CN210884279U - Ceramic base strip stacking mechanism - Google Patents
Ceramic base strip stacking mechanism Download PDFInfo
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- CN210884279U CN210884279U CN201921701219.9U CN201921701219U CN210884279U CN 210884279 U CN210884279 U CN 210884279U CN 201921701219 U CN201921701219 U CN 201921701219U CN 210884279 U CN210884279 U CN 210884279U
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Abstract
The utility model discloses a ceramic base strip stacking mechanism, which comprises a base, an accelerating component and a jig positioning component; the accelerating assembly comprises a driving motor and an accelerating rod which are arranged on the base, and the accelerating rod is connected to the free end of the driving motor; tool locating component is including piling up support, location driving source and locating pawl, it sets up on the base to pile up the support, it is provided with the trench that is used for placing the tool to pile up to follow direction of delivery on the support, the location driving source sets up on piling up the support, the locating pawl sets up the free end at the location driving source, and is located the top of trench, be provided with the separation blade on the locating pawl, the separation blade inserts and is located the tool mouth at rear and the top of tool material mouth along direction of delivery. The ceramic base strip can be rapidly and accurately stacked, and the ceramic base strip can be prevented from being damaged.
Description
Technical Field
The utility model relates to a stacking mechanism, concretely relates to pottery base strip stacking mechanism.
Background
During the production of ceramic substrate, the ceramic substrate is usually processed on a ceramic substrate to form a large number of regularly arranged ceramic substrate, and then the ceramic substrate is broken into strip-shaped ceramic substrate strips, and finally the ceramic substrate strips are broken into a particle of electrodes. After the ceramic substrate is broken into the ceramic base strip, the ceramic substrate needs to be filled into the jig to facilitate subsequent processes (see fig. 5, the jig 101 is internally used for containing the ceramic base strip, a jig material port 104 is formed at the top of the jig, the inner bottom is slidably provided with a lifting block 103 for ejecting the ceramic base strip, a lifting port 102 is formed in the jig 101 at the bottom of the lifting block 103, and the ceramic base strip is stacked above the lifting block 103). Generally, when stacking, ceramic base strips are put into a jig one by one through a manual operation, a sucking disc or a manipulator, and the efficiency is extremely low.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide a pottery base strip stacking mechanism, its can be quick, accurate pile up pottery base strip, and can avoid damaging pottery base strip.
In order to solve the technical problem, the utility model provides a ceramic base strip stacking mechanism, which comprises a base, an accelerating component and a jig positioning component; the accelerating assembly comprises a driving motor and an accelerating rod which are arranged on the base, and the accelerating rod is connected to the free end of the driving motor; tool locating component is including piling up support, location driving source and locating pawl, it sets up on the base to pile up the support, it is provided with the trench that is used for placing the tool to pile up to follow direction of delivery on the support, the location driving source sets up on piling up the support, the locating pawl sets up the free end at the location driving source, and is located the top of trench, be provided with the separation blade on the locating pawl, the separation blade inserts and is located the tool mouth at rear and the top of tool material mouth along direction of delivery.
Preferably, the number of the groove positions is at least two, a group of positioning driving source and a positioning claw are arranged on each stacking support above the groove positions, the stacking supports are arranged on the base in a sliding mode, the sliding direction of the stacking supports is perpendicular to the conveying direction, the base is provided with the transposition driving source, and the stacking supports are connected to the free ends of the transposition driving sources.
Preferably, the stacking support is provided with a longitudinal support, the longitudinal support is provided with a plug, and the plug is inserted into the other jig material port of the jig.
Preferably, a lifting assembly is included, which comprises a plug which is free on a face perpendicular to the conveying direction, the plug being arranged on the base.
Preferably, the lifting assembly comprises an insertion driving source, an insertion bracket, a lifting driving source and a lifting bracket, wherein the insertion driving source is arranged on the base, the insertion bracket is arranged on one side of the stacking bracket in a sliding mode, the lifting driving source is arranged on the insertion bracket, the lifting bracket is arranged at the free end of the lifting driving source, and the plug is long and is arranged on the lifting bracket.
Preferably, including being used for holding the tool and pushing or pulling out the upper and lower tool unit of trench with the tool, upper and lower tool unit sets up on the base.
Preferably, the upper and lower jig units include jig components for holding a plurality of jigs and jig components for transferring the jigs into or out of the groove.
Preferably, hold the tool subassembly and include tool support, tool driving source, tool platform and wait the trench, the tool support sets up on the base, the tool driving source sets up on the tool support, the tool platform slides and sets up at the top of tool support, the free end of tool platform and tool driving source is connected, be provided with a plurality of waiting trenches that are used for holding the tool on the tool platform, wait that the height of trench is not less than the height of trench.
Preferably, the transfer jig assembly comprises a movable support, a movable driving source, a gear, a rack and a clamping jaw, the movable support is arranged on the base, the movable driving source is arranged on the movable support, the gear is arranged at the free end of the movable driving source, the rack is arranged on the movable support in a sliding mode, the rack is meshed with the gear, the clamping jaw is arranged at the free end of the rack, and the clamping jaw and the groove are collinear in the conveying direction.
Preferably, the stacking support is provided with a guard plate, and the guard plate is provided with an access for the jig and the clamping jaw to enter and exit.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses a setting is subassembly with higher speed, can make ceramic base strip reach higher speed of ejaculating, reduces the difference in height at ceramic base strip both ends when dropping, improves the success rate that ceramic base strip got into the tool.
2. The utility model discloses a set up locating component, can stabilize the position of tool, make the accurate tool that drops of pottery base strip, avoid the impact of pottery base strip to cause the influence to the position simultaneously; through set up the separation blade on the locating pawl, can intercept ceramic base strip, make the position that drops of ceramic base strip more accurate, in addition, the most impact force of ceramic base strip can be used in on the separation blade, avoids the tool to shift.
3. The utility model discloses a setting up the trench parallel with direction of delivery, making ceramic base strip be being acted on the tip of ceramic base strip by the main effect of stopping, and along the direction of ceramic base strip, avoid ceramic base strip because of striking rupture.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
FIG. 1 is a schematic top view of a stacking mechanism;
FIG. 2 is a schematic structural view of a stacking mechanism;
FIG. 3 is an enlarged view of part A;
FIG. 4 is a left side schematic view of the stacking unit;
fig. 5 is a schematic structural view of the jig.
The device comprises a base 1, a jig 101, a jig 102, a lifting port 103, a lifting block 104, a jig material port 321, a driving motor 400, an acceleration rod 410, a transposition driving source 411, a stacking support 412, a protective plate 413, an inlet and an outlet 414, a positioning driving source 415, a positioning claw 416, a longitudinal support 417, a plug 417, an insertion driving source 420, an insertion support 421, an insertion support 422, a lifting driving source 423, a lifting support 424, a plug 430, a jig support 431, a jig driving source 432, a jig platform 433, a waiting slot, a moving support 440, a moving driving source 441, a gear 442, a rack 443 and a clamping jaw 444.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by a person skilled in the art without any inventive work based on the embodiments of the present invention belong to the protection scope of the present invention.
Examples
Referring to fig. 1-5, the utility model discloses a ceramic base strip stacking mechanism, including base 1, the unit of piling up and upper and lower tool unit.
A stacking unit:
the stacking unit comprises an entrance accelerating assembly, a jig positioning assembly and a lifting assembly.
The entry accelerating assembly includes a driving motor 321 and an accelerating rod 400 both provided on the base 1. The acceleration bar 400 is connected to the free end of the driving motor 321. The acceleration bar 400 is continued at the end of the previous conveying section. The accelerator bar 400 has a relatively high rotational speed which enables the ceramic substrate strip to be ejected at a relatively high initial velocity.
The jig positioning assembly includes a stacking bracket 411, a positioning driving source 414, and a positioning claw 415.
The above-mentioned stack holder 411 is provided at the base 1. The stacking support 411 is provided with a slot for placing the jig 101 along the conveying direction. The stack holder 411 is provided with a positioning drive source 414. A positioning pawl 415 is provided at a free end of the positioning drive source 414. The positioning pawl 415 is located above the slot. The positioning claw 415 can fix the position of the jig 101. The positioning claw 415 is provided with a stopper. The blocking piece is inserted into the tool material port 104 positioned at the rear side along the conveying direction and above the tool material port 104. The blocking piece is used for blocking the emitted ceramic base strip so that the ceramic base strip falls into the jig 101.
As a further improvement of the present invention, the stacking support 411 is slidably disposed on the base 1, and the sliding direction thereof is perpendicular to the conveying direction. The slot has at least two slots. A set of positioning drive source 414 and positioning pawl 415 are provided on the stack holder 411 above each slot. The bottom of the base 1 is provided with a shift driving source 410. The stack holder 411 is attached to the free end of the index drive source 410. It can be when piling up in tool 101 fully, fast switch to empty tool 101, improves production efficiency.
As a further improvement of the present invention, a longitudinal support 416 is disposed on the stacking support 411. The longitudinal support 416 is provided with a plug 417. The plug 417 is inserted into the other tool port 104 of the tool 101. The plug 417 can guide the position of the jig 101, and can make the two ends of the ceramic base strip uniformly stressed, thereby improving the success rate of the ceramic base strip entering the jig 101.
As a further improvement of the present invention, a guard plate 412 is disposed on the stacking bracket 411. The guard plate 412 is located on the left side of the stack holder 411. The guard 412 is provided with an inlet 413 through which the jig 101 and the holding jaw 444 are inserted.
The lifting assembly includes an insertion driving source 420, an insertion bracket 421, a lifting driving source 422, a lifting bracket 423, and a plug 424. The insertion driving source 420 is provided on the base 1. The insert holder 421 is slidably provided at one side of the stack holder 411. The elevating driving source 422 is provided on the insertion bracket 421. The elevating bracket 423 is provided at a free end of the elevating driving source 422. The plug 424 is elongated and is disposed on the lifting bracket 423. The insertion driving source 420 can drive the plug 424 to be inserted into or separated from the lifting port 102, and the up and down of the jig 101 are not influenced; the lifting driving source 422 can drive the plug 424 to lift, and when the ceramic base strip is stacked, the lifting block 103 is located at the highest point, so that the falling height of the ceramic base strip is reduced, and damage is avoided.
An upper and lower jig unit:
the upper and lower jig units comprise a holding jig component and a transferring jig component.
The jig assembly includes a jig support 430, a jig driving source 431, a jig platform 432, and a waiting slot 433. The jig support 430 is provided on the base 1. The jig driving source 431 is provided on the jig bracket 430. The jig platform 432 is slidably disposed on the top of the jig support 430. The jig stage 432 is connected to the free end of the jig drive source 431. The jig platform 432 is provided with a plurality of waiting groove positions 433 for holding the jigs 101. The height of the waiting slot 101 is not less than the height of the slot.
The transfer jig assembly includes a transfer bracket 440, a transfer driving source 441, a gear 442, a rack 443, and a jaw 444. The moving bracket 440 is provided on the base 1. The moving drive source 441 is provided on the moving bracket 440. The gear 442 is provided at a free end of the movement driving source 441. The rack 443 is slidably disposed on the moving bracket 440. The rack 443 is meshed with the gear 442. The jaws 444 are disposed at the free end of the rack 443. The jaws 444 and slot are collinear in the conveying direction. The moving drive source 441 can drive the gripping claw 444 to advance or retreat to push the jig 101 from the waiting slot 433 into the slot.
The working principle is as follows:
the ceramic base strip is ejected at a high speed when it reaches the acceleration bar 400; after being ejected, the lens is stopped above the jig 101 by a baffle; the ceramic base strip falls freely and enters a jig 101; every time one ceramic base strip enters the jig 101, the plug 424 drives the lifting block 103 to descend one grid; after the jig 101 is full, the transposition driving source 410 moves the empty jig in the other slot position to the ejection position of the ceramic base strip for continuous loading; the clamping jaw 444 clamps the jig 101 filled with the materials, and the jig 101 is pulled into the waiting groove 433 from the groove position to finish the process of discharging the jig 101; then the jig driving source 431 moves another empty jig to the clamping jaw 444, and the clamping jaw 444 re-empties the jig to the groove 433.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. 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 (10)
1. A ceramic base strip stacking mechanism is characterized by comprising a base, an accelerating component and a jig positioning component;
the accelerating assembly comprises a driving motor and an accelerating rod which are arranged on the base, and the accelerating rod is connected to the free end of the driving motor;
tool locating component is including piling up support, location driving source and locating pawl, it sets up on the base to pile up the support, it is provided with the trench that is used for placing the tool to pile up to follow direction of delivery on the support, the location driving source sets up on piling up the support, the locating pawl sets up the free end at the location driving source, and is located the top of trench, be provided with the separation blade on the locating pawl, the separation blade inserts and is located the tool mouth at rear and the top of tool material mouth along direction of delivery.
2. The ceramic substrate strip stacking mechanism as claimed in claim 1, wherein there are at least two slots, and a set of positioning driving source and positioning pawl is provided on the stacking support above each slot, the stacking support is slidably disposed on the base in a direction perpendicular to the conveying direction, and the base is provided with the indexing driving source, and the stacking support is connected to a free end of the indexing driving source.
3. The ceramic substrate strip stacking mechanism as claimed in claim 1, wherein the stacking bracket is provided with a longitudinal bracket, the longitudinal bracket is provided with a plug, and the plug is inserted into another jig material port of the jig.
4. The ceramic-based strip stacking mechanism of claim 1, comprising a lift assembly comprising a plug free on a face perpendicular to the conveying direction, the plug being disposed on a base.
5. The ceramic substrate strip stacking mechanism of claim 4, wherein the elevating assembly includes an insertion driving source provided on the base, an insertion holder slidably provided at one side of the stacking holder, an elevating driving source provided on the insertion holder, and an elevating holder provided at a free end of the elevating driving source, and the plug is formed in an elongated shape and provided on the elevating holder.
6. The ceramic substrate strip stacking mechanism of claim 1, comprising upper and lower jig units for holding jigs and pushing jigs into and out of the slots, the upper and lower jig units being disposed on the base.
7. The ceramic substrate stacking apparatus of claim 6, wherein the upper and lower jig units comprise a jig accommodating member for accommodating a plurality of jigs and a jig transferring member for pushing or pulling the jigs into or out of the slots.
8. The ceramic substrate stacking mechanism of claim 7, wherein the holding jig assembly comprises a jig support, a jig driving source, a jig platform and a waiting slot, the jig support is disposed on the base, the jig driving source is disposed on the jig support, the jig platform is slidably disposed on the top of the jig support, the jig platform is connected to a free end of the jig driving source, a plurality of waiting slots for holding jigs are disposed on the jig platform, and the height of the waiting slots is not less than the height of the slots.
9. The ceramic substrate strip stacking mechanism of claim 7, wherein the transfer jig assembly comprises a moving frame, a moving drive source, a gear, a rack and a jaw, the moving frame is disposed on the base, the moving drive source is disposed on the moving frame, the gear is disposed at a free end of the moving drive source, the rack is slidably disposed on the moving frame, the rack and the gear are engaged, the jaw is disposed at a free end of the rack, and the jaw and the slot are collinear in the conveying direction.
10. The ceramic substrate strip stacking mechanism as claimed in claim 7, wherein the stacking support is provided with a guard plate, and the guard plate is provided with an access opening for allowing the jig and the clamping jaw to enter and exit.
Priority Applications (1)
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CN201921701219.9U CN210884279U (en) | 2019-10-12 | 2019-10-12 | Ceramic base strip stacking mechanism |
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CN201921701219.9U CN210884279U (en) | 2019-10-12 | 2019-10-12 | Ceramic base strip stacking mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110587824A (en) * | 2019-10-12 | 2019-12-20 | 苏州鸣动智能设备有限公司 | Grain mechanism is rolled over to ceramic substrate |
CN110606376A (en) * | 2019-10-12 | 2019-12-24 | 苏州鸣动智能设备有限公司 | Ceramic base strip stacking mechanism |
-
2019
- 2019-10-12 CN CN201921701219.9U patent/CN210884279U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110587824A (en) * | 2019-10-12 | 2019-12-20 | 苏州鸣动智能设备有限公司 | Grain mechanism is rolled over to ceramic substrate |
CN110606376A (en) * | 2019-10-12 | 2019-12-24 | 苏州鸣动智能设备有限公司 | Ceramic base strip stacking mechanism |
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