of the utility model, for all changes and modifications that come within the meaning and range of equivalency of the claims and specification are therefore intended to be embraced therein.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (8)

1. A factory transfer equipment for canning part, its characterized in that, including the transfer case, the both sides wall of transfer case is the opening design, and a plurality of gradually increasing transfer wheels are installed in proper order from last to lower to one side inner wall of transfer case, and every transfer wheel is all opened through the remote drive subassembly control of installing on the transfer case lateral wall and is stopped, and a plurality of transfer grooves that are used for transporting canning part are all seted up to the lateral wall of every transfer wheel, and one side of every transfer wheel all is equipped with the feeding transmission rail, and the opposite side of every transfer wheel all is equipped with the ejection of compact transmission rail, the top of every transfer wheel all is equipped with the direction cover that is used for canning part direction, the upper surface of direction cover has all connect the screw thread regulation pole soon, and the upper end of screw thread regulation pole runs through the upper surface and the adjusting ring of transfer case and links to each other.

2. A factory floor transfer device for canned parts as set forth in claim 1 wherein the outer walls of the two sides of the guide housing are each connected with a guide plate.

3. A factory floor transfer device for canned parts as set forth in claim 1 wherein the width of the transfer wheel and the size of the transfer slot body increase progressively from top to bottom.

4. A factory floor transfer device for canned parts according to claim 1 or 3 wherein the widths of the guide housing, the infeed conveyor rail, the outfeed conveyor rail increase progressively with the width of the transfer wheel.

5. A factory floor transfer device for canned parts as claimed in claim 1 or claim 3 wherein the width of the feed and discharge transfer rails corresponding to each transfer wheel is the same, and the outer side wall of the discharge transfer rail adjacent to one end of the transfer wheel is provided with an extension rail extending to the outer side wall surface of the transfer wheel.

6. A factory floor transfer equipment for canned parts as set forth in claim 1 wherein the guide housing is semi-circular in shape.

7. A factory floor transfer apparatus for canned components as set forth in claim 1 wherein the outfeed transport rail is comprised of an outfeed platform and a buffer platform.

8. A factory floor transfer apparatus for canned parts as set forth in claim 7 wherein the outfeed platform and the infeed conveyor rail are each mounted obliquely to the interior wall of the transfer box.

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