CN110937335A

CN110937335A - Vertical electroplating conveying device

Info

Publication number: CN110937335A
Application number: CN201911344709.2A
Authority: CN
Inventors: 王周峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-25
Filing date: 2019-12-25
Publication date: 2020-03-31
Also published as: CN211711827U; CN211846042U; CN211732801U; CN211495648U

Abstract

The invention discloses a vertical electroplating conveying device which comprises a driving chain wheel, a driven chain wheel and a conveying belt, wherein the conveying belt is vertical to a horizontal plane, the conveying belt comprises a plurality of chain plates which are connected in series in a hinged mode, supporting pieces used for hanging products to be conveyed are arranged on the chain plates, a plurality of pairs of clamping teeth are uniformly distributed on the outer edges of the driving chain wheel and the driven chain wheel respectively, clamping holes are formed in the chain plates, and when the chain plates pass through the driving chain wheel or the driven chain wheel, the clamping teeth are clamped into the clamping holes so that the chain plates can rotate under the rotation of the driving chain wheel or the driven chain wheel. The vertical chain plate conveying device provided by the invention can be used for carrying electroplated products to convey, is long in conveying distance, stable in conveying, low in noise, capable of running at low speed, medium speed and high speed, free of slipping and shaking, large in load capacity, low in maintenance cost, capable of adapting to various environments and wide in application.

Description

Vertical electroplating conveying device

Technical Field

The invention relates to the technical field of transmission, in particular to a vertical electroplating conveying device.

Background

The current common transmission mode is as follows: chain drive, belt drive, steel band transmission and gear drive, however three kinds of transmission mode all have certain shortcoming, the shortcoming of chain drive mode: the noise is large, impact and vibration exist, the requirement on the installation precision is high, and after a hinge of the chain is abraded, the pitch is enlarged to cause a shedding phenomenon;

the belt transmission mode has the following defects: the high power cannot be transmitted by friction transmission; the sliding exists in the transmission, the accurate transmission ratio cannot be kept, and the efficiency is lower; when the same circumferential force is transmitted, the overall dimension and the stress on the shaft are larger; the belt is worn quickly and has short service life.

The steel belt transmission mode has the following defects: short service life, non-durability, easy slipping phenomenon, etc.

The disadvantages of the gear transmission mode are as follows: vibration, impact and noise are large during operation, and dynamic load is generated; no overload protection function is realized; the gear cutting precision of the counter gear is high, and the cost is high.

How to provide a transmission mode which can overcome the defects of the transmission mode becomes a technical problem to be solved urgently.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention discloses a vertical electroplating conveying device.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the embodiment of the invention discloses a vertical electroplating conveying device, which comprises a driving chain wheel, a driven chain wheel and a conveying belt, wherein the conveying belt is vertical to a horizontal plane, the conveying belt comprises a plurality of chain plates which are connected in series in a hinged mode, supporting pieces used for hanging products to be conveyed are arranged on the chain plates, a plurality of pairs of clamping teeth are respectively and uniformly distributed on the outer edges of the driving chain wheel and the driven chain wheel, clamping holes are formed in the chain plates, and when the chain plates pass through the driving chain wheel or the driven chain wheel, the clamping teeth are clamped into the clamping holes so that the chain plates can rotate under the rotation of the driving chain wheel or the driven chain wheel.

As one preferable scheme of the invention, a plurality of bevel edges with the same number of pairs as the latch teeth are respectively arranged on the outer edges of the driving chain wheel and the driven chain wheel, a pair of latch teeth is arranged at the intersection of two adjacent bevel edges, and when the latch teeth are latched in the latch holes, the chain plate is attached to the bevel edges of the driving chain wheel or the driven chain wheel.

Further preferably, the driving sprocket and the driven sprocket are respectively provided with ten pairs of latch teeth, and each pair of latch teeth comprises two convex teeth with trapezoidal cross sections.

Further preferably, the two convex teeth are in circular arc transition.

Further preferably, the outer edges of the driving sprocket and the driven sprocket are respectively provided with ten oblique edges, and a pair of latch teeth is arranged at the intersection of two adjacent oblique edges.

Preferably, a plurality of cylindrical bodies are sequentially arranged on two sides of each chain plate, the cylindrical bodies on two adjacent chain plates are arranged in a staggered mode and spliced into a hinge sleeve, a hinge pin shaft is arranged in the hinge sleeve, and the two chain plates are hinged through the cooperation of the hinge sleeve and the hinge pin shaft.

Preferably, at least one notch is respectively arranged on each of two sides of each link plate, and the notches of two adjacent link plates are correspondingly spliced one by one to form the clamping holes.

Still further preferably, the card hole is a square hole.

Further preferably, the driving sprocket and the driven sprocket comprise two wheel plates arranged at intervals and a straight cylinder connected with the two wheel plates, the two wheel plates are respectively provided with a latch, and the chain plate is correspondingly provided with two latch holes.

Preferably, the hinged pin shaft is sleeved with a roller structure, and the latch enters the latch hole and is clamped on two sides of the roller structure.

Preferably, the roller structure includes an inner shaft sleeve of the hinge pin and a roller sleeve of the hinge pin, the inner shaft sleeve of the hinge pin and the roller are located in the locking hole.

Still further preferably, two gear guide plates are sleeved on the pin shaft inner sleeve, and the two gear guide plates are located in the clamping holes and clamp the roller therebetween.

As one preferable scheme of the invention, the vertical electroplating conveying device further comprises a guide mechanism, wherein the guide mechanism comprises a guide wheel and a track, the guide wheel is arranged on the chain plate, the track is erected on the outer side of the conveying belt, and the guide wheel is matched with the track and runs on the track.

As one of the preferable schemes of the invention, the vertical electroplating conveying device integrally adopts a vertical conveying mechanism, the conveying belt is vertical to the horizontal plane, and the bottom end part of the chain plate is provided with a supporting piece for hanging the products to be conveyed; preferably, the support member is a clip for holding the plating plate.

Preferably, the vertical electroplating conveying device further comprises a conductive mechanism, the conductive mechanism comprises two conductive copper plates which are respectively located on the inner side and the outer side of the conveying belt, a graphene conductive block is fixedly arranged on each conductive copper plate, the two graphene conductive blocks are connected through a spring, a conductive copper sliding block is fixedly arranged on the outer side of the top end portion of the chain plate, the conductive copper sliding block penetrates through the space between the two graphene conductive blocks, and the chain plate is in contact with the graphene conductive blocks.

Further preferably, the guide mechanism comprises an upper guide wheel and a track, the upper guide wheel is arranged on the outer side surface of the conductive copper sliding block, the track is erected on the outer side of the conveying belt, and the track is matched with the upper guide wheel.

Still further preferably, the track is a track square tube, the top end part of the track square tube is provided with an upper guide plate, the upper guide wheel moves along the upper guide plate, and the track square tube is fixedly arranged on the bracket;

still further preferably, the guide mechanism further comprises a lower guide block, the bottom end of the track square tube is provided with a lower guide plate, and the lower guide plate is matched with the lower guide block and moves along a guide groove on the lower guide block.

Still further preferably, an ash receiving box is fixedly arranged on the inner side and the outer side of the conductive copper slide block respectively.

In a preferred embodiment of the present invention, the driven sprocket is provided with a weight mechanism.

Compared with the prior art, the invention has at least the following advantages:

1) the vertical chain plate conveying device provided by the invention can be used for carrying electroplated products to convey, but also can be used for conveying other products, has the advantages of long conveying distance, stable conveying, low noise, capability of running at low speed, medium speed and high speed, no slipping, no shaking, large carrying capacity and low maintenance cost, can be suitable for various environments (such as high temperature, low temperature and severe environments), and is widely applied.

2) Compared with belt transmission, the conveying device provided by the invention drives the conveying belt to move through the matching of the clamping teeth and the clamping holes, and the chain plates are matched with the driving chain wheel or the driven chain wheel one by one and move under the driving of the driving chain wheel or the driven chain wheel, so that the transmission ratio is accurate, no sliding exists, no shaking exists, and the transmission efficiency is higher.

3) Compared with belt transmission, the conveying device provided by the invention has a compact structure and can transmit larger power under the same condition.

4) Compared with belt transmission, the conveying device provided by the invention has small pressure on the driven chain wheel, only needs a counterweight mechanism with a simple structure, and can effectively solve the problems of belt transmission jitter, slippage and the like.

5) Compared with belt transmission, the conveying device provided by the invention realizes transmission by matching the latch and the clamping hole, and has the advantages of simple structure and small friction force, so that the conveying device does not need lubrication and maintenance.

6) Compared with gear transmission, the conveying device provided by the invention has the advantages of large transmission center distance and low maintainability;

7) compared with gear transmission, the conveying device provided by the invention has the advantages of simple structure, low manufacturing cost and low installation precision.

8) Compared with gear transmission, the conveying device provided by the invention has the advantages of stable operation, good smoothness and large load capacity.

9) Compared with gear transmission, the conveying device provided by the invention drives the conveying belt to move through the matching of the clamping teeth and the clamping holes, and the chain plates are matched with the driving chain wheel or the driven chain wheel one by one and move under the driving of the driving chain wheel or the driven chain wheel, so that the conveying process is stable, and the maintenance cost is low.

10) Compared with chain transmission, the conveying device provided by the invention has the advantages that the instantaneous start is stable, the track guide wheel automatically moves, and the track guide wheel does not shake.

11) Compared with chain transmission, the conveying device provided by the invention drives the conveying belt through the matching of the clamping teeth and the clamping holes, and no impact, vibration and noise exist in the moving process;

12) compared with chain transmission, the conveying device provided by the invention can run at medium-high speed or continuously due to high stability.

13) Preferably, the conveying device provided by the invention adopts a roller structure, and the roller structure is matched with the latch, so that a chain plate can be prevented from being locked when being driven by a driving chain wheel or a driven chain wheel to rotate, and the whole conveying process is ensured to be smoothly and stably carried out.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a schematic structural diagram of a vertical electroplating conveying apparatus according to a preferred embodiment of the present invention;

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

FIG. 3 is a top view of a vertical plating transport apparatus according to a preferred embodiment of the present invention;

FIG. 4 is a schematic partial structure diagram of a vertical electroplating transportation device according to a preferred embodiment of the present invention;

FIG. 5 is an enlarged schematic view at C of FIG. 4;

FIG. 6 is a schematic view of the structure of the driving sprocket or the driven sprocket according to the preferred embodiment of the present invention;

fig. 7 is a schematic structural diagram of a link plate according to a preferred embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments and the accompanying drawings so that those skilled in the art can implement the invention with reference to the description.

Referring to fig. 1-7, an embodiment of the present invention discloses a vertical electroplating conveying device, which includes a driving sprocket 1, a driven sprocket 2 and a conveying belt 3, wherein the conveying belt 3 includes a plurality of chain plates 31 connected in series in an articulated manner, ten pairs of latch teeth 4 are respectively uniformly distributed on outer edges of the driving sprocket 1 and the driven sprocket 2, the chain plates 31 are provided with latch holes 311, when the chain plates 31 pass through the driving sprocket 1 or the driven sprocket 2, the latch teeth 4 are latched into the latch holes 311 so that the chain plates 31 rotate under rotation of the driving sprocket 1 or the driven sprocket 2, the conveying belt 3 is perpendicular to a horizontal plane, the whole chain plates 31 are perpendicular to the horizontal plane, a width direction of the chain plates 31 is horizontal to the horizontal plane, a length direction of the chain plates 31 is perpendicular to the horizontal plane, bottom end portions of the chain plates 31 are provided with supporting members for suspending products to be conveyed (electroplating products), for example, bottom end portions of the chain plates 31 are provided with conductive, the conveying device is applied to the electroplating field, but not limited to the electroplating field, and can also be applied to other products needing to be suspended and conveyed.

Specifically, the outer fringe on drive sprocket 1 and the driven sprocket 2 is equipped with ten hypotenuses 5 respectively, and the intersection of two adjacent hypotenuses 5 sets up a pair of latch 4, and when latch 4 card goes into in the card hole 311, the link joint 31 is laminated with the hypotenuse 5 of drive sprocket 1 or driven sprocket 2 mutually, and wherein, every couple of latch 4 includes that two cross-sections are trapezoidal dogteeth 41, passes through circular arc 42 transitional coupling between two dogteeth 41. Can laminate mutually when can guaranteeing link joint 31 and drive sprocket 1 or driven sprocket 2 block through hypotenuse 5 design, and then guarantee that the in-process that link joint 31 moved can rely on drive sprocket 1 or driven sprocket 2 to support and rotate steadily.

The two sides of each link plate 31 are sequentially provided with a plurality of cylindrical bodies 312, the cylindrical bodies 312 on two adjacent link plates 31 are arranged in a staggered manner and spliced to form a hinge sleeve, a hinge pin 6 is arranged in the hinge sleeve, and the two link plates 31 are hinged through the cooperation of the hinge sleeve and the hinge pin 6.

Two notches 313 are respectively arranged on two sides of each chain plate 31, the notches 313 on two adjacent chain plates 31 are correspondingly spliced one by one to form two clamping holes 311, the notches 313 can be arranged between two hinged sleeves, and the clamping holes 311 are square holes.

Further, the driving sprocket 1 and the driven sprocket 2 respectively include two wheel plates 11 (the two wheel plates 11 are disposed up and down) disposed at intervals and a straight cylinder 12 connecting the two wheel plates 11, the two wheel plates 11 are respectively provided with a latch 4, and the above-mentioned link plate 31 is correspondingly provided with two latch holes 311.

In addition, the hinge pin 6 is sleeved with the roller structure 7, and the latch 4 enters the latch hole 311 and is latched to two sides of the roller structure 7. The roller structure 7 and the latch 4 are matched to prevent the link plate 31 from being locked when driven by the driving sprocket 1 or the driven sprocket 2 to rotate, so that the whole conveying process is smoothly and stably carried out.

The roller structure 7 comprises a pin shaft inner shaft sleeve 71 sleeved on the hinge pin 6 and a roller barrel 72 sleeved on the pin shaft inner shaft sleeve 71, the pin shaft inner shaft sleeve 71 and the roller 72 are positioned in the clamping hole 311, the pin shaft inner shaft sleeve 71 can rotate relative to the hinge pin 6, and the roller barrel 72 can rotate relative to the pin shaft inner shaft sleeve 71; in addition, two gear guide plates 73 are sleeved on the pin shaft inner shaft sleeve 71, the two gear guide plates 73 are positioned in the clamping holes 311 and clamp the roller tube 72 between the two gear guide plates 73, and the gear guide plates 73 can rotate relative to the pin shaft inner shaft sleeve 71.

The hinge pin 6 can be protected from abrasion through the pin shaft inner shaft sleeve 71; because the roller tube 72 can rotate relative to the pin shaft inner sleeve 71, when the latch 4 of the driving sprocket 1 or the driven sprocket 2 enters the latch hole 311 and is latched to both sides of the roller tube 72 (the two convex teeth 41 latch both sides of the roller tube 72, and the arc between the convex teeth 41 matches with the outer peripheral surface of the roller tube 72), the inching between the driving sprocket 1/the driven sprocket 2 and the link plate 31 can be performed, and the latch can not be jammed, and when the driving sprocket 1 or the driven sprocket 2 drives the link plate 31 to rotate for about half a turn, the link plate 31 starts to separate from the limit position of the latch 4, at this time, because the roller tube 72 can rotate, the latch 4 can be easily separated from the roller tube 72, that is, the link plate 31 can be easily separated from the driving sprocket 1 or the driven sprocket 2, and therefore, the jam can not occur. The gear guide plate 73 can play a role in guiding the latch 4 to enter the latch hole 311, and the gear guide plate 73 can rotate relative to the pin shaft inner shaft sleeve 71, so that the phenomenon that the latch 4 enters the latch hole 311 and is blocked by the gear guide plate 73 cannot occur.

Preferably, the vertical electroplating conveying device further comprises a guide mechanism 8, wherein the guide mechanism 8 comprises an upper guide wheel 81 and a track 82, the upper guide wheel 81 is arranged on the outer side surface of the chain plate 31, the track 82 is erected on the outer side of the conveyor belt 3, and the track 82 is matched with the upper guide wheel 81. The track 82 is a track square tube, the top end part of the track square tube is provided with an upper guide plate 821, the upper guide wheel 81 moves along the upper guide plate 821, and the track square tube is fixedly arranged on the bracket B; in addition, the guide mechanism 8 further comprises a lower guide block 83, the bottom end of the track square tube is provided with a lower guide plate 822, and the lower guide plate 822 is matched with the lower guide block 83 and moves along a guide groove on the lower guide block 83. The stable operation of the link plate 31 can be further ensured by the upper guide wheel 81 and the lower guide block 83.

Preferably, the vertical electroplating conveying device further comprises a conductive mechanism 9, the conductive mechanism 9 comprises two conductive copper plates 91 respectively located on the inner side and the outer side of the conveying belt 3, each conductive copper plate 91 is fixedly provided with a graphene conductive block 92, the two graphene conductive blocks 92 are connected through a spring 93, the outer side of the top end portion of the chain plate 31 is fixedly provided with a conductive copper slider 94, the conductive copper slider 94 penetrates through the space between the two graphene conductive blocks 92, the chain plate 31 is in contact with the graphene conductive blocks 92, the conductive copper plates 91 are used for being connected with a power supply, the conductive copper plates 91 transmit electricity to the graphene conductive blocks 92, and the graphene conductive blocks 92 transmit electricity to the conductive copper sliders 94 through friction with the conductive copper sliders 94. The conveying device with the conductive mechanism 9 can be used in the electroplating field, and a conductive clamp K for hanging an electroplating product is arranged at the bottom end part of the chain plate 31.

Further, ash receiving boxes 10 are fixedly arranged on the inner side and the outer side of the conductive copper plate 91 respectively, the ash receiving boxes 10 are used for collecting dust, and the driven chain wheel 2 is provided with a counterweight mechanism.

Through the technical scheme, the vertical chain plate conveying device provided by the embodiment of the invention can carry electroplated products to be conveyed, but also can convey other products, has the advantages of long conveying distance, stable conveying, low noise, capability of running at low speed and medium and high speed, no slipping or shaking, large load capacity and low maintenance cost, can adapt to various environments (such as high temperature, low temperature and severe environment), and is widely applied.

Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a conveyor is electroplated to rectilinear which characterized in that: including drive sprocket, driven sprocket and conveyer belt, conveyer belt perpendicular to horizontal plane, the conveyer belt includes a plurality of link joints that are polyphone through articulated mode, be provided with the support piece that is used for hanging the product of waiting to transmit on the link joint, drive sprocket and driven sprocket's outer fringe equipartition respectively has a plurality ofly to the latch, be provided with the card hole on the link joint, work as the link joint passes through during drive sprocket or driven sprocket, the latch card is gone into in the card hole so that the link joint is in drive sprocket or driven sprocket's rotation is down and rotates.

2. The vertical plating conveyor of claim 1, wherein: the outer fringe on drive sprocket and the driven sprocket be equipped with respectively with the same a plurality of hypotenuses of latch logarithm, adjacent two the intersection of hypotenuse sets up a pair of the latch, when the latch card is gone into when the jack-hole, the link joint with drive sprocket or driven sprocket's hypotenuse is laminated mutually.

3. The vertical plating conveyor of claim 2, wherein: the two sides of each chain plate are sequentially provided with a plurality of cylindrical bodies, the cylindrical bodies on two adjacent chain plates are arranged in a staggered mode and spliced into a hinge sleeve, a hinge pin shaft is arranged in each hinge sleeve, and the two chain plates are hinged through the cooperation of the hinge sleeves and the hinge pin shafts.

4. The vertical plating conveyor according to claim 3, wherein: at least one notch is further formed in each of two sides of each chain plate, and the notches in two adjacent chain plates are correspondingly spliced one by one to form the clamping holes.

5. The vertical plating conveyor according to claim 4, wherein: the driving chain wheel and the driven chain wheel comprise two wheel plates arranged at intervals and a straight cylinder connected with the two wheel plates, the two wheel plates are respectively provided with a clamping tooth, and the chain plate is correspondingly provided with two clamping holes.

6. The vertical plating conveyor according to claim 3, wherein: the hinged pin shaft is sleeved with a roller structure, and the latch enters the latch hole and is clamped on two sides of the roller structure.

7. The vertical plating conveyor according to claim 6, wherein: the roller structure comprises a pin shaft inner shaft sleeve sleeved on the hinge pin shaft and a roller barrel sleeved on the pin shaft inner shaft sleeve, and the pin shaft inner shaft sleeve and the roller are located in the clamping hole.

8. The vertical plating conveyor of claim 7, wherein: two gear guide plates are sleeved on the inner shaft sleeve of the pin shaft and are positioned in the clamping holes and clamp the roller between the two gear guide plates.

9. The vertical plating conveyor of claim 1, wherein: the chain plate conveying device further comprises a guide mechanism, wherein the guide mechanism comprises guide wheels and a track, the guide wheels are arranged on the chain plates, the track is erected on the outer side of the conveying belt, and the guide wheels are matched with the track and run on the track.

10. The vertical plating conveyor of claim 1, wherein: this conveyor is electroplated to rectilinear still includes electrically conductive mechanism, electrically conductive mechanism is including being located the inboard two electrically conductive copper plates in the conveyer belt and the outside respectively, every electrically conductive copper plate sets firmly a graphite alkene conducting block, two pass through spring coupling between the graphite alkene conducting block, the top portion outside of link joint sets firmly an electrically conductive copper slider, electrically conductive copper slider follows two pass between the graphite alkene conducting block, just the link joint with the contact of graphite alkene conducting block.