CN217837624U

CN217837624U - Receiving mechanism of intelligence drilling and cutter

Info

Publication number: CN217837624U
Application number: CN202222103940.6U
Authority: CN
Inventors: 袁惠波
Original assignee: Dongguan Welsh Machinery Equipment Co ltd
Current assignee: Dongguan Welsh Machinery Equipment Co ltd
Priority date: 2022-08-10
Filing date: 2022-08-10
Publication date: 2022-11-18
Anticipated expiration: 2032-08-10

Abstract

The utility model discloses a receiving mechanism of intelligence drilling and cutter, which comprises a supporting rack, the chain drive structure, connect the material fixed plate, connect the material structure, the stock structure with connect the silo, the support frame is equipped with first fixed plate, first holding tank and second holding tank, the chain drive structure, connect the material fixed plate and connect the equal fixed mounting of silo on first fixed plate, connect the material fixed plate to be located between first holding tank and the second holding tank, connect the material structure to clamp and connect on the material fixed plate, and be connected with the chain drive structure, the stock structure clamps on first holding tank, the chain drive structure with connect the material structure all to hold in the second holding tank, it is equipped with the exit end to connect the silo, the position of exit end with connect the material structure corresponding. The utility model discloses a chain drive structure with connect the material structure to realize connecing the material and conveying to the automation of part, correspond the part and put into corresponding stock bin and classify and deposit, improved processingquality and part yields, saved the quality control time, reduced manufacturing cost and rejection rate.

Description

Receiving mechanism of intelligence drilling and cutter

Technical Field

The utility model relates to a bore the mechanical design field of cutting machine, especially relate to a receiving mechanism of intelligence drilling and cutter.

Background

Machining refers to a process of changing the external dimensions or properties of a workpiece by a mechanical device, and in the machining process, the shape, the size, the relative position and the properties of a blank are qualified parts according to a machining process and the pattern and the size of a drawing. In the machining process, various machine tools are generally required. A drill-cutter is a type of machining machine used to drill or cut a workpiece. After the traditional drilling and cutting machine finishes the processing of parts, the parts are received into the storage bin to be stored, the parts are not distinguished, and the processed parts are mixed together. And during quality inspection, performing spot inspection on the parts. When the quality of the part is in a problem, the specific processing time of the part cannot be determined, and the unqualified parts cannot be found out completely, so that the processing quality of the part is influenced, and the quality inspection efficiency is reduced. Therefore, there is a need to develop a receiving mechanism of an intelligent drilling and cutting machine, which can distinguish parts by processing time and put the parts into corresponding material storage bins, so as to solve the above problems in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a receiving mechanism of intelligence drilling and cutter.

According to an aspect of the utility model provides a receiving mechanism of intelligence drilling and cutter, the loach carrying platform comprises a supporting fram, the chain drive structure, connect the material fixed plate, connect the material structure, the stock structure with connect the silo, the support frame is equipped with first fixed plate, first holding tank and second holding tank, the chain drive structure, connect the material fixed plate and connect the equal fixed mounting of silo on first fixed plate, connect the material fixed plate to be located between first holding tank and the second holding tank, connect the material structure to clamp on connecing the material fixed plate, and be connected with the chain drive structure, the stock structure clamps on first holding tank, the chain drive structure all holds in the second holding tank with connecing the material structure, it is equipped with the exit end to connect the silo, the position of exit end with connect the material structure corresponding.

In some embodiments, the chain transmission structure includes a driving protection cover, a driving motor, a coupler fixing plate, a driving wheel, a driving chain, a driven wheel fixing plate, a sliding rail and a sliding rail fixing member, the driving protection cover, the coupler fixing plate and the driven wheel fixing plate are all fixedly mounted on a first fixing plate, an output end of the driving motor penetrates the coupler and the coupler fixing plate and is connected with the driving wheel, the coupler is fixedly mounted on the coupler fixing plate, the driven wheel is fixedly mounted on the driven wheel fixing plate, the driving chain tensioning sleeve is arranged on the driving wheel and the driven wheel, one end of the sliding rail fixing member is fixedly connected with the coupler fixing plate, the other end of the sliding rail fixing member is fixedly connected with the driven wheel fixing plate, the sliding rail fixing member is located above the driving chain, and the sliding rail is fixedly mounted on one side of the sliding rail fixing member.

In some embodiments, the drive shield covers the drive motor, the coupling, and the coupling retaining plate.

In some embodiments, the chain transmission structure further includes a transmission chain protection cover and a transmission chain protection back plate, the transmission chain protection cover is disposed above the transmission chain, the slide rail and the slide rail fixing member, and the transmission chain protection back plate is fixedly mounted on the first fixing plate and located behind the transmission chain.

In some embodiments, the chain transmission structure further comprises a first limiting block and a second limiting block, the first limiting block and the second limiting block are fixedly mounted on the slide rail fixing piece, the second limiting block is located above one end, close to the driven wheel, of the slide rail, and the first limiting block is located above the driving wheel.

In some embodiments, connect the material structure to include the slider, the cylinder, first fixture block, the second fixture block, connect the material connecting piece, connect the material moving member and connect the material frame, first fixture block and second fixture block all fixed mounting are in one side of cylinder, first fixture block and second fixture block clamp on drive chain, connect the material connecting piece and connect the material moving member all to clamp on connecing the material fixed plate, slider and cylinder fixed mounting are in the one side of connecing the material connecting piece, connect material frame fixed mounting in the opposite side of connecing the material connecting piece, the slider is located the slide rail, and with looks sliding connection, connect the material moving member and connect material connecting piece looks hub connection, the output of cylinder with connect material moving member looks fixed connection, the bottom of connecing the material frame is cavity, connect the material frame to be located the exit end below.

In some embodiments, the material receiving moving member is provided with a bottom plate, the bottom plate is located below the material receiving frame and is in contact with the material receiving frame, and the area of the bottom plate is larger than that of the bottom of the material receiving frame.

In some embodiments, the material storage structure includes a plurality of material storage bins, and the plurality of material storage bins are sequentially clamped on the first accommodating groove.

In some embodiments, the receiving frame is located above the storage bin, and the size of the bottom surface of the receiving frame is smaller than the size of the cross section of the storage bin.

In some embodiments, the storage bin is provided with a handle.

The utility model has the advantages that: the utility model discloses a material structure is connect in the setting for accept the part of accomplishing processing in the unit interval, set up the stock structure, put into corresponding stock bin with the part of accomplishing processing in the unit interval, carry out the time differentiation to the part, and accomplish the back at the unit interval processing, carry out the quality control to the part, after the quality control is qualified, just carry out the parts machining of next unit interval. And if the quality inspection is unqualified, correcting the cutter and the processing parameters, and scrapping the unqualified parts in unit time. The utility model discloses a chain drive structure with connect the material structure to realize connecing the material and conveying to the automation of part, correspond the part and put into corresponding stock bin and classify and deposit, improved processingquality and part yields, saved the quality control time, reduced manufacturing cost and rejection rate.

Drawings

Fig. 1 is a schematic structural view of a receiving mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the supporting frame of the receiving mechanism of the intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 3 is an exploded view of the chain transmission structure, the material receiving fixing plate and the material storage structure of the material receiving mechanism of the intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a material receiving fixing plate of a material receiving mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 5 is a left side view of the chain transmission structure and the material receiving structure of the material receiving mechanism of the intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 6 is a schematic partial structural view of a chain transmission structure of a receiving mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 7 is a partial rear view of a chain transmission structure and a material receiving structure of a material receiving mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples.

Referring to fig. 1-7, the utility model provides a receiving mechanism of intelligence drilling and cutter, include support frame 1, chain drive structure 2, connect material fixed plate 3, connect material structure 4, stock structure 5 and connect silo 6.

Support frame 1 is equipped with first fixed plate 11, first holding tank 12 and second holding tank 13, and chain drive structure 2 connects material fixed plate 3 and connects the equal fixed mounting of silo 6 on first fixed plate 11, connects material fixed plate 3 to be located between first holding tank 12 and the second holding tank 13, connects material structure 4 to clamp on connecing material fixed plate 3 to be connected with chain drive structure 2. Stock structure 5 clamps on first holding tank 12, and chain drive structure 2 and connect material structure 4 all hold in second holding tank 13, connect silo 6 to be equipped with exit end 61, connect material structure 4 to be located exit end 61 below, stock structure is located and connects material structure 4 below.

The chain transmission structure 2 comprises a driving protection cover 21, a driving motor 22, a coupler 23, a coupler fixing plate 24, a driving wheel 25, a transmission chain 26, a driven wheel 27, a driven wheel fixing plate 28, a sliding rail 29, a sliding rail fixing member 20, a transmission chain protection cover 201, a transmission chain protection back plate, a first limiting block 202 and a second limiting block 203. The driving protection cover 21, the coupling fixing plate 24 and the driven wheel fixing plate 28 are all fixedly mounted on the first fixing plate 11. The output end of the driving motor 22 passes through the coupling 23 and the coupling fixing plate 24 and is connected with the driving wheel 25. The coupler 23 is fixedly mounted on the coupler fixing plate 24, the driven wheel 27 is fixedly mounted on the driven wheel fixing plate 28, and the transmission chain 26 is tightly sleeved on the driving wheel 25 and the driven wheel 27. One end of the slide rail fixing member 20 is fixedly connected with the coupler fixing plate 24, the other end is fixedly connected with the driven wheel fixing plate 28, the slide rail fixing member 20 is located above the transmission chain 26, and the slide rail 29 is fixedly mounted on one side of the slide rail fixing member 20.

The driving protective cover 21 covers the driving motor 22, the coupler 23 and the coupler fixing plate 24.

The transmission chain protection cover 201 covers the transmission chain 26, the slide rail 29 and the slide rail fixing part 20, and the transmission chain protection back plate is fixedly installed on the first fixing plate 11 and located behind the transmission chain 26.

The first limiting block 202 and the second limiting block 203 are both fixedly mounted on the slide rail fixing member 20, the second limiting block 203 is located above one end of the slide rail 29 close to the driven wheel 27, and the first limiting block 202 is located above the driving wheel 25.

The material receiving structure 4 includes a slider 41, a cylinder 42, a first block 43, a second block 44, a material receiving connector 45, a material receiving moving member 46, and a material receiving frame 47. The first block 43 and the second block 44 are both fixedly installed at one side of the cylinder 42, and the first block and the second block are clamped on the transmission chain. The material receiving connecting piece 45 and the material receiving moving piece 46 are clamped on the material receiving fixing plate 3, the sliding block 41 and the air cylinder 42 are fixedly arranged on one side of the material receiving connecting piece 45, the material receiving frame 47 is fixedly arranged on the other side of the material receiving connecting piece 45, and the sliding block 41 is positioned on the sliding rail 29 and is in sliding connection with the sliding rail 29. Connect material moving member 46 and connect material connecting piece 45 looks hub connection, the output of cylinder 41 connects material moving member 46 looks fixed connection. The bottom of the receiving frame 47 is hollow, the receiving frame 47 is positioned below the outlet end 61 and above the storage bin, and the size of the bottom surface of the receiving frame 47 is smaller than the size of the cross section of the storage bin.

The material receiving moving member 46 is provided with a bottom plate 461, the bottom plate 461 is located below the material receiving frame 47 and contacts with the material receiving frame 47, and the area of the bottom plate 461 is larger than the area of the bottom of the material receiving frame 47.

The material storage structure 5 comprises twelve material storage bins 51, and the twelve material storage bins 51 are sequentially clamped on the first accommodating groove 12. The storage bin 51 is provided with a handle 511.

The utility model discloses in the use, driving motor 22 drives drive wheel 25 and rotates, and drive wheel 25 drives drive chain 26 and removes to following 27 directions of driving wheel, clamps connect material structure 4 on drive chain 26 and remove to following 27 directions of driving wheel along with drive chain 26 together. Under the drive of the transmission chain 26, the sliding block 41 drives the material receiving connecting piece 45, and the material receiving connecting piece 45 drives the air cylinder 42 and the material receiving moving piece 46 to move together along the sliding rail 29 and the material receiving fixing plate 3 to the direction of the driven wheel 27. The outlet end 61 of the receiving groove 6 is positioned between the driving wheel 25 and the driven wheel 27, when the receiving frame 47 moves to the position below the outlet end 61, the sliding block 41 stops sliding, and the processed parts falling from the outlet end 61 are received in the receiving frame 47. After one hour, the receiving frame 47 completes receiving of the parts processed in the hour. The driving motor 22 is restarted, the driving wheel 25 rotates forwards or reversely, and the transmission chain 26 moves the material receiving frame 47 to be above the material storage bin 51 corresponding to the corresponding time. The air cylinder 42 is started, the output end of the air cylinder 42 extends out, the material receiving moving piece 46 is pushed out towards the direction away from the material receiving connecting piece 45, the bottom plate 461 is separated from the material receiving frame 47, and parts in the material receiving frame 47 fall into the material storage bin 51 corresponding to the lower part of the material receiving frame 47. The storage bins 51 are twelve in total, each storage bin 51 corresponds to twelve hours, and parts processed in each hour are correspondingly placed into the storage bin 51 corresponding to the corresponding time. The machined parts are classified and stored in units of hours according to machining time, and quality inspection of the parts is facilitated. After the quality inspection, the quality problem of the parts occurs, the parts processed in the hour can be subjected to waste treatment, and then the cutter or the parameters are corrected, so that the larger quality problem and the economic loss are avoided.

The above description is only some embodiments of the present invention, and for those skilled in the art, a plurality of modifications and improvements can be made without departing from the inventive concept, and these modifications and improvements all belong to the protection scope of the present invention.

Claims

1. The utility model provides a receiving mechanism of intelligence drilling and cutter, its characterized in that includes support frame, chain drive structure, connects the material fixed plate, connects material structure, stock structure and connects the silo, the support frame is equipped with first fixed plate, first holding tank and second holding tank, chain drive structure, connect the material fixed plate and connect the equal fixed mounting of silo in on the first fixed plate, connect the material fixed plate to be located first holding tank with between the second holding tank, connect the material structure to clamp connect on the material fixed plate, and with the chain drive structure is connected, the stock structure clamp in on the first holding tank, chain drive structure with connect the material structure all hold in the second holding tank, it is equipped with the exit end to connect the silo, connect the material structure to be located exit end below, the stock structure is located connect material structure below.

2. The receiving mechanism of an intelligent drilling and cutting machine as claimed in claim 1, wherein the chain transmission structure comprises a driving protection cover, a driving motor, a coupler fixing plate, a driving wheel, a transmission chain, a driven wheel fixing plate, a sliding rail and a sliding rail fixing piece, the driving protection cover, the coupler fixing plate and the driven wheel fixing plate are all fixedly mounted on the first fixing plate, the output end of the driving motor penetrates through the coupler and the coupler fixing plate and is connected with the driving wheel, the coupler is fixedly mounted on the coupler fixing plate, the driven wheel is fixedly mounted on the driven wheel fixing plate, the transmission chain tensioning sleeve is arranged on the driving wheel and the driven wheel, one end of the sliding rail fixing piece is fixedly connected with the coupler fixing plate, the other end of the sliding rail fixing piece is fixedly connected with the driven wheel fixing plate, the sliding rail fixing piece is located above the transmission chain, and the sliding rail is fixedly mounted on one side of the sliding rail fixing piece.

3. The receiving mechanism of an intelligent drilling and cutting machine as claimed in claim 2, wherein said driving protection cover is covered on said driving motor, coupling and coupling fixing plate.

4. The receiving mechanism of an intelligent drilling and cutting machine as claimed in claim 2, wherein the chain transmission structure further comprises a transmission chain protection cover and a transmission chain protection back plate, the transmission chain protection cover is arranged above the transmission chain, the slide rail and the slide rail fixing member, and the transmission chain protection back plate is fixedly arranged on the first fixing plate and behind the transmission chain.

5. The receiving mechanism of an intelligent drilling and cutting machine as claimed in claim 2, wherein the chain transmission structure further comprises a first limiting block and a second limiting block, the first limiting block and the second limiting block are both fixedly mounted on the slide rail fixing member, the second limiting block is located above one end of the slide rail close to the driven wheel, and the first limiting block is located above the driving wheel.

6. The receiving mechanism of an intelligent drilling and cutting machine according to claim 2, wherein the receiving structure comprises a slider, a cylinder, a first fixture block, a second fixture block, a receiving connector, a receiving moving member and a receiving frame, the first fixture block and the second fixture block are both fixedly mounted on one side of the cylinder, the first fixture block and the second fixture block are clamped on the transmission chain, the receiving connector and the receiving moving member are both clamped on the receiving fixing plate, the slider and the cylinder are fixedly mounted on one side of the receiving connector, the receiving frame is fixedly mounted on the other side of the receiving connector, the slider is located on the slide rail and is slidably connected with the slide rail, the receiving moving member is axially connected with the receiving connector, the output end of the cylinder is fixedly connected with the receiving moving member, the bottom of the receiving frame is hollow, and the receiving frame is located below the outlet end.

7. The material receiving mechanism of an intelligent drilling and cutting-off machine as claimed in claim 6, wherein the material receiving moving member is provided with a bottom plate, the bottom plate is located below the material receiving frame and contacts with the material receiving frame, and the area of the bottom plate is larger than that of the bottom of the material receiving frame.

8. The receiving mechanism of an intelligent drilling and cutting machine as claimed in claim 6, wherein the material storage structure comprises a plurality of material storage bins, and the plurality of material storage bins are sequentially clamped on the first accommodating groove.

9. The receiving mechanism of an intelligent drilling and cutting machine as claimed in claim 8, wherein the receiving frame is located above the stock bin, and the size of the bottom surface of the receiving frame is smaller than the size of the cross section of the stock bin.

10. The receiving mechanism of an intelligent drilling and cutting machine as claimed in claim 8, wherein the storage bin is provided with a handle.