阅读说明：本技术 一种芯棒套管的插拆装置 (Plug and socket device for core rod sleeve ) 是由 金宝林 陈帮华 蒋卫金 于 2021-09-16 设计创作，主要内容包括：本发明提供了一种芯棒套管的插拆装置,属于机械技术领域。它解决了现有插芯棒机构不能拆芯棒的问题。本芯棒套管的插拆装置,包括工作台,工作台上设有中转座以及位于中转座两侧的顶入夹持结构和顶出结构,中转座中可移动的设有用于放置套管的送料座,中转座的两侧均具有供芯棒通过的过槽,过槽供芯棒穿过处的宽度小于套管的外径,顶入夹持结构能夹持并推动芯棒通过过槽插入固定在送料座中的套管内,顶入夹持结构能将顶出结构从套管中顶松的芯棒夹持住并能带动芯棒离开送料座。本芯棒套管的插拆装置具有使芯棒能插装到套管中且能将芯棒从套管中拆卸下的优点。(The invention provides an inserting and detaching device for a core rod sleeve, and belongs to the technical field of machinery. It has solved the problem that the plug core can not be torn open to current lock pin stick mechanism. This plug sheathed tube is inserted and is put, comprises a workbench, be equipped with well swivel mount and be located the top of transfer seat both sides and go into clamping structure and ejecting structure on the workstation, mobilizable being equipped with in the well swivel mount is used for placing sheathed tube pay-off seat, well swivel mount's both sides all have the cross groove that supplies the plug to pass through, the width that the cross groove supplies the plug to pass the department is less than sheathed tube external diameter, the top is gone into clamping structure and can be held and can drive the plug that ejecting structure pushed up the pine from the sleeve pipe and leave the pay-off seat through crossing the inslot and inserting the cover pipe of fixing in the pay-off seat, the top is gone into clamping structure and can be held and can be driven the plug to leave the pay-off seat. The plug-in and plug-out device of the core rod sleeve has the advantages that the core rod can be plugged into the sleeve and can be detached from the sleeve.)

1. An insertion and disassembly device of a core rod sleeve comprises a workbench (1) and is characterized in that, the worktable (1) is provided with a middle rotating seat (2), and a jacking clamping structure (3) and a jacking structure (4) which are positioned at the two sides of the middle rotating seat (2), a feeding seat (6) for placing the sleeve (5) is movably arranged in the middle rotating seat (2), both sides of the middle rotating seat (2) are provided with through grooves (21) for the core rod (7) to pass through, the width of the through groove (21) where the core rod (7) passes through is smaller than the outer diameter of the sleeve (5), the jacking clamping structure (3) can clamp and push the core rod (7) to be inserted into the sleeve (5) fixed in the feeding seat (6) through the through groove (21), the jacking clamping structure (3) can clamp the core rod (7) which is pushed loose by the jacking structure (4) from the sleeve (5) and can drive the core rod (7) to leave the feeding seat (6).

2. The device for the insertion and removal of mandrel collars according to claim 1, characterized in that the central turret (2) has a through-going blanking channel (22) located between a pair of said slots (21), the collar (5) being able to pass through the blanking channel (22) under the effect of its own weight.

3. The plug-in and removal device for mandrel collars according to claim 1, characterized in that the central swivel base (2) has a recessed central swivel groove (23), the feeder base (6) is located in the central swivel groove (23), the central swivel groove (23) has at least one adjusting plate (24) detachably attached to its wall, and the through-groove (21) can penetrate the adjusting plate (24).

4. A mandrel sleeve insertion and removal device according to claim 1, 2 or 3 characterised in that the through groove (21) extends through the top of the central swivel base (2), the top of the through groove (21) being flared.

5. A plug-in and removal device for a mandrel collar according to claim 1, 2 or 3, characterized in that the feeder shoe (6) has a U-shaped positioning slot (61) with an open top for the collar (5), the feeder shoe (6) being movable such that the positioning slot (61) is opposite to the through slot (21).

6. The plug and removal device for the mandrel sleeve according to claim 5, wherein a feeding frame (8) which is obliquely arranged is fixedly connected to the working table (1), a blanking opening (81) is formed between the discharging end of the feeding frame (8) and the transfer seat (2), a first driving member (9) which is connected with the feeding seat (6) is fixedly connected to the feeding frame (8), the first driving member (9) can drive the feeding seat (6) to move so that the positioning groove (61) is positioned right below the blanking opening (81), and the feeding seat (6) is blocked by the feeding seat (6) when the positioning groove (61) is arranged opposite to the through groove (21) by driving the first driving member (9).

7. A plug-in and-out device for a mandrel casing according to claim 1, 2 or 3, characterized in that the top-in clamping structure (3) comprises a first air cylinder (31) fixedly connected to the working table (1), a plurality of guide rods (32) are fixedly connected between the first air cylinder (31) and the middle rotary table (2), a fixing plate (33) is arranged on the guide rods (32), the output shaft of the first air cylinder (31) is connected to the fixing plate (33), the first air cylinder (31) can drive the fixing plate (33) to move along the guide rods (32), a second air cylinder (34) and a clamping jaw (35) are arranged on the fixing plate (33), and the second air cylinder (34) can drive the clamping jaw (35) to clamp the mandrel (7) in a closed manner.

8. A plug-in and-out arrangement for a mandrel sleeve according to claim 7, characterized in that the jaw (35) comprises two clamping plates (351), the bottom of each of the two clamping plates (351) is hinged with the fixing plate (33) and the bottom of each of the two clamping plates (351) is engaged with the tooth (352), a return spring (353) is arranged between the middle parts of the two clamping plates (351), the top of each of the two clamping plates (351) is provided with a notch (354) for clamping the mandrel (7), the inner side walls of the two clamping plates (351) facing the fixing plate (33) are provided with protruding protrusions (355), the fixing plate (33) is provided with a step surface (331), and the protrusions (355) can abut against the step surface (331) under the elastic force of the return spring (353).

9. A mandrel sleeve inserting and removing device according to claim 1, 2 or 3, characterized in that a second driving member (10) is further arranged on the working table (1), a pressing block (11) is fixedly connected to an output shaft of the second driving member (10), and the second driving member (10) can drive the pressing block (11) to move so that the pressing block (11) presses the sleeve (5) in the feeding seat (6).

10. A mandrel sleeve insertion and removal device according to claim 1, 2 or 3, characterized in that a support (13) for mounting a manipulator (12) is arranged beside the working table (1), and a detection structure (14) for detecting the relative position of the mandrel (7) and the sleeve (5) is fixedly connected to the support (13).

Technical Field

The invention belongs to the technical field of machinery, and relates to an inserting and detaching device for a core rod sleeve.

Background

The sleeve pipe is the tube-shape, and inside has along the through-hole that the sleeve pipe axial runs through, and the sleeve pipe needs to polish the sheathed tube lateral wall in production and processing process, when polishing, need wear to establish fixed solid plug in the sleeve pipe, places the polisher again in, fixes the sleeve pipe through the mode of fixed plug, realizes polishing the sleeve pipe through the polisher at last.

For example, chinese patent literature discloses a rod inserting mechanism for use in a cutting and bending machine [ application No.: 201320031366.6, respectively; authorization notice number: CN203155780U ], which comprises a core rod and a material moving mechanism for sleeving a tube on the core rod, wherein the material moving mechanism comprises a fixed frame, a feeding slide block, a material moving clamp die mounting seat and a feeding cylinder, the feeding slide block is slidably mounted on the fixed frame, the feeding cylinder with a horizontally mounted cylinder body is fixed on the fixed frame, and the material moving clamp die mounting seat is fixedly mounted at the bottom of the feeding slide block and is driven by the feeding cylinder to move horizontally; the material moving clamping die is arranged on the material moving clamping die mounting base, is positioned on one side of the core rod and corresponds to the core rod, so that the material moving clamping die can sleeve the clamped pipe on the core rod under the action of the feeding air cylinder.

According to the core inserting rod mechanism with the structure, the core rod can be inserted and fixed into the pipe, then the pipe inserted with the core rod is moved into the grinding machine to be ground, after the grinding is completed, the pipe needs to be knocked in a manual mode, the core rod is separated from the pipe, then the core rod is placed into the core inserting rod mechanism, and the processed pipe is placed into the material frame. That is, the mandrel inserting mechanism with such a structure can only realize the operation of inserting the mandrel into the pipe, but cannot realize the operation of detaching the mandrel from the pipe, and the mandrel cannot be used in an automatic cycle manner.

Disclosure of Invention

The invention aims to provide a plug and socket device for a core rod socket, aiming at solving the technical problem of how to insert and dismount a core rod into and from the socket.

The purpose of the invention can be realized by the following technical scheme: the plug-in and plug-out device of the mandrel sleeve comprises a workbench and is characterized in that a middle rotary seat and a plug-in clamping structure and a plug-out structure are arranged on the workbench, the plug-in clamping structure and the plug-out structure are positioned on two sides of the middle rotary seat, a feeding seat used for placing the sleeve is movably arranged in the middle rotary seat, two sides of the middle rotary seat are respectively provided with a through groove for the mandrel to pass through, the width of the through groove where the mandrel passes through is smaller than the outer diameter of the sleeve, the plug-in clamping structure can clamp and push the mandrel to be inserted into the sleeve fixed in the feeding seat through the through groove, and the plug-in clamping structure can clamp the plug-out structure, which is pushed out of the sleeve, and can drive the mandrel to leave the feeding seat.

During operation, the sleeve pipe is placed in the stack pallet and is delivered to the processing position by the stack pallet, two are crossed between the groove promptly, the centre gripping structure work is gone into on the top, the centre gripping promotes the plug to insert through crossing the groove and fixes in the cover pipe in the stack pallet, the centre gripping structure normal position is gone into in the top, the sleeve pipe centre gripping that will insert the plug through the manipulator is walked and is placed and process on the grinding machine, place the sleeve pipe that the processing was accomplished in the transfer seat through the manipulator simultaneously, ejecting structure work, push up the loose with the plug in the sleeve pipe, push up the centre gripping structure processing afterwards, the centre gripping plug and drive the plug and leave the stack pallet, this plug is arranged in inserting fixedly in next sleeve pipe, carry out the unloading to the sleeve pipe that has processed. The two sides of the middle rotating seat are provided with the passing grooves for the core rod to pass through, namely, the core rod can stretch into and stretch out from the two sides of the middle rotating seat, the core rod can move freely due to the arrangement of the passing grooves, the width of the passing part of the passing groove for the core rod to pass through is smaller than the outer diameter of the sleeve, namely, when the core rod is inserted or ejected, the sleeve can abut against the middle rotating seats on the two sides of the passing groove, and the core rod and the sleeve can be clamped or loosened when the core rod is subjected to external force. This insert dismouting and put and make the plug can insert in the sleeve pipe and can follow the sleeve pipe with the plug and dismantle down, the in-process that the plug was being inserted and is torn open simultaneously can reuse, degree of automation is high, and is efficient.

In the insertion and removal device of the mandrel sleeve, a through blanking channel is arranged in the middle rotating seat, the blanking channel is positioned between the pair of the through grooves, and the sleeve can pass through the blanking channel under the action of self gravity. The core rod and the sleeve pipe link firmly the back, the both ends of core rod all are located the sleeve pipe outside, core rod and sleeve pipe are when dismantling, and the manipulator is placed the sleeve pipe in the transfer seat, and the both ends embedding setting of core rod supports the sleeve pipe in crossing the groove, and ejecting structure is loose the back with the core rod top, pushes up clamping structure centre gripping core rod and makes core rod and sleeve pipe break away from, and the sleeve pipe carries out the unloading through the unloading passageway under the effect of self gravity afterwards, and the dismantlement and the unloading of core rod and sleeve pipe take place in step promptly, and the sleeve pipe unloading is convenient, raises the efficiency.

In the insertion and disassembly device for the mandrel sleeve, the middle rotating seat is provided with a concave middle rotating groove, the feeding seat is positioned in the middle rotating groove, at least one groove wall of the middle rotating groove is detachably and fixedly connected with an adjusting plate, and the through groove can penetrate through the adjusting plate. The adjusting plate is detachably arranged, namely the adjusting plates with different thicknesses can be arranged, so that the width of the transit groove is adjusted, the inserting and detaching device can process sleeves with different lengths, and the inserting and detaching device is wide in application range and good in universality; the through groove can penetrate through the adjusting plate, namely the core rod can also penetrate through the adjusting plate, and the arrangement of the adjusting plate cannot block the core rod.

In the above insertion and removal device for the mandrel sleeve, the passing groove penetrates through the top of the middle rotating seat, and the top of the passing groove is flared. After the core rod and the sleeve are fixedly connected, two ends of the core rod are positioned outside the sleeve, and the through groove penetrates through the top of the middle rotary seat, so that the core rod and the sleeve cannot be blocked when being grabbed and placed by a manipulator, and the grabbing and placing are convenient; the top of the groove is flared at the same time, so that the core rod and the sleeve are convenient to place; the width of the over-groove top may be larger than the outer diameter of the sleeve, since this is not intended to abut against the sleeve.

In the insertion and removal device for the mandrel sleeve, the feeding seat is provided with a U-shaped positioning groove with an opening at the top for placing the sleeve, and the positioning groove and the through groove can be oppositely arranged after the feeding seat moves. The locating slot is used for locating the sleeve, and the top opening of the locating slot is U-shaped, so that the stability of sleeve locating is improved, and the sleeve can be conveniently put in and taken out.

In foretell plug sheathed tube dismouting device, link firmly the pay-off frame that the slope set up on the workstation, form a blanking mouth between the discharge end of pay-off frame and the transfer seat, link firmly the first driving piece that links to each other with the pay-off seat in the pay-off frame, first driving piece can drive the pay-off seat and remove and make the constant head tank be located blanking mouth under, first driving piece drive pay-off seat removes when making constant head tank and crossing the relative setting of groove the pay-off seat shutoff blanking mouth. The pay-off frame sets up in the slope, and the sleeve pipe is cylindricly, and the sleeve pipe is under self gravity, and automatic gliding drops to the constant head tank of pay-off seat through the blanking mouth in, and first driving piece drive pay-off seat removes, makes the sleeve pipe in the constant head tank remove the processing position, and pay-off seat shutoff blanking mouth this moment makes the sleeve pipe can not drop, and behind the sleeve pipe processing completion, the pay-off seat restores the normal position, and the sleeve pipe continues to drop to the constant head tank in.

In foretell plug sheathed tube dismouting device of inserting, the centre gripping structure is gone into in the top is including linking firmly the first cylinder on the workstation, a plurality of guide bars have been linked firmly between first cylinder and the well swivel mount, be equipped with the fixed plate on the guide bar, the output shaft of first cylinder links to each other just with the fixed plate first cylinder can drive the fixed plate and remove along the guide bar, be provided with second cylinder and jack catch on the fixed plate, the second cylinder can drive the jack catch closure and carry the plug. The second cylinder drives the clamping jaw to close to clamp the core rod, the first cylinder works to push the fixing plate to move along the guide rod, so that the core rod is inserted into the sleeve, the second cylinder resets, the clamping jaw loosens the core rod, and the first cylinder pushes the fixing plate to reciprocate when necessary, so that the core rod is impacted for a plurality of times, and the core rod and the sleeve are ensured to be fixed; when the core rod is pushed to be loose, the first air cylinder works to push the fixing plate to a set position, then the second air cylinder works to enable the clamping jaws to be closed to clamp the core rod, and the first air cylinder works to drive the fixing plate to reset. In actual production, the first cylinder and the second cylinder can be replaced by oil cylinders, and the guide rod can be replaced by a dovetail groove structure for guiding.

In foretell plug sheathed tube dismouting device, the jack catch includes two cardboard, two the bottom of cardboard all is articulated mutually and two with the fixed plate the bottom of cardboard passes through the tooth and meshes mutually, two be equipped with reset spring between the middle part of cardboard, two the top of cardboard all has the breach that is used for the centre gripping plug, two the cardboard all has the bellying of protrusion setting towards on the inside wall of fixed plate, the step face has on the fixed plate, the bellying can support by on the step face under the effect of reset spring elasticity. During clamping, the second cylinder abuts against the tops of the clamping plates, the elasticity of the reset springs is overcome, the two clamping plates rotate around the hinged point in a meshed mode, and the core rod is clamped through the two notches; when loosening, the second cylinder no longer supports the cardboard, and under the effect of reset spring elasticity, two cardboards are rotatory around the pin joint meshing, support on the step face until the bellying.

In the insertion and removal device of the mandrel sleeve, the ejection structure is an oil cylinder or an air cylinder.

In the insertion and disassembly device for the mandrel sleeve, the workbench is further provided with a second driving piece, the output shaft of the second driving piece is fixedly connected with the pressing block, and the second driving piece can drive the pressing block to move so that the pressing block presses the sleeve in the feeding seat. The sleeve in the feeding seat can be pressed through the pressing block, so that the problem that the sleeve jumps in the process of inserting and detaching the core rod is solved, and the inserting and detaching precision of the core rod is improved.

In the insertion and disassembly device for the core rod sleeve, a support used for installing the manipulator is arranged beside the workbench, and a detection structure used for detecting the relative position of the core rod and the sleeve is fixedly connected onto the support. The inner diameters of the sleeves are slightly different, the position where the core rod is inserted and fixed in the sleeve is slightly different, and the relative position of the core rod and the sleeve can be detected by the detection structure, so that the subsequent machining precision of the sleeve is improved.

Compared with the prior art, the plug and socket device for the mandrel sleeve provided by the invention has the following advantages:

1. this insert dismouting and put cooperation manipulator and grinding machine use, only need use three plug just can automatic cycle process a plurality of sleeves, and degree of mechanization is high, and machining efficiency is high.

2. The insertion and disassembly device has the advantages that the core rod can be inserted and fixed in the sleeve by arranging the jacking clamping structure and the jacking structure, and the core rod can be taken out of the sleeve, so that the operation is convenient; the blanking channel is arranged in the middle rotary seat and is positioned between the two cross grooves, so that the sleeve can be automatically blanked, and the blanking is convenient.

3. This insert dismouting and put each structure and use well swivel mount to divide around arranging as the center, and the unloading passageway runs through the workstation, and the manipulator is located the workstation top, the space in each position on the rational utilization workstation.

Drawings

Fig. 1 is a schematic view of the overall structure of the present sleeve processing apparatus.

Fig. 2 is a schematic view of the overall structure of the plug-and-socket attachment/detachment device of the present mandrel mill.

FIG. 3 is a schematic structural diagram of the feeding frame, the middle rotary seat and the feeding seat of the insertion and disassembly device.

FIG. 4 is a schematic view of the overall structure of the rotary base in the insertion and removal device.

FIG. 5 is a state view after the plug and the socket are inserted.

Figure 6 is a schematic view of the structure of the claw of the insertion and removal device.

In the figure, 1, a workbench; 2. a middle transposable; 21. passing through a groove; 22. a blanking channel; 23. a transit trough; 24. an adjusting plate; 3. jacking into the clamping structure; 31. a first cylinder; 32. a guide bar; 33. a fixing plate; 331. a step surface; 34. a second cylinder; 35. a claw; 351. clamping a plate; 352. teeth; 353. a return spring; 354. a notch; 355. a boss portion; 4. an ejection structure; 5. a sleeve; 6. a feeding seat; 61. positioning a groove; 7. a core rod; 8. a feeding frame; 81. a blanking port; 9. a first driving member; 10. a second driving member; 11. a compression block; 12. a manipulator; 13. a support; 14. detecting the structure; 15. and (6) grinding the machine.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, the apparatus comprises a mandrel shell insertion and removal device, a holder 13, a robot arm 12, a detection structure 14 and a grinding machine 15. As shown in fig. 2, the insertion and removal device includes a workbench 1, a transfer seat 2, an insertion and clamping structure 3, an ejection structure 4, a feeding seat 6, a feeding frame 8 and a second driving member 10.

The both sides and the bilateral symmetry setting of swivel mount 2 in the centre gripping structure 3 and ejecting structure 4 are located are gone into in the top, and symmetrical setting around and at the both ends of swivel mount 2 in feed rack 8 and second driving piece 10 are located, and this insertion and disassembly device is enclosing 2 intervals 90 settings of well swivel mount.

As shown in fig. 3 and 4, the middle rotary seat 2 has a concave middle rotary groove 23 therein, both sides of the middle rotary seat 2 have through grooves 21 for the core rods 7 to pass through, the middle rotary seat 2 has a through blanking channel 22 therein, the blanking channel 22 is communicated with the middle rotary groove 23, and the blanking channel 22 is located between a pair of through grooves 21. The through groove 21 penetrates through the top of the middle rotating seat 2, the top of the through groove 21 is in a flaring shape, and the width of the through groove 21 where the core rod 7 penetrates is smaller than the outer diameter of the sleeve 5. In this embodiment, equal detachable has linked firmly regulating plate 24 in the both sides cell wall of transit groove 23, and regulating plate 24 installs the back that targets in place, crosses groove 21 and runs through regulating plate 24, and in actual production, detachable has linked firmly regulating plate 24 in the cell wall of one side of transit groove 23, and regulating plate 24's thickness can be selected.

Have linked firmly the pay-off frame 8 that the slope set up on the workstation 1, form a blanking mouth 81 between the discharge end of pay-off frame 8 and the transfer seat 2, first driving piece 9 that links to each other with pay-off seat 6 has been linked firmly in the pay-off frame 8, pay-off seat 6 is arranged in transfer groove 23, first driving piece 9 can drive pay-off seat 6 and remove along transfer groove 23, the constant head tank 61 that the confession sleeve pipe 5 that has open-top and is the U-shaped on the pay-off seat 6 was placed, first driving piece 9 can drive pay-off seat 6 and remove and make constant head tank 61 be located blanking mouth 81 under, 6 shutoff blanking mouths 81 of pay-off seat when first driving piece 9 drive pay-off seat 6 removes messenger constant head tank 61 and crosses groove 21 and set up relatively. In this embodiment, the first driving member 9 is a cylinder, and in actual production, the first driving member 9 may be a cylinder.

The jacking clamping structure 3 comprises a first cylinder 31 fixedly connected to the workbench 1, in this embodiment, three guide rods 32 are fixedly connected between the first cylinder 31 and the middle rotary seat 2, and in actual production, the number of the guide rods 32 can be four or two. The guide rod 32 is provided with a fixed plate 33, an output shaft of the first air cylinder 31 is connected with the fixed plate 33, the first air cylinder 31 can drive the fixed plate 33 to move along the guide rod 32, the fixed plate 33 is provided with a second air cylinder 34 and a clamping jaw 35, and the second air cylinder 34 can drive the clamping jaw 35 to close and clamp the core rod 7. As shown in fig. 6, the jaw 35 includes two clamping plates 351, the bottoms of the two clamping plates 351 are hinged to the fixing plate 33, the bottoms of the two clamping plates 351 are engaged with each other through teeth 352, a return spring 353 is arranged between the middle portions of the two clamping plates 351, the tops of the two clamping plates 351 are provided with notches 354 for clamping the mandril 7, the inner side walls of the two clamping plates 351 facing the fixing plate 33 are provided with protruding portions 355, the fixing plate 33 is provided with a step surface 331, and the protruding portions 355 can abut against the step surface 331 under the elastic force of the return spring 353. In this embodiment, the ejection structure 4 is an oil cylinder, and in actual production, the ejection structure 4 may be an air cylinder.

Still be provided with second driving piece 10 on the workstation 1, linked firmly compact heap 11 on the output shaft of second driving piece 10, compact heap 11 can be made by rubber materials, and second driving piece 10 can drive compact heap 11 and remove and make compact heap 11 push down the sleeve pipe 5 that is arranged in pay-off seat 6. In this embodiment, the second driving member 10 is a cylinder, and in actual production, the second driving member 10 may be a cylinder. A support 13 for installing a manipulator 12 is arranged beside the workbench 1, a detection structure 14 for detecting the relative position of the core rod 7 and the sleeve 5 is fixedly connected to the support 13, and the detection structure 14 is a combination of a proximity switch, a spring and a push rod.

During operation, the sleeve 5 on the material placing frame falls into the positioning groove 61 of the material feeding seat 6, the first driving part 9 operates to enable the material feeding seat 6 to move to a processing position along the transit groove 23, at the moment, the sleeve 5 is located between the two transit grooves 21, the end faces at two ends of the sleeve 5 respectively abut against the groove walls of the transit grooves 23 located at two sides of the transit grooves 21, the second driving part 10 drives the pressing block 11 to press the sleeve 5 to push the clamping structure 3 to work, as shown in fig. 5, the core rod 7 is clamped and pushed to be inserted into the sleeve 5 fixed in the material feeding seat 6 through the transit grooves 21 and pushed into the clamping structure 3 to return to the original position, the manipulator 12 is provided with two clamping positions, the first clamping position of the manipulator 12 grabs the core rod 7 and the sleeve 5 away, the first driving part 9 enables the material feeding seat 6 to return to the original position, the next sleeve 5 falls into the positioning groove 61, the second clamping position of the manipulator 12 places the core rod 7 and the sleeve 5 polished by the sleeve 5 in the transit seat 2, two end parts of the core rod 7 are positioned in the through grooves 21, the core rod 7 is ejected loosely from the sleeve 5 by the ejection structure 4, the core rod 7 is clamped away by the ejection clamping structure 3, the sleeve 5 is discharged through the discharging channel 22 under the action of self gravity, and the feeding seat 6 is driven by the first driving piece 9 to enable the next sleeve 5 to be positioned at the processing position. In the process, the relative positions of the core rod 7 and the sleeve 5 are measured by the detection structure 14 firstly when the core rod 7 and the sleeve 5 are clamped by the first clamping position of the manipulator 12, then the sleeve 5 which is polished on the grinding machine 15 is clamped and taken out by the second clamping position of the manipulator 12, the core rod 7 and the sleeve 5 are placed on the grinding machine 15 for polishing by the first clamping position of the manipulator 12, then the manipulator 12 moves to the inserting and detaching position, and the process is repeated to complete the processing of a plurality of sleeves 5.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms of the working table 1, the transfer seat 2, the through groove 21, the blanking channel 22, the transfer groove 23, the adjusting plate 24, the jacking clamping structure 3, the first air cylinder 31, the guide rod 32, the fixing plate 33, the step surface 331, the second air cylinder 34, the claws 35, the clamping plates 351, the teeth 352, the return springs 353, the notches 354, the protrusions 355, the jacking structure 4, the sleeve 5, the feeding seat 6, the positioning groove 61, the core rod 7, the feeding frame 8, the blanking port 81, the first driving element 9, the second driving element 10, the pressing block 11, the manipulator 12, the bracket 13, the detecting structure 14, the grinding machine 15, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.