CN214732380U - High-speed directional turnover mechanism - Google Patents
High-speed directional turnover mechanism Download PDFInfo
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- CN214732380U CN214732380U CN202120394520.0U CN202120394520U CN214732380U CN 214732380 U CN214732380 U CN 214732380U CN 202120394520 U CN202120394520 U CN 202120394520U CN 214732380 U CN214732380 U CN 214732380U
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Abstract
The utility model relates to a tilting mechanism especially relates to a directional tilting mechanism of high speed. The clamping device comprises an operation frame, wherein a sliding seat capable of sliding along the operation frame is arranged in the operation frame, and a clamping jaw capable of being turned over and clamped is arranged in the sliding seat. The sliding seat is in sliding displacement through the cam assembly, and the clamping jaw is overturned through the stretching assembly; the cam subassembly include motor shaft and swing arm, motor shaft on the cover have and carry out pivoted cam along with motor shaft, the one end and the handling frame of swing arm be fixed rotation, the other end that the cam drove the swing arm swing, the swing arm drive the slide and slide, the clamping jaw along the track of track board in the handling frame carry out the displacement of sliding, the track of track board be "T" word form. The automatic assembling device is suitable for full-automatic production, and the assembling precision of products is greatly improved.
Description
Technical Field
The utility model relates to a tilting mechanism especially relates to a directional tilting mechanism of high speed.
Background
In the automatic assembling equipment of the photovoltaic connector, a key process is the direction identification and the turnover of the product.
The existing scheme is as follows: at present, most of the procedures in the assembly are manually identified and turned over, and then the product is put into assembly equipment for automatic assembly.
The automatic assembling machine has the main defects of low efficiency, large manual workload, incapability of realizing full-automatic assembly of products and product scrapping caused by manual operation errors.
SUMMERY OF THE UTILITY MODEL
The utility model discloses solve exist among the prior art not enough, provide an use the utility model discloses the direction is differentiateed and the flip structure can greatly reduce the production cycle of total products. The direction is distinguished through a digital control system, the production efficiency is greatly improved, the production speed of the process is improved, the full-automatic production is adapted, the mechanical processing production is compared with manual identification overturning, the precision is higher, the consistency of finished products is better, and the assembly precision of products is greatly improved.
The above technical problem of the present invention can be solved by the following technical solutions:
a high-speed directional turnover mechanism comprises an operation frame, wherein a sliding seat capable of sliding along the operation frame is arranged in the operation frame, and a clamping jaw capable of being clamped and overturned is arranged in the sliding seat;
the sliding seat is in sliding displacement through the cam assembly, and the clamping jaw is overturned through the stretching assembly; the cam assembly comprises a motor rotating shaft and a swing arm, a cam rotating along with the motor rotating shaft is sleeved on the motor rotating shaft, one end of the swing arm fixedly rotates with the operation frame, the cam drives the other end of the swing arm to swing, the swing arm drives the sliding seat to slide, the clamping jaw slidably displaces along a rail of a rail plate in the operation frame, and the rail of the rail plate is in a T shape;
the tension assembly includes a spring that flips the jaws along the track of the track plate.
Preferably, the swing arm rotates along the operation frame through a swing arm shaft, the swing arm swings along the cam through a roller bearing follower, and the swing arm pushes the sliding seat to displace through a cam bearing follower;
the turning shaft is arranged in the sliding seat and rotates along the sliding seat, a clamping jaw mounting seat for fixing a clamping jaw is arranged at the outer end of the turning shaft, and the turning shaft slides along the track plate rail through a turning shaft follower;
the stretching assembly comprises an air cylinder arranged on the outer wall of the operation frame, the air cylinder drives the sliding block to slide and displace along the linear guide rail, the tail part of the turnover shaft is provided with a swing rod, the swing rod is elastically connected with the sliding block through an elastic piece, and the elastic piece is a stretching spring.
Preferably, the slide base slides directionally through two guide shafts arranged in the operation frame, a linear bearing in sliding connection with the slide base is sleeved outside the guide shafts, limit screws are respectively arranged at two ends of the slide base, and proximity switches distributed correspondingly to the limit screws are arranged in the operation frame.
Preferably, the track in the track plate comprises a horizontal groove and a vertical groove, the horizontal groove and the vertical groove are distributed in a communicating manner, and the turnover shaft follower horizontally displaces along the horizontal groove and then enters the vertical groove.
Preferably, two sliding seats are respectively arranged at two ends of the operating frame, the two clamping jaws are symmetrically distributed, and a feeding cavity is formed between the two clamping jaws; the two swing arms rotate synchronously through the mounting plate, and the cam bearing follower is fixed at the middle end of the mounting plate.
The working principle is as follows: the product enters a clamping jaw picking position through feeding of a vibrating disc, a positive and negative sensor detects the direction of the product, if the direction is reversed, the clamping jaw is closed to grab the product, a piston rod of a cylinder is pushed out, a sliding block moves to a set position, a servo motor starts to start, a rotating shaft of the motor drives a cam to rotate, a roller bearing follower is tangent to the cam under the action of the pulling force of a spring, when the cam rotates, the tangent position changes, the rocker arm changes accordingly, the roller bearing follower pushes the sliding seat to move in the track plate, when the sliding seat moves to the vertical groove, under the action of the tensile force of the extension spring, the turnover shaft follower enters the vertical groove of the track plate so as to realize the turnover of the clamping jaw, the clamping jaw is loosened to throw in the product, the motor runs to the initial position, the piston rod of the cylinder retracts to the initial position, under the action of the return force of the tension spring, the sliding seat is pulled to the initial position, and the clamping jaws grab the next product.
The direction of the connector clamped by the clamping jaw is identified by utilizing a set of deflector rod mechanism and combining the deflector rod mechanism with the sensor. The equipment mainly comprises sensor identification, a shifting rod extending forwards, a cylinder jacking and a clamping jaw overturning to meet the assembly requirement.
Compared with manual identification and turnover one by one, the mechanism can greatly shorten the time of putting products into assembly equipment, saves the labor cost, and is simple in structure and convenient to assemble.
The advantages are that:
1. the production process is optimized, the manual fetching direction-identifying process is cancelled, and the labor cost is reduced.
2. The mistake proofing measure is sufficient, the mistake of manual reverse connector installation is avoided by 100 percent, and the product quality is ensured.
3. Avoids the error of manual operation, improves the efficiency and the qualification rate, and reduces the cost
Therefore, the utility model discloses a high-speed directional tilting mechanism realizes the full automatic assembly of high efficiency of connector and detects to compatible multiple specification product realizes automatic feeding, detection, the equipment of product. The production efficiency is improved, and the product quality is ensured; in order to ensure full-automatic production and shorten the assembly period of the whole product, a connector direction-identifying turnover mechanism with higher efficiency and higher speed must be used, and meanwhile, the production switching of different types of products is realized.
Drawings
Fig. 1 is a schematic perspective view of the present invention;
fig. 2 is a schematic structural diagram of the present invention;
FIG. 3 is a schematic sectional view A-A of FIG. 2;
FIG. 4 is a schematic cross-sectional view of B-B of FIG. 2;
fig. 5 is a schematic side perspective view of the present invention;
fig. 6 is a schematic diagram of the structure of the sliding state of the present invention.
Detailed Description
The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.
Example 1: as shown in the figure, the high-speed directional turnover mechanism comprises an operation frame 1, wherein a sliding seat 2 capable of sliding along the operation frame 1 is arranged in the operation frame 1, and a clamping jaw 3 capable of being turned over and clamped is arranged in the sliding seat 2. The sliding seat 2 is in sliding displacement through a cam assembly, and the clamping jaw 3 is overturned through a stretching assembly; the cam assembly comprises a motor rotating shaft 4 and a swing arm 5, a cam 6 rotating along with the motor rotating shaft 4 is sleeved on the motor rotating shaft 4, one end of the swing arm 5 fixedly rotates with the operation frame 1, the cam 6 drives the other end of the swing arm 5 to swing, the swing arm 5 drives the sliding seat 2 to slide, the clamping jaw 3 slides along a track of a track plate 7 in the operation frame 1, and the track of the track plate 7 is in a T shape; the stretching assembly comprises a spring member which can turn the clamping jaw 3 in the track along the track plate 7.
The swing arm 5 rotates along the operation frame 1 through a swing arm shaft 8, the swing arm 5 swings along the cam 6 through a roller bearing follower 9, and the swing arm 5 pushes the sliding seat 2 to displace through a cam bearing follower 10;
the turning shaft 11 which rotates along the sliding seat 2 is arranged in the sliding seat 2, a clamping jaw mounting seat 12 for fixing the clamping jaw 3 is arranged at the outer end of the turning shaft 11, and the turning shaft 11 slides along the track of the track plate 7 through a turning shaft follower 13;
the stretching assembly comprises an air cylinder 14 arranged on the outer wall of the operation frame 1, the air cylinder 14 drives a sliding block 15 to slide and displace along a linear guide rail 16, a swinging rod 17 is arranged at the tail part of the turnover shaft 11, the swinging rod 17 is elastically connected with the sliding block 15 through an elastic part, and the elastic part is a stretching spring 18.
The sliding seat 2 slides directionally through two guide shafts 19 arranged in the operating frame 1, a linear bearing 20 connected with the sliding seat 2 in a sliding manner is sleeved outside the guide shafts 19, limit screws 21 are respectively arranged at two ends of the sliding seat 2, and proximity switches 22 distributed corresponding to the limit screws 21 are arranged in the operating frame 1.
The track in the track plate 7 comprises a horizontal groove 27 and a vertical groove 28, the horizontal groove 27 and the vertical groove 28 are distributed in a communicating manner, and the turnover shaft follower 13 horizontally displaces along the horizontal groove 27 and then enters the vertical groove 28.
Two ends of the operating frame 1 are respectively provided with a sliding seat 2, the two clamping jaws 3 are symmetrically distributed, and a feeding cavity is formed between the two clamping jaws 3; the two swing arms 5 rotate synchronously through a mounting plate 29, and the cam bearing follower 10 is fixed at the middle end of the mounting plate 29.
The sliding seat 2 and the operation frame 1 elastically return through a sliding seat extension spring 30.
Claims (5)
1. A high-speed directional turnover mechanism is characterized in that: the clamping device comprises an operation frame (1), wherein a sliding seat (2) capable of sliding along the operation frame (1) is arranged in the operation frame (1), and a clamping jaw (3) capable of being turned over and clamped is arranged in the sliding seat (2); the sliding seat (2) is in sliding displacement through the cam assembly, and the clamping jaw (3) is turned over through the stretching assembly; the cam assembly comprises a motor rotating shaft (4) and a swing arm (5), a cam (6) rotating along with the motor rotating shaft (4) is sleeved on the motor rotating shaft (4), one end of the swing arm (5) fixedly rotates with the operating frame (1), the cam (6) drives the other end of the swing arm (5) to swing, the swing arm (5) drives the sliding seat (2) to slide, the clamping jaw (3) slides along a track of a track plate (7) in the operating frame (1) for displacement, and the track of the track plate (7) is in a T shape; the stretching assembly comprises an elastic member which can turn the clamping jaw (3) in the track along the track plate (7).
2. A high speed directional turnover mechanism as set forth in claim 1, wherein: the swing arm (5) rotates along the operation frame (1) through a swing arm shaft (8), the swing arm (5) swings along the cam (6) through a roller bearing follower (9), and the swing arm (5) pushes the sliding seat (2) to displace through a cam bearing follower (10);
the device is characterized in that a turnover shaft (11) rotating along the sliding seat (2) is arranged in the sliding seat (2), a clamping jaw mounting seat (12) for fixing a clamping jaw (3) is arranged at the outer end of the turnover shaft (11), and the turnover shaft (11) slides along a track of a track plate (7) through a turnover shaft follower (13);
the stretching assembly comprises an air cylinder (14) arranged on the outer wall of the operation frame (1), the air cylinder (14) drives a sliding block (15) to slide along a linear guide rail (16) for displacement, a swinging rod (17) is arranged at the tail part of the turnover shaft (11), the swinging rod (17) is elastically connected with the sliding block (15) through an elastic part, and the elastic part is a stretching spring (18).
3. A high speed directional turnover mechanism as set forth in claim 2, wherein: the sliding seat (2) slides directionally through two guide shafts (19) arranged in the operating frame (1), a linear bearing (20) in sliding connection with the sliding seat (2) is sleeved outside the guide shafts (19), two ends of the sliding seat (2) are respectively provided with a limit screw (21), and proximity switches (22) which are distributed correspondingly to the limit screws (21) are arranged in the operating frame (1).
4. A high speed directional turnover mechanism as set forth in claim 3, wherein: the track in the track plate (7) comprises a horizontal groove (27) and a vertical groove (28), the horizontal groove (27) and the vertical groove (28) are distributed in a communicating mode, and the turnover shaft follower (13) enters the vertical groove (28) after being horizontally displaced along the horizontal groove (27).
5. A high speed directional turnover mechanism as set forth in claim 3, wherein: the two swing arms (5) rotate synchronously through a mounting plate (29), and the cam bearing follower (10) is fixed at the middle end of the mounting plate (29).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120394520.0U CN214732380U (en) | 2021-02-19 | 2021-02-19 | High-speed directional turnover mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120394520.0U CN214732380U (en) | 2021-02-19 | 2021-02-19 | High-speed directional turnover mechanism |
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CN214732380U true CN214732380U (en) | 2021-11-16 |
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CN202120394520.0U Active CN214732380U (en) | 2021-02-19 | 2021-02-19 | High-speed directional turnover mechanism |
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CN (1) | CN214732380U (en) |
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2021
- 2021-02-19 CN CN202120394520.0U patent/CN214732380U/en active Active
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