CN112536900A - Ceramic machining is with inside glazing equipment of isolated container - Google Patents

Abstract

The invention relates to glazing equipment, in particular to isolated type container internal glazing equipment for ceramic processing. The technical problem to be solved is as follows: provided is an internal glazing device for an isolated container for ceramic processing, which has high working efficiency and does not affect the surrounding environment. The technical scheme of the invention is as follows: an isolated container internal glazing device for ceramic processing comprises an installation table and roller frames, wherein the roller frames are rotatably installed on two sides of the top of the installation table; and the conveying belt is wound between the roller frames. The glaze can be glazed on a plurality of ceramics at one time through the matching of the moving mechanism and the spraying mechanism, the working efficiency is high, the spraying mechanism can cover the glaze, the glaze is prevented from flying out, and the influence on the surrounding environment is avoided; can let protection casing and pottery in close contact with through laminating mechanism, further prevent that the frit from wafting out.

Description

Ceramic machining is with inside glazing equipment of isolated container

Technical Field

The invention relates to glazing equipment, in particular to isolated type container internal glazing equipment for ceramic processing.

Background

The ceramic is a living utensil which can be used for containing food and other foods and is mainly made of clay, and when the ceramic is produced, glazing is needed to be carried out inside the ceramic, so that the inside of the ceramic is smoother, and the performance of the ceramic can be improved, which is one of important steps.

At present, the glaze is sprayed to the inside of the ceramic by a handheld spray gun of a worker, glazing is carried out, the worker can only glaze one ceramic at a time, the efficiency is low, and secondly, no protective measures are taken around, the glaze can scatter around, the surrounding environment is influenced, the worker can possibly suck some scattered glaze, and the body health of the worker is influenced.

The device which has high working efficiency and can not influence the surrounding environment is designed to solve the existing problems.

Disclosure of Invention

In order to overcome the defects that a worker can only glaze one ceramic at a time, the efficiency is low, and secondly, no protective measures are taken around, the glaze material can float around to influence the surrounding environment, the technical problem to be solved is as follows: provided is an internal glazing device for an isolated container for ceramic processing, which has high working efficiency and does not affect the surrounding environment.

The technical scheme of the invention is as follows: an isolated container internal glazing device for ceramic processing comprises an installation table and roller frames, wherein the roller frames are rotatably installed on two sides of the top of the installation table; the conveying belt is wound between the roller frames; the outer side of the conveyor belt is uniformly connected with the placing plates at intervals; the driving mechanism is arranged on the mounting table; the moving mechanism is arranged on the upper side of the mounting table; a booster mechanism mounted on the mounting table; and the spraying mechanism is arranged on the moving mechanism.

In one embodiment, the driving mechanism comprises a mounting plate which is fixedly connected to the side surface of the mounting table; the first servo motor is arranged on the mounting plate; the rotating sleeve is fixedly connected to the mounting plate, a square rod is rotatably arranged in the rotating sleeve, and the square rod is fixedly connected with an output shaft of the first servo motor; the square rod is sleeved with a first gear ring in a sliding manner; a first spring is arranged between the first gear ring and the rotating sleeve and sleeved on the square rod; the end part of one roller frame is provided with a second gear ring, and the second gear ring is meshed with the first gear ring; the upper side of the mounting plate is provided with a first guide rod, and a first guide sleeve is slidably sleeved on the first guide rod; the first guide rod is sleeved with a first spring, and two ends of the first spring are connected with the first guide rod and the first guide sleeve respectively; the drive plate, the rigid coupling has the drive plate on the first guide pin bushing, the drive plate with first ring gear rotary type is connected.

In one embodiment, the moving mechanism comprises an upright post, and the two sides of the top of the mounting table are connected with the upright posts; the guide rail is arranged between the upright posts; the rack is arranged between the upright posts; the second servo motor is arranged on the guide rail in a sliding manner; the gear is arranged on an output shaft of the second servo motor and is meshed with the rack; one of the upright posts is provided with a first travel switch; and the other upright post is provided with a second travel switch.

In one embodiment, the pressurizing mechanism comprises a liquid storage tank, and the side surface of the mounting table is connected with the liquid storage tank; the water pump is arranged on the upper side of the liquid storage tank; the upper side of one of the upright posts is fixedly connected with a hanging rack which is fixedly connected with the liquid storage tank; the water pump is connected with a hose, and the hose is hung on the hanging rack; and the hose is provided with an electromagnetic valve.

In one embodiment, the spraying mechanism comprises a cylinder, a cylinder is installed on the side surface of the second servo motor, the hose is connected with the cylinder, a piston is arranged in the cylinder, and a third spring is connected between the piston and the inner wall of the cylinder; the middle part of the piston is connected with a liquid outlet pipe which penetrates through the lower side of the cylinder body; the upper part of the liquid outlet pipe is provided with a press-open type valve; the end part of the liquid outlet pipe is connected with a spray head; the lower part in the cylinder body is connected with a wedge block; the protective cover is arranged on the lower portion of the liquid outlet pipe in a sliding mode.

In one embodiment, the anti-leakage device comprises a bracket, and the lower side of the cylinder body is connected with the bracket; the bracket is connected with a second guide sleeve, a second guide rod is arranged in the second guide sleeve in a sliding mode, and the second guide rod penetrates through the protective cover; the second guide rod is sleeved with a second spring, and two ends of the second spring are respectively connected with the second guide sleeve and the second guide rod; the end part of the second guide rod is rotatably connected with a hinged cover plate, and the hinged cover plate is contacted with the spray head; and the elastic rope is connected between the hinged cover plate and the second guide rod.

In one embodiment, the device further comprises a locking mechanism, wherein the locking mechanism comprises a sliding frame, and the sliding frame is fixedly connected to the side surface of the mounting table; the sliding sleeve is arranged on the sliding frame in a sliding manner; the sliding frame is sleeved with a fifth spring, and two ends of the fifth spring are respectively connected with the sliding frame and the sliding sleeve; the sliding frame is connected with the first gear ring in a sliding mode, and the first gear ring is connected with the sliding frame in a rotating mode; the first brake disc is connected to the pushing pipe; and one end of one roller frame, which faces the first brake disc, is connected with the second brake disc.

In one embodiment, the device further comprises a positioning mechanism, wherein the positioning mechanism comprises positioning rings, and the positioning rings are uniformly and alternately connected to each placing plate.

In one embodiment, the cylinder further comprises a fitting mechanism, the fitting mechanism comprises a telescopic rod, and the lower part of the side surface of the cylinder body is fixedly connected with the telescopic rod; the lower end of the telescopic rod is fixedly connected with a connecting plate, and the connecting plate is fixedly connected with the liquid outlet pipe; and the sixth spring is connected between the connecting plate and the protective cover and sleeved on the liquid outlet pipe.

In one embodiment, the power supply device further comprises a control box and a controller, wherein the controller is connected to the side surface of one of the upright posts, a start key and a reset key are arranged on the controller, the control box is connected to the side surface of the mounting table, a control module, a power supply module and a switching power supply are installed in the control box, the switching power supply supplies power to the whole device, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting key, the reset key, the first travel switch and the second travel switch are electrically connected with the control module, and the first servo motor, the second servo motor, the water pump and the electromagnetic valve are connected with the control module through a peripheral circuit.

The beneficial effects are that:

1. through the cooperation of moving mechanism and spraying mechanism, can once only carry out the glazing to a plurality of pottery, work efficiency is high, and spraying mechanism can also cover the frit, prevents that the frit from wafting out, avoids influencing the surrounding environment.

2. The nozzle can be blocked by the leakage-proof mechanism, so that residual glaze in the liquid outlet pipe is prevented from dripping on the placing plate.

3. Can block left roller frame when the staff takes off the ceramic that the glazing was accomplished through locking mechanical system, prevent to place the board aversion for next a set of pottery can be accurate convey the below of shower nozzle.

4. The ceramic can be accurately placed at the appointed position through the positioning mechanism, so that the interior of the ceramic can be smoothly glazed.

5. Can let protection casing and pottery in close contact with through laminating mechanism, further prevent that the frit from wafting out.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the conveying mechanism of the present invention.

Fig. 3 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 4 is a schematic perspective view of the moving mechanism of the present invention.

Fig. 5 is a partial perspective view of the present invention.

Fig. 6 is a schematic perspective view of the spraying mechanism of the present invention.

FIG. 7 is a perspective view of the leakage preventing mechanism of the present invention.

Fig. 8 is a perspective view of the locking mechanism of the present invention.

Fig. 9 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 10 is a circuit block diagram of the present invention.

Fig. 11 is a schematic circuit diagram of the present invention.

Labeled as: 1-mounting table, 2-control box, 3-controller, 41-roller rack, 42-conveyor belt, 43-placing plate, 5-driving mechanism, 51-mounting plate, 52-first servo motor, 53-square rod, 54-rotating sleeve, 55-first spring, 56-first gear ring, 57-second gear ring, 58-first guide rod, 59-first guide sleeve, 510-second spring, 511-driving plate, 6-moving mechanism, 61-upright post, 62-guide rail, 63-rack, 64-second servo motor, 65-gear, 66-first travel switch, 67-second travel switch, 7-booster mechanism, 71-liquid storage box, 72-water pump, 73-hanging rack, 74-hose, 75-solenoid valve, 8-spraying mechanism, 81-cylinder, 82-piston, 83-liquid outlet pipe, 84-third spring, 85-press open type valve, 86-spray head, 87-wedge block, 88-protective cover, 9-leakage-proof mechanism, 91-bracket, 92-second guide sleeve, 93-second guide rod, 94-fourth spring, 95-hinged cover plate, 96-elastic rope, 10-locking mechanism, 101-sliding frame, 102-sliding sleeve, 103-fifth spring, 104-pushing pipe, 105-first brake disc, 106-second brake disc, 11-positioning mechanism, 111-positioning ring, 12-attaching mechanism, 121-telescopic rod, 122-connecting plate and 123-sixth spring.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.

Example 1

An isolated container internal glazing device for ceramic processing is disclosed, as shown in fig. 1-6, and comprises an installation platform 1, roller frames 41, a conveyor belt 42, a placing plate 43, a driving mechanism 5, a moving mechanism 6, a pressurizing mechanism 7 and a spraying mechanism 8, wherein the roller frames 41 are rotatably installed on the left side and the right side of the top of the installation platform 1, the conveyor belt 42 is wound between the two roller frames 41, the outer side of the conveyor belt 42 is uniformly connected with the placing plate 43 at intervals, the driving mechanism 5 is installed on the front side of the installation platform 1, the moving mechanism 6 is installed on the top of the installation platform 1, the spraying mechanism 8 is installed on the moving mechanism 6, and the pressurizing mechanism 7 is installed on the rear side of the installation.

When glazing is needed to be carried out on the interior of the ceramic, a worker puts a plurality of pieces of ceramic on the placing plate 43 orderly, then presses the power supply main switch to electrify the equipment, then presses the start key to send a signal, the control module receives the signal and then controls the pressurizing mechanism 7 to work for 7 seconds, the pressurizing mechanism 7 sucks glaze into the spraying mechanism 8, the spraying mechanism 8 covers the ceramic and then sprays the glaze into the ceramic, after 7 seconds, the control module controls the pressurizing mechanism 7 to stop working, simultaneously the control module controls the moving mechanism 6 to work for 3 seconds, the moving mechanism 6 drives the spraying mechanism 8 to move forwards, the spraying mechanism 8 is moved right above the next ceramic, after 3 seconds, the control module controls the moving mechanism 6 to stop working, and simultaneously the control module controls the pressurizing mechanism 7 to work for 7 seconds, and the process is repeated in such a way, glazing is carried out on the interior of the ceramic continuously, and can glaze a plurality of ceramics at one time, the work efficiency is high, the spraying mechanism 8 can also cover the glaze to prevent the glaze from scattering out, and the influence on the surrounding environment is avoided, when the moving mechanism 6 drives the spraying mechanism 8 to move forward to a set position, the control module controls the moving mechanism 6 to stop working, at the moment, a worker takes down the glazed ceramics, then presses a reset key to send a signal, the control module controls the moving mechanism 6 to drive the spraying mechanism 8 to move backward after receiving the signal, when the spraying mechanism 8 moves backward to the set position, the control module controls the moving mechanism 6 to stop working, simultaneously the control module controls the driving mechanism 5 to work for 4 seconds, the driving mechanism 5 drives the left roller frame 41 to rotate counterclockwise, the conveyor belt 42 drives the placing plate 43 to rotate counterclockwise, and the next group of ceramics is moved to the position below the spraying mechanism 8, after 4 seconds, the control module controls the driving mechanism 5 to stop working.

The driving mechanism 5 comprises a mounting plate 51, a first servo motor 52, a square rod 53, a rotating sleeve 54, a first spring 55, a first gear ring 56, a second gear ring 57, a first guide rod 58, a first guide sleeve 59, a second spring 510 and a driving plate 511, the mounting plate 51 is connected to the left part of the front side of the mounting table 1, the first servo motor 52 and the rotating sleeve 54 are mounted on the left side of the top of the mounting plate 51, the rotating sleeve 54 is located on the rear side of the first servo motor 52, the square rod 53 is mounted on an output shaft of the first servo motor 52, the square rod 53 is rotatably connected with the rotating sleeve 54, the first gear ring 56 is slidably arranged on the square rod 53, the first spring 55 is arranged between the first gear ring 56 and the rotating sleeve 54, the first spring 55 is sleeved on the square rod 53, the second gear ring 57 is mounted at the front end of the left roller frame 41, the second gear ring 57 is meshed with the first gear ring 56, the first guide rod, the first guide rod 58 is provided with a first guide sleeve 59 in a sliding manner, the first guide rod 58 is sleeved with a second spring 510, two ends of the second spring 510 are respectively connected with the first guide rod 58 and the first guide sleeve 59, the first guide sleeve 59 is connected with a drive plate 511, and the drive plate 511 is rotatably connected with the first gear ring 56.

When the spraying mechanism 8 moves forwards and touches the driving plate 511, the spraying mechanism 8 pushes the driving plate 511 to move forwards, the driving plate 511 drives the first guide sleeve 59 and the first gear ring 56 to move forwards, the first spring 55 and the second spring 510 are compressed, the first gear ring 56 is not meshed with the second gear ring 57, a worker presses a reset key, the reset key sends a signal, the control module receives the signal and controls the moving mechanism 6 to drive the spraying mechanism 8 to move backwards, the first guide sleeve 59 resets backwards under the action of the second spring 510, the first gear ring 56 is then reset backwards and meshed with the second gear ring 57, the first spring 55 restores to the original state, when the spraying mechanism 8 moves backwards to a set position, the control module controls the moving mechanism 6 to stop working, and simultaneously controls the first servo motor 52 to rotate anticlockwise for 4 seconds, the first servo motor 52 drives the square rod 53 to rotate anticlockwise, the square rod 53 drives the first gear ring 56 to rotate anticlockwise, the first gear ring 56 drives the second gear ring 57 to rotate anticlockwise, the second gear ring 57 drives the left roller frame 41 to rotate anticlockwise, the placing plate 43 is driven to rotate anticlockwise through the conveying belt 42, the next group of ceramic is moved to the position below the spraying mechanism 8, and after 4 seconds, the control module controls the first servo motor 52 to stop rotating anticlockwise.

Moving mechanism 6 is including stand 61, guide rail 62, rack 63, second servo motor 64, gear 65, first travel switch 66 and second travel switch 67, both sides all are connected with stand 61 around the mount table 1 top, install guide rail 62 and rack 63 between two stand 61, rack 63 is located the guide rail 62 right side, the sliding type is equipped with second servo motor 64 on guide rail 62, install gear 65 on the output shaft of second servo motor 64, gear 65 and rack 63 meshing, first travel switch 66 is installed at the stand 61 top of rear side, second travel switch 67 is installed at the stand 61 top of front side.

Pressing a start key, sending a signal by the start key, controlling the pressurizing mechanism 7 to work for 7 seconds after the control module receives the signal, sucking glaze into the spraying mechanism 8 by the pressurizing mechanism 7, covering the ceramic by the spraying mechanism 8, spraying the glaze into the ceramic, controlling the pressurizing mechanism 7 to stop working after 7 seconds, controlling the second servo motor 64 to rotate anticlockwise for 3 seconds by the control module, driving the gear 65 to rotate anticlockwise by the second servo motor 64, rolling the gear 65 forwards on the rack 63, driving the second servo motor 64 to move forwards, driving the spraying mechanism 8 to move forwards, moving the spraying mechanism 8 right above the next ceramic, controlling the second servo motor 64 to stop anticlockwise rotating after 3 seconds, controlling the pressurizing mechanism 7 to work for 7 seconds by the control module, when the second servo motor 64 moves forwards and touches the driving plate 511, the second servo motor 64 pushes the drive plate 511 to move forwards, the drive plate 511 touches a second travel switch 67, the second travel switch 67 sends a signal, the control module receives the signal and controls the second servo motor 64 to stop anticlockwise rotation, at the moment, a worker takes down the glazed ceramic, then presses a reset key, the reset key sends a signal, the control module receives the signal and controls the second servo motor 64 to rotate clockwise, the second servo motor 64 drives the gear 65 to rotate clockwise, the gear 65 rolls backwards on the rack 63, so that the second servo motor 64 is driven to move backwards, the spraying mechanism 8 is driven to move backwards, when the second servo motor 64 moves backwards and touches the first travel switch 66, the first travel switch 66 sends a signal, and the control module receives the signal and controls the second servo motor 64 to stop clockwise rotation.

Booster mechanism 7 is including liquid reserve tank 71, water pump 72, stores pylon 73, hose 74 and solenoid valve 75, and liquid reserve tank 71 is installed to mount table 1 rear side left part, and water pump 72 is installed at liquid reserve tank 71 top, and the stand 61 top of front side is connected with stores pylon 73, and stores pylon 73 rear portion is connected with liquid reserve tank 71 top, is connected with hose 74 on the water pump 72, and hose 74 hangs on stores pylon 73, installs solenoid valve 75 on the hose 74.

The staff pours the frit into liquid reserve tank 71, then press the start key, the start key signals, control module received signal back control solenoid valve 75 is opened, control module control water pump 72 works 7 seconds simultaneously, water pump 72 inhales the frit in hose 74, the frit flows into in spraying mechanism 8, spraying mechanism 8 covers the pottery, then spout the pottery inside the pottery with the frit, after 7 seconds, control module control water pump 72 stop work, control module control second servo motor 64 anticlockwise rotation for 3 seconds simultaneously, second servo motor 64 drives spraying mechanism 8 and moves forward, after 3 seconds, control module control second servo motor 64 stops anticlockwise rotation, control module control water pump 72 works 7 seconds simultaneously, so relapse, can be constantly interior carry out glazing to the pottery inside. When the glazing is not required to be carried out on the interior of the ceramic, the worker presses the power supply main switch again to power off the equipment, and the electromagnetic valve 75 is closed.

Spraying mechanism 8 is including cylinder body 81, piston 82, drain pipe 83, third spring 84, press open-type valve 85, shower nozzle 86, wedge 87 and protection casing 88, second servo motor 64 left side is connected with cylinder body 81, hose 74 and cylinder body 81 top are connected, be equipped with piston 82 in the cylinder body 81, piston 82 middle part is connected with drain pipe 83, drain pipe 83 runs through cylinder body 81 bottom, be connected with third spring 84 between piston 82 and the cylinder body 81 inner wall, drain pipe 83 upper portion is installed and is pressed open-type valve 85, drain pipe 83 bottom is connected with shower nozzle 86, front side sub-unit connection has wedge 87 in the cylinder body 81, drain pipe 83 lower part slidingtype is equipped with protection casing 88.

The glaze in the hose 74 flows into the cylinder 81, the glaze pushes the piston 82 to move downwards, the third spring 84 is stretched, the piston 82 drives the liquid outlet pipe 83 and the press open type valve 85 to move downwards, the liquid outlet pipe 83 drives the spray head 86 and the protective cover 88 to move downwards, the protective cover 88 covers the ceramic to prevent the glaze from scattering out, and the surrounding environment is prevented from being influenced, when the press open type valve 85 moves downwards to touch the wedge-shaped block 87, the press open type valve 85 is opened, the glaze in the cylinder 81 flows into the liquid outlet pipe 83, then the glaze is sprayed into the ceramic through the spray head 86 to be glazed, when the water pump 72 stops working, the glaze does not flow into the cylinder 81, under the action of the third spring 84, the piston 82 moves upwards, the piston 82 drives the liquid outlet pipe 83 and the press open type valve 85 to move upwards, the press open type valve 85 is not in contact with the wedge-shaped block 87, the press open type valve 85 is closed, the spout 83 moves the spray head 86 and shield 88 upward.

Example 2

Based on embodiment 1, as shown in fig. 3, 6, 7, 8, and 9, the anti-leakage device 9 further includes a support 91, a second guide sleeve 92, a second guide rod 93, a fourth spring 94, a hinged cover 95, and an elastic cord 96, the support 91 is connected to the bottom of the cylinder 81, the second guide sleeve 92 is connected to the support 91, the second guide sleeve 92 is slidably disposed inside the second guide sleeve 93, the second guide rod 93 penetrates through the protective cover 88, the fourth spring 94 is sleeved on the second guide rod 93, two ends of the fourth spring 94 are respectively connected to the second guide sleeve 92 and the second guide rod 93, the hinged cover 95 is rotatably connected to the bottom end of the second guide rod 93, the hinged cover 95 contacts the spray head 86, and the elastic cord 96 is connected between the hinged cover 95 and the second guide rod 93.

Articulated apron 95 can plug up shower nozzle 86, avoid remaining frit drippage in drain pipe 83 to place on the board 43, when shower nozzle 86 lapse, shower nozzle 86 promotes articulated apron 95 lapse, articulated apron 95 drives second guide arm 93 lapse, fourth spring 94 is compressed, after fourth spring 94 compresses to the certain degree, articulated apron 95 downswing, elastic cord 96 is stretched, articulated apron 95 no longer plugs up shower nozzle 86, when shower nozzle 86 lapse, under elastic cord 96's effect, articulated apron 95 upwards swings and resets, under fourth spring 94's effect, second guide arm 93 and articulated apron 95 upwards reset.

The brake device is characterized by further comprising a locking mechanism 10, wherein the locking mechanism 10 comprises a sliding frame 101, a sliding sleeve 102, a fifth spring 103, a pushing pipe 104, a first brake disc 105 and a second brake disc 106, the left side of the installation platform 1 is connected with the sliding frame 101, the sliding sleeve 102 is arranged on the sliding frame 101 in a sliding mode, the fifth spring 103 is sleeved on the sliding frame 101, two ends of the fifth spring 103 are respectively connected with the sliding frame 101 and the sliding sleeve 102, the pushing pipe 104 is connected with the sliding frame 101 in a sliding mode, the pushing pipe 104 is rotatably connected with the first gear ring 56, the first brake disc 105 is connected onto the pushing pipe 104, and the second brake disc 106 is connected to the rear end of the left roller frame 41.

When the first gear ring 56 moves forward, the first gear ring 56 drives the pushing pipe 104 to move forward, the pushing pipe 104 drives the sliding sleeve 102 and the first brake disc 105 to move forward, the fifth spring 103 is compressed, the first brake disc 105 clamps the second brake disc 106, so that the roller frame 41 on the left side can be clamped, the placing plate 43 is prevented from shifting, a next group of ceramics can be accurately conveyed below the spray head 86, when the first gear ring 56 moves backward, the first gear ring 56 drives the pushing pipe 104 to move backward, the pushing pipe 104 drives the sliding sleeve 102 and the first brake disc 105 to move backward, under the action of the fifth spring 103, the first brake disc 105 moves backward more smoothly, and the first brake disc 105 releases the second brake disc 106.

The positioning device further comprises a positioning mechanism 11, wherein the positioning mechanism 11 comprises positioning rings 111, and the positioning rings 111 are uniformly connected to each placing plate 43 at intervals.

The staff can put pottery in holding ring 111, can be accurate like this put the pottery to appointed position to can be smooth carry out the glazing to ceramic inside.

Still including laminating mechanism 12, laminating mechanism 12 is including telescopic link 121, connecting plate 122 and sixth spring 123, and cylinder body 81 front side sub-unit connection has telescopic link 121, and telescopic link 121 bottom is connected with connecting plate 122, and connecting plate 122 and drain pipe 83 are connected, is connected with sixth spring 123 between connecting plate 122 and the protection casing 88, and sixth spring 123 overlaps on drain pipe 83.

When drain pipe 83 moved down, drain pipe 83 drove connecting plate 122 and moved down, and telescopic link 121 is elongated, and when protection casing 88 moved down and ceramic contact, drain pipe 83 can continue to move down, so connecting plate 122 also can continue to move down, and sixth spring 123 is compressed for protection casing 88 and ceramic in close contact with, further prevent that the frit from floating out. When the liquid outlet pipe 83 moves upward, the liquid outlet pipe 83 drives the connecting plate 122 to move upward, the telescopic rod 121 is shortened, and the sixth spring 123 is restored to the original state.

As shown in fig. 1, 10 and 11, the power supply device further comprises a control box 2 and a controller 3, the controller 3 is connected to the front side of the upright post 61 on the front side, a start key and a reset key are arranged on the controller 3, the control box 2 is connected to the right part of the front side of the mounting table 1, a control module, a power module and a switching power supply are installed in the control box 2, the switching power supply supplies power to the whole device, the output end of the switching power supply is electrically connected with the power module, the power module is connected with a power main switch through a circuit, the control module is electrically connected with the power module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the start key, the reset key, the first travel switch 66 and the second travel switch 67 are electrically connected with the control module, and the first servo motor 52, the second servo motor 64, the water pump 72 and the electromagnetic valve 75 are connected with the control module through peripheral circuits.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. The utility model provides an inside glazing equipment of isolated container for ceramic machining which characterized in that, including:

the roller frame mounting device comprises a mounting table (1) and roller frames (41), wherein the roller frames (41) are rotatably mounted on two sides of the top of the mounting table (1);

the conveying belt (42) is wound between the roller frames (41);

the placing plate (43) is connected to the outer side of the conveyor belt (42) at intervals;

the driving mechanism (5), the said driving mechanism (5) is installed on said mounting table (1);

a moving mechanism (6), wherein the moving mechanism (6) is installed on the upper side of the installation table (1);

a pressurization mechanism (7), wherein the pressurization mechanism (7) is installed on the installation table (1);

the spraying mechanism (8), the spraying mechanism (8) is installed on the moving mechanism (6).

2. An apparatus for enamelling the inside of an insulated container for ceramic processing, according to claim 1, characterised in that the drive means (5) comprise:

the mounting plate (51), the said mounting plate (51) is affixed to the side of the said mounting table (1);

a first servo motor (52), the first servo motor (52) being mounted on the mounting plate (51);

the rotating sleeve (54) is fixedly connected to the mounting plate (51), a square rod (53) is arranged in the rotating sleeve (54) in a rotating mode, and the square rod (53) is fixedly connected with an output shaft of the first servo motor (52);

the square rod (53) is sleeved with the first gear ring (56) in a sliding manner;

a first spring (55), a first spring (55) is arranged between the first gear ring (56) and the rotating sleeve (54), and the first spring (55) is sleeved on the square rod (53);

a second gear ring (57), wherein the end part of one roller frame (41) is provided with the second gear ring (57), and the second gear ring (57) is meshed with the first gear ring (56);

the upper side of the mounting plate (51) is provided with a first guide rod (58), and the first guide rod (58) is sleeved with a first guide sleeve (59) in a sliding manner;

the second spring (510) is sleeved on the first guide rod (58), and two ends of the second spring (510) are respectively connected with the first guide rod (58) and the first guide sleeve (59);

the driving plate (511) is fixedly connected to the first guide sleeve (59), and the driving plate (511) is rotatably connected with the first gear ring (56).

3. An apparatus for enamelling the inside of an insulated container for ceramic processing, according to claim 2, characterised in that the moving means (6) comprise:

the two sides of the top of the mounting table (1) are connected with the upright columns (61);

a guide rail (62), the guide rail (62) being mounted between the uprights (61);

a rack (63), wherein the rack (63) is arranged between the upright posts (61);

a second servo motor (64), wherein the second servo motor (64) is arranged on the guide rail (62) in a sliding manner;

the gear (65), the said gear (65) is mounted on output shaft of the said second servomotor (64), it is the gear (65) and the said rack (63) that mesh;

a first travel switch (66), wherein one upright post (61) is provided with the first travel switch (66);

and a second travel switch (67) is arranged on the other upright post (61).

4. An apparatus for enamelling the inside of an insulated container for ceramic processing according to claim 3, characterised in that the pressurization means (7) comprise:

the side surface of the mounting table (1) is connected with the liquid storage tank (71);

a water pump (72), wherein the water pump (72) is installed on the upper side of the liquid storage tank (71);

the upper side of one upright post (61) is fixedly connected with a hanging rack (73), and the hanging rack (73) is fixedly connected with the liquid storage tank (71);

the hose (74) is connected to the water pump (72), and the hose (74) is hung on the hanging rack (73);

and the solenoid valve (75) is mounted on the hose (74).

5. An apparatus for enamelling the inside of an insulated container for ceramic processing, according to claim 4, characterised in that the spraying means (8) comprise:

a cylinder body (81) is installed on the side surface of the second servo motor (64), the hose (74) is connected with the cylinder body (81), a piston (82) is arranged in the cylinder body (81), and a third spring (84) is connected between the piston (82) and the inner wall of the cylinder body (81);

the liquid outlet pipe (83) is connected to the middle of the piston (82), and the liquid outlet pipe (83) penetrates through the lower side of the cylinder body (81);

the upper part of the liquid outlet pipe (83) is provided with a press-open type valve (85);

the end part of the liquid outlet pipe (83) is connected with the spray head (86);

the inner lower part of the cylinder body (81) is connected with the wedge block (87);

the lower part of the liquid outlet pipe (83) is provided with a protective cover (88) in a sliding way.

6. The apparatus for enamelling the interior of an insulated container for ceramic processing according to claim 5, characterized in that it also comprises a leak-proof mechanism (9), the leak-proof mechanism (9) comprising:

the bracket (91) is connected to the lower side of the cylinder body (81);

the bracket (91) is connected with a second guide sleeve (92), a second guide rod (93) is arranged in the second guide sleeve (92) in a sliding manner, and the second guide rod (93) penetrates through the protective cover (88);

the second guide rod (93) is sleeved with a fourth spring (94), and two ends of the fourth spring (94) are respectively connected with the second guide sleeve (92) and the second guide rod (93);

the end part of the second guide rod (93) is rotatably connected with a hinged cover plate (95), and the hinged cover plate (95) is in contact with the spray head (86);

and the elastic rope (96) is connected between the hinged cover plate (95) and the second guide rod (93).

7. The apparatus for enamelling the inside of an insulated container for ceramic processing according to claim 6, further comprising a locking mechanism (10), the locking mechanism (10) comprising:

the side surface of the mounting table (1) is fixedly connected with the sliding frame (101);

the sliding sleeve (102) is arranged on the sliding frame (101) in a sliding mode;

the sliding frame (101) is sleeved with a fifth spring (103), and two ends of the fifth spring (103) are respectively connected with the sliding frame (101) and the sliding sleeve (102);

the pushing pipe (104) is connected to the sliding sleeve (102), the pushing pipe (104) is connected with the sliding frame (101) in a sliding mode, and the pushing pipe (104) is connected with the first gear ring (56) in a rotating mode;

a first brake disc (105), wherein the first brake disc (105) is connected to the pushing pipe (104);

and a second brake disc (106), wherein the end, facing the first brake disc (105), of one roller frame (41) is connected with the second brake disc (106).

8. The apparatus for enamelling inside of an insulated container for ceramic processing according to claim 7, further comprising a positioning mechanism (11), the positioning mechanism (11) comprising:

and each placing plate (43) is evenly and alternately connected with a positioning ring (111).

9. The apparatus for enamelling inside of an isolated vessel for ceramic processing according to claim 8, further comprising a gluing mechanism (12), the gluing mechanism (12) comprising:

the telescopic rod (121) is fixedly connected to the lower portion of the side face of the cylinder body (81);

the lower end of the telescopic rod (121) is fixedly connected with a connecting plate (122), and the connecting plate (122) is fixedly connected with the liquid outlet pipe (83);

and a sixth spring (123), wherein the sixth spring (123) is connected between the connecting plate (122) and the protective cover (88), and the sixth spring (123) is sleeved on the liquid outlet pipe (83).

10. The apparatus for enamelling the inside of an insulated container for ceramic processing according to claim 9, wherein: the power supply control device is characterized by further comprising a control box (2) and a controller (3), wherein the controller (3) is connected to the side face of one upright post (61), a starting key and a resetting key are arranged on the controller (3), the control box (2) is connected to the side face of the mounting table (1), a control module, a power module and a switch power supply are installed in the control box (2), the switch power supply supplies power to the whole device, the output end of the switch power supply is electrically connected with the power module, the power module is connected with a power master switch through a circuit, the control module is electrically connected with the power module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting key, the reset key, the first travel switch (66) and the second travel switch (67) are electrically connected with the control module, and the first servo motor (52), the second servo motor (64), the water pump (72) and the electromagnetic valve (75) are connected with the control module through a peripheral circuit.

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