CN217005357U - Discharge auxiliary mechanism of sintering furnace - Google Patents

Abstract

The utility model discloses a discharge auxiliary mechanism of a sintering furnace, which comprises two mounting plates, a mounting seat and a mounting frame, wherein the opposite side walls of the two mounting plates are fixedly connected with a cross beam together, two clamping plates are arranged in the mounting frame, a clamping mechanism for clamping materials is arranged in the mounting frame, the clamping mechanism comprises two electric push rods fixedly connected to the inner wall of the mounting frame, and the output ends of the electric push rods are fixedly connected with the side wall of one clamping plate through a cross rod. The ceramic substrate automatic unloading device is provided with the clamping mechanism, the transmission mechanism and the driving mechanism, automatic unloading of a row of ceramic substrates is realized through the cooperation of the electric push rod, the hydraulic cylinder and the driving motor, manual unloading is not needed, the manpower input is reduced, the automation degree of the device is improved, in addition, the non-slip mat is arranged, the ceramic substrates are prevented from being damaged by clamping, and the quality of the ceramic substrates after unloading is improved.

Description

Discharge auxiliary mechanism of sintering furnace

Technical Field

The utility model relates to the technical field of sintering furnaces, in particular to an auxiliary discharging mechanism of a sintering furnace.

Background

The ceramic substrate refers to a special process plate in which copper foil is directly bonded to the surface (single or double side) of an alumina (Al2O3) or aluminum nitride (AlN) ceramic substrate at a high temperature. The production process of the ceramic substrate comprises a sintering process, and a sintering furnace is required.

The sintering furnace for ceramic substrates comprises a conveying belt, ceramic substrates are placed on the conveying belt of the sintering furnace through the conveying belt, the ceramic substrates are conveyed into the sintering furnace through the conveying belt, two placing frames are arranged at the discharge port of the sintering furnace, one placing frame is used for stacking empty ceramic substrate collecting trays, the other placing frame is used for placing one collecting tray to be placed into the sintering furnace, gloves are generally arranged on two hands of a worker when the ceramic substrates are unloaded, the ceramic substrates on the conveying belt are placed into the empty collecting trays one by one, the labor and the time are wasted during manual unloading, two materials can be taken at one time, the unloading speed of the ceramic substrates is greatly reduced, the automation degree of the device is also reduced, and therefore the problem is solved by an unloading auxiliary mechanism of the sintering furnace.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a discharging auxiliary mechanism of a sintering furnace.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an auxiliary mechanism of unloading of fritting furnace, includes two mounting panels, mount pad and installing frame, two the common fixedly connected with crossbeam of lateral wall that the mounting panel is relative, be equipped with two splint in the installing frame, be equipped with the clamping mechanism who is used for pressing from both sides tight material in the installing frame, clamping mechanism includes two electric putter of fixed connection at the installing frame inner wall, the electric putter output passes through horizontal pole and one of them splint lateral wall fixed connection, another splint lateral wall and installing frame inner wall fixed connection, crossbeam upper end fixedly connected with driving motor, driving motor is connected with reciprocal lead screw through drive mechanism, driving motor's one end is kept away from to reciprocal lead screw runs through the mount pad, be connected with the installing frame through driving mechanism under the mount pad.

Preferably, drive mechanism includes the first driving pulley of fixed connection on reciprocal lead screw, driving motor's output shaft fixedly connected with pivot, the fixed cover in the pivot has connect the second driving pulley, first driving pulley passes through the belt and is connected with the transmission of second driving pulley.

Preferably, actuating mechanism includes the pneumatic cylinder of fixed connection at the mount pad lower extreme, pneumatic cylinder output fixedly connected with connecting rod, connecting rod lower extreme and installing frame upper end fixed connection.

Preferably, reciprocal lead screw both ends rotate with two mounting panel lateral walls respectively and are connected, the first radiation shield of mount pad lower extreme fixedly connected with, the connecting rod lower extreme runs through first radiation shield lower extreme.

Preferably, the sliding groove has been seted up to the crossbeam lower extreme, sliding connection has the sliding block in the sliding groove, the sliding block lower extreme and mount pad upper end fixed connection, the sliding block cross-section is the T shape.

Preferably, two second heat insulation sleeves are installed on the inner wall of the installation frame, the cross rod penetrates through the side walls of the adjacent second heat insulation sleeves, cold air pipes communicated with the inner portions of the first heat insulation sleeves and the second heat insulation sleeves are arranged on the first heat insulation sleeves and the second heat insulation sleeves, and anti-skid pads are arranged on the side walls of the clamping plates.

The utility model has the following beneficial effects:

1. the device is provided with the clamping mechanism, the transmission mechanism and the driving mechanism, the output end of the electric push rod extends to clamp a row of ceramic substrates, the hydraulic cylinder can change the height of the ceramic substrates, so that the ceramic substrates are far away from the conveyor belt and close to the collecting tray, the driving motor can move the ceramic substrates to the collecting tray, automatic unloading of the row of ceramic substrates is realized through the cooperation of the electric push rod, the hydraulic cylinder and the driving motor, manual unloading is not needed, the manpower input is reduced, and the automation degree of the device is improved;

2. this device has set up the slipmat, and two slipmats can protect ceramic substrate when pressing from both sides tight ceramic substrate both sides, avoid splint rigid clamp tight ceramic substrate lateral wall to avoid pressing from both sides and hinder ceramic substrate, and then improved the quality after ceramic substrate unloads.

Drawings

FIG. 1 is a schematic structural diagram of a discharge auxiliary mechanism of a sintering furnace according to the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

fig. 3 is an assembly view of a sliding block and a mounting seat of a discharge auxiliary mechanism of a sintering furnace according to the present invention.

In the figure: the device comprises a mounting plate 1, a cross beam 2, a driving motor 3, a reciprocating screw rod 4, a mounting seat 5, a sliding groove 6, a sliding block 7, a first heat insulation sleeve 8, a hydraulic cylinder 9, a connecting rod 10, a mounting frame 11, a clamping plate 12, a non-slip mat 13, a second heat insulation sleeve 14, a cold air pipe 15 and an electric push rod 16.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, an auxiliary mechanism of unloading of fritting furnace, includes two mounting panels 1, mount pad 5 and installing frame 11, the common fixedly connected with crossbeam 2 of the lateral wall that two mounting panels 1 are relative, is equipped with two splint 12 in the installing frame 11, and splint 12 lateral wall is equipped with slipmat 13, and slipmat 13 is made by rubber materials, can avoid the rigid tight ceramic substrate lateral wall that presss from both sides, avoids pressing from both sides the ceramic substrate that hinders.

Be equipped with the clamping mechanism who is used for pressing from both sides tight material in the installing frame 11, clamping mechanism includes two electric putter 16 of fixed connection at the 11 inner walls of installing frame, electric putter 16 output passes through horizontal pole and one of them splint 12 lateral wall fixed connection, another splint 12 lateral wall and the 11 inner wall fixed connection of installing frame, 2 upper ends fixedly connected with driving motor 3 of crossbeam, driving motor 3 is connected with reciprocal lead screw 4 through drive mechanism, the one end that driving motor 3 was kept away from to reciprocal lead screw 4 runs through mount pad 5, be connected with installing frame 11 through actuating mechanism under the mount pad 5.

Drive mechanism includes the first driving pulley of fixed connection on reciprocating screw 4, driving motor 3's output shaft fixedly connected with pivot, the fixed cover in the pivot has connect the second driving pulley, first driving pulley passes through the belt and is connected with the transmission of second driving pulley, set up the opening that the belt passed on the crossbeam, drive mechanism's setting makes driving motor 3 can install on crossbeam 2, avoid installing driving motor 3 at mounting panel 1 lateral wall, prevent that driving motor 3 from causing the influence to operating personnel walking in the fritting furnace both sides.

According to the utility model, the driving mechanism comprises a hydraulic cylinder 9 fixedly connected to the lower end of the mounting base 5, the output end of the hydraulic cylinder 9 is fixedly connected with a connecting rod 10, the lower end of the connecting rod 10 is fixedly connected with the upper end of the mounting frame 11, two ends of the reciprocating screw rod 4 are respectively rotatably connected with the side walls of the two mounting plates 1, the lower end of the mounting base 5 is fixedly connected with a first heat insulation sleeve 8, the lower end of the connecting rod 10 penetrates through the lower end of the first heat insulation sleeve 8, the first heat insulation sleeve 8 and the second heat insulation sleeve 4 are composed of a shell and heat insulation materials arranged on the surface of the shell, the heat insulation materials are the prior art, so that too much description is omitted, and the influence of high temperature of a discharge port of a sintering furnace on the normal work of the hydraulic cylinder 9 and the electric push rod 16 can be avoided.

According to the utility model, the lower end of the cross beam 2 is provided with the sliding groove 6, the sliding block 7 is connected in the sliding groove 6 in a sliding manner, the lower end of the sliding block 7 is fixedly connected with the upper end of the mounting seat 5, the section of the sliding block 7 is T-shaped, and as shown in figure 3, the inner wall of the sliding groove 6 can limit the sliding block 7, so that the sliding block 7 cannot rotate when the reciprocating lead screw 4 rotates, and the sliding block 7 can only horizontally move.

According to the utility model, two second heat insulation sleeves 14 are arranged on the inner wall of the mounting frame 11, the cross bar penetrates through the side walls of the adjacent second heat insulation sleeves 14, the first heat insulation sleeve 8 and the second heat insulation sleeve 14 are respectively provided with a cold air pipe 15 communicated with the inside of the first heat insulation sleeve 8 and the second heat insulation sleeve 14, the cold air pipes 15 are communicated with external cold air equipment, the external cold air equipment comprises an air conditioner and the like, and cold air can be conveyed for the first heat insulation sleeve 8 and the second heat insulation sleeve 4 at regular intervals so as to ensure that the temperatures of the first heat insulation sleeve 8 and the second heat insulation sleeve 4 are not too high.

When the ceramic base plate sintering furnace is used, the two sides of the discharge port of the ceramic base plate sintering furnace of the mounting seats of the two mounting plates 1 are driven by bolts and nuts, the hydraulic cylinder 9 is started, the output end of the hydraulic cylinder 9 extends to drive the mounting frame 11 to move downwards through the connecting rod 10, the left side clamping plate 12 is inserted between two adjacent rows of ceramic base plates conveyed out of the discharge port, when one row of ceramic base plates contacts the protective pad 13 on the side wall of the right side clamping plate 12, the two electric push rods 16 are started, the output end of the electric push rods 16 extends to drive the left side clamping plate 12 to move towards the right side clamping plate 12 through the cross rod, the two clamping plates 12 on the left side and the right side which are both determined by the figure 3 clamp the two sides of the row of ceramic base plates, the hydraulic cylinder 9 is restarted, the output end of the hydraulic cylinder 9 drives the ceramic base plates to move upwards, the driving motor 3 is restarted, the output shaft of the driving motor 3 drives the rotating shaft to rotate through belt transmission to drive the reciprocating screw rod 4 to rotate, under the spacing of sliding tray 6, mount pad 5 drives a row of ceramic substrate and moves right, moves near right side mounting panel 2 when ceramic substrate, starts pneumatic cylinder 9, electric putter 16 (the electronic putter 16 output contracts) according to above-mentioned operation, and a row of ceramic substrate is whole to drop in ceramic substrate catch tray to realized ceramic substrate's automatic unloading, do not need artificial unloading, reduced the human input.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention, the technical solutions and the practical concepts of the present invention equivalent or changed within the technical scope of the present invention.

Claims (6)

1. The discharging auxiliary mechanism of the sintering furnace comprises two mounting plates (1), a mounting seat (5) and a mounting frame (11), and is characterized in that two opposite side walls of the two mounting plates (1) are fixedly connected with a cross beam (2) together, two clamping plates (12) are arranged in the mounting frame (11), a clamping mechanism for clamping materials is arranged in the mounting frame (11), the clamping mechanism comprises two electric push rods (16) fixedly connected to the inner wall of the mounting frame (11), the output end of each electric push rod (16) is fixedly connected with the side wall of one clamping plate (12) through a cross rod, the side wall of the other clamping plate (12) is fixedly connected with the inner wall of the mounting frame (11), the upper end of the cross beam (2) is fixedly connected with a driving motor (3), the driving motor (3) is connected with a reciprocating lead screw (4) through a transmission mechanism, one end, far away from the driving motor (3), of the reciprocating lead screw (4) penetrates through the mounting seat (5), the lower part of the mounting seat (5) is connected with a mounting frame (11) through a driving mechanism.

2. The auxiliary discharging mechanism of sintering furnace as claimed in claim 1, wherein said transmission mechanism comprises a first transmission belt wheel fixedly connected to the reciprocating screw (4), the output shaft of said driving motor (3) is fixedly connected with a rotating shaft, a second transmission belt wheel is fixedly connected to said rotating shaft, and said first transmission belt wheel is in transmission connection with said second transmission belt wheel through a belt.

3. The auxiliary discharge mechanism of a sintering furnace as claimed in claim 2, characterized in that the driving mechanism comprises a hydraulic cylinder (9) fixedly connected to the lower end of the mounting base (5), the output end of the hydraulic cylinder (9) is fixedly connected with a connecting rod (10), and the lower end of the connecting rod (10) is fixedly connected with the upper end of a mounting frame (11).

4. The auxiliary discharging mechanism of the sintering furnace is characterized in that two ends of the reciprocating screw rod (4) are respectively and rotatably connected with the side walls of the two mounting plates (1), a first heat insulation sleeve (8) is fixedly connected to the lower end of the mounting seat (5), and the lower end of the connecting rod (10) penetrates through the lower end of the first heat insulation sleeve (8).

5. The auxiliary discharging mechanism of the sintering furnace as claimed in claim 1, wherein the lower end of the cross beam (2) is provided with a sliding groove (6), a sliding block (7) is connected in the sliding groove (6) in a sliding manner, the lower end of the sliding block (7) is fixedly connected with the upper end of the mounting seat (5), and the sliding block (7) is T-shaped in cross section.

6. The auxiliary discharging mechanism of the sintering furnace is characterized in that two second heat insulation sleeves (14) are installed on the inner wall of the installation frame (11), the cross bar penetrates through the side wall of the adjacent second heat insulation sleeve (14), cold air pipes (15) communicated with the inside of each of the first heat insulation sleeve (8) and the second heat insulation sleeve (14) are arranged on the side wall of the clamping plate (12), and anti-skid pads (13) are arranged on the side wall of the clamping plate (12).

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