CN217668118U - Automatic material lifting device - Google Patents

Abstract

The utility model discloses an automatic material lifting device, relating to the technical field of machine tool processing; the automatic material lifting device comprises a limiting component, a jacking component and a positioning component; the limiting assembly comprises a limiting piece, a limiting groove and a first opening are formed in the limiting piece, the first opening is formed in the top of the limiting piece and is communicated with the limiting groove, and the limiting groove can accommodate a plurality of workpieces to be machined; the jacking assembly is arranged on one side of the limiting piece and can drive the part to be machined in the limiting groove to move and enable the part to be machined to extend out of the first opening; the positioning component comprises a positioning component, the positioning component is arranged on the limiting part and close to the first opening, and the positioning component is used for pushing and positioning a workpiece to be machined extending out of the first opening. The automatic material lifting device can accommodate a plurality of workpieces to be processed, can finish continuous jacking and fixing of the workpieces to be processed, can realize continuous production and processing of the workpieces to be processed, ensures the efficiency of processing the workpieces to be processed, and reduces the labor intensity of operators.

Description

Automatic material lifting device

Technical Field

The utility model relates to a in the machine tool machining technology field, in particular to automatic material lifting device.

Background

The Numerical Control machine tool is a flexible and high-efficiency automatic machine tool, can well solve the problems of complex, precise, small-batch and multi-variety part processing, represents the development direction of the Control technology of the modern machine tool, and is mainly a Numerical Control device which generally adopts a CNC (Computer Numerical Control) form and is a typical mechanical and electrical integration product.

Before the digit control machine tool uses, need earlier to clip the work piece in order to carry out the material loading through anchor clamps, process the work piece again, after last work piece processing is accomplished, operating personnel need take off the work piece of accomplishing processing from anchor clamps, the manual work is placed new work piece on anchor clamps again, in order to guarantee the clamping precision, operating personnel need use tool auxiliary device with the work piece clamping on anchor clamps usually, however, when the required time of processing of work piece is shorter, operating personnel then need frequent material loading, but because the process of using tool auxiliary device to carry out the material loading is comparatively loaded down with trivial details, make the proportion of material loading time in process time higher, this not only can influence machining efficiency, still increase operating personnel's intensity of labour.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides an automatic material device rises, its efficiency that can guarantee to process and treat the machined part has reduced operating personnel's intensity of labour.

According to the utility model discloses automatic material device rises, include: the limiting component comprises a limiting piece, a limiting groove and a first opening are formed in the limiting piece, the first opening is formed in the top of the limiting piece and communicated with the limiting groove, and the limiting groove can accommodate a plurality of workpieces to be machined; the jacking assembly is arranged on one side of the limiting piece and can drive the workpiece to be machined in the limiting groove to move and enable the part of the workpiece to be machined to extend out of the first opening; the positioning component comprises a positioning component, the positioning component is arranged on the limiting part and close to the first opening, and the positioning component is used for laterally pushing and positioning a workpiece to be machined extending out of the first opening.

According to the utility model discloses automatic material device rises has following beneficial effect at least:

the limiting groove of the limiting part can accommodate a plurality of workpieces to be machined, an operator can place the workpieces to be machined into the limiting groove, the jacking assembly can drive the part of one workpiece to be machined, which is positioned in the limiting groove, to extend out of the first opening, the length of the workpiece to be machined, which extends out of the first opening, can be controlled, the positioning assembly of the positioning assembly can push the workpiece to be machined laterally and enables the workpiece to be machined to be abutted against the inner wall of the limiting groove, so that the part of the workpiece to be machined, which extends out of the first opening, can be fixed relative to the limiting part through the friction force between the workpiece to be machined and the inner wall of the limiting groove, the position of the workpiece to be machined, which extends out of the first opening, can be conveniently machined, after the machining of the workpiece to be machined, which extends out of the first opening, is controlled by the operator to release the workpiece to be machined so as to take away the workpiece to be machined, the jacking assembly can continue to drive the next workpiece to extend out of the first opening, and the steps of positioning, the workpiece to be machined are repeated until the workpieces to be machined in the limiting groove, the operator can place the workpieces to be machined into the limiting groove, and the labor intensity of the operator can be reduced; because the spacing groove can hold a plurality of workpieces to be processed, make operating personnel can put into the spacing groove with a plurality of workpieces to be processed that wait, wait that the machined part stretches out from first opening and wait the machined part through the drive of jacking subassembly, wait the automatic material that rises of machined part in order to realize, and can control and wait the length that the machined part stretches out from first opening, then can fix through locating component and wait the machined part, consequently, this automatic material device that rises can hold a plurality of workpieces to wait, and its degree of automation is high, can accomplish a plurality of continuous jacking and the fixing of waiting the machined part, in order to realize waiting the continuous production processing of machined part, guarantee to process the efficiency of waiting the machined part, operating personnel's intensity of labour has been reduced.

According to some embodiments of the present invention, the positioning assembly comprises a second driving member and a pressing block, a third opening is provided on a side surface of the limiting member, and the third opening is communicated with the limiting groove; the pressing block is slidably arranged at the third opening, the second driving piece is in driving connection with the pressing block and can drive the pressing block to extend into the limiting groove from the third opening and abut against a workpiece to be machined.

According to some embodiments of the utility model, locating component is still including the ejector pad, the ejector pad is provided with first inclined plane, the briquetting be provided with first inclined plane complex second inclined plane, first inclined plane with the mutual butt in second inclined plane, the second driving piece with the ejector pad is connected, and can drive the ejector pad removes in order to drive the briquetting and removes.

According to the utility model discloses a some embodiments still include the bridge plate, be provided with the first recess and the second recess that are linked together on the bridge plate, the ejector pad can follow vertical direction set up with sliding in first recess, the briquetting can follow horizontal direction set up with sliding in the second recess.

According to some embodiments of the utility model, be provided with the spout on the inner wall of second recess, be provided with the slider on the briquetting, slider slidable set up in the spout.

According to some embodiments of the invention, the positioning assembly is further provided with an elastic member, the elastic member with the slider with the inner wall connection of the chute.

According to the utility model discloses a some embodiments, spacing subassembly is provided with a plurality ofly, the locating component is provided with a plurality ofly correspondingly.

According to the utility model discloses a some embodiments, locating component is provided with two, and is first locating component and second locating component respectively, first locating component can promote to treat that the machined part moves towards the first direction, second locating component can promote to treat that the machined part moves towards the second direction, has the contained angle between first direction and the second direction.

According to some embodiments of the present invention, a guide groove is provided on a side surface of the limiting member, the guide groove is communicated with the limiting groove, and one end of the guide groove extends to a bottom of the limiting member; the jacking assembly comprises a first driving piece and a jacking piece, the first driving piece is in driving connection with the jacking piece and can drive the jacking piece to stretch into the limiting groove and push the workpiece to be machined to move.

According to some embodiments of the present invention, the limiting assembly further comprises a support member; the guide groove is kept away from one end of the first opening extends to the bottom of the limiting part and is formed with a second opening, the bearing piece is arranged at the bottom of the limiting part, the bearing piece faces one side of the limiting part and is provided with a bearing groove, the bearing groove can be communicated with the limiting groove through the second opening, and the bearing groove bears the workpiece to be machined.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of an automatic material lifting device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a limiting component and a positioning component of the automatic material lifting device according to the embodiment of the present invention;

fig. 3 is a schematic structural view of a second driving member and a pushing block of a positioning assembly of an automatic lifting device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a pressing block of a positioning assembly of the automatic material lifting device according to the embodiment of the present invention;

fig. 5 is a schematic structural view of a limiting assembly of the automatic material lifting device according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a bridge plate of an automatic material lifting device according to an embodiment of the present invention;

fig. 7 is another schematic structural diagram of the automatic material lifting device according to the embodiment of the present invention.

Reference numerals are as follows:

a workpiece to be processed 10; a spacing assembly 100; a stopper 110; the first opening 111; a second opening 112; a third opening 113; a limiting groove 114; a guide groove 115; a support member 120; a support slot 121; a through groove 122; a jacking assembly 200; a first driving member 210; a jacking member 220; a positioning assembly 300; a first positioning component 301; a second positioning component 302; a second driver 310; a briquetting 320; a second slope 321; an abutment surface 322; a slider 323; a push block 330; the first slope 331; an elastic member 340; a bridge plate 400; a first groove 410; a second recess 420; a chute 421; a connection port 430.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to, for example, the upper, lower, left, right, front, rear, etc., is the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of the description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, if there are first and second descriptions for distinguishing technical features, they are not interpreted as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

An automatic lifting device according to an embodiment of the present invention is described below with reference to fig. 1 to 7.

As shown in fig. 1 to 7, the automatic material lifting device according to the embodiment of the present invention comprises a limiting component 100, a jacking component 200 and a positioning component; the limiting assembly 100 comprises a limiting member 110, a limiting groove 114 and a first opening 111 are arranged on the limiting member 110, the first opening 111 is arranged at the top of the limiting member 110 and is communicated with the limiting groove 114, and the limiting groove 114 can accommodate a plurality of workpieces to be processed 10; the jacking assembly 200 is arranged on one side of the limiting member 110, and the jacking assembly 200 can drive the to-be-processed piece 10 in the limiting groove 114 to move and enable a part of the to-be-processed piece 10 to extend out of the first opening 111; the positioning component includes a positioning assembly 300, the positioning assembly 300 is disposed at the position of the limiting member 110 near the first opening 111, and the positioning assembly 300 is used for laterally pushing and positioning the to-be-machined member 10 extending from the first opening 111.

The limiting groove 114 of the limiting member 110 can accommodate a plurality of workpieces to be processed 10, an operator can place the workpieces to be processed 10 into the limiting groove 114, the jacking assembly 200 can drive one part of the workpieces to be processed 10 in the limiting groove 114 to extend out of the first opening 111, the length of the workpieces to be processed 10 extending out of the first opening 111 can be controlled, the positioning assembly 300 of the positioning assembly can push the workpieces to be processed 10 to enable the workpieces to be processed 10 to abut against the inner wall of the limiting groove 113, so that the positions of the workpieces to be processed 10 extending out of the first opening 111 relative to the limiting member 110 can be fixed through friction between the workpieces to be processed 10 and the inner wall of the limiting groove 114 and friction between the positioning assembly and the workpieces to be processed 10, the operator can control the positioning assembly 300 to loosen the workpieces to be processed 10 after the workpieces to be processed 10 extending out of the first opening 111 are processed, the jacking assembly 200 can continuously drive the workpieces to extend out of the workpieces to be processed 10 from the first opening 111, and the positioning, the processing and the taking of the workpieces to be processed 10 are repeated, and the steps of the workpieces to be processed 10 can be processed, the operator can reduce the intensity of the operators can place the workpieces to be processed 10 to be processed in the limiting groove 114, and the operators can reduce the parts to be processed 10 to be placed in the limiting groove 114; because the limiting groove 114 can accommodate a plurality of workpieces to be processed 10, an operator can place a plurality of workpieces to be processed 10 into the limiting groove 114, the workpieces to be processed 10 are driven by the jacking assembly 200 to extend out of the workpieces to be processed 10 from the first opening 111, so that automatic lifting of the workpieces to be processed 10 is realized, the length of the workpieces to be processed 10 extending out of the first opening 111 can be controlled, and the workpieces to be processed 10 can be fixed by the positioning assembly 300, therefore, the automatic lifting device can accommodate a plurality of workpieces to be processed 10, has high automation degree, can complete continuous jacking and fixing of the workpieces to be processed 10, can realize continuous production and processing of the workpieces to be processed 10, ensures the efficiency of processing the workpieces to be processed 10, and reduces the labor intensity of the operator.

Specifically, the workpieces to be processed 10 are stacked up and down in the limiting groove 114, and the jacking assembly 200 drives the workpieces to be processed 10, which are located farther from the first opening 111 among the workpieces to be processed 10, to move towards the first opening 111 so as to drive the workpieces to be processed 10 to move simultaneously, so that the workpieces to be processed 10, which are closer to the first opening 111 among the workpieces to be processed 10, can extend out of the first opening 111.

Referring to fig. 1, 2 and 4, it can be understood that the positioning assembly 300 includes a second driving member 310 and a pressing block 320, a third opening 113 is provided on a side surface of the limiting member 110, and the third opening 113 is communicated with the limiting groove 114; the pressing block 320 is slidably disposed at the third opening 113, and the second driving member 310 is in driving connection with the pressing block 320 and can drive the pressing block 320 to extend into the limiting groove 114 from the third opening 113 and abut against the workpiece 10 to be machined.

The pressing block 320 is pushed into the limiting groove 114 from the side surface of the limiting part 110 through the second driving part 310, and the to-be-processed piece 10 is pushed to move, so that one end, away from the pressing block 320, of the to-be-processed piece 10 is abutted against the inner wall of the limiting groove 114, and the position of the to-be-processed piece 10 is fixed through the friction force between the pressing block 320 and the to-be-processed piece 10 and the friction force between the inner wall of the limiting groove 114 and the to-be-processed piece 10;

specifically, the positioning assembly 300 is disposed at the position of the limiting member 110 close to the first opening 111, the third opening 113 is disposed on the side surface of the limiting member 110, and the third opening 113 extends to the top surface of the limiting member 110, so that the to-be-processed workpiece 10 passing through the first opening 111 can be fixed by the second driving member 310 and the pressing block 320.

Specifically, second driving piece 310 is including second lift cylinder and connecting rod, and second lift cylinder is connected with the connecting rod drive, and can drive the connecting rod up-and-down motion, and briquetting 320 cover is established on the connecting rod, and the diapire of briquetting 320 can with the connecting rod butt, and the one end that second lift cylinder was kept away from to the connecting rod is provided with fixing bolt, fixing bolt can with the roof butt of briquetting 320 to fixed connection briquetting 320 and connecting rod.

Referring to fig. 1 to 4, it can be understood that the positioning assembly 300 further includes a pushing block 330, the pushing block 330 is provided with a first inclined surface 331, the pressing block 320 is provided with a second inclined surface 321 matched with the first inclined surface 331, the first inclined surface 331 and the second inclined surface 321 are abutted against each other, and the second driving member 310 is connected to the pushing block 330 and can drive the pushing block 330 to move so as to drive the pressing block 320 to move.

Specifically, one side end of the pushing block 330 is provided with a first inclined surface 331, one side end of the pressing block 320 is provided with a second inclined surface 321, the first inclined surface 331 and the second inclined surface 321 are cooperatively arranged, the second driving member 310 is connected with the pushing block 330 and can move the pushing block 330 up and down, referring to fig. 4, the second inclined surface 321 is located on the upper side of the first inclined surface 331, the second driving member 310 drives the pushing block 330 to move down, so that the first inclined surface 331 of the pushing block 330 abuts against the second inclined surface 321 of the pressing block 320, and the first inclined surface 331 presses the second inclined surface 321, so that the pressing block 320 moves towards the horizontal direction, and the pressing block 320 can move towards the direction of the to-be-processed piece 10 and tightly press the to-be-processed piece 10 with the inner wall of the limiting groove 114.

Specifically, the slopes of the first slope 331 and the second slope 321 are equal; one end of the pressing block 320, which is far away from the first inclined surface 331, is provided with an abutting surface 322, the pressing block 320 abuts against the workpiece to be machined 10 through the abutting surface 322, and the pressing block 320 can be provided with a plurality of grains on the abutting surface 322 so as to reduce the contact area between the pressing block 320 and the workpiece to be machined 10 and increase the friction force between the pressing block 320 and the workpiece to be machined 10; the pressing block 320 may be provided with an elastic material on the abutting surface 322, or the pressing block 320 may be made of an elastic material, so as to reduce damage caused by collision between the pressing block 320 and the member 10 to be processed, and to protect the pressing block 320 and the member 10 to be processed.

Referring to fig. 1, 2 and 6, it can be understood that the automatic lifting device further includes a bridge plate 400, a first groove 410 and a second groove 420 which are communicated are arranged on the bridge plate 400, the push block 330 is slidably arranged in the first groove 410 along the vertical direction, and the press block 320 is slidably arranged in the second groove 420 along the horizontal direction.

The pressing block 320 and the pushing block 330 can be respectively placed in a first groove 410 and a second groove 420, the first groove 410 extends in the vertical direction, the second groove 420 extends in the horizontal direction, the pushing block 330 is slidably disposed in the first groove 410 in the vertical direction, the pressing block 320 is slidably disposed in the second groove 420 in the horizontal direction, and the moving direction of the pressing block 320 and the pushing block 330 can be limited by the first groove 410 and the second groove 420.

Specifically, a connection port 430 is further disposed on the bridge plate 400, the limiting element 110 is disposed through the connection port 430 and connected to the bridge plate 400, one end of the first groove 410 is communicated with the second groove 420, and the other end of the first groove 410 is communicated with the third opening 113 of the limiting element 110, so that the pressing block 320 can move between the second groove 420 and the third opening 113.

Referring to fig. 1, 2 and 6, it can be understood that a sliding groove 421 is disposed on an inner wall of the second groove 420, a sliding block 323 is disposed on the pressing block 320, and the sliding block 323 is slidably disposed in the sliding groove 421.

When the pressing block 320 slides in the second groove 420, the sliding block 323 of the pressing block 320 slides in the sliding groove 421, and the sliding direction of the pressing block 320 can be limited by the sliding block 323 and the sliding groove 421 by arranging the sliding block 323 on the outer wall of the pressing block 320; specifically, the sliding block 323 is arranged on a side wall of the pressing block 320, the sliding groove 421 is arranged on an inner side wall of the second groove 420, and when the sliding block 323 slides in the sliding groove 421, the sliding block 323 can abut against upper and lower inner walls opposite to each other in the sliding groove 421 to limit the sliding block 323 to slide along the extending direction of the sliding groove 421, so as to limit the pressing block 320 to slide along the extending direction of the sliding groove 421, wherein the extending direction of the sliding groove 421 is a horizontal direction, and the extending direction of the sliding groove 421 and the extending direction of the second groove 420 are arranged in the same direction; the slide block 323 may be provided in plural, the slide blocks 323 are respectively provided on both sides of the pressing block 320, and correspondingly, the slide grooves 421 are also provided in plural.

Referring to fig. 1, 2 and 6, it can be understood that the positioning assembly 300 is further provided with an elastic member 340, and the elastic member 340 is connected with the slider 323 and the inner wall of the chute 421.

The elastic member 340 is disposed in the sliding slot 421 and located between the sliding block 323 and the inner wall and with the sliding block 323 and the inner wall of the sliding slot 421, when the pressing block 320 starts to move from the initial position, the pressing block 320 will compress or stretch the elastic member 340, and the elastic member 340 will drive the pressing block 320 to move towards the direction in which the pressing block 320 is at the initial position, wherein the spring member may be a spring, and two ends of the spring are respectively connected with the inner walls of the sliding block 323 and the sliding slot 421.

Specifically, when the pushing block 330 moves downwards, the pushing block 330 pushes the pressing block 320 to move towards the direction of the workpiece 10 to be processed, the pressing block 320 compresses the elastic member 340, the elastic member 340 continuously gives a force to the pressing block 320 to move away from the workpiece 10 to be processed, and when the pushing block 330 moves upwards, the elastic member 340 can push the pressing block 320 to move the pressing block 320 towards the pushing block 330, so that the first inclined surface 331 can always abut against the second inclined surface 321, wherein the elastic member 340 can be a spring, and the spring is always in a compressed state.

Referring to fig. 7, it can be understood that, in order to increase the working efficiency of the automatic lifting device, a plurality of limiting assemblies 100 are provided, which can increase the number of workpieces 10 that can be accommodated by the automatic lifting device, and a plurality of positioning members are correspondingly provided to match a plurality of limiting assemblies 100.

Specifically, the plurality of limiting assemblies 100 and the plurality of positioning components are all arranged on the bridge plate 400, the jacking assembly 200 can drive the to-be-machined part 10 in the limiting member 110 of each limiting assembly 100, after all the to-be-machined parts 10 on the upper limiting member 110 are machined, the jacking assembly 200 can drive the to-be-machined part 10 on the limiting member 110 of the next limiting assembly 100 to move, and an operator can load the upper limiting member 110 in this time, so that the machining efficiency is improved; the plurality of jacking assemblies 200 can be correspondingly provided to cooperate with the plurality of limiting assemblies 100 and the positioning component, and the plurality of jacking assemblies 200 can jack the to-be-machined parts 10 on the plurality of limiting members 110, so that the machining efficiency is improved.

Referring to fig. 1 and 2, it can be understood that two positioning assemblies 300 are provided, namely a first positioning assembly 301 and a second positioning assembly 302, the first positioning assembly 301 can push the workpiece 10 to be processed to move towards a first direction, and the second positioning assembly 302 can push the workpiece 10 to be processed to move towards a second direction, and an included angle is formed between the first direction and the second direction.

The pressing block 320 of the first positioning assembly 301 can push the to-be-processed workpiece 10 to move towards the first direction, so that the to-be-processed workpiece 10 is abutted against one side wall of the limiting groove 114 and the pressing block 320 of the first positioning assembly 301, the pressing block 320 of the first positioning assembly 301 can push the to-be-processed workpiece 10 to move towards the first direction, so that the to-be-processed workpiece 10 is abutted against the other side wall of the limiting groove 114 and the pressing block 320 of the second positioning assembly 302, and an included angle is formed between the first direction and the second direction, so that the first positioning assembly 301 and the second positioning assembly 302 can limit the position of the to-be-processed workpiece 10 in the horizontal direction, and the stability of compressing the to-be-processed workpiece 10 is improved.

Specifically, the first positioning assembly 301 can push the pressing block 320 to move towards a first horizontal direction, the second positioning assembly 302 can push the pressing block 320 to move towards a second horizontal direction, the first horizontal direction and the second horizontal direction are perpendicular to each other, and the workpiece to be machined 10 is pressed from the first horizontal direction and the second horizontal direction respectively through the first positioning assembly 301 and the second positioning assembly 302, so that the stability of the positioning part for fixing the workpiece to be machined 10 is improved; wherein, treat that machined part 10 is the square body, the cross section of spacing groove 114 is square, first locating component 301 and second locating component 302 set up respectively in treating the adjacent both sides of machined part 10, briquetting 320 of first locating component 301 and second locating component 302 respectively with treat two adjacent side butts of machined part 10, thereby promote to treat that machined part 10 removes, make treat that two other adjacent side of machined part 10 respectively with two adjacent inside wall butts of spacing groove 114, make first locating component 301 and second locating component 302 can inject and treat the position of machined part 10 on the horizontal direction, avoid treating that machined part 10 appears the position in the horizontal direction in the course of working, and the machining quality is improved.

Referring to fig. 5, it can be understood that a guide groove 115 is provided on a side surface of the limiting member 110, the guide groove 115 communicates with the limiting groove 114, and one end of the guide groove 115 extends to the bottom of the limiting member 110; the jacking assembly 200 comprises a first driving member 210 and a jacking member 220, wherein the first driving member 210 is in driving connection with the jacking member 220 and can drive the jacking member 220 to extend into the limiting groove 114 from the guide groove 115 and push the member to be machined 10 to move.

A guide groove 115 is formed in the side surface of the limiting member 110, the guide groove 115 is communicated with the limiting groove 114, so that the outside is communicated with the limiting groove 114, the first driving member 210 can drive the jacking member 220 to extend into the limiting groove 114 from the guide groove 115, and the jacking member 220 can abut against the to-be-processed member 10 in the limiting groove 114 and push the to-be-processed member 10 to move; the guide groove 115 extends to the bottom of the limiting member 110, so that the first driving member 210 can drive the jacking member 220 to move to the bottom of the limiting member 110 and extend into the limiting groove 114 from the guide groove 115, so that the jacking member 220 can move to the bottom of the limiting groove 114, and the jacking member 220 can push all the members to be processed 10 in the limiting groove 114.

Specifically, the limiting groove 114 extends in the vertical direction, a plurality of pieces to be processed 10 can be stacked up and down in the limiting groove 114, the guide groove 115 also extends in the vertical direction, the first driving member 210 drives the jacking member 220 to extend into the limiting groove 114 and abut against the pieces to be processed 10 which are far away from the first opening 111 in the plurality of pieces to be processed 10, and the pieces to be processed 10 can be moved upwards by pushing the pieces to be processed 10, so that the plurality of pieces to be processed 10 can be moved upwards at the same time, and the pieces to be processed 10 which are located closest to the first opening 111 are controlled to extend out of the first opening 111.

Specifically, the jacking piece 220 is a material lifting cutter bar which is cylindrical and contacts with the workpiece 10 to be machined through an arc surface, so that damage to the workpiece 10 to be machined by the jacking piece 220 is reduced.

Referring to fig. 1 and 5, it can be appreciated that the spacing assembly 100 further includes a support member 120; one end of the guide groove 115, which is away from the first opening 111, extends to the bottom of the limiting member 110 and is formed with a second opening 112, the supporting member 120 is detachably disposed at the bottom of the limiting member 110, a supporting groove 121 is disposed on one side of the supporting member 120, which faces the limiting member 110, the supporting groove 121 can be communicated with the limiting groove 114 through the second opening 112, and the supporting groove 121 is used for supporting the workpiece 10 to be machined.

The supporting part 120 is arranged at the bottom of the limiting part 110, and since the supporting groove 121 is arranged on one side of the supporting part 120 facing the limiting part 110, and one end of the guide groove 115, which is far away from the first opening 111, extends to the bottom of the limiting part 110 and is formed with the second opening 112, the first workpiece 10 to be machined, which is put into the limiting groove 114 from the first opening 111, can fall onto the supporting groove 121, and then the workpieces 10 to be machined are sequentially stacked up and down, and all the workpieces 10 to be machined are supported by the supporting part 120; through setting up supporting piece 120 cooperation locating part 110, can increase and hold the quantity of treating machined part 10, both ends intercommunication setting about spacing groove 114 to make things convenient for the outsider to observe the position of treating machined part 10, and, the length of bearing groove 121 is less than the length of treating machined part 10, drops from bearing groove 121 with avoiding treating machined part 10.

Specifically, the supporting member 120 is detachably connected to the limiting member 110, the supporting member 120 is provided with a plurality of supporting grooves 121, the supporting grooves 121 of different supporting members 120 have different heights so as to be adapted to the workpieces 10 to be processed with different lengths, the supporting members 120 with different lengths can be replaced when the workpieces 10 to be processed with different lengths need to be supported, and the number of the workpieces 10 to be processed that can be accommodated by the limiting member 110 can be increased.

Specifically, a through groove 122 is arranged on the bottom wall of the bearing groove 121, the through groove 122 extends to the bottom of the bearing part 120, the through groove 122 is arranged in cooperation with the lifting part 220, and the first driving part 210 can drive the lifting part 220 to lift the workpiece located in the bearing groove 121 from the through groove 122.

In the description herein, references to the description of "one embodiment," "some embodiments," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. Automatic material device rises, its characterized in that includes:

the limiting component comprises a limiting part, a limiting groove and a first opening are formed in the limiting part, the first opening is formed in the top of the limiting part and is communicated with the limiting groove, and the limiting groove can accommodate a plurality of workpieces to be machined;

the jacking assembly is arranged on one side of the limiting piece and can drive the workpiece to be machined in the limiting groove to move and enable the part of the workpiece to be machined to extend out of the first opening;

the positioning component is arranged at the position, close to the first opening, of the limiting part and used for laterally pushing and positioning a workpiece to be machined, wherein the workpiece to be machined extends out of the first opening.

2. The automatic lifting device according to claim 1, wherein the positioning assembly comprises a second driving member and a pressing block, a side surface of the limiting member is provided with a third opening, and the third opening is communicated with the limiting groove; the pressing block is slidably arranged at the third opening, the second driving piece is in driving connection with the pressing block and can drive the pressing block to extend into the limiting groove from the third opening and abut against a workpiece to be machined.

3. The automatic lifting device according to claim 2, wherein the positioning assembly further comprises a pushing block, the pushing block is provided with a first inclined surface, the pressing block is provided with a second inclined surface matched with the first inclined surface, the first inclined surface and the second inclined surface are abutted against each other, and the second driving member is connected with the pushing block and can drive the pushing block to move so as to drive the pressing block to move.

4. The automatic lifting device of claim 3, further comprising a bridge plate, wherein the bridge plate is provided with a first groove and a second groove which are communicated with each other, the pushing block is slidably arranged in the first groove along a vertical direction, and the pressing block is slidably arranged in the second groove along a horizontal direction.

5. The automatic lifting device according to claim 4, wherein a sliding groove is formed in an inner wall of the second groove, and a sliding block is arranged on the pressing block and slidably arranged in the sliding groove.

6. An automatic lifting device according to claim 5, characterized in that the positioning assembly is further provided with an elastic member, and the elastic member is connected with the sliding block and the inner wall of the chute.

7. The automatic lifting device of claim 1, wherein the limiting assembly is provided in plurality, and the positioning component is correspondingly provided in plurality.

8. The automatic lifting device according to any one of claims 1 to 7, wherein two positioning assemblies are provided, namely a first positioning assembly and a second positioning assembly, the first positioning assembly can push the workpiece to be processed to move towards a first direction, the second positioning assembly can push the workpiece to be processed to move towards a second direction, and an included angle is formed between the first direction and the second direction.

9. The automatic lifting device according to claim 1, wherein a guide groove is provided on a side surface of the limiting member, the guide groove is communicated with the limiting groove, and one end of the guide groove extends to the bottom of the limiting member; the jacking assembly comprises a first driving piece and a jacking piece, the first driving piece is in driving connection with the jacking piece and can drive the jacking piece to stretch into the limiting groove and push the workpiece to be machined to move.

10. The automatic lifting device of claim 9, wherein the limiting assembly further comprises a support member; the guide groove is kept away from one end of the first opening extends to the bottom of the limiting part and is formed with a second opening, the bearing piece is arranged at the bottom of the limiting part, the bearing piece faces one side of the limiting part and is provided with a bearing groove, the bearing groove can be communicated with the limiting groove through the second opening, and the bearing groove bears the workpiece to be machined.

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