CN113307006A

CN113307006A - High-capacity cache machine

Info

Publication number: CN113307006A
Application number: CN202110741616.4A
Authority: CN
Inventors: 钟桓硕; 洪汉德; 石浩
Original assignee: Shenzhen Lcd Automatic Equipment Co ltd
Current assignee: Shenzhen Lcd Automatic Equipment Co ltd
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2021-08-27

Abstract

The invention discloses a high-capacity cache machine, comprising: the device comprises a cache mechanism, a feeding mechanism and a discharging mechanism; the buffer memory mechanism includes: the buffer storage frame, the heat dissipation assembly and the roller assembly; the feed mechanism includes: the device comprises an up-down moving mechanism, a conveying mechanism and a linkage mechanism, wherein the up-down moving mechanism is used for driving the conveying mechanism and the linkage mechanism to move up and down, and the linkage mechanism is used for driving the roller components to rotate; the roller component is used for matching with the conveying mechanism of the feeding mechanism to drive the circuit board to be cooled on the feeding mechanism to move into the buffer storage frame or matching with the conveying mechanism of the discharging mechanism to drive the circuit board which is cooled in the buffer storage frame to move onto the feeding mechanism. According to the invention, through the matching of the roller assemblies, the linkage mechanism and the conveying mechanism, the circuit board to be cooled can be quickly input into the cache frame, and the cooled circuit board can be quickly input onto the blanking mechanism from the cache frame, so that the feeding and blanking efficiency is effectively improved.

Description

High-capacity cache machine

Technical Field

The invention relates to the field of cache machines, in particular to a high-capacity cache machine.

Background

The buffer memory machine is a device for temporarily storing and cooling the circuit board after the electroplating of the circuit board is finished, and mainly comprises a feeding mechanism, a buffer memory mechanism and a blanking mechanism assembly; the feeding mechanism is used for conveying the circuit board to be cooled into the cache machine, the cache mechanism is used for placing the circuit board to be cooled and internally provided with a heat dissipation assembly for dissipating heat of the circuit board, and the discharging mechanism is used for outputting the circuit board which is cooled from the cache machine. The cache machine in the prior art has the following problems: 1. the feeding mechanism or the blanking mechanism realizes feeding or blanking through the grabbing component, so that the feeding and blanking stability is low; 2. a driving mechanism is not arranged in the cache mechanism, so that the loading and unloading are inconvenient, and the loading and unloading efficiency is low; 3. the cooling device cannot be suitable for cooling circuit boards with different sizes, and the compatibility is poor.

Accordingly, the prior art is deficient and needs improvement.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a high-capacity cache machine, solves the problems of poor stability and low efficiency of feeding and discharging in the prior art, and solves the problem that the cache machine cannot be suitable for cooling circuit boards with different scales.

The technical scheme of the invention is as follows: a high capacity cache machine, comprising: the buffer mechanism, the feeding mechanism arranged at the feeding end of the buffer mechanism and the discharging mechanism arranged at the discharging end of the buffer mechanism; the buffer memory mechanism includes: the circuit board cooling device comprises a cache frame for placing a circuit board to be cooled and a heat dissipation assembly arranged on the outer side of the cache frame, wherein roller assemblies are arranged on a feeding end and a discharging end of the cache frame; the feed mechanism includes: the roller assembly comprises an up-down moving mechanism, a conveying mechanism arranged on the up-down moving mechanism and a linkage mechanism arranged on one side of the conveying mechanism, wherein the up-down moving mechanism is used for driving the conveying mechanism and the linkage mechanism to move up and down, and the linkage mechanism is used for driving the roller assembly to rotate; the blanking mechanism and the feeding mechanism have the same structure; the roller component is used for matching with the conveying mechanism of the feeding mechanism to drive the circuit board to be cooled on the feeding mechanism to move into the buffer storage frame or matching with the conveying mechanism of the discharging mechanism to drive the circuit board which is cooled in the buffer storage frame to move onto the feeding mechanism.

Further, the roller assembly includes: the buffer storage rack comprises a transmission shaft rotatably arranged on the buffer storage rack, a first gear and a roller wheel sleeved on the transmission shaft.

Further, the up-down moving mechanism includes: the first rotary driving device is arranged on the first fixing seat, the ball screw is connected with the output end of the first rotary driving device, the first sliding rail is arranged on the first fixing seat, and the first sliding block is arranged on the first sliding rail.

Further, the output mechanism includes: the second fixing seat is connected with the first sliding block, the first mounting plate, the second mounting plate and the two sets of synchronous transmission assemblies are arranged on the second fixing seat, the second fixing seat is sleeved on the ball screw, and the two sets of synchronous transmission assemblies are arranged on the first mounting plate and the second mounting plate respectively.

Further, the feed mechanism still includes: a first width adjustment assembly for adjusting a distance between the first mounting plate and the second mounting plate, the first width adjustment assembly comprising: first adjusting hand wheel, with first regulation pole, the setting that first adjusting hand wheel is connected are in second slide rail, setting on the second fixing base are in second slider on the second slide rail, first regulation pole rotatable install in on the first mounting panel, and with second mounting panel threaded connection, the second mounting panel with the second slider is connected.

Further, the linkage mechanism includes: the linear driving device, the moving plate connected with the output end of the linear driving device, the second rotary driving device installed on the moving plate, the second gear connected with the output end of the second rotary driving device, and the third gear in meshed connection with the second gear are meshed and connected with the first gear.

Further, the high-capacity cache machine further includes: a second width adjustment assembly disposed on the cache shelf, the cache shelf comprising: the buffer memory track comprises a first placing rack, a second placing rack and buffer memory tracks arranged on the first placing rack and the second placing rack, and a second width adjusting assembly is used for adjusting the distance between the first placing rack and the second placing rack.

Further, the second width adjustment assembly includes: second adjusting hand wheel, with the second adjusting lever that second adjusting hand wheel is connected, set up and be in the third slide rail of buffer memory frame bottom, setting are in third slider on the third slide rail, setting are in locking plate on the second rack, with locking plate threaded connection's check lock lever, the second adjust the pole with second rack threaded connection, just the second rack with the third slider is connected.

Further, the heat dissipation assembly includes: two sets of radiator fan, the air-cooler of symmetry setting in the buffer memory frame outside.

Further, the high-capacity cache machine further includes: the FFU purification device comprises a protective outer cover and an FFU purification unit arranged on the protective outer cover.

By adopting the scheme, the invention provides a high-capacity cache machine, which has the following beneficial effects:

1. the circuit board to be cooled or the cooled circuit board is conveyed by the conveying mechanism, and a horizontal conveying feeding and discharging mode is adopted, so that the stability in the conveying process is effectively improved, and the conveying accuracy is higher;

2. the roller components are matched with the linkage mechanism and the conveying mechanism, so that the circuit board to be cooled can be quickly input into the cache frame, and the cooled circuit board can be quickly input onto the blanking mechanism from the cache frame, and the feeding and blanking efficiency is effectively improved;

3. the distance between adjustable first rack, the second rack for the buffer memory frame can place the not unidimensional circuit board of cooling of treating, thereby realizes the not cooling of unidimensional circuit board of cooling of treating, and the compatibility is strong.

Drawings

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

FIG. 2 is a schematic structural diagram of a buffer mechanism, a feeding mechanism and a discharging mechanism according to the present invention;

FIG. 3 is a schematic structural diagram of a cache mechanism according to the present invention;

FIG. 4 is a schematic view of the up-down moving mechanism of the present invention;

FIG. 5 is a schematic structural view of the conveying mechanism of the present invention;

FIG. 6 is an enlarged view taken at A in FIG. 3;

fig. 7 is an enlarged view at B in fig. 3.

Wherein: the buffer mechanism 1, the first rack 100, the second rack 101, the buffer track 102, the cooling fan 110, the air cooler 111, the roller assembly 12, the transmission shaft 120, the first gear 121, the roller 122, the feeding mechanism 2, the up-down moving mechanism 20, the first fixed seat 201, the first rotary driving device 202, the ball screw 203, the first slide rail 204, the first slider 205, the second fixed seat 210, the first mounting plate 211, the second mounting plate 212, the third rotary driving device 213, the first synchronizing wheel 214, the second synchronizing wheel 215, the synchronous belt 216, the linkage mechanism 22, the linear driving device 220, the moving plate 221, the second rotary driving device 222, the second gear 223, the third gear 224, the first adjusting hand wheel 230, the first adjusting rod 231, the second slide rail 232, the second slider 233, the feeding mechanism 3, the protective cover 4, the FFU purifying unit 5, the second width adjusting assembly 6, the second adjusting hand wheel 60, the first adjusting wheel, the second adjusting wheel, the third adjusting wheel, the second adjusting mechanism, the third adjusting mechanism, the second adjusting mechanism, and the second adjusting mechanism, The locking device comprises a second adjusting rod 61, a third slide rail 62, a third slide block 63, a locking plate 64, a locking rod 65, a third adjusting rod 66, a first transmission gear 67 and a second transmission gear 68.

Detailed Description

The invention is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1-7, the present invention provides a high capacity cache machine, including: the device comprises a cache mechanism 1, a feeding mechanism 2 arranged at the feeding end of the cache mechanism 1, a discharging mechanism 3 arranged at the discharging end of the cache mechanism 1, a protective outer cover 4 and an FFU purification unit 5 arranged on the protective outer cover 4; specifically, in this embodiment, the FFU purifying unit 5 is of a type HKFFU, and the protective housing 4 is further provided with a touch display screen for monitoring the operation of the device; the action process of the high-capacity cache machine in the invention is as follows: after the feeding mechanism 2 obtains the circuit board to be cooled from the discharge end of the previous station, the circuit board to be cooled is conveyed to the caching mechanism 1, the heat dissipation assembly on the caching mechanism 1 generates cold air to cool the circuit board, and after cooling is completed, the circuit board is conveyed to the next station by the discharging mechanism 3 to complete cooling operation.

Specifically, in this embodiment, the cache mechanism 1 includes: the circuit board cooling device comprises a cache frame for placing a circuit board to be cooled and a heat dissipation assembly arranged on the outer side of the cache frame, wherein roller assemblies 12 are arranged on the feeding end and the discharging end of the cache frame; the roller assembly 12 includes: a transmission shaft 120 rotatably mounted on the buffer frame, a first gear 121 and a roller 122 sleeved on the transmission shaft 120; the heat dissipation assembly includes: the two groups of cooling fans 110 and the air coolers 111 are symmetrically arranged on the outer side of the cache rack; a plurality of cooling fans 110 are arranged in each group of cooling fans 110, the cooling fans 110 blow air towards the circuit board to be cooled on the cache rack, and meanwhile, cold air can be blown onto the cache rack through an air cooler 111, so that the cooling effect is better; specifically, the cache shelves may be arranged in 60 layers, 90 layers and 105 layers to realize high-capacity storage, which may be determined according to actual production, and in this embodiment, the model of the air cooler 111 is DAKC-27B.

Specifically, in this embodiment, the feeding mechanism 2 includes: the device comprises an up-down moving mechanism 20, a conveying mechanism arranged on the up-down moving mechanism 20 and a linkage mechanism 22 arranged on one side of the conveying mechanism, wherein the up-down moving mechanism 20 is used for driving the conveying mechanism and the linkage mechanism 22 to move up and down, and the linkage mechanism 22 is used for driving the roller assembly 12 to rotate; the blanking mechanism 3 has the same structure as the feeding mechanism 2; the roller assembly 12 is used for matching with a conveying mechanism of the feeding mechanism 2 to drive a circuit board to be cooled on the feeding mechanism 2 to move into the buffer storage frame or matching with a conveying mechanism of the blanking mechanism 3 to drive a circuit board which is cooled in the buffer storage frame to move onto the blanking mechanism 3; the up-down moving mechanism 20 includes: the device comprises a first fixed seat 201, a first rotary driving device 202 installed on the first fixed seat 201, a ball screw 203 connected with the output end of the first rotary driving device 202, a first slide rail 204 installed on the first fixed seat 201, and a first slide block 205 arranged on the first slide rail 204; the conveying mechanism includes: the second fixing seat 210 is connected with the first sliding block 205, the first mounting plate 211 is arranged on the second fixing seat 210, the second mounting plate 212 is arranged on the second fixing seat 210, the second fixing seat 210 is sleeved on the ball screw 203, the two groups of synchronous transmission assemblies are respectively arranged on the first mounting plate 211 and the second mounting plate 212, and the two groups of synchronous transmission assemblies are used for conveying a circuit board to be cooled or a cooled circuit board; the synchronous drive assembly comprises: a third rotation driving device 213, a first synchronous wheel 214 and a second synchronous wheel 215 connected with the output end of the third rotation driving device 213, and a synchronous belt 216 sleeved on the first synchronous wheel 214 and the second synchronous wheel 215; the action process of the feeding mechanism 2 is as follows: the first rotary driving device 202 is started to drive the ball screw 203 to rotate, the second fixed seat 210 and the ball screw 203 are driven to generate relative displacement, thereby driving the conveying mechanism and the link mechanism 22 to move up and down, the conveying mechanism is conveyed to one side of the feeding end of the corresponding layer on the cache rack, the third rotary driving device 213 is started to drive the first synchronizing wheel 214 and the second synchronizing wheel 215 to rotate, the circuit board to be cooled is placed on the synchronous belt 216, the circuit board to be cooled is driven to move towards the cache rack through the synchronous belt 216, after one end of the circuit board to be cooled enters the cache rack, the link mechanism 22 is started, the first gear 121 on the roller component 12 is driven to rotate through the link mechanism 22, under the action of the first gear 121, the roller 122 is further driven to rotate, at the moment, the roller 122 generates a driving force on the circuit board to be cooled, and drives the circuit board to be cooled to move towards the cache rack, the circuit board to be cooled can rapidly enter the cache frame, and the driving process of the blanking mechanism 3 is opposite to that of the feeding mechanism; the invention can effectively improve the feeding or discharging speed, thereby improving the production efficiency; on the other hand, the circuit board to be cooled or the cooled circuit board is conveyed by the conveying mechanism, and a horizontal conveying feeding and discharging mode is adopted, so that the stability in the conveying process is effectively improved, and the conveying accuracy is higher.

Specifically, in this embodiment, the feeding mechanism 2 further includes: a first width adjustment assembly for adjusting a distance between the first and

second mounting plates

211 and 212, the first width adjustment assembly comprising: the adjusting mechanism comprises a first adjusting handwheel 230, a first adjusting rod 231 connected with the first adjusting handwheel 230, a second slide rail 232 arranged on the second fixed seat 210, and a second slide block 233 arranged on the second slide rail 232, wherein the first adjusting rod 231 is rotatably arranged on the first mounting plate 211 and is in threaded connection with the second mounting plate 212, and the second mounting plate 212 is connected with the second slide block 233. The adjusting process of the first width adjusting assembly is as follows: the first adjusting handwheel 230 is rotated to drive the first adjusting rod 231 to rotate, and under the action of the first adjusting rod 231, the second mounting plate 212 and the second slider 233 are further driven to move on the second slide rail 232, so that the second mounting plate 212 moves towards one side close to or far away from the first mounting plate 211, and the adjustment of the distance between the first mounting plate 211 and the second mounting plate 212 is realized, so as to adapt to the conveying of circuit boards with different sizes.

Specifically, in the present embodiment, the link mechanism 22 includes: the linear driving device 220, a moving plate 221 connected to an output end of the linear driving device 220, a second rotation driving device 222 mounted on the moving plate 221, a second gear 223 connected to an output end of the second rotation driving device 222, and a third gear 224 engaged with the second gear 223, wherein the third gear 224 is engaged with the first gear 121. When the up-down moving mechanism 20 conveys the conveying mechanism and the linkage mechanism 22 to the side of the feed end of the corresponding layer of the buffer storage rack, the linear driving device 220 is started to drive the moving plate 221, the second rotary driving device 222, the second gear 223 and the third gear 224 to move to the side close to the feed end of the corresponding layer of the buffer storage rack, the third gear 224 is meshed with the first gear 121, the second rotary driving device 222 is started to drive the second gear 223 to rotate, so that the third gear 224 and the first gear 121 are driven to rotate, and the rotation of the roller 122 in the roller assembly 12 is realized; specifically, in this embodiment, the roller assemblies 12 at the feed end and the discharge end of the buffer storage rack are in a symmetrical state, a belt (not shown in the drawings) may be disposed on the roller 122, one end of the belt is sleeved on the roller 122 of the roller assembly 12 at the feed end of the buffer storage rack, and the other end of the belt is sleeved on the roller 122 of the roller assembly 12 at the discharge end of the buffer storage rack, so that the belt is driven to rotate under the action of the linkage mechanism 22 and the roller 122, and under the action of the belt, the circuit board to be cooled enters the buffer storage rack more quickly, and the cooled circuit board is input to the blanking mechanism 3 from the buffer storage rack more quickly.

Specifically, in this embodiment, the high-capacity cache machine further includes: a second width adjustment assembly 6 disposed on the buffer frame, the buffer frame comprising: the first rack 100, the second rack 101, and the buffer tracks 102 disposed on the first rack 100 and the second rack 101, wherein the second width adjustment assembly 6 is used to adjust a distance between the first rack 100 and the second rack 101; the second width adjustment assembly 6 includes: second adjusting hand wheel 60, with second adjusting rod 61, the setting that second adjusting hand wheel 60 is connected are in the third slide rail 62, the setting of buffer memory frame bottom are in third slider 63, the setting on the third slide rail 62 are in locking plate 64 on the second rack 101, with locking lever 65 of locking plate 64 threaded connection, second adjusting rod 61 with second rack 101 threaded connection, just second rack 101 with third slider 63 is connected. When circuit boards with different sizes are placed, the locking rod 65 is rotated to separate the locking rod 65 from the locking plate 64, the second adjusting hand wheel 60 is rotated to drive the second adjusting rod 61 to rotate, the second placing frame 101 and the second adjusting rod 61 generate relative displacement to drive the second placing frame 101 and the third sliding block 63 to move on the third sliding rail 62, so that the second placing frame 101 is driven to move towards one side far away from or close to the first placing frame 100, after the adjustment is completed, the locking rod 65 is rotated, and the locking rod 65 is connected with the locking plate 64 to prevent the second placing frame 101 from further moving; the distance between the first placing rack 100 and the second placing rack 101 can be adjusted through the second width adjusting assembly 6, so that the cooling of the circuit boards to be cooled with different sizes can be adapted, and the compatibility is strong; specifically, the second width adjustment assembly 6 further includes: three third adjusting rods 66, a first transmission gear 67 arranged on the second adjusting rod 61, and a second transmission gear 68 arranged on the third adjusting rods 66; one third adjusting rod 66 of the three third adjusting rods 66 is arranged on one side of the second adjusting rod 61, the other two third adjusting rods 66 are arranged on the upper side of the buffer storage rack, the third adjusting rod 66 is in threaded connection with the second placing rack 101, and the first transmission gear 67 is connected with the second transmission gear 68 through a chain (not shown in the drawing); the third adjusting rod 66 and the second adjusting rod 61 move synchronously, so that the second placing rack 101 can be driven to move away from the first placing rack 100 or move to one side of the first placing rack 100, and the second placing rack 101 can move more stably through vertical synchronous driving.

Specifically, in this embodiment, the first rotation driving device 202, the second rotation driving device 222, and the third rotation driving device 213 are all rotating electric machines, and the linear driving device 220 is a driving cylinder.

In summary, the present invention provides a high-capacity cache machine, which has the following advantages:

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A high capacity cache machine, comprising: the buffer mechanism, the feeding mechanism arranged at the feeding end of the buffer mechanism and the discharging mechanism arranged at the discharging end of the buffer mechanism;

the buffer memory mechanism includes: the circuit board cooling device comprises a cache frame for placing a circuit board to be cooled and a heat dissipation assembly arranged on the outer side of the cache frame, wherein roller assemblies are arranged on a feeding end and a discharging end of the cache frame;

the feed mechanism includes: the roller assembly comprises an up-down moving mechanism, a conveying mechanism arranged on the up-down moving mechanism and a linkage mechanism arranged on one side of the conveying mechanism, wherein the up-down moving mechanism is used for driving the conveying mechanism and the linkage mechanism to move up and down, and the linkage mechanism is used for driving the roller assembly to rotate;

the blanking mechanism and the feeding mechanism have the same structure; the roller component is used for matching with the conveying mechanism of the feeding mechanism to drive the circuit board to be cooled on the feeding mechanism to move into the buffer storage frame or matching with the conveying mechanism of the discharging mechanism to drive the circuit board which is cooled in the buffer storage frame to move onto the feeding mechanism.

2. The cache machine of claim 1, wherein the scroll wheel assembly comprises: the buffer storage rack comprises a transmission shaft rotatably arranged on the buffer storage rack, a first gear and a roller wheel sleeved on the transmission shaft.

3. A high capacity cache machine according to claim 1, wherein said up-and-down moving mechanism comprises: the first rotary driving device is arranged on the first fixing seat, the ball screw is connected with the output end of the first rotary driving device, the first sliding rail is arranged on the first fixing seat, and the first sliding block is arranged on the first sliding rail.

4. A cache machine according to claim 3, wherein said output mechanism comprises: the second fixing seat is connected with the first sliding block, the first mounting plate, the second mounting plate and the two sets of synchronous transmission assemblies are arranged on the second fixing seat, the second fixing seat is sleeved on the ball screw, and the two sets of synchronous transmission assemblies are arranged on the first mounting plate and the second mounting plate respectively.

5. The cache machine of claim 4, wherein the loading mechanism further comprises: a first width adjustment assembly for adjusting a distance between the first mounting plate and the second mounting plate, the first width adjustment assembly comprising: first adjusting hand wheel, with first regulation pole, the setting that first adjusting hand wheel is connected are in second slide rail, setting on the second fixing base are in second slider on the second slide rail, first regulation pole rotatable install in on the first mounting panel, and with second mounting panel threaded connection, the second mounting panel with the second slider is connected.

6. A cache machine according to claim 2, wherein said linkage comprises: the linear driving device, the moving plate connected with the output end of the linear driving device, the second rotary driving device installed on the moving plate, the second gear connected with the output end of the second rotary driving device, and the third gear in meshed connection with the second gear are meshed and connected with the first gear.

7. The cache machine of claim 1, further comprising: a second width adjustment assembly disposed on the cache shelf, the cache shelf comprising: the buffer memory track comprises a first placing rack, a second placing rack and buffer memory tracks arranged on the first placing rack and the second placing rack, and a second width adjusting assembly is used for adjusting the distance between the first placing rack and the second placing rack.

8. The cache machine of claim 7, wherein the second width adjustment assembly comprises: second adjusting hand wheel, with the second adjusting lever that second adjusting hand wheel is connected, set up and be in the third slide rail of buffer memory frame bottom, setting are in third slider on the third slide rail, setting are in locking plate on the second rack, with locking plate threaded connection's check lock lever, the second adjust the pole with second rack threaded connection, just the second rack with the third slider is connected.

9. The cache machine of claim 1, wherein the heat sink assembly comprises: two sets of radiator fan, the air-cooler of symmetry setting in the buffer memory frame outside.

10. The cache machine of claim 1, further comprising: the FFU purification device comprises a protective outer cover and an FFU purification unit arranged on the protective outer cover.