CN109434432B

CN109434432B - Leaf spring and button assembly device

Info

Publication number: CN109434432B
Application number: CN201910016600.XA
Authority: CN
Inventors: 胡宏运; 顾建华; 朱庆庆
Original assignee: Kunshan Paisheng Intelligent Technology Co ltd
Current assignee: Kunshan Paisheng Intelligent Technology Co ltd
Priority date: 2019-01-08
Filing date: 2019-01-08
Publication date: 2023-11-10
Anticipated expiration: 2039-01-08
Also published as: CN109434432A

Abstract

The invention discloses a leaf spring and button assembly device, which comprises a button runner, a material stirring mechanism and a leaf spring pushing mechanism, wherein the material stirring mechanism is arranged close to the button runner, the leaf spring pushing mechanism is arranged below the button runner, a through groove for a leaf spring to pass through is formed in the button runner, the material stirring mechanism firstly moves one end of the button runner to the through groove to wait for assembling the leaf spring, the leaf spring pushing mechanism assembles the leaf spring into the button through the through groove, and the material stirring mechanism continuously moves the button after the leaf spring is assembled to the other end of the button runner to wait for output. The invention can rapidly complete the assembly of the leaf spring and the button, improves the working efficiency and saves the labor cost.

Description

Leaf spring and button assembly device

Technical Field

The invention relates to the technical field of automatic assembly, in particular to a leaf spring and button assembly device for assembly of an art designing knife.

Background

Art knives are commonly used to cut soft textured materials, such as paper, and include a housing, buttons, and leaf springs. In the prior art, the button is assembled with the leaf spring in advance. During assembly, the leaf spring is often deformed by manual pressing and then placed into the button. However, the assembly of the leaf spring and the button is manually carried out, so that on one hand, the working efficiency is low, and on the other hand, the pressure of the working personnel on the leaf spring is different, so that the leaf spring is deformed differently, the assembly precision is affected, and finally, the quality of the art designing knife is affected.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a leaf spring and button assembly device.

In order to achieve the above purpose, the present invention proposes the following technical scheme: a leaf spring and button assembly device comprises

The button runner is provided with a feed inlet at one end and a discharge outlet at the opposite end, and a through groove for the leaf spring to pass through is arranged on the button runner between the feed inlet and the discharge outlet;

the material stirring mechanism is arranged close to the button runner and is used for moving the button positioned at the discharge hole to the through groove to wait for assembling the leaf spring, and moving the button to the discharge hole after assembling the leaf spring;

the leaf spring pushing mechanism is arranged below the button runner and used for assembling the leaf spring into the button through the through groove.

Preferably, the material stirring mechanism comprises a bearing base, a first transmission mechanism for driving the bearing base to reciprocate, a material stirring piece and a second transmission mechanism for driving the material stirring piece to reciprocate, wherein the material stirring piece is arranged on the bearing base through the second transmission mechanism, and a yielding gap for accommodating a button is formed in the material stirring piece.

Preferably, the first transmission mechanism comprises a first sliding block, a first guide rail for guiding and sliding of the first sliding block, and a first power source, and the bearing base is arranged on the first sliding block and connected with the first power source.

Preferably, the second transmission mechanism comprises a second slider, a second guide rail for guiding and sliding of the second slider, and a second power source, wherein the second guide rail and the second power source are both arranged on the bearing base, and the material shifting piece is arranged on the second slider and connected with the second power source.

Preferably, the leaf spring pushing mechanism comprises a fixed seat, a pressing piece and a pushing piece, wherein a first chute, a second chute and a containing groove for containing the leaf spring are formed in the fixed seat, the first chute and the second chute are both communicated with the containing groove, the pressing piece is movably arranged in the first chute, the pressing piece presses the leaf spring into a preset shape under the action of external force, the pushing piece is movably arranged in the second chute, and the pushing piece pushes the leaf spring pressed into the preset shape out of the containing groove under the action of external force and pushes the leaf spring into the button through the through groove.

Preferably, the leaf spring pushing mechanism further comprises a sliding assembly, the sliding assembly comprises a third sliding block provided with a track groove and a connecting piece, a third sliding groove matched with the third sliding block is formed in the fixing seat, the third sliding block is movably arranged in the third sliding groove, and the connecting piece is movably arranged in the track groove and is connected with the pressing piece.

Preferably, the press device further comprises a press mechanism for pressing the button, the press mechanism comprises a mounting bracket, a press piece and a third transmission mechanism for driving the press piece to reciprocate, the mounting bracket is arranged on the button runner, and the press piece is arranged on the mounting bracket through the third driving mechanism.

Preferably, the third transmission mechanism comprises a fourth slider, a third guide rail for guiding and sliding of the fourth slider, and a fifth power source, and the material pressing piece is arranged on the fourth slider and connected with the fifth power source.

Preferably, the material pressing piece is further provided with a positioning notch.

Preferably, the device further comprises a pushing mechanism for pushing the button out of the discharge hole, wherein the pushing mechanism comprises a pushing rod and a sixth power source connected with the pushing rod.

The beneficial effects of the invention are as follows:

the invention can rapidly complete the assembly of the leaf spring and the button, improves the working efficiency and saves the labor cost.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic perspective view of the button runner of FIG. 1;

FIG. 4 is a schematic perspective view of the leaf spring urging mechanism of FIG. 1;

FIG. 5 is an enlarged schematic view of portion B of FIG. 4;

FIG. 6 is a perspective view of the holder of FIG. 4;

fig. 7 is a schematic perspective view of the pressing mechanism in fig. 1.

Reference numerals: 10. button runner, 11, feed inlet, 12, discharge gate, 13, logical groove, 20, thumb mechanism, 21, bearing base, 22, thumb piece, 221, relief notch, 23, first slider, 24, first guide rail, 25, first power source, 26, second slider, 27, second guide rail, 28, second power source, 30, leaf spring pushing mechanism, 31, fixing base, 311, holding groove, 312, first chute, 313, second chute, 32, pressing piece, 33, pushing piece, 34, third power source, 35, fourth power source, 36, third slider, 361, track groove, 37, connecting piece, 40, pressing mechanism, 41, installing support, 42, pressing piece, 421, positioning notch, 43, fourth slider, 44, third guide rail, 45, fifth power source, 50, pushing mechanism, 51, pushing rod, 52, sixth power source.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

The leaf spring and button assembling device disclosed by the invention is suitable for assembling the leaf spring and the button in the art designing knife, and improves the assembling efficiency of the art designing knife.

Referring to fig. 1, 2 and 3, a leaf spring and button assembling device comprises a button runner 10, a material stirring mechanism 20 and a leaf spring pushing mechanism 30 which are arranged on a rack, wherein one end of the button runner 10 is provided with a feed port 11 for enabling a button to enter the button runner 10, the opposite end is provided with a discharge port 12 for enabling the button to move out of the button runner 10, and further the button runner 10 is also provided with a through slot 13 for enabling the leaf spring to pass through, and the through slot 13 is positioned between the discharge port 12 and the feed port 11; the material shifting mechanism 20 is arranged close to the button runner 10 and is used for moving a button positioned at the feed inlet 11 to the through groove 13 to wait for the assembly of the leaf spring and moving the button to the discharge outlet 12 after the leaf spring is assembled; a leaf spring pushing mechanism 30 is provided below the button runner 10 for fitting the leaf spring into the button through the through slot 13.

Specifically, the material stirring mechanism 20 includes a bearing base 21, a first transmission mechanism, a material stirring piece 22 and a second transmission mechanism, wherein the first transmission mechanism is connected with the bearing base 21 and is used for driving the bearing base 21 to reciprocate along a first direction; the material stirring piece 22 is arranged on the bearing base 21 through a second transmission mechanism, the second transmission mechanism can drive the material stirring piece 22 to reciprocate along a second direction, further, a yielding gap 221 for accommodating the button is arranged on the material stirring piece 22, and when the device is implemented, the material stirring piece 22 drives the button to move through the yielding gap 221.

Further, the first transmission mechanism includes a first slider 23, a first guide rail 24, and a first power source 25. Wherein, the first guide rail 24 is installed on the frame, and is used for making the first sliding block 23 slide along the first direction; the first slider 23 is movably mounted on the first guide rail 24, and the bearing base 21 is mounted on the first slider 23; the first power source 25 is connected to the carrying base 21 for driving the carrying base 21 to reciprocate in a first direction. In this embodiment, the first power source 25 is preferably a cylinder.

The second transmission mechanism includes a second slider 26, a second guide rail 27, and a second power source 28. Wherein, the second guide rail 27 is installed on the bearing base 21, and is used for making the second slider 26 slide along the second direction; the second slide block 26 is movably arranged on the second guide rail 27, and the material stirring piece 22 is arranged on the second slide block 26; a second power source 28 is also mounted on the carrier base 21 and is coupled to the pick 22 for driving the pick 22 to reciprocate in a second direction. In this embodiment, the second power source 28 is preferably a cylinder.

In particular, initially, the carrying base 21 and the material stirring member 22 are both in a reset state, and when the button enters the button flow channel 10 through the feed inlet 11, the material stirring member 22 moves towards the button flow channel 10 along the second direction under the action of the second transmission mechanism, so that the button located at the feed inlet 11 enters the yielding gap 221. Further, the bearing base 21 moves along the first direction under the action of the first transmission mechanism, the bearing base 21 moves and drives the material stirring piece 22 to move through the second transmission mechanism, the material stirring piece 22 moves the button from the feeding hole 11 to the position right above the through groove 13, and the leaf spring pushing mechanism 30 pushes the leaf spring into the button through the through groove 13, so that the assembly of the leaf spring and the button is realized. Further, the bearing base 21 continues to move under the action of the first transmission mechanism, and the final material stirring piece 22 moves the assembled button to the position of the discharge hole 12 to wait for output.

As shown in fig. 4 and 5, the leaf spring urging mechanism 30 includes a fixed seat 31, a pressing member 32, and an urging member 33. The fixing base 31 is provided with a receiving groove 311 for receiving the leaf spring. Further, the fixing seat 31 is further formed with a first sliding groove 312 and a second sliding groove 313, the first sliding groove 312 and the second sliding groove 313 are both communicated with the accommodating groove 311, wherein the pressing piece 32 is movably arranged in the first sliding groove 312, and under the action of external force, the pressing piece 32 moves in the first sliding groove 312 and stretches into the accommodating groove 311 to press the leaf spring into a preset shape; the pushing member 33 is movably installed in the second chute 313, and under the action of external force, the pushing member 33 moves in the second chute 313 and stretches into the accommodating groove 311 to push the leaf spring pressed into the preset shape into the through groove 13 from the accommodating groove 311, and further pushes the leaf spring into the button, so as to realize the assembly of the leaf spring.

The leaf spring pushing mechanism 30 also comprises a third power source 34 and a fourth power source 35, wherein the third power source 34 is connected with the pressing piece 32 to provide acting force for the pressing piece 32, the fourth power source 35 is connected with the pushing piece 33 to provide acting force for the pushing piece 33, and when the leaf spring pushing mechanism is implemented, the third power source 34 can be directly or indirectly connected with the pressing piece 32, and the fourth power source 35 can also be directly or indirectly connected with the pushing piece 33.

In the present embodiment, the third power source 34 and the fourth power source 35 are preferably cylinders.

As shown in fig. 4 and 5, the leaf spring pushing mechanism 30 further includes a sliding assembly, the sliding assembly is mounted on the fixed seat 31, the third power source 34 is connected to the pressing member 32 through the sliding assembly, and the pressing member 32 is driven to slide in the first sliding slot 312 through driving the sliding assembly. Specifically, the sliding assembly includes a third sliding block 36 and a connecting piece 37, a third sliding groove 314 is further formed on the fixed seat 31, and the third sliding block 36 is movably installed in the third sliding groove 314 and is connected with the third power source 34; further, the third slider 36 is further formed with a track groove 361, and the connecting member 37 is disposed in the track groove 361 and connected to the pressing member 32. In practice, the third power source 34 drives the third slider 36 to move in the third sliding slot 314, and under the action of the track slot 361, the third slider 36 drives the pressing member 32 to execute the pressing action through the connecting member 37, so as to press the leaf spring into a preset shape.

As shown in connection with fig. 1 and 6, the leaf spring and button assembly device further includes a pressing mechanism 40 for pressing the button, and the assembly of the leaf spring is facilitated by providing the pressing mechanism 40. The pressing mechanism 40 comprises a mounting bracket 41, a pressing piece 42 and a third transmission mechanism, wherein the mounting bracket 41 is arranged on the button runner 10, the pressing piece 42 is arranged on the mounting bracket 41 through the third transmission mechanism, and the pressing piece 42 can reciprocate along a third direction under the action of the third transmission mechanism.

Further, the third transmission mechanism includes a fourth slider 43, a third rail 44, and a fifth power source 45. Wherein, the third guide rail 44 is installed on the mounting bracket 41, for making the fourth slider 43 slide along the third direction; the fourth slider 43 is movably arranged on the third guide rail 44, and the material pressing piece 42 is arranged on the fourth slider 43; a fifth power source 45 is also mounted on the mounting bracket 41 and is coupled to the swage 42 for driving the ejector 22 to reciprocate in the second direction. In this embodiment, the fifth power source 45 is preferably a cylinder.

Further, in order to accurately press the button, the end surface of the pressing member 42 contacting the button is recessed inwards to form a positioning notch 421, and the button is accurately pressed through the positioning notch 421.

As shown in fig. 1, the leaf spring and button assembly device further includes a pushing mechanism 50 disposed adjacent to the button runner 10 for pushing the button out of the magazine. The pushing mechanism 50 comprises a pushing rod 51 and a sixth power source 52, and the pushing rod 51 is connected with the sixth power source 52 to drive the pushing rod 51 to move.

The working principle of the leaf spring and button assembly device is as follows: initially, the carrying base 21 and the material shifting piece 22 are both in a reset state, and when the button enters the button runner 10 through the feed inlet 11, the material shifting piece 22 moves towards the button runner 10 along the second direction under the action of the second transmission mechanism, so that the button located at the feed inlet 11 enters the yielding notch 221.

Further, the carrying base 21 moves along the first direction under the action of the first transmission mechanism, the carrying base 21 moves and drives the material stirring piece 22 to move through the second transmission mechanism, the material stirring piece 22 moves the button from the feeding hole 11 to the position right above the through groove 13, the pressing piece 32 moves in the first sliding groove 312 under the action of the third power source 34 and stretches into the accommodating groove 311 to press the leaf spring into a preset shape, the pushing piece 33 moves in the second sliding groove 313 under the action of the fourth power source 35 and stretches into the accommodating groove 311 to push the leaf spring pressed into the preset shape into the through groove 13 from the accommodating groove 311 and further pushes the button to realize the assembly of the leaf spring.

Further, the bearing base 21 continues to move under the action of the first transmission mechanism, the button after the leaf spring is assembled is moved to the position of the discharge hole 12, and the push rod 51 pushes the button out of the discharge hole 12 under the action of the sixth power source 52.

While the foregoing has been disclosed in the specification and drawings, it will be apparent to those skilled in the art that various substitutions and modifications may be made without departing from the spirit of the invention, and it is intended that the scope of the invention be limited not by the specific embodiments disclosed, but by the appended claims.

Claims

1. A leaf spring and button assembly device is characterized by comprising

the material stirring mechanism is arranged close to the button runner and is used for moving a button positioned at the discharge hole to a through groove to wait for assembling a leaf spring and moving the button to the discharge hole after assembling the leaf spring, the material stirring mechanism comprises a bearing base, a first transmission mechanism for driving the bearing base to reciprocate, a material stirring piece and a second transmission mechanism for driving the material stirring piece to reciprocate, the material stirring piece is arranged on the bearing base through the second transmission mechanism, and a yielding gap for accommodating the button is formed in the material stirring piece;

the leaf spring pushing mechanism is arranged below the button runner and is used for assembling the leaf spring into the button through the through groove, the leaf spring pushing mechanism comprises a fixed seat, a pressing piece, a pushing piece, a third power source for providing acting force for the pressing piece, a fourth power source for providing acting force for the pushing piece and a sliding component, a first chute, a second chute and a containing groove for placing the leaf spring are formed on the fixed seat, the first chute and the second chute are all communicated with the containing groove, the pressing piece is connected with the fourth power source and is movably arranged in the first chute, the pressing piece is connected with the fourth power source and is movably arranged in the second chute under the action of external force, the leaf spring pressed into the preset shape is pushed out of the containing groove under the action of external force and is pushed into the button through the through groove, the sliding component comprises a third sliding block and a connecting piece, the third sliding block is provided with a track groove, the third sliding block is further connected with the third sliding block, and is movably arranged in the fixed seat, and is movably arranged in the third sliding block.

2. The leaf spring and button assembly device of claim 1, wherein the first transmission mechanism comprises a first slider, a first guide rail for guiding sliding of the first slider, and a first power source, and the bearing base is mounted on the first slider and connected to the first power source.

3. The leaf spring and button assembly device of claim 1, wherein the second transmission mechanism comprises a second slider, a second guide rail for guiding sliding of the second slider, and a second power source, wherein the second guide rail and the second power source are both arranged on the bearing base, and the material shifting piece is arranged on the second slider and connected with the second power source.

4. The leaf spring and button assembly of claim 1 further comprising a press mechanism for pressing the button, the press mechanism comprising a mounting bracket mounted on the button runner, a press member mounted on the mounting bracket by the third transmission mechanism, and a third transmission mechanism driving the press member to reciprocate.

5. The leaf spring and button assembly device of claim 4, wherein the third transmission mechanism comprises a fourth slider, a third guide rail for guiding sliding of the fourth slider, and a fifth power source, and the pressing member is mounted on the fourth slider and connected with the fifth power source.

6. The leaf spring and button assembly device of claim 4 wherein the swage further comprises a locating notch.

7. The leaf spring and button assembly device of claim 1, further comprising a pushing mechanism for pushing the button out of the discharge port, the pushing mechanism comprising a pushing bar and a sixth power source coupled to the pushing bar.