CN219602365U - Ceramic substrate tape casting forming equipment - Google Patents

Abstract

The utility model belongs to the technical field of casting forming equipment, and particularly relates to ceramic substrate casting forming equipment, which comprises a feed hopper and a conveyor belt structure corresponding to the feed hopper; the conveying belt structure comprises a conveying belt bracket, and driving rollers are rotatably connected to two ends of the conveying belt bracket; the driving roller is provided with a conveying belt, and the conveying belt bracket is provided with a deviation correcting device matched with the conveying belt; the deviation correcting device comprises a lifting plate which moves up and down along the conveyor belt bracket, and a compression roller matched with the conveyor belt is rotationally connected to the lifting plate; the lifting plate is also rotationally connected with a U-shaped frame, the U-shaped frame is rotationally connected with a correction roller, and the lifting plate is provided with a correction sensor corresponding to the correction roller; the utility model effectively solves the problem that the conveyer belt in the existing tape casting forming equipment is easy to deviate when in use.

Description

Ceramic substrate tape casting forming equipment

Technical Field

The utility model belongs to the technical field of casting forming equipment, and particularly relates to ceramic substrate casting forming equipment.

Background

The casting molding apparatus refers to a special apparatus for producing a casting film. The method comprises the steps of mixing crushed powder, a binder, a plasticizer, a dispersing agent and a solvent to prepare slurry with certain viscosity, flowing down the slurry from a hopper, scraping and coating the slurry on a conveyor belt with certain thickness by a scraper, drying and solidifying the slurry, stripping the slurry from the conveyor belt to form a film of a green belt, and carrying out punching, laminating and other processing treatments on the green belt according to the size and shape of a finished product to prepare a blank finished product to be sintered. Has the advantages of low cost, high quality, no toxicity, simple production process, etc.

Slight deflection can occur to a conveying belt in the casting forming equipment in the running process, if the deflection is larger, the position of a carried film belt can be influenced, the quality of a casting green body is influenced, and the production cost is increased; therefore, in order to ensure the normal operation of the conveyer belt, staff is required to carry out inspection on the machine every 10 minutes to check the offset degree of the conveyer belt; if the offset is large, manual pull-back is required, which causes great trouble to the staff.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the utility model provides the ceramic substrate tape casting forming equipment, which effectively solves the problem that the conveyer belt in the existing tape casting forming equipment is easy to deviate when in use.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a ceramic substrate tape casting forming device comprises a feed hopper and a conveyor belt structure corresponding to the feed hopper; the conveying belt structure comprises a conveying belt bracket, and driving rollers are rotatably connected to two ends of the conveying belt bracket; the driving roller is provided with a conveying belt, and the conveying belt bracket is provided with a deviation correcting device matched with the conveying belt; the deviation correcting device comprises a lifting plate which moves up and down along the conveyor belt bracket, and a compression roller matched with the conveyor belt is rotationally connected to the lifting plate; the lifting plate is also rotationally connected with a U-shaped frame, the U-shaped frame is rotationally connected with a correction roller, and the lifting plate is provided with a correction sensor corresponding to the correction roller.

Further, the lifting plate is also rotationally connected with a parallel rod which is parallel to the U-shaped frame, two ends of the parallel rod are rotationally connected with a synchronous rod, and the other ends of the pair of synchronous rods are rotationally connected with the U-shaped frame respectively.

Further, a driving rod is vertically fixedly connected to the parallel rods, a driving telescopic rod is rotatably connected to the lifting plate, and the telescopic end of the driving telescopic rod is rotatably connected with the driving rod.

Further, a lifting telescopic rod is fixedly connected to the conveyor belt support, and the telescopic end of the lifting telescopic rod is fixedly connected with the lifting plate.

Further, a guide rod is fixedly connected to the conveyor belt support, the lifting plate is in sliding connection with the guide rod, and a limiting block matched with the lifting plate is arranged at the other end of the guide rod.

Further, a bottom plate is arranged below the lifting plate, and a plurality of support rods are fixedly connected on the bottom plate; and a plurality of support rods are connected with a support cylinder in a sliding manner, the other end of the support cylinder is fixedly connected with the lifting plate, and fastening screws matched with the support rods are arranged on the support cylinder.

Compared with the prior art, the utility model has the beneficial effects that:

1. when the utility model is used, if the conveyer belt is deviated, the deviation correcting sensor detects the deviation of the conveyer belt; the driving telescopic rod drives the parallel rod to rotate through the driving rod, and the parallel rod drives the U-shaped frame to rotate through the synchronous rod; the U-shaped frame drives the deviation correcting roller to rotate, and the deviation correcting roller corrects the conveying belt; through setting up of roller that rectifies promptly, can effectually avoid the conveyer belt to take place the skew, improve the stability of conveyer belt operation, and then improve the quality of unburned bricks.

2. When the belt conveyer is used, the conveyer belt passes through the upper part of the deviation correcting roller from the lower part of the pressing roller to the driving roller through the arrangement of the pressing roller and the lifting plate; the lifting plate moves up and down along the conveying belt support, so that the pressing roller is driven to press the conveying belt, the tightness of the conveying belt is improved, and the running stability of the conveying belt is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram showing the coordination state of a conveyor belt, a conveyor belt bracket, a deviation correcting device and the like in the utility model;

FIG. 3 is a schematic diagram showing the coordination state of the conveyor belt bracket and the deviation correcting device in the utility model;

FIG. 4 is a schematic diagram of a deviation correcting structure according to the present utility model;

in the figure: 1. the automatic dryer comprises a feeding hopper, 2, drying equipment, 3, a conveyor belt bracket, 4, a conveyor belt, 5, a deviation correcting device, 6, a guide rod, 7, a press roller, 8, a limiting block, 9, a lifting plate, 10, a bottom plate, 11, a support rod, 12, a lifting telescopic rod, 13, a support cylinder, 14, a deviation correcting roller, 15, a U-shaped frame, 16, a synchronous rod, 17, a driving telescopic rod, 18, a driving rod, 19 and a parallel rod.

Detailed Description

1-4, including a feeding hopper 1 and a conveyor belt structure corresponding to the feeding hopper 1, a drying device 2 corresponding to the feeding hopper 1 is arranged on the conveyor belt 4, wherein the feeding hopper 1, the drying device 2 and the conveyor belt 4 all belong to common mechanical structures of the existing casting forming machine, and a person skilled in the art accords with the prior art to implement according to the specification, and are not repeated herein;

the conveying belt structure comprises a conveying belt bracket 3, and driving rollers are rotatably connected to two ends of the conveying belt bracket 3; the driving roller is provided with a conveying belt 4, and the conveying belt bracket 3 is provided with a deviation correcting device 5 matched with the conveying belt 4; the deviation correcting device 5 comprises a lifting plate 9 which moves up and down along the conveyor belt bracket 3, and a press roller 7 matched with the conveyor belt 4 is rotatably connected to the lifting plate 9; the lifting plate 9 is also rotatably connected with a U-shaped frame 15, the U-shaped frame 15 is rotatably connected with a deviation rectifying roller 14, and the lifting plate 9 is provided with a deviation rectifying sensor corresponding to the deviation rectifying roller 14.

When the utility model is used, slurry flows down from a feed hopper 1, is scraped and pressed by a scraper to be coated on a conveying belt 4 with a certain thickness, and dries a green body by a drying device 2; when the conveyer belt 4 is in use, if the conveyer belt 4 is deviated, the deviation correcting sensor detects the deviation of the conveyer belt 4; the U-shaped frame 15 rotates along the lifting plate 9, the U-shaped frame 15 drives the deviation correcting roller 14 to rotate, and the deviation correcting roller 14 corrects the deviation of the conveying belt 4; in addition, when the conveyer belt 4 is used, the conveyer belt 4 passes through the upper part of the deviation correcting roller 14 from the lower part of the pressing roller 7 and then passes on the driving roller; the lifting plate 9 moves up and down along the conveyor belt bracket 3, so that the pressing roller 7 is driven to press the conveyor belt 4, the tightness of the conveyor belt 4 is improved, and the running stability of the conveyor belt 4 is improved.

Further, the lifting plate 9 is also rotatably connected with a parallel rod 19 which is parallel to the U-shaped frame 15, two ends of the parallel rod 19 are rotatably connected with a synchronizing rod 16, and the other ends of a pair of synchronizing rods 16 are respectively rotatably connected with the U-shaped frame 15; a driving rod 18 is vertically fixedly connected to the parallel rod 19, a driving telescopic rod 17 is rotatably connected to the lifting plate 9, and a telescopic end of the driving telescopic rod 17 is rotatably connected with the driving rod 18.

When the U-shaped frame 15 needs to rotate, the driving telescopic rod 17 is started, the driving telescopic rod 17 drives the parallel rod 19 to rotate through the driving rod 18, and the parallel rod 19 drives the U-shaped frame 15 to rotate through the synchronous rod 16; a parallelogram structure is formed by the parallel rods 19, the synchronous rods 16 and the U-shaped frames 15, and two ends of the U-shaped frames 15 are supported; namely, the center of the U-shaped frame 15 rotates with the lifting plate 9, and two ends are supported by the synchronous rods 16 and the parallel rods 19, so that the stability of the U-shaped frame 15 can be effectively improved.

Further, a lifting telescopic rod 12 is fixedly connected to the conveyor belt bracket 3, and the telescopic end of the lifting telescopic rod 12 is fixedly connected with a lifting plate 9; the lifting telescopic rod 12 and the driving telescopic rod 17 are hydraulic telescopic rods; the lifting plate 9 is driven to move up and down by the lifting telescopic rod 12.

Further, a guide rod 6 is fixedly connected to the conveyor belt bracket 3, a lifting plate 9 is slidably connected with the guide rod 6, and a limiting block 8 matched with the lifting plate 9 is arranged at the other end of the guide rod 6; the lifting plate 9 is guided by the guide rod 6, so that the stability of the lifting plate 9 is improved; in addition, the lifting plate 9 is limited by the limiting block 8, so that the lifting plate 9 and the guide rod 6 can be effectively prevented from being separated, and the stability of the elevator is improved.

Further, a bottom plate 10 is arranged below the lifting plate 9, and a plurality of support rods 11 are fixedly connected to the bottom plate 10; the support rods 11 are all connected with a support cylinder 13 in a sliding manner, the other end of the support cylinder 13 is fixedly connected with the lifting plate 9, and the support cylinder 13 is provided with fastening screws matched with the support rods 11; the lifting plate 9 is supported secondarily through the matching of the bottom plate 10, the supporting rod 11 and the supporting cylinder 13; when the lifting plate 9 needs to lift up and down, the fastening screw on the supporting cylinder 13 is loosened, so that the supporting cylinder 13 can slide along the supporting rod 11, and the lifting plate 9 can lift up and down; after the lifting plate 9 is lifted up and down, the supporting cylinder 13 and the supporting rod 11 are fixed through the fastening screws, and the lifting plate 9 is supported through the matching of the bottom plate 10, the supporting rod 11 and the supporting cylinder 13, so that the stability of the lifting plate 9 can be effectively improved.

The working process of the utility model is as follows:

when the utility model is used, slurry flows down from a feed hopper 1, is scraped and pressed by a scraper to be coated on a conveying belt 4 with a certain thickness, and dries a green body by a drying device 2; when the conveyer belt 4 is in use, if the conveyer belt 4 is deviated, the deviation correcting sensor detects the deviation of the conveyer belt 4; starting a driving telescopic rod 17, driving the telescopic rod 17 to drive a parallel rod 19 to rotate through a driving rod 18, and driving the U-shaped frame 15 to rotate through a synchronous rod 16 by the parallel rod 19; the U-shaped frame 15 drives the deviation correcting roller 14 to rotate, and the deviation correcting roller 14 corrects the deviation of the conveying belt 4.

If the conveyer belt 4 needs to be tensioned or loosened, the fastening screw on the supporting cylinder 13 is loosened, so that the supporting cylinder 13 can slide along the supporting rod 11; starting a lifting telescopic rod 12, wherein the lifting telescopic rod 12 drives a lifting plate 9 to move up and down, and the lifting plate 9 slides along a guide rod 6; because the conveyer belt 4 passes through the upper part of the deviation correcting roller 14 from the lower part of the pressing roller 7 and passes to the driving roller, when the lifting plate 9 moves up and down, the pressing roller 7 and the deviation correcting roller 14 are matched to tighten or loosen the conveyer belt 4; after the lifting plate 9 is lifted up and down, the supporting cylinder 13 and the supporting rod 11 are fixed through the fastening screws, and the lifting plate 9 is supported through the matching of the bottom plate 10, the supporting rod 11 and the supporting cylinder 13, so that the stability of the lifting plate 9 can be effectively improved.

Claims (6)

1. A ceramic substrate tape casting forming device comprises a feed hopper (1) and a conveyor belt structure corresponding to the feed hopper (1); the conveying belt structure comprises a conveying belt bracket (3), and driving rollers are rotatably connected to two ends of the conveying belt bracket (3); the method is characterized in that: the driving roller is provided with a conveying belt (4), and the conveying belt bracket (3) is provided with a deviation correcting device (5) matched with the conveying belt (4); the deviation correcting device (5) comprises a lifting plate (9) which moves up and down along the conveyor belt bracket (3), and a press roller (7) matched with the conveyor belt (4) is rotatably connected to the lifting plate (9); the lifting plate (9) is also rotationally connected with a U-shaped frame (15), the U-shaped frame (15) is rotationally connected with a correction roller (14), and the lifting plate (9) is provided with a correction sensor corresponding to the correction roller (14).

2. The ceramic substrate tape casting apparatus according to claim 1, wherein: the lifting plate (9) is also rotationally connected with a parallel rod (19) which is parallel to the U-shaped frame (15), two ends of the parallel rod (19) are rotationally connected with a synchronizing rod (16), and the other ends of the pair of synchronizing rods (16) are rotationally connected with the U-shaped frame (15) respectively.

3. The ceramic substrate casting molding apparatus according to claim 2, wherein: a driving rod (18) is vertically fixedly connected to the parallel rod (19), a driving telescopic rod (17) is rotatably connected to the lifting plate (9), and the telescopic end of the driving telescopic rod (17) is rotatably connected with the driving rod (18).

4. The ceramic substrate tape casting apparatus according to claim 1, wherein: the lifting telescopic rod (12) is fixedly connected to the conveying belt support (3), and the telescopic end of the lifting telescopic rod (12) is fixedly connected with the lifting plate (9).

5. The ceramic substrate tape casting apparatus according to claim 4, wherein: the conveyer belt support (3) is fixedly connected with a guide rod (6), the lifting plate (9) is in sliding connection with the guide rod (6), and a limiting block (8) matched with the lifting plate (9) is arranged at the other end of the guide rod (6).

6. The ceramic substrate tape casting apparatus according to any one of claims 1 or 5, wherein: a bottom plate (10) is arranged below the lifting plate (9), and a plurality of support rods (11) are fixedly connected to the bottom plate (10); the support rods (11) are all connected with a support cylinder (13) in a sliding manner, the other end of the support cylinder (13) is fixedly connected with the lifting plate (9), and fastening screws matched with the support rods (11) are arranged on the support cylinder (13).