CN113899216A - Sintering device of high-performance ceramic substrate - Google Patents

Abstract

The invention discloses a sintering device of a high-performance ceramic substrate, which relates to the technical field of ceramic substrate processing and comprises a conveying mechanism, a sintering box and a goods shelf, wherein the sintering box is arranged in the middle of the top of the conveying mechanism, and the goods shelf is matched with the outer sides of an input end and an output end of the conveying mechanism. The invention utilizes the function of the bidirectional air pump and is matched with the first communicating pipe, the transition box and the second communicating pipe to ensure that the suction nozzles at the two ends of the connecting plate work alternately, and then utilizes the function of the horizontal transmission mechanism to move the ceramic substrate placed in the carrier mechanism from the goods shelf to the conveying mechanism and simultaneously move the fired ceramic substrate and the output end of the conveying mechanism to the other goods shelf, thus completing automatic feeding and discharging, greatly improving the working efficiency, avoiding the long-term high-temperature influence of operators, and putting an end to the direct contact of the operators and the fired ceramic substrate, further reducing the scalding probability of the operators and reducing the potential safety hazard.

Description

Sintering device of high-performance ceramic substrate

Technical Field

The invention relates to the technical field of ceramic substrate processing, in particular to a sintering device of a high-performance ceramic substrate.

Background

The ceramic substrate refers to a special process plate in which copper foil is directly bonded to the surface (single face or double faces) of a ceramic substrate at high temperature, the ceramic substrate is composed of an alumina substrate, a mullite substrate, an aluminum nitride substrate, a silicon carbide substrate and a beryllium oxide substrate, the manufactured ultrathin composite substrate has excellent electrical insulation performance, high heat conduction characteristic, excellent solderability and high adhesion strength, can be etched into various patterns like a PCB (printed circuit board), and has very high current carrying capacity, and the manufacturing process of the existing alumina substrate comprises the following steps: production of alumina ceramic raw materials, alumina ceramic molding, alumina ceramic metallization and finished products, wherein a sintering device is needed to be used for sintering;

in the existing ceramic base firing process, a ceramic substrate is often placed on a conveyor manually and conveyed to a sintering furnace for firing, and then the ceramic substrate is unloaded manually, so that time and labor are wasted, and the sight of an operator is influenced during loading and unloading due to overhigh temperature during sintering, the ceramic substrate is not placed orderly, so that the firing quantity is reduced, and further the efficiency is influenced; and an operator can be scalded due to the direct contact with the fired ceramic substrate, so that the ceramic substrate has great potential safety hazard.

Disclosure of Invention

Based on the above, the invention aims to provide a sintering device for a high-performance ceramic substrate, which solves the technical problems that the feeding and discharging mode in the prior art wastes time and labor, the sight line of an operator is influenced due to overhigh temperature during sintering, the operation of the operator is further influenced, the production efficiency is reduced, the operator is scalded, and the potential safety hazard is high.

In order to achieve the purpose, the invention provides the following technical scheme: a sintering device of a high-performance ceramic substrate comprises a conveying mechanism, a sintering box and a goods shelf, wherein the sintering box is arranged in the middle of the top of the conveying mechanism, the goods shelf is matched with the outer sides of an input end and an output end of the conveying mechanism, a fixing frame is matched with the outer sides of the input end and the output end of the conveying mechanism, a horizontal transmission mechanism is arranged at the top of the fixing frame, the fixing frame is provided with a connecting plate through the horizontal transmission mechanism, air cylinders are arranged at two ends of the connecting plate, the output end of each air cylinder is provided with a clamping mechanism matched with the connecting plate, a plurality of groups of carrier mechanisms are arranged at the top of the goods shelf, and the clamping mechanisms are matched with the carrier mechanisms;

fixture includes the air pump, the output and the input of air pump communicate respectively has first communicating pipe, the end of first communicating pipe all communicates there is the transition case, the output of cylinder all is provided with the suction nozzle, and all communicates between suction nozzle and the transition case has second communicating pipe.

By adopting the technical scheme, utilize the effect of two-way air pump, and cooperate first communicating pipe, transition case and second communicating pipe, make the suction nozzle at connecting plate both ends work in turn, reuse horizontal drive mechanism's effect, the ceramic substrate that will place in carrier mechanism moves to conveying mechanism from the goods frame, thereby and simultaneously will fire the ceramic substrate of accomplishing and move to another group goods frame on conveying mechanism's output, can accomplish automatic unloading and feeding like this, greatly improve work efficiency, avoid operating personnel to suffer high temperature for a long time and influence, and stopped operating personnel and the ceramic substrate direct contact who fires the completion, and then reduce operating personnel and scalded the probability, reduce the potential safety hazard.

The invention is further arranged in that the horizontal transmission mechanism comprises a motor, a gear shaft is arranged at the output end of the motor, a first rack and a second rack are respectively arranged on the outer sides of the gear shaft, connecting blocks are respectively arranged on the outer sides of the first rack and the second rack, and the first rack and the second rack are respectively connected with a connecting plate through the connecting blocks.

Through adopting above-mentioned technical scheme, utilize the effect of first rack and second rack, the cooperation gear shaft for two sets of connecting plates do opposite movement, the work of being convenient for.

The invention is further arranged that the horizontal transmission mechanism also comprises a first connecting slide block, the tops of the first rack and the second rack are both provided with the first connecting slide block, and the matching part of the fixed frame and the first connecting slide block is provided with a corresponding sliding chute.

Through adopting above-mentioned technical scheme, utilize the effect of first connecting slider, be convenient for effectively fix first rack and second rack, and carry on spacingly, avoid first rack and second rack to produce in the operation and rock, improve the stability of operation.

The invention is further arranged that the carrier mechanism comprises a carrier, wherein bosses matched with the suction nozzles are arranged on two sides of the top of the carrier.

Through adopting above-mentioned technical scheme, utilize the carrier to carry out placing to ceramic substrate, utilize the effect of boss, be convenient for cooperate the work of being convenient for with the suction nozzle.

The invention is further arranged that the carrier mechanism further comprises supporting columns and a counter sink, wherein the four corners of the top of the carrier are provided with the counter sink, and the four corners of the bottom of the carrier are provided with the supporting columns matched with the counter sink.

Through adopting above-mentioned technical scheme, utilize the effect of support column and counter sink, be convenient for more stable when piling up carrier mechanism, be difficult for rocking to job stabilization nature.

The invention is further arranged in that the goods shelf comprises a lifting mechanism and a carrier platform, and the output end of the lifting mechanism is provided with the carrier platform matched with the carrier mechanism.

Through adopting above-mentioned technical scheme, utilize elevating system's effect for carrier mechanism adjusts along with how much of carrier mechanism, remains throughout to place carrier mechanism and presss from both sides when getting carrier mechanism, is located the horizontal plane, and then improves work efficiency.

The invention is further provided that the top of the connecting plate is provided with a second connecting slide block matched with the fixed frame.

Through adopting above-mentioned technical scheme, improve the stability of connecting plate when the operation.

The invention is further arranged that the conveying mechanism and the sintering box are both in U-shaped design, and the bottoms of the fixed frame and the goods shelf are both provided with movable fixed wheels.

Through adopting above-mentioned technical scheme, utilize U type design, be convenient for make output and input lie in same one side, be convenient for make produce the contact between the unloading, improve work efficiency, utilize the effect of the removal tight pulley of mount and goods shelf bottom, remove it to with conveying mechanism cooperation department, be convenient for work.

In summary, the invention mainly has the following beneficial effects: the ceramic substrate feeding and discharging device is provided with the horizontal transmission mechanism, the clamping mechanism and the like, when in use, the suction nozzles at the two ends of the connecting plate work alternately under the action of the two-way air pump and the cooperation of the first communicating pipe, the transition box and the second communicating pipe, and the ceramic substrates placed in the carrier mechanism are moved to the conveying mechanism from the goods shelf and are simultaneously moved to the other goods shelf by the output end of the conveying mechanism, so that automatic feeding and discharging can be completed, the working efficiency is greatly improved, the long-term high-temperature influence on operators is avoided, the direct contact between the operators and the fired ceramic substrates is avoided, the scalding probability of the operators is reduced, and the potential safety hazard is reduced.

Drawings

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

FIG. 2 is a schematic view of a first perspective structure of the present invention;

FIG. 3 is a schematic view of another embodiment of the present invention;

FIG. 4 is an enlarged view of the invention at A in FIG. 3;

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

fig. 6 is a schematic structural diagram of a carrier mechanism and a cargo rack of the present invention.

In the figure: 1. a conveying mechanism; 2. sintering and roasting the box; 3. a fixed mount; 4. a horizontal transmission mechanism; 401. a motor; 402. a gear shaft; 403. a first rack; 404. connecting blocks; 405. a first connecting slider; 406. a second rack; 5. a clamping mechanism; 501. a bidirectional air pump; 502. a first communication pipe; 503. a transition box; 504. a second communicating pipe; 505. a suction nozzle; 6. a cylinder; 7. a carrier mechanism; 701. a carrier; 702. a boss; 703. a support pillar; 704. a countersunk hole; 8. a cargo rack; 801. a lifting mechanism; 802. a carrier platform; 9. a second connecting slider; 10. a connecting plate.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

The following describes an embodiment of the present invention based on its overall structure.

A sintering device for high-performance ceramic substrates is disclosed, as shown in FIGS. 1-6, and comprises a conveying mechanism 1, a sintering box 2 and a goods shelf 8, wherein the sintering box 2 is arranged in the middle of the top of the conveying mechanism 1, the ceramic substrates are sintered by using the sintering box 2, the goods shelf 8 is matched with the outer sides of the input end and the output end of the conveying mechanism 1, a fixed frame 3 is matched with the outer sides of the input end and the output end of the conveying mechanism 1, a horizontal transmission mechanism 4 is arranged at the top of the fixed frame 3, the fixed frame 3 is provided with a connecting plate 10 through the horizontal transmission mechanism 4, two ends of the connecting plate 10 are provided with air cylinders 6, the output end of each air cylinder 6 is provided with a clamping mechanism 5 matched with the connecting plate 10, the top of the goods shelf 8 is placed and matched with a plurality of carrier mechanisms 7, and the clamping mechanisms 5 and the carrier mechanisms 7 are mutually matched;

the clamping mechanism 5 comprises an air pump 501, the output end and the input end of the air pump 501 are respectively communicated with a first communicating pipe 502, the tail end of the first communicating pipe 502 is communicated with a transition box 503, the output end of the air cylinder 6 is provided with a suction nozzle 505, and a second communicating pipe 504 is communicated between the suction nozzle 505 and the transition box 503, the suction nozzles 505 at the two ends of the connecting plate 10 work alternately by using the function of the two-way air pump 501 and matching with the first communicating pipe 502, the transition box 503 and the second communicating pipe 504, then the ceramic substrate placed in the carrier mechanism 7 is moved to the conveying mechanism 1 from the goods shelf 8 by using the function of the horizontal transmission mechanism 4, and the ceramic substrate finished by firing and the output end of the conveying mechanism 1 are moved to the other goods shelf 8, thus the automatic loading and unloading can be finished, the working efficiency is greatly improved, the influence of the operator due to high temperature for a long time is avoided, and the direct contact between the operator and the ceramic substrate finished by firing is avoided, thereby reducing the scalding probability of the operators and reducing the potential safety hazard.

Referring to fig. 4 and 5, the horizontal transmission mechanism 4 includes a motor 401, a gear shaft 402 is disposed at an output end of the motor 401, a first rack 403 and a second rack 406 are disposed at outer sides of the gear shaft 402, connecting blocks 404 are disposed at outer sides of the first rack 403 and the second rack 406, and the first rack 403 and the second rack 406 are connected to the connecting plates 10 through the connecting blocks 404, so that the two groups of connecting plates 10 move oppositely by using the action of the first rack 403 and the second rack 406 in cooperation with the gear shaft 402, thereby facilitating work.

Referring to fig. 4 and 5, the horizontal transmission mechanism 4 further includes a first connecting slider 405, the top of the first rack 403 and the top of the second rack 406 are both provided with the first connecting slider 405, and the matching portion of the fixing frame 3 and the first connecting slider 405 is provided with a corresponding sliding slot, so that the first connecting slider 405 can effectively fix the first rack 403 and the second rack 406 and limit the position of the first rack 403 and the second rack 406, thereby preventing the first rack 403 and the second rack 406 from shaking during operation and improving the stability of operation.

Referring to fig. 6, the carrier mechanism 7 includes a carrier 701, two sides of the top of the carrier 701 are provided with bosses 702 that are matched with the suction nozzles 505, and the ceramic substrate is placed by the carrier 701, so that the ceramic substrate is conveniently matched with the suction nozzles 505 by the bosses 702, and the work is facilitated.

Referring to fig. 6, the carrier mechanism 7 further includes supporting pillars 703 and counter bores 704, the top four corners of the carrier 701 are all provided with the counter bores 704, and the bottom four corners of the carrier 701 are all provided with the supporting pillars 703 matching with the counter bores 704, so that the carrier mechanism 7 is more stable and less prone to shake by the action of the supporting pillars 703 and the counter bores 704, thereby achieving working stability.

Referring to fig. 6, the cargo rack 8 includes a lifting mechanism 801 and a carrier platform 802, the carrier platform 802 is disposed at the output end of the lifting mechanism 801 and is matched with the carrier mechanism 7, the carrier mechanism 7 is adjusted according to the number of the carrier mechanisms by the action of the lifting mechanism 801, and is always located on the horizontal plane when the carrier mechanism 7 is placed and the carrier mechanism 7 is gripped, thereby improving the working efficiency.

Referring to fig. 1 and 3, a second connecting slider 9 is disposed on the top of the connecting plate 10 and is engaged with the fixing frame 3, so as to improve the stability of the connecting plate 10 during operation.

Referring to fig. 1, the conveying mechanism 1 and the sintering box 2 are both U-shaped, so that the output end and the input end are located on the same side by the U-shaped design, so that the connection between the feeding and discharging is facilitated, and the working efficiency is improved, and the movable fixed wheels are arranged at the bottoms of the fixed frame 3 and the goods shelf 8, and are moved to the position matched with the conveying mechanism 1 by the action of the movable fixed wheels at the bottoms of the fixed frame 3 and the goods shelf 8, so that the work is facilitated.

The working principle of the invention is as follows: before use, the fixed frame 3 and the movable fixed wheels at the bottoms of the goods shelves 8 are moved to the position matched with the conveying mechanism 1, the goods shelves 8 at the input end of the conveying mechanism 1 are provided with a plurality of groups of carrier mechanisms 7, and the goods shelves 8 at the output end of the conveying mechanism 1 are not provided with the carrier mechanisms 7;

when the device is used, the device is started, the carrier mechanism 7 is sucked and moved to the conveying mechanism 1 by the aid of the horizontal transmission mechanism 4, the clamping mechanism 5 and the air cylinder 6 on the fixing frame 3, the carrier mechanism is conveyed to the sintering box 2 by the aid of the conveying mechanism 1, the ceramic substrate is sintered by the aid of the sintering box 2, the ceramic substrate is output from an output end of the conveying mechanism 1 after being sintered, the sintered carrier mechanism 7 is sucked and moved to the goods shelf 8 by the aid of the clamping mechanism 5, and automatic loading and unloading are completed;

the specific working process of the automatic loading and unloading includes that the first two groups of connecting plates 10 respectively carry two corresponding groups of air cylinders 6 which are respectively positioned at the top of the conveying mechanism 1 and the top of the goods shelf 8, then the motor 401 is utilized to drive the gear shaft 402 to rotate, so that the moving directions of the first rack 403 and the second rack 406 in the fixed frame 3 are opposite, namely, after the connecting plate 10 positioned at the top of the conveying mechanism 1 moves to the upper part of the goods shelf 8, the air cylinders 6 are started to drive the corresponding suction nozzles 505 to move to the upper part of the carrier mechanisms 7 and to be matched with the bosses 702, then the bidirectional air pump 501 is started to discharge air in the suction nozzles 505 close to the output end of the conveying mechanism 1, so that the transition box 503 forms vacuum, the carrier mechanisms 7 are sucked, meanwhile, the discharged air is discharged into the other group of suction nozzles 505 by the bidirectional air pump 501, the corresponding carrier mechanisms 7 are released and are placed on the goods shelf 8, meanwhile, the connecting plate 10 initially positioned at the top of the goods shelf 8 moves the carrier mechanism 7 to the upper part of the conveying mechanism 1, then the carrier mechanism 7 at the conveying end is put down, the carrier mechanism 7 at the output end is sucked, namely, the connecting plate is moved to a safe position under the action of the corresponding air cylinder 6, then the motor 401 is started, the two groups of connecting plates 10 are moved to the original position, then the air cylinder 6 is started to move the corresponding carrier mechanism 7 to the corresponding position, and then the corresponding bidirectional air pump 501 is started to put down the corresponding carrier mechanism 7, so that the automatic loading and unloading are realized;

in the process, the PLC control system is used for controlling the transmission speed of the conveying mechanism 1, so that when the carrier mechanism 7 is put down by the clamping mechanism 5, the clamping mechanism 5 at the other end just sucks the carrier mechanism 7, and when the material is loaded and unloaded, the carrier mechanism 7 is adjusted according to the number of the carrier mechanisms by the aid of the lifting mechanism 801, the carrier mechanism 7 is always kept to be positioned on a horizontal plane when the carrier mechanism 7 is placed and clamped, and accordingly working efficiency is improved.

Although embodiments of the present invention have been shown and described, it is intended that the present invention should not be limited thereto, that the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples, and that modifications, substitutions, variations or the like, which are not inventive and may be made by those skilled in the art without departing from the principle and spirit of the present invention and without departing from the scope of the claims.

Claims (8)

1. The utility model provides a sintering device of high performance ceramic substrate, includes conveying mechanism (1), sintering case (2) and goods frame (8), the department in the middle of the top of conveying mechanism (1) is set up in sintering case (2), and the input of conveying mechanism (1) and the output outside all cooperate goods frame (8), its characterized in that: the conveying mechanism comprises a conveying mechanism (1), wherein a fixing frame (3) is matched with the outer sides of an input end and an output end of the conveying mechanism (1), a horizontal transmission mechanism (4) is arranged at the top of the fixing frame (3), a connecting plate (10) is arranged on the fixing frame (3) through the horizontal transmission mechanism (4), air cylinders (6) are arranged at two ends of the connecting plate (10), a clamping mechanism (5) matched with the connecting plate (10) is arranged at the output end of each air cylinder (6), a plurality of groups of carrier mechanisms (7) are arranged at the top of a goods frame (8), and the clamping mechanisms (5) are matched with the carrier mechanisms (7);

fixture (5) are including two-way air pump (501), the output and the input of two-way air pump (501) communicate respectively and have first communicating pipe (502), the end of first communicating pipe (502) all communicates transition case (503), the output of cylinder (6) all is provided with suction nozzle (505), and all communicates second communicating pipe (504) between suction nozzle (505) and transition case (503).

2. The sintering apparatus for high performance ceramic substrate as claimed in claim 1, wherein: the horizontal transmission mechanism (4) comprises a motor (401), a gear shaft (402) is arranged at the output end of the motor (401), a first rack (403) and a second rack (406) are respectively arranged on the outer sides of the gear shaft (402), connecting blocks (404) are respectively arranged on the outer sides of the first rack (403) and the second rack (406), and the first rack (403) and the second rack (406) are respectively connected with a connecting plate (10) through the connecting blocks (404).

3. The sintering apparatus for high performance ceramic substrate as claimed in claim 2, wherein: the horizontal transmission mechanism (4) further comprises a first connecting sliding block (405), the tops of the first rack (403) and the second rack (406) are provided with the first connecting sliding block (405), and the matching position of the fixing frame (3) and the first connecting sliding block (405) is provided with a corresponding sliding groove.

4. The sintering apparatus for high performance ceramic substrate as claimed in claim 1, wherein: the carrier mechanism (7) comprises a carrier (701), wherein bosses (702) matched with the suction nozzles (505) are arranged on two sides of the top of the carrier (701).

5. The sintering apparatus for high performance ceramic substrate as claimed in claim 4, wherein: the carrier mechanism (7) further comprises supporting columns (703) and counter bores (704), the top four corners of the carrier (701) are provided with the counter bores (704), and the bottom four corners of the carrier (701) are provided with the supporting columns (703) matched with the counter bores (704).

6. The sintering apparatus for high performance ceramic substrate as claimed in claim 1, wherein: the goods shelf (8) comprises a lifting mechanism (801) and a carrier platform (802), wherein the carrier platform (802) matched with the carrier mechanism (7) is arranged at the output end of the lifting mechanism (801).

7. The sintering apparatus for high performance ceramic substrate as claimed in claim 1, wherein: and a second connecting slide block (9) matched with the fixed frame (3) is arranged at the top of the connecting plate (10).

8. The sintering apparatus for high performance ceramic substrate as claimed in claim 1, wherein: conveying mechanism (1) and knot case (2) all are the design of U type, and the bottom of mount (3), goods frame (8) all is provided with the removal tight pulley.

Images