CN113547297B

CN113547297B - Hook buckling device of toughened glass packaging box

Info

Publication number: CN113547297B
Application number: CN202110746618.2A
Authority: CN
Inventors: 吕延安; 陈武; 邹斌; 黄龙; 张培胜; 赵刚
Original assignee: Guangdong Dayu Intelligent Equipment Co ltd
Current assignee: Guangdong Dayu Intelligent Equipment Co ltd
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2022-10-14
Anticipated expiration: 2041-06-30
Also published as: CN113547297A

Abstract

The invention discloses a hook buckling device of a toughened glass packaging box, which comprises an active buckling mechanism and a passive buckling mechanism, wherein the active buckling mechanism is used for driving a hook to move towards a hook pad; the active buckling mechanism comprises a clamping push plate and a clamping driving mechanism for driving the clamping push plate to move, and a hook positioning and placing clamping position for positioning and placing the hook is arranged at the end part of the clamping push plate; the passive buckling mechanism comprises a support piece and a support lifting driving mechanism for driving the support piece to lift, the end part of the support piece is provided with a hook pad positioning storage clamping position for positioning and storing the hook pad, and the inner wall of the hook pad positioning storage clamping position is provided with a clamping avoiding groove for avoiding a clamping part of a hook. This couple lock device can be from moving part with couple lock joint on the box body, need not artifical the participation, effectively improves production efficiency, reduction in production cost.

Description

Hook buckling device of toughened glass packaging box

Technical Field

The invention relates to a toughened glass packaging box manufacturing device, in particular to a hook buckling device of a toughened glass packaging box.

Background

With the increasing of electronic digital products in the current society, the use of touch screens is more and more popular, especially in the mobile phone industry, wherein, the mobile phone screen is a core component for interactive operation with users, and is easily damaged by the impact of hard objects, and the maintenance and replacement cost is higher, so in the use process, in order to protect the screen, users often stick a screen protection film, such as a toughened glass protection sheet, on the screen first, and can effectively protect the screen.

In the production of toughened glass screening glass, need put into the packing carton with the packing of toughened glass screening glass as last process, and current packing carton mainly comprises box body c that has the lock mounting hole and couple b that has the hanging hole, is equipped with joint portion on the couple b, and this joint portion is fixed the joint on box body c inner chamber wall through the joint hole of hook pad a, as shown in fig. 1. Among the prior art, the packing carton mainly relies on artifical equipment to obtain, stacks up the hook of couple lock joint in the inside hooking of box body through the manual work, and work efficiency is lower, and manufacturing cost is high.

Disclosure of Invention

The invention aims to overcome the existing problems and provides the hook buckling device of the toughened glass packaging box, which can automatically buckle and clamp the hook on the box body without manual participation, thereby effectively improving the production efficiency and reducing the production cost.

The purpose of the invention is realized by the following technical scheme:

a hook buckling device of a toughened glass packaging box comprises an active buckling mechanism and a passive buckling mechanism, wherein the active buckling mechanism is used for driving a hook to move towards a hook pad;

the active buckling mechanism comprises a clamping push plate and a clamping driving mechanism for driving the clamping push plate to move, a hook positioning and placing clamping position for positioning and placing the hook is arranged at the end part of the clamping push plate, and when the hook is placed in the hook positioning and placing clamping position, the clamping part of the hook faces the box body;

the passive buckling mechanism comprises a support piece and a support lifting driving mechanism used for driving the support piece to lift and move, the end part of the support piece is provided with a hook pad positioning storage clamping position used for positioning and storing the hook pad, and the inner wall of the hook pad positioning storage clamping position is provided with a support part used for propping against the hook pad.

The working principle of the hook buckling device of the toughened glass packaging box is as follows:

when the clamping device works, the box body is arranged in the clamping station, then the supporting lifting driving mechanism drives the supporting piece to descend and fall into the inner cavity of the box body, at the moment, the supporting piece is close to the side wall, provided with the buckling mounting hole, of the box body, and the end, provided with the hook positioning and placing clamping position, of the clamping push plate faces the side wall, provided with the buckling mounting hole, from the outer side of the box body; the hook pad and the hook are respectively conveyed to a hook pad positioning and accommodating clamping position of the support piece and a hook positioning and placing clamping position of the clamping push plate through the conveying mechanism, and at the moment, the clamping hole of the hook pad, the clamping part of the hook and the box body buckling installation hole are positioned on the same straight line; then, joint actuating mechanism drive joint push pedal removes toward the direction of box body, and the joint push pedal drives the couple and carries out the joint removal, and the joint portion of couple passes the lock mounting hole of box body in proper order, passes the joint hole of hook pad again to spacing fixing is at the hook pad, accomplishes the lock work of couple and box body. In this in-process, because the joint portion of couple need shrink to be out of shape and pass lock mounting hole and joint hole, can bring great roof pressure effort for box body and hook pad, so support piece's supporting part supports hook pad and box body at the inner chamber of box body, offsets the thrust of the joint portion of couple to the joint portion of messenger's couple passes lock mounting hole and joint hole, thereby guarantees that joint work accomplishes smoothly.

In a preferred embodiment of the present invention, the inner wall of the hook pad positioning and accommodating clamp position is provided with a clamp avoiding groove for avoiding the clamp portion of the hook.

In a preferred scheme of the invention, the anti-deformation hook further comprises an anti-deformation supporting mechanism, wherein the anti-deformation supporting mechanism comprises an anti-deformation supporting block for carrying out anti-deformation supporting on the hook in a hanging hole of the hook, an anti-deformation transverse driving mechanism for driving the anti-deformation supporting block to transversely move and an anti-deformation lifting driving mechanism for driving the anti-deformation supporting block to lift and move;

the anti-deformation lifting device is characterized in that the anti-deformation supporting block is arranged on the anti-deformation lifting driving mechanism through a self-adaptive moving structure, the self-adaptive moving structure comprises a self-adaptive guiding assembly and a self-adaptive resetting elastic piece, the self-adaptive guiding assembly comprises a self-adaptive sliding block and a self-adaptive guide rail, and the anti-deformation supporting block is fixedly arranged on the self-adaptive sliding block; one end of the self-adaptive reset elastic piece is connected to the self-adaptive sliding block or the anti-deformation supporting block, and the other end of the self-adaptive reset elastic piece is connected to the fixed mounting plate; the self-adaptive guide rail is arranged on the fixed mounting plate, and the extending direction of the self-adaptive guide rail is parallel to the driving direction of the clamping driving mechanism. Through the structure, in the buckling and mounting process, after the carrying mechanism puts the hook (plastic product) into the hook positioning and placing clamping position, the anti-deformation transverse driving mechanism drives the anti-deformation supporting block to transversely move to the position right above the hook, the anti-deformation lifting driving mechanism drives the anti-deformation supporting block to descend to be close to the hook until the anti-deformation supporting block enters the hanging hole of the anti-deformation supporting block, and then the clamping driving mechanism drives the clamping push plate to start clamping work; because the shape supporting shoe setting of preapring for an unfavorable turn of events is on the self-adaptation mobile structure, so preapring for an unfavorable turn of events the shape supporting shoe can remove along with the couple (preapring for an unfavorable turn of events the shape supporting shoe and toward removing along the self-adaptation guide rail, the self-adaptation elastic component that resets receives tensile and warp), preapring for an unfavorable turn of events shape supporting shoe synchronous movement ground supports the couple in the hanging hole, avoids the pore wall of couple to warp backward to guarantee that joint work accomplishes smoothly, the structure of protection couple simultaneously does not damage because of the extrusion. After the lock installation work is completed, the deformation-preventing lifting driving mechanism drives the deformation-preventing supporting block to ascend and reset, meanwhile, the self-adaptive reset elastic piece recovers deformation, potential energy is released, the deformation-preventing supporting block and the self-adaptive sliding block are driven to reset and move along the self-adaptive guide rail, and the self-adaptive sliding block returns to the original position to prepare the next lock installation work.

Preferably, the shape lift actuating mechanism of preapring for an unfavorable turn of events is including preapring for an unfavorable turn of events shape lift actuating cylinder, and this preapring for an unfavorable turn of events shape lift actuating cylinder's telescopic link passes through fixed mounting panel is connected with self-adaptation direction subassembly. Through the structure, the fixed mounting plate can drive the anti-deformation supporting block to move up and down under the driving of the anti-deformation lifting driving cylinder, so that the fixed mounting plate is close to or far away from the hook.

Preferably, the anti-deformation transverse driving mechanism comprises an anti-deformation transverse driving cylinder, and the telescopic rod of the anti-deformation transverse driving cylinder is connected with the anti-deformation lifting driving mechanism through an anti-deformation transverse moving plate. Through the structure, under the drive of the deformation-preventing transverse driving cylinder, the deformation-preventing transverse moving plate can drive the deformation-preventing lifting driving mechanism and the deformation-preventing supporting block to perform transverse movement, so that the transverse moving plate is close to or far away from the hook.

In a preferred embodiment of the present invention, the passive buckling mechanism further includes a supporting member and a supporting driving mechanism for driving the supporting member to move, and in a supporting state, the supporting member is located below the hook pad positioning and accommodating position. Through the structure, the hook pad is supported by the supporting piece, the hook pad is positioned at the set clamping position, and the clamping hole of the hook pad, the clamping part of the hook and the buckling mounting hole of the box body are ensured to be positioned on the same straight line.

Preferably, bearing actuating mechanism drives actuating cylinder including the bearing, and this bearing drives actuating cylinder setting on supporting lift actuating mechanism, and this bearing drives actuating cylinder's telescopic link and bearing piece and is connected. Through above-mentioned structure, under the drive of the lifting actuating cylinder that preapres for an unfavorable turn of events shape, the below that screens was accomodate in hook pad location to the supporting is carried out to hook pad to the bearing.

In a preferable aspect of the present invention, the supporting and lifting driving mechanism includes a supporting and lifting driving cylinder, a cylinder body of the supporting and lifting driving cylinder is fixedly disposed on the frame, and a telescopic rod of the supporting and lifting driving cylinder is connected to the supporting member through a supporting and lifting plate. Through above-mentioned structure, under the drive of supporting lift drive actuating cylinder, support the lifter plate and can drive support piece and carry out lifting movement to be close to or keep away from the hook pad.

According to a preferable scheme of the invention, the clamping driving mechanism comprises a clamping driving cylinder, a cylinder body of the clamping driving cylinder is fixedly arranged on the rack, and a telescopic rod of the clamping driving cylinder is connected with the clamping push plate. Through the structure, the clamping push plate can drive the clamping push plate to move transversely under the driving of the clamping driving cylinder, so that the clamping push plate is close to or far away from the hook.

Compared with the prior art, the invention has the following beneficial effects:

1. the hook buckling device can automatically buckle and clamp the hook on the box body without manual participation, so that the production efficiency is effectively improved, and the production cost is reduced.

2. The clamping push plate is driven by the clamping driving mechanism to move towards the direction of the box body, and the clamping push plate drives the hook to clamp a clamping part of the movable hook to sequentially penetrate through the buckling mounting hole of the box body and then penetrate through the clamping hole of the hook pad, so that the movable hook is limited and fixed on the hook pad; wherein, because the joint portion of couple need shrink to be out of shape and pass lock mounting hole and joint hole, can bring great roof pressure effort for box body and hook pad, so support piece's supporting part supports hook pad and box body at the inner chamber of box body, offsets the thrust of the joint portion of couple to the joint portion that makes the couple passes lock mounting hole and joint hole, thereby guarantees that joint work accomplishes smoothly.

Drawings

Fig. 1 is a half-body structure view of a tempered glass packaging box.

Fig. 2 is a schematic perspective view of a hook fastening device of the tempered glass package box according to the present invention.

Fig. 3-5 are enlarged views of X in fig. 2 in different states.

Fig. 6 is a schematic perspective view of an active fastening mechanism according to the present invention.

FIG. 7 is a side view of a passive snapping mechanism of the present invention.

FIG. 8 is a perspective view of a passive fastening mechanism according to the present invention.

Fig. 9 is a perspective view illustrating the deformation preventing support mechanism according to the present invention.

Fig. 10 is a side view of the deformation preventing support mechanism in the present invention.

Detailed Description

In order to make those skilled in the art understand the technical solutions of the present invention well, the following description of the present invention is provided with reference to the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

The couple buckling device of toughened glass packing carton in this embodiment is including being used for the initiative snapping mechanism that the drive couple removed toward the direction of hooking the pad and being used for carrying out passive snapping mechanism and the deformation support mechanism that supports to hooking the pad.

Referring to fig. 1-6, the active buckling mechanism comprises a clamping push plate 1 and a clamping driving mechanism for driving the clamping push plate 1 to move, a hook positioning and placing clamp 1-1 for positioning and placing a hook is arranged at the end of the clamping push plate 1, and when the hook is placed in the hook positioning and placing clamp 1-1, a clamping part of the hook faces the box body.

The joint actuating mechanism includes that the joint drives actuating cylinder 15, and this joint drives the fixed setting in the frame of cylinder body that actuating cylinder 15, and this joint drives actuating cylinder 15's telescopic link and joint push pedal 1 and is connected. Under the drive of joint drive actuating cylinder 15, joint push pedal 1 can drive joint push pedal 1 and carry out lateral shifting to be close to or keep away from the couple. Of course, the clamping driving mechanism can also adopt other mechanisms which can realize transverse driving, such as a motor driving mechanism.

Referring to fig. 7-8, the passive buckling mechanism includes a supporting member 2 and a supporting lifting driving mechanism for driving the supporting member 2 to move up and down, a hook pad positioning and accommodating position 2-1 for positioning and accommodating the hook pad is arranged at an end of the supporting member 2, and an inner wall of the hook pad positioning and accommodating position 2-1 forms a supporting portion for abutting against the hook pad. Further, the inner wall of the hook pad positioning and accommodating clamping position 2-1 is provided with a clamping avoiding groove 2-2 for avoiding a clamping part of the hook.

Support lift actuating mechanism and drive actuating cylinder 13 including supporting the lift, should support the fixed setting in the frame of the cylinder body that drives actuating cylinder 13 that goes up and down, should support the telescopic link that drives actuating cylinder 13 that goes up and down to be connected with support piece 2 through supporting lifter plate 14. The support lifting plate 14 can drive the support member 2 to move up and down to be close to or far from the hook mat under the driving of the support lifting driving cylinder 13. Of course, the supporting lifting driving mechanism may also adopt other mechanisms capable of realizing lifting driving, such as a motor driving mechanism.

Referring to fig. 2-5 and fig. 7-8, the passive buckling mechanism further includes a supporting member 11 and a supporting driving mechanism for driving the supporting member 11 to move, and in the supporting state, the supporting member 11 is located below the hook pad positioning and accommodating position 2-1. Through the structure, the hook pad is supported by the supporting piece 11, the hook pad is positioned at the set clamping position, and the clamping hole of the hook pad, the clamping part of the hook and the buckling installation hole of the box body are ensured to be positioned on the same straight line.

Further, bearing actuating mechanism includes that the bearing drives actuating cylinder 12, and this bearing drives actuating cylinder 12 and sets up on supporting lift actuating mechanism, and this bearing drives the telescopic link and the supporting 11 of actuating cylinder 12 and is connected. Through the structure, under the driving of the bearing driving cylinder 12, the bearing piece 11 can stretch and retract below the hook pad positioning and containing clamping position 2-1, so that the hook pad is supported.

Referring to fig. 5 and 9 to 10, the deformation preventing support mechanism includes a deformation preventing support block 3 for preventing deformation of the hook in the hanging hole of the hook, a deformation preventing lateral drive mechanism for driving the deformation preventing support block 3 to move laterally, and a deformation preventing lifting drive mechanism for driving the deformation preventing support block 3 to move up and down.

The anti-deformation supporting block 3 is arranged on the anti-deformation lifting driving mechanism through a self-adaptive moving structure, the self-adaptive moving structure comprises a self-adaptive guide assembly and a self-adaptive reset elastic part 4, and the self-adaptive reset elastic part 4 is an extension spring or an elastic sheet and the like; the self-adaptive guide assembly comprises a self-adaptive sliding block 5 and a self-adaptive guide rail 6, and the anti-deformation supporting block 3 is fixedly arranged on the self-adaptive sliding block 5; one end of the self-adaptive reset elastic piece 4 is connected to the self-adaptive sliding block 5 or the anti-deformation supporting block 3, and the other end of the self-adaptive reset elastic piece is connected to the fixed mounting plate 7; the self-adaptive guide rail 6 is arranged on the fixed mounting plate 7, and the extending direction of the self-adaptive guide rail 6 is parallel to the driving direction of the clamping driving mechanism. Through the structure, in the buckling and mounting process, after a carrying mechanism puts a hook (plastic product) into a hook positioning and placing clamping position 1-1, the anti-deformation transverse driving mechanism drives the anti-deformation supporting block 3 to transversely move to be right above the hook, the anti-deformation lifting driving mechanism drives the anti-deformation supporting block 3 to descend to be close to the hook until the anti-deformation supporting block 3 enters a hanging hole of the anti-deformation supporting block 3, and then the clamping driving mechanism drives the clamping push plate 1 to start clamping work; because the shape supporting shoe 3 that preapres for an unfavorable turn of events sets up on the self-adaptation removes the structure, so the shape supporting shoe 3 that preapres for an unfavorable turn of events can remove along with the couple (preapring for an unfavorable turn of events shape supporting shoe 3 along self-adaptation guide rail 6 forward removal, self-adaptation elastic component 4 that resets receives tensile and warp), 3 synchronous motion ground of the shape supporting shoe that preapres for an unfavorable turn of events supports the couple in the hanging hole, the pore wall of avoiding the couple warp backward, thereby guarantee that joint work accomplishes smoothly, the structure of protection couple does not damage because of the extrusion simultaneously, like fig. 5. After the completion of lock installation work, the shape supporting shoe 3 that preapres for an unfavorable turn of events shape lifting drive mechanism drive resets that rises, and meanwhile, self-adaptation elastic component 4 that resets restores to shape, and release potential energy, the drive preapres for an unfavorable turn of events shape supporting shoe 3 and self-adaptation slider 5 move along self-adaptation guide rail 6 resets, returns to primary importance, prepares next lock installation work.

Further, it goes up and down to drive mechanism including the shape of preapring for an unfavorable turn of events lift actuating cylinder 8, and this preapring for an unfavorable turn of events shape goes up and down to drive actuating cylinder 8's telescopic link passes through fixed mounting panel 7 is connected with self-adaptation direction subassembly. Through the structure, the fixed mounting plate 7 can drive the anti-deformation supporting block 3 to move up and down under the driving of the anti-deformation lifting driving cylinder 8, so that the hook is close to or far away from the fixed mounting plate. Of course, the deformation-preventing lifting driving mechanism may also adopt other mechanisms capable of realizing lifting driving, such as a motor driving mechanism.

Further, the anti-deformation transverse driving mechanism comprises an anti-deformation transverse driving cylinder 9, and the telescopic rod of the anti-deformation transverse driving cylinder 9 is connected with the anti-deformation lifting driving mechanism through an anti-deformation transverse moving plate 10. Through the structure, under the driving of the anti-deformation transverse driving cylinder 9, the anti-deformation transverse moving plate 10 can drive the anti-deformation lifting driving mechanism and the anti-deformation supporting block 3 to carry out transverse movement, so that the hook is close to or far away from the right upper part of the hook. Of course, the deformation-preventing transverse driving mechanism may also adopt other mechanisms capable of realizing transverse driving, such as a motor driving mechanism.

Referring to fig. 2 to 8, the hook fastening device of the tempered glass package box in the embodiment has the following working principle:

when the clamping device works, a box body is arranged in a clamping station, then the supporting lifting driving mechanism drives the supporting piece 2 to descend and fall into an inner cavity of the box body, at the moment, the supporting piece 2 is close to the side wall, provided with the buckling mounting hole, of the box body, and the end, provided with the hook positioning and placing clamp 1-1, of the clamping push plate 1 faces the side wall, provided with the buckling mounting hole, from the outer side of the box body; the hook pad and the hook are respectively conveyed to a hook pad positioning and accommodating clamping position 2-1 of the support piece 2 and a hook positioning and placing clamping position 1-1 of the clamping push plate 1 through a conveying mechanism, and at the moment, a clamping hole of the hook pad, a clamping part of the hook and a box body buckling and installing hole are positioned on the same straight line, as shown in figure 3; then, joint actuating mechanism drive joint push pedal 1 moves toward the direction of box body, and joint push pedal 1 drives the couple and carries out the joint removal, and the joint portion of couple passes the lock mounting hole of box body in proper order, passes the joint hole of hook pad again to spacing fixing is at the hook pad, accomplishes the lock work of couple and box body, as figure 4. In this in-process, because the joint portion of couple need shrink to be out of shape and pass lock mounting hole and joint hole, can bring great roof pressure effort for box body and hook pad, so support piece 2's supporting part supports hook pad and box body at the inner chamber of box body, offsets the thrust of the joint portion of couple to the joint portion of messenger's couple passes lock mounting hole and joint hole, thereby guarantees that joint work accomplishes smoothly.

The present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents and are included in the scope of the present invention.

Claims

1. A hook buckling device of a toughened glass packaging box is characterized by comprising an active buckling mechanism and a passive buckling mechanism, wherein the active buckling mechanism is used for driving a hook to move towards a hook pad;

the passive buckling mechanism comprises a supporting piece and a supporting lifting driving mechanism for driving the supporting piece to lift, a hook pad positioning and accommodating clamping position for positioning and accommodating the hook pad is arranged on the supporting piece, and a supporting part for propping against the hook pad is formed on the inner wall of the hook pad positioning and accommodating clamping position;

the anti-deformation support mechanism comprises an anti-deformation support block for anti-deformation support of the hook in a hanging hole of the hook, an anti-deformation transverse driving mechanism for driving the anti-deformation support block to transversely move and an anti-deformation lifting driving mechanism for driving the anti-deformation support block to lift and move;

the anti-deformation supporting block is arranged on the anti-deformation lifting driving mechanism through a self-adaptive moving structure, the self-adaptive moving structure comprises a self-adaptive guide assembly and a self-adaptive reset elastic piece, the self-adaptive guide assembly comprises a self-adaptive sliding block and a self-adaptive guide rail, and the anti-deformation supporting block is fixedly arranged on the self-adaptive sliding block; one end of the self-adaptive reset elastic piece is connected to the self-adaptive sliding block or the anti-deformation supporting block, and the other end of the self-adaptive reset elastic piece is connected to the fixed mounting plate; the self-adaptive guide rail is arranged on the fixed mounting plate, and the extending direction of the self-adaptive guide rail is parallel to the driving direction of the clamping driving mechanism.

2. The couple buckling device of a tempered glass packing box according to claim 1, wherein the deformation-preventing lifting driving mechanism comprises a deformation-preventing lifting driving cylinder, and a telescopic rod of the deformation-preventing lifting driving cylinder is connected with the self-adaptive guide assembly through the fixed mounting plate.

3. The couple fastening device of toughened glass packing carton of claim 1 or 2, characterized in that, the horizontal actuating mechanism of preapring for an unfavorable turn of events includes preapring for an unfavorable turn of events shape horizontal actuating cylinder, and the telescopic link of this preapring for an unfavorable turn of events shape horizontal actuating cylinder is connected with preapring for an unfavorable turn of events shape lift actuating mechanism through preapring for an unfavorable turn of events shape horizontal moving plate.

4. The hook fastening device for tempered glass packaging boxes according to claim 1, wherein the passive fastening mechanism further comprises a support member and a support driving mechanism for driving the support member to move, and in the support state, the support member is located below the hook pad positioning and storage position.

5. The couple fastening device of toughened glass packing carton of claim 4, characterized in that, the bearing actuating mechanism includes bearing drive actuating cylinder, and this bearing drive actuating cylinder sets up on supporting lift actuating mechanism, and this bearing drive actuating cylinder's telescopic link is connected with the support.

6. The hitch fastening device for a tempered glass packing box according to claim 1 or 5, wherein the supporting elevation driving mechanism comprises a supporting elevation driving cylinder, a cylinder body of the supporting elevation driving cylinder is fixedly provided on the frame, and a telescopic rod of the supporting elevation driving cylinder is connected with the supporting member through a supporting elevation plate.

7. The hook fastening device for the tempered glass packaging box according to claim 1, wherein the clamping driving mechanism comprises a clamping driving cylinder, a cylinder body of the clamping driving cylinder is fixedly arranged on the frame, and a telescopic rod of the clamping driving cylinder is connected with the clamping push plate.

8. The couple fastening device of a tempered glass packing box according to claim 1, wherein the inner wall of the coupling pad positioning storage block is provided with a coupling avoiding groove for avoiding the coupling portion of the coupling.