CN215247908U - Power linkage mechanism of cache - Google Patents

Abstract

The utility model discloses a cache machine power link gear, include: the device comprises a fixed plate, a driving assembly arranged on the fixed plate, a rotating assembly connected with the output end of the driving assembly and a first gear; the driving assembly is used for driving the rotating assembly and the first gear to move towards one side of the material rack close to or far away from the caching machine, the rotating assembly is used for driving the first gear to rotate, and the first gear is used for driving the roller on the material rack of the caching machine to rotate under the action of the rotating assembly. The utility model discloses can drive the gyro wheel rotation on the work or material rest of buffer memory machine, cooperate with the horizontal drive subassembly of feed mechanism or unloading mechanism simultaneously, can accelerate to wait that cooling circuit board gets into the speed to the work or accelerate cooling circuit board's output speed in the work or material rest for material loading, unloading speed effectively improve production efficiency.

Description

Power linkage mechanism of cache

Technical Field

The utility model relates to a buffer memory machine field especially relates to a buffer memory power link gear.

Background

The buffer memory machine is used for temporarily storing and cooling the circuit board after the electroplating of the circuit board is finished. A feeding mechanism and a discharging mechanism are generally arranged at two ends of the buffer memory machine and are respectively used for feeding the circuit board to be cooled and discharging the cooled circuit board; in the prior art, if the circuit board is conveyed by adopting a horizontal conveying mode by a feeding mechanism or a discharging mechanism of the buffer memory machine, taking the feeding as an example, the feeding mechanism generally and directly conveys the circuit board to be cooled to a buffer memory frame from a feeding end of the buffer memory machine through a horizontal driving assembly arranged in the feeding mechanism, and because a power driving device is not generally arranged on a material frame of the buffer memory frame, after the first half part of the circuit board enters the material frame, the horizontal driving assembly drives the horizontal driving assembly to further enter the material frame, a certain resistance exists, the speed of the circuit board to be cooled entering the material frame is influenced, the feeding speed is slower, and similarly, the discharging speed is slower when the discharging mechanism discharges the material.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, providing a buffer memory power link gear, solving prior art, the feeding or the ejection of compact of buffer memory machine are slow, lead to the problem that production efficiency is low.

The technical scheme of the utility model as follows: a cache power linkage mechanism, comprising: the device comprises a fixed plate, a driving assembly arranged on the fixed plate, a rotating assembly connected with the output end of the driving assembly and a first gear; the driving assembly is used for driving the rotating assembly and the first gear to move towards one side of the material rack close to or far away from the caching machine, the rotating assembly is used for driving the first gear to rotate, and the first gear is used for driving the roller on the material rack of the caching machine to rotate under the action of the rotating assembly.

Further, the drive assembly includes: the first gear is rotatably arranged on the movable plate.

Further, the rotating assembly includes: the rotating driving device is arranged on the moving plate, and the first gear is in meshed connection with the second gear.

Further, the drive assembly further comprises: the movable plate is connected with the sliding block.

Further, the power linkage mechanism of the cache further comprises: and the moving plate is connected with the linear driving device through the buffer assembly.

Further, the buffer assembly includes: the linear driving device comprises a push rod, a first buffer block, a second buffer block, a buffer column and a spring, wherein the push rod is connected with the output end of the linear driving device, the first buffer block is sleeved on the push rod, the second buffer block is installed on the push rod, the buffer column is connected with the first buffer block, the spring is sleeved on the buffer column, a buffer hole is formed in the second buffer block, and one end of the buffer column is inserted into the buffer hole.

Furthermore, a limiting groove is formed in the fixing plate, and the first gear is arranged in the limiting groove; the fixed plate is further provided with a mounting seat, and the driving assembly is mounted on the mounting seat.

Preferably, the linear driving device is a driving cylinder, and the rotary driving device is a servo motor.

By adopting the scheme, the utility model provides a buffer memory power link gear has following beneficial effect: the idler wheels on the material frame of the cache machine can be driven to rotate, and meanwhile, the idler wheels are matched with the horizontal driving assembly of the feeding mechanism or the discharging mechanism, so that the speed of the circuit board to be cooled entering the material frame or the output speed of the cooled circuit board can be increased, the feeding speed and the discharging speed are increased, and the production efficiency is effectively improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of another aspect of the present invention;

fig. 3 is a schematic structural view of the driving assembly, the rotating assembly and the buffering assembly of the present invention;

fig. 4 is a schematic structural diagram of the fixing plate of the present invention.

Wherein: the device comprises a fixed plate 1, a limiting groove 10, a mounting seat 11, a driving assembly 2, a linear driving device 20, a moving plate 21, a sliding rail 22, a sliding block 23, a rotating assembly 3, a rotating driving device 30, a second gear 31, a first gear 4, a buffer assembly 5, a push rod 50, a first buffer block 51, a second buffer block 52, a buffer column 53 and a spring 54.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-4, the present invention provides the following technical solutions: a cache power linkage mechanism, comprising: the device comprises a fixed plate 1, a driving assembly 2 arranged on the fixed plate 1, a rotating assembly 3 connected with the output end of the driving assembly 2, and a first gear 4; the driving component 2 is used for driving the rotating component 3 and the first gear 4 to move towards one side of the material rack close to or far away from the cache machine, the rotating component 3 is used for driving the first gear 4 to rotate, and the first gear 4 is used for driving the idler wheel on the material rack of the cache machine to rotate under the action of the rotating component 3. Specifically, in the present embodiment, a limiting groove 10 is disposed on the fixing plate 1, and the first gear 4 is disposed in the limiting groove 10; the fixed plate 1 is also provided with a mounting seat 11, and the driving assembly 2 is mounted on the mounting seat 11; the first gear 4 can move in the limiting groove 10, and the limiting groove 10 plays a limiting role when the first gear 4 resets.

The utility model provides a cache machine power link gear installs on feed mechanism or unloading mechanism, and sets up in feed end or discharge end one side near the cache machine work or material rest, and the concrete action process of taking the material loading process as an example does: when the feeding mechanism conveys the circuit board to be cooled to a corresponding height, the driving component 2 drives the rotating component 3 and the first gear 4 to move to one side close to the feeding end of the material rest of the buffer memory machine, the first gear 4 is in contact with the roller on the material rest and is in meshed connection with the roller, when the horizontal driving component 2 of the feeding mechanism starts to drive the circuit board to be cooled to move to the material rest, the rotating component 3 is synchronously started, the rotating component 3 drives the roller to rotate, after the front end of the circuit board to be cooled enters the material rest, the roller rotates to synchronously drive the circuit board to be cooled to move to the material rest, under the action of the horizontal driving component 2 and the roller of the feeding mechanism, the speed of the circuit board to be cooled entering the material rest can be accelerated, and the production efficiency is improved; when the blanking operation is carried out, the output speed of the cooled circuit board can be increased, the blanking efficiency is improved, and the feeding speed and the blanking speed can be further increased by arranging the belt on the roller.

Specifically, in the present embodiment, the driving assembly 2 includes: the linear driving device 20 and the moving plate 21 are connected with the output end of the linear driving device 20, and the first gear 4 is rotatably mounted on the moving plate 21; the drive assembly 2 further comprises: the movable plate comprises a slide rail 22 installed on the fixed plate 1 and a slide block 23 arranged on the slide rail 22, wherein the movable plate 21 is connected with the slide block 23. Specifically, in the present embodiment, the linear driving device 20 is a driving cylinder; the action process of the driving assembly 2 is as follows: the linear driving device 20 is started, the linear driving device 20 drives the moving plate 21 to move to one side of the material rack close to the cache machine, so that the rotating assembly 3 and the first gear 4 are driven to move to one side of the material rack close to the cache machine, after the material loading is completed, the linear driving device 20 drives the moving plate 21, the rotating assembly 3 and the first gear 4 to move to one side of the material rack far away from the cache machine, and the first gear 4 is separated from the idler wheel on the material rack of the cache machine.

Specifically, in the present embodiment, the rotating assembly 3 includes: the rotating driving device 30 is mounted on the moving plate 21, and the first gear 4 is in meshed connection with the second gear 31. Specifically, in the present embodiment, the rotation driving device 30 is a servo motor; the action process of the rotating assembly 3 is as follows: the rotation driving device 30 is started to drive the second gear 31 to rotate, and the first gear 4 is synchronously driven to rotate under the action of the second gear 31, so as to drive the roller on the material rack of the cache machine to rotate.

Specifically, in this embodiment, the power linkage mechanism of the cache further includes: the buffer assembly 5 is used for connecting the moving plate 21 with the linear driving device 20 through the buffer assembly 5; the buffer assembly 5 includes: the linear driving device comprises a push rod connected with the output end of the linear driving device 20, a first buffer block 51 sleeved on the push rod, a second buffer block 52 installed on the push rod, a buffer column 53 connected with the first buffer block 51, and a spring 54 sleeved on the buffer column 53, wherein a buffer hole is formed in the second buffer block 52, and one end of the buffer column 53 is inserted into the buffer hole; the buffering assembly 5 plays a role of buffering in the process that the linear driving device 20 drives the moving plate 21.

To sum up, the utility model provides a buffer memory power link gear has following beneficial effect: the idler wheels on the material frame of the cache machine can be driven to rotate, and meanwhile, the idler wheels are matched with the horizontal driving assembly of the feeding mechanism or the discharging mechanism, so that the speed of the circuit board to be cooled entering the material frame or the output speed of the cooled circuit board can be increased, the feeding speed and the discharging speed are increased, and the production efficiency is effectively improved.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a cache machine power linkage mechanism which characterized in that includes: the device comprises a fixed plate, a driving assembly arranged on the fixed plate, a rotating assembly connected with the output end of the driving assembly and a first gear; the driving assembly is used for driving the rotating assembly and the first gear to move towards one side of the material rack close to or far away from the caching machine, the rotating assembly is used for driving the first gear to rotate, and the first gear is used for driving the roller on the material rack of the caching machine to rotate under the action of the rotating assembly.

2. The power linkage mechanism of claim 1, wherein the driving assembly comprises: the first gear is rotatably arranged on the movable plate.

3. The dynamic linkage mechanism of the cache machine as claimed in claim 2, wherein the rotating assembly comprises: the rotating driving device is arranged on the moving plate, and the first gear is in meshed connection with the second gear.

4. The power linkage mechanism of claim 2, wherein the driving assembly further comprises: the movable plate is connected with the sliding block.

5. The dynamic linkage mechanism of the cache machine as claimed in claim 2, further comprising: and the moving plate is connected with the linear driving device through the buffer assembly.

6. The dynamic linkage mechanism of the cache machine as claimed in claim 5, wherein the buffer assembly comprises: the linear driving device comprises a push rod, a first buffer block, a second buffer block, a buffer column and a spring, wherein the push rod is connected with the output end of the linear driving device, the first buffer block is sleeved on the push rod, the second buffer block is installed on the push rod, the buffer column is connected with the first buffer block, the spring is sleeved on the buffer column, a buffer hole is formed in the second buffer block, and one end of the buffer column is inserted into the buffer hole.

7. The dynamic linkage mechanism of the cache machine as claimed in claim 1, wherein the fixing plate is provided with a limiting groove, and the first gear is arranged in the limiting groove; the fixed plate is further provided with a mounting seat, and the driving assembly is mounted on the mounting seat.

8. The dynamic linkage mechanism of the buffer power as claimed in claim 3, wherein the linear driving device is a driving cylinder, and the rotary driving device is a servo motor.

Images