CN210938020U

CN210938020U - Screw locking workbench

Info

Publication number: CN210938020U
Application number: CN201921889717.0U
Authority: CN
Inventors: 徐小根; 朱鹏程
Original assignee: Suzhou Jinmayi Precision Sheet Metal Co ltd
Current assignee: Suzhou Jinmayi Precision Sheet Metal Co ltd
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2020-07-07
Anticipated expiration: 2029-11-05

Abstract

The utility model discloses a lock screw workstation, it includes platen (1), set up in support piece (2) on platen (1), be located the triaxial of support piece (2) top removes subassembly (4) and connect in lock screw instrument (5) on the triaxial removes subassembly (4), the work piece place in on support piece (2), triaxial remove subassembly (4) including along Z to optical axis (43) of arranging, with optical axis (43) slide and join in marriage linear bearing (44) and the connection linear bearing (44) that connect with lock screw instrument (5) linear bearing (44) with connecting piece (45) of lock screw instrument (5). The utility model discloses a when locking screw workstation uses, lock the screw instrument and can remain throughout perpendicularly to can guarantee to go into the work piece with screw vertically lock, be favorable to going on smoothly of lock screw.

Description

Screw locking workbench

Technical Field

The utility model relates to a lock screw workstation.

Background

When equipment is assembled, a screw is required to be locked and attached to a workpiece frequently, in order to improve the working efficiency when the screw is locked in the prior art, a pneumatic screwdriver or an electric screwdriver and other screw locking tools are usually used for locking and attaching so as to improve the working efficiency of the screw, the number of screws required to be locked and attached to a plurality of plate-shaped workpieces with large sizes is large, the screw locking tools are used for locking and attaching, the production efficiency can be greatly improved, and the time is saved.

When locking the screw, need the staff to hand the lock screw instrument and lock and attach, to hand-press lock screw instrument, accessible staff holds start button or starts lever pneumatic lock screw instrument, to the lock screw instrument of push down formula, directly pushes down and starts lock screw instrument promptly. After the screw locking tool is started, the screw can be driven to rotate, and therefore the screw is installed in a threaded hole in a workpiece. In the locking process, a screw locking tool needs to be kept vertical to a plane provided with a threaded hole so as to vertically lock a screw into the threaded hole; if the screw locking tool is not perpendicular to the threaded hole, the problem of damaging the threaded hole, the sleeve head and the screw head is easy to occur. However, when the locking is performed manually, it is difficult for the operator to ensure complete perpendicularity, and especially in a tired state, the locking may be performed obliquely, so that the threaded hole, the sleeve head and the screw head are damaged, and smooth operation of locking the screw is not facilitated.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the above-mentioned defect among the prior art, provide a lock screw workstation, when the lock attaches the screw, can guarantee during screw vertically locks the work piece.

In order to realize the utility model discloses the purpose, the utility model provides a lock screw workstation, it include the platen, set up in support piece on the platen, be located the triaxial of support piece top remove the subassembly and connect in lock screw instrument on the triaxial removes the subassembly, the work piece place in support piece is last, the triaxial remove the subassembly include along Z to the optical axis of arranging, with linear bearing and the connection that the optical axis slides and connects linear bearing with lock screw instrument's connecting piece.

Furthermore, the utility model discloses still provide following subsidiary technical scheme:

the connecting piece comprises a fixing ring connected with the linear bearing and a connecting ring connected with the screw locking tool.

The fixing ring is sleeved on the linear bearing and is provided with a screw hole matched with the flange hole of the linear bearing.

The connecting ring comprises a first clamping arm and a second clamping arm, and the lock screw tool is clamped between the first clamping arm and the second clamping arm.

A second through hole for accommodating the screw locking tool is formed between the first clamping arm and the second clamping arm, the connecting ring further comprises a connecting part connected between the fixing ring and the connecting ring, and the connecting part is provided with a cutting groove communicated with the second through hole.

The triaxial removes the subassembly and still locates including the cover spring on the optical axis, the spring upper end supports linear bearing.

The screw locking workbench further comprises a frame body connected to the bedplate, and the three-shaft moving assembly is connected to the frame body.

The three-axis moving assembly further comprises a first guide rail connected to the frame body and a second guide rail connected with the first guide rail, the first guide rail is arranged along the X direction, and the second guide rail is arranged along the Y direction.

The triaxial removes the subassembly still including connect in link on the second guide rail, the optical axis connect in on the link.

The supporting piece is matched and connected on the bedplate in a sliding mode and comprises a side frame and a plurality of rib plates arranged in the side frame, and the side frame is divided into a plurality of cavities by the plurality of rib plates.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a lock screw workstation is provided with the support piece of placing the work piece, the triaxial moving assembly that is located the support piece top and connects the lock screw instrument on triaxial moving assembly, and lock screw instrument is connected on the optical axis that the triaxial moving assembly arranged along the Z direction for lock screw instrument can remain the vertical all the time when using, thereby can guarantee to lock the screw vertically into the work piece, do benefit to going on smoothly of lock screw;

2. the three-axis moving assembly is also provided with a first guide rail arranged along the X direction and a second guide rail arranged along the Y direction, so that the screw locking tool can move along the X axis and the Y axis to lock screws at a plurality of different positions on the workpiece;

3. be provided with the spring on the optical axis, can play the effect of buffering and support and lock the screw instrument, prevent to loosen behind the hand that lock screw instrument directly strikes link, work piece or support piece, cause the damage.

Drawings

Fig. 1 is a schematic structural diagram of the screw locking workbench of the present invention.

Fig. 2 is a schematic structural diagram of the support member of the present invention.

Fig. 3 is a schematic structural diagram of the middle three-axis moving assembly of the present invention.

Fig. 4 is a schematic structural diagram of a connecting frame portion of a triaxial moving assembly according to the present invention.

Fig. 5 is a schematic view of the connection member of the present invention in connection with the linear bearing and the screw locking tool.

Fig. 6 is a schematic structural diagram of the connecting member of the present invention.

Fig. 7 is a schematic diagram of the connection between the spring and the connecting frame and the linear bearing according to the present invention.

Detailed Description

The following non-limiting detailed description of the present invention is provided in connection with the preferred embodiments and accompanying drawings.

As shown in fig. 1, the screw locking workbench according to a preferred embodiment of the present invention includes a bedplate 1, a support member 2 slidably coupled to the bedplate 1, a frame body 3 fixed to the bedplate 1, a three-axis moving assembly 4 mounted on the frame body 3, and a screw locking tool 5 connected to the three-axis moving assembly 4.

The support 2 is connected to the bedplate 1 by a guide rail 20, the support 2 can move along the guide rail 20, and the worker can move the support 2 into or out of the frame body 3. The supporting piece 2 is used for placing a workpiece of a screw to be locked. When placing the workpiece, the supporting member 2 may be moved out of the frame body 3, and then the workpiece is moved onto the supporting member 2, and then the supporting member 2 is pushed into the frame body 3.

As shown in fig. 2, the supporting member 2 includes a side frame 22 and a plurality of rib plates 21 disposed in the side frame 22, the plurality of rib plates 21 partition the side frame 22 into a plurality of cavities 23, and the cavities 23 can accommodate screws protruding below a workpiece during locking, so that the screw locking operation can be performed smoothly. Preferably, the cavity 23 separated by the rib plate 21 is rectangular.

As shown in fig. 3, the triaxial moving assembly 4 includes a first guide rail 40 connected to the frame body 3, a second guide rail 41 connected to the first guide rail 40, a connecting frame 42 connected to the second guide rail 41, an optical axis 43 connected to the connecting frame 42, a linear bearing 44 slidably coupled to the optical axis 43, and a connecting member 45 connected to the linear bearing 44.

The first guide rail 40 is arranged along the X direction, the second guide rail 41 can slide along the first guide rail 40 along the X direction, and the first guide rail 40 is provided with two parallel guide rails which respectively support two ends of the second guide rail 41; specifically, the two first rails 40 are connected to the mounting plate 41a, and the second rails 41 are mounted on the mounting plate 41 a. The second rail 41 is disposed along the Y direction, and the link frame 42 can move along the Y direction along the second rail 41.

As shown in fig. 4, the connection frame 42 includes a plate body 42a, an upper plate 42b connected to an upper end of the plate body 42a, and a lower plate 42c connected to a lower end of the plate body 42a, and an optical axis 43 is connected between the upper plate 42b and the lower plate 42c and arranged in the Z direction such that the linear bearing 44 can move in the Z direction along the optical axis 43.

With further reference to fig. 5, the connector 45 includes a fixing ring 46 coupled to the flange 44a of the linear bearing 44, a connecting ring 47 connected to the lock screw tool 5, and a connecting portion 48 connected between the fixing ring 46 and the connecting ring 47.

As shown in fig. 6, the fixing ring 46 is formed with a first through hole 46a through which the linear bearing 44 passes and a plurality of screw holes 46b distributed around the first through hole 46a, the screw holes 46b correspond to flange holes on the flange 44a, and the fixing ring 46 and the linear bearing 44 are connected to each other by bolts.

The connection ring 47 includes a first holding arm 47a and a second holding arm 47b, a second through hole 47h for accommodating the screw locking tool 5 is formed between the first holding arm 47a and the second holding arm 47b, a second connection block 47d of a first connection block 47c protruding outward is respectively provided at the end portions of the first holding arm 47a and the second holding arm 47b, and the first connection block 47c and the second connection block 47d are connected by a bolt 47e and a nut 47 f. The connecting portion 48 is provided with a notch 48a communicating with the second through hole 47h, and when the bolt 47e and the nut 47f are tightened, the second through hole 47h can be made small, and the screw tightening tool 5 positioned in the second through hole 47h can be held.

The lock screw tool 5 is preferably a pneumatic screw driver or an electric screw driver.

As shown in fig. 7, a spring 49 is further sleeved on the optical axis 43, the spring 49 is located between the lower plate 42c and the linear bearing 44, when the screw locking tool 5 is accidentally released, the spring 49 can play a role of buffering, and support the screw locking tool 5, so as to prevent the screw locking tool 5 from colliding with the lower plate 42c, the workpiece, or the support 2, and causing damage.

In order to facilitate the use of the screw locking tool 5, referring to fig. 1, a notch 10 is formed in the part of the bedplate 1, which is located outside the frame body 3, and a worker can stand in the notch 10 for operation, which is very convenient.

When the device is used, a worker can conveniently move the screw locking tool 5 to the threaded hole on the workpiece through the three-axis moving assembly 4, then place a screw on the sleeve head of the screw locking tool 5, pull the screw locking tool 5 downwards to align the screw with the threaded hole, and lock the screw into the threaded hole after starting the screw locking tool 5; due to the guiding effect of the optical axis 43, the screw locking tool 5 cannot incline, so that the screw is vertically locked into the threaded hole, and the locking is more reliable; in addition, due to the existence of the spring 49, the worker can directly loosen the screw locking tool 5 after the locking is completed, and the screw locking tool 5 can be supported by the spring 49, so that the use is more convenient.

The utility model discloses a lock screw workstation possesses following advantage at least:

It should be noted that the above-mentioned preferred embodiments are only for illustrating the technical concepts and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention accordingly, and the protection scope of the present invention cannot be limited thereby. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. The utility model provides a lock screw workstation which characterized in that: the three-axis screw locking device comprises a bedplate (1), a supporting piece (2) arranged on the bedplate (1), a three-axis moving assembly (4) positioned above the supporting piece (2) and a screw locking tool (5) connected to the three-axis moving assembly (4), wherein a workpiece is placed on the supporting piece (2), and the three-axis moving assembly (4) comprises an optical axis (43) arranged along the Z direction, a linear bearing (44) matched and connected with the optical axis (43) in a sliding mode and a connecting piece (45) for connecting the linear bearing (44) and the screw locking tool (5).

2. The screw locking workbench according to claim 1, wherein: the connecting piece (45) comprises a fixing ring (46) connected with the linear bearing (44) and a connecting ring (47) connected with the screw locking tool (5).

3. The screw locking workbench according to claim 2, wherein: the fixing ring (46) is sleeved on the linear bearing (44) and is provided with a screw hole (46b) matched and connected with a flange hole of the linear bearing (44).

4. The screw locking workbench according to claim 2, wherein: the connection ring (47) includes a first holding arm (47a) and a second holding arm (47b), and the lock screw tool (5) is held between the first holding arm (47a) and the second holding arm (47 b).

5. The screw locking workbench according to claim 4, wherein: a second through hole (47h) for accommodating the screw locking tool (5) is formed between the first clamping arm (47a) and the second clamping arm (47b), the connecting ring (47) further comprises a connecting part (48) connected between the fixing ring (46) and the connecting ring (47), and the connecting part (48) is provided with a cutting groove (48a) communicated with the second through hole (47 h).

6. The screw locking workbench according to claim 1, wherein: the triaxial removes subassembly (4) and still includes that the cover is located spring (49) on optical axis (43), spring (49) upper end supports linear bearing (44).

7. The screw locking workbench according to claim 1, wherein: the three-axis moving mechanism further comprises a frame body (3) connected to the bedplate (1), and the three-axis moving assembly (4) is connected to the frame body (3).

8. The screw locking workstation of claim 7, wherein: the three-axis moving assembly (4) further comprises a first guide rail (40) connected to the frame body (3) and a second guide rail (41) connected with the first guide rail (40), the first guide rail (40) is arranged along the X direction, and the second guide rail (41) is arranged along the Y direction.

9. The screw locking workstation of claim 8, wherein: the triaxial moving assembly (4) further comprises a connecting frame (42) connected to the second guide rail (41), and the optical axis (43) is connected to the connecting frame (42).

10. The screw locking workbench according to claim 1, wherein: the supporting piece (2) is matched and connected with the bedplate (1) in a sliding mode, the supporting piece (2) comprises a side frame (22) and a plurality of rib plates (21) arranged in the side frame (22), and the rib plates (21) divide the side frame (22) into a plurality of cavities (23).