CN112339087B - Glaze adhering equipment for processing outer wall of ceramic container - Google Patents

Abstract

The invention relates to glaze attaching equipment, in particular to glaze attaching equipment for processing the outer wall of a ceramic container. The glaze attaching equipment for processing the outer wall of the ceramic container is capable of realizing automatic glazing, and is time-saving and labor-saving. The glaze attaching equipment for processing the outer wall of the ceramic container comprises a base and a transverse plate, wherein the transverse plate is connected to the top of the base; one side of the top of the base is connected with the bent beam; the moving mechanism is connected between the top of the transverse plate and the curved beam; the moving mechanism is connected with a lifting mechanism; the suction mechanism is connected to the lifting mechanism; and the following mechanism is connected between the transverse plate and the moving mechanism. Through the cooperation between moving mechanism, elevating system, actuation mechanism, following mechanism and the mechanism of glazing, can adsorb ceramic vessel automatically, carry out the glazing thereupon, the position of glazing keeps unanimous, can realize uniformity and automation.

Description

Glaze adhering equipment for processing outer wall of ceramic container

Technical Field

The invention relates to glaze attaching equipment, in particular to glaze attaching equipment for processing the outer wall of a ceramic container.

Background

When the pottery and porcelain are fired, firstly, a blank is fired, then the blank is taken out for glazing and then fired, so that the blank is fired into a glaze with glass luster, which can be divided into crystal glaze crack glaze and the like, and a vitreous glaze layer is coated on the fired blank, so that the protection and decoration effects are mainly achieved. At present, glazing is usually carried out manually, so that the glazing speed is slow, disorder is easy to occur, the glazing quality of ceramic products is poor, the working efficiency is low, and glazing machines are available.

Patent application CN201920086134.8 a pottery glazing device, including the base case, the top fixedly connected with mounting bracket of base case, the mounting groove has all been seted up to the inside both sides wall of mounting bracket, fixed mounting has the drying-machine in the mounting groove, the delivery outlet fixedly connected with stoving cover of drying-machine, the drying-machine is kept away from the one end of stoving cover and is passed through the shell that fixing bolt fixedly connected with is located the mounting bracket outside, the top fixedly connected with pneumatic cylinder of mounting bracket, the output fixedly connected with hydraulic stem of pneumatic cylinder, the one end fixedly connected with fixed block of hydraulic stem, the lower fixed surface fixedly connected with sprayer of fixed block, the last fixed surface fixedly connected with connector of sprayer, the one end fixedly connected with hose of connector.

This equipment is through setting up the sprayer, utilizes the sprayer to carry out all-round spraying to pottery, has improved production machining efficiency, dries the position of spraying through setting up high-pressure pump and drying-machine, but also can have some problems in the spraying, and the staff can be spouted on one's body when one sprays, influences that the staff is healthy, and its two are for needing artifical conveying ceramic vessel, waste time and energy. Therefore, glaze attaching equipment for processing the outer wall of the ceramic container, which can realize automatic glazing and is time-saving and labor-saving, is developed at present.

Disclosure of Invention

In order to overcome the defects that the prior equipment wastes time and labor and has harm to human bodies, the invention has the technical problems that: the glaze attaching equipment for processing the outer wall of the ceramic container is capable of realizing automatic glazing, and is time-saving and labor-saving.

A glaze adhering device for processing the outer wall of a ceramic container comprises:

the top of the base is connected with the transverse plate;

one side of the top of the base is connected with the bent beam;

the moving mechanism is connected between the top of the transverse plate and the curved beam;

the moving mechanism is connected with a lifting mechanism;

the lifting mechanism is connected with the suction mechanism;

the following mechanism is connected between the transverse plate and the moving mechanism;

and the glazing mechanism is connected between the top of the transverse plate and the lifting mechanism.

In a preferred embodiment of the present invention, the moving mechanism includes:

one side of the bent beam is connected with a first speed reducing motor;

the middle part of the curved beam is connected with the square rail;

the double-disc reel is rotatably connected to one side, close to the first speed reducing motor, of the square rail and is connected with an output shaft of the first speed reducing motor;

the side, away from the double-disc reel, of the square rail is rotatably connected with a first wire guide wheel;

the double-disc reel is wound with a first pull rope, the first pull rope winds the first wire guide wheel, and the end part of the first pull rope is connected with the lifting mechanism;

the square hole sleeves are connected with the square rails in a sliding mode and connected with the lifting mechanism.

In a preferred embodiment of the present invention, the elevating mechanism comprises:

the two sides of the square hole sleeve are connected with the first guide sleeve;

the first guide rods are connected to the first guide sleeves in a sliding manner;

the bottom of the first guide rod is connected with the mounting disc, and the mounting disc is connected with the suction mechanism;

the first springs are connected between the top of the mounting disc and the first guide sleeves and sleeved outside the first guide rods;

the fixing frame is connected between the middle tops of the square hole sleeves;

the middle of the fixing frame is connected with a second guide sleeve;

the inner side of the second guide sleeve is connected with a second guide rod in a sliding manner;

the driving frame is connected between the two sides of the second guide rod;

the two sides of the top of the fixing frame are connected with the brackets;

the bracket is rotatably connected with the second wire guide wheel, and two ends of the first pull rope are connected with the top of the second guide rod;

one side of the square rail is provided with a limiting hole which is clamped with the second guide rod;

the mounting disc is connected with a third guide rod in a sliding manner, and the top of the third guide rod is connected with the bottom of the driving frame;

and a second spring is connected between the bottom of the driving frame and the top of the mounting plate, and is sleeved outside the third guide rod.

In a preferred embodiment of the present invention, the engaging mechanism includes:

the bottom of the mounting disc is connected with a piston cylinder;

the bottom of the piston cylinder is connected with a vertical pipe;

the sucking disc, the standpipe bottom is connected with the sucking disc.

In a preferred embodiment of the present invention, the following mechanism comprises:

the sliding frame is connected to the left side of the square track in a sliding manner;

the side, close to the sliding frame, of the square track is connected with an extension frame;

a third wire guide wheel is rotatably connected to one side of the extension frame;

one side of the extension frame is connected with a slide bar;

the sliding sleeve is connected with the sliding rod in a sliding manner;

the left side of the top of the transverse plate is connected with two first telescopic rods;

the placing plate is connected between the tops of the first telescopic rods;

one side of the placing disc is connected with a helical rack which is connected with the transverse plate in a sliding manner;

the sliding rod is connected with the square block;

a third spring is connected between the top of the square block and the sliding sleeve and sleeved outside the sliding rod;

the sliding sleeve and the square block are both connected with the mounting frame;

a second pull rope is connected between the top of the mounting frame at the upper part of the second pull rope and the sliding frame and bypasses a third wire guide wheel;

the bottom of the mounting frame is rotatably connected with the pawl which is meshed with the helical rack;

and a fourth spring is connected between the top of the pawl and the mounting frame.

In a preferred embodiment of the present invention, the glazing mechanism comprises:

the four sides of the top of the transverse plate are connected with second telescopic rods, and the second telescopic rods are positioned on one side of the first telescopic rods;

the liquid tank is connected between the tops of the second telescopic rods;

the top of the liquid tank is connected with a trapezoidal plate;

the first connecting plate is connected between the first guide sleeves on the front side;

the contact wheel is connected with in the first connecting plate one side rotary type and contacts the wheel, contacts wheel and trapezoidal plate contact cooperation.

In a preferred embodiment of the present invention, the present invention further comprises a transmission mechanism, wherein the transmission mechanism comprises:

the connecting frames are connected to the two sides of the top of the right side of the transverse plate;

the two sides between the connecting frames are rotatably connected with the rollers;

the conveying belt is connected between the rollers;

and one side of the top of the transverse plate is connected with a second speed reducing motor, and an output shaft of the second speed reducing motor is connected with the left roller.

In a preferred embodiment of the present invention, the present invention further comprises a pressure relief mechanism, wherein the pressure relief mechanism comprises:

the hanging frame is connected to one side, close to the connecting frame, of the bottom of the square track;

one side of the hanging rack is connected with the push plate;

the push type air inlet valve is connected to one side of the vertical pipe, and the push type air inlet valve is in extrusion fit with the push plate.

In a preferred embodiment of the present invention, the liquid level compensation mechanism further comprises:

the special-shaped frame is connected with one side of the top of the transverse plate;

one side of the special-shaped frame is connected with the guide post in a sliding way;

the bottom of the guide column is connected with the filling block;

the lower part of the left side of the guide post is connected with a second connecting plate;

the special-shaped frame is rotatably connected with a fourth wire guide wheel;

and a third pull rope is connected between the rear side of the top of the placing disc and the top of the second connecting plate and bypasses a fourth wire wheel.

Compared with the prior art, the invention has the following advantages: 1. through the cooperation between moving mechanism, elevating system, actuation mechanism, following mechanism and the mechanism of glazing, can adsorb ceramic vessel automatically, carry out the glazing thereupon, the position of glazing keeps unanimous, can realize uniformity and automation.

2. Through the cooperation of transport mechanism, can carry out the ceramic vessel after the glazing is succeeded and convey to the right, be convenient for like this people and collect.

3. Through the cooperation of the pressure relief mechanism, the ceramic container after glazing is successful can be automatically taken down, so that the ceramic container does not need to be manually taken down, and time and labor are saved.

4. Through placing the cooperation between dish and the liquid level compensation mechanism, when ceramic container was glazed, glaze water level can descend, places the dish and then can rise a section distance, and liquid level compensation mechanism can fill glaze water for glaze water level rises, in order to avoid influencing the glazing effect.

Drawings

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

Fig. 2 is a schematic perspective view of a first part of the present invention.

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

Fig. 4 is a perspective view of a second part of the present invention.

Fig. 5 is a schematic perspective view of the following mechanism of the present invention.

Fig. 6 is a perspective view of a third part of the present invention.

Fig. 7 is a schematic perspective view of the transfer mechanism of the present invention.

FIG. 8 is a schematic perspective view of the liquid level compensation mechanism of the present invention.

Wherein the figures include the following reference numerals: 1. a base, 2, a transverse plate, 3, a curved beam, 4, a moving mechanism, 41, a first speed reducing motor, 42, a double-disc reel, 43, a first pull rope, 44, a first guide wheel, 45, a square track, 46, a square hole sleeve, 5, a lifting mechanism, 51, a first guide sleeve, 52, a first guide rod, 53, a first spring, 54, a mounting disc, 55, a fixing frame, 56, a second guide sleeve, 57, a second guide rod, 58, a driving frame, 59, a bracket, 510, a second guide wheel, 511, a limiting hole, 512, a third guide rod, 513, a second spring, 6, a suction mechanism, 61, a piston cylinder, 62, a vertical tube, 63, a suction disc, 7, a following mechanism, 71, a sliding frame, 72, an extension frame, 73, a third guide wheel, 74, a second pull rope, 75, a sliding rod, 76, a first telescopic rod, 77, a placing disc, 78, a sliding sleeve, 79, a third spring, 710, a block, 711, and a square mounting frame, 712. pawl 713, fourth spring 714, helical rack, 8, glazing mechanism 81, second telescopic link, 82, liquid tank, 83, trapezoidal board, 84, first connecting plate, 85, contact wheel, 9, transport mechanism, 91, link, 92, cylinder, 93, second gear motor, 94, conveyer belt, 10, pressure relief mechanism, 101, push type air inlet valve, 102, hanger, 103, push pedal, 11, liquid level compensation mechanism, 111, special-shaped frame, 112, guide post, 113, filling block, 114, second connecting plate, 115, fourth wire guide wheel, 116, third stay cord.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize techniques such as: terms such as above, below, upward, downward, etc. are used to describe the figures and are not meant to limit the scope of the invention as defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

The utility model provides a glaze adheres to equipment for processing of ceramic vessel outer wall, as shown in figure 1, including base 1, diaphragm 2, camber beam 3, moving mechanism 4, elevating system 5, actuation mechanism 6, follower 7 and glazing mechanism 8, base 1 top is connected with diaphragm 2, base 1 top left side is connected with camber beam 3, be connected with moving mechanism 4 between diaphragm 2 top and the camber beam 3, be connected with elevating system 5 on the moving mechanism 4, be connected with actuation mechanism 6 on the elevating system 5, be connected with follower 7 between diaphragm 2 and the moving mechanism 4, be connected with glazing mechanism 8 between diaphragm 2 top and the elevating system 5.

When people need glazing the ceramic container, place the ceramic container on following mechanism 7 earlier, make the ceramic container of the top be held by actuation mechanism 6, pour glazed water into glazing mechanism 8 in, control moving mechanism 4 anticlockwise rotation afterwards, drive elevating system 5, actuation mechanism 6 and ceramic container remove right, make glazing mechanism 8 glazing ceramic container, it can to take off the ceramic container afterwards, control moving mechanism 4 clockwise turning, drive elevating system 5 and actuation mechanism 6 remove left and reset.

Example 2

In addition to embodiment 1, as shown in fig. 2 to 4, the moving mechanism 4 includes a first speed reduction motor 41, a dual reel 42, a first pull rope 43, a first guide roller 44, a square rail 45 and a square hole sleeve 46, the first speed reduction motor 41 is connected to the upper portion of the camber beam 3, the square rail 45 is connected to the middle portion of the camber beam 3, the dual reel 42 is rotatably connected to the left side of the square rail 45, the dual reel 42 is connected to an output shaft of the first speed reduction motor 41, the first guide roller 44 is rotatably connected to the right side of the square rail 45, the first pull rope 43 is wound around the first guide roller 44 on the dual reel 42, the end portion of the first pull rope 43 is connected to the lifting mechanism 5, the two square hole sleeves 46 are slidably connected to the square rail 45, and the square hole sleeve 46 is connected to the lifting mechanism 5.

When the ceramic container needs to be transported, the first speed reducing motor 41 is controlled to rotate anticlockwise, the output shaft of the first speed reducing motor 41 rotates anticlockwise to drive the double-disc reel 42, the first pull rope 43 and the first wire guide wheel 44 to rotate anticlockwise, the right end of the first pull rope 43 moves upwards, the part of the lifting mechanism 5 moves upwards, the attraction mechanism 6 is further enabled to attract the ceramic container, then the ceramic container is driven to move rightwards, after glazing is finished and the ceramic container is taken down, the first speed reducing motor 41 is controlled to rotate clockwise to drive the double-disc reel 42, the first pull rope 43 and the first wire guide wheel 44 to rotate clockwise, and the lifting mechanism 5 and the attraction mechanism 6 move leftwards to be reset.

The lifting mechanism 5 comprises a first guide sleeve 51, a first guide rod 52, a first spring 53, a mounting disc 54, a fixed frame 55, a second guide sleeve 56, a second guide rod 57, a driving frame 58, a support 59, a second guide wheel 510, a third guide rod 512 and a second spring 513, wherein the front side and the rear side of the square hole sleeve 46 are respectively connected with the first guide sleeve 51, the first guide rod 52 is connected on the first guide sleeve 51 in a sliding way, the mounting disc 54 is connected between the bottoms of the first guide rods 52, the mounting disc 54 is connected with the suction mechanism 6, the first spring 53 is connected between the top of the mounting disc 54 and the first guide sleeve 51, the first spring 53 is respectively sleeved outside the first guide rod 52, the fixed frame 55 is connected between the middle top of the square hole sleeve 46, the second guide sleeve 56 is connected between the middle of the fixed frame 55, the inner side of the second guide sleeve 56 is connected with the second guide rod 57 in a sliding way, the driving frame 58 is connected between the front side and the rear side of the upper part of the second guide rod 57, the left side and the right side of the top of the fixed frame 55 are respectively connected with the support 59, the upper part of the bracket 59 is rotatably connected with a second wire guide wheel 510, the left end and the right end of the first pull rope 43 are connected with the top of a second guide rod 57, the left side of the square rail 45 is provided with a limiting hole 511, the limiting hole 511 is clamped with the second guide rod 57, the middle of the mounting disc 54 is slidably connected with a third guide rod 512, the top of the third guide rod 512 is connected with the bottom of the driving frame 58, a second spring 513 is connected between the bottom of the driving frame 58 and the top of the mounting disc 54, and the second spring 513 is sleeved on the outer side of the third guide rod 512.

When the first pulling rope 43 rotates counterclockwise, the right end of the first pulling rope 43 is pulled upwards to drive the second guide rod 57, the driving frame 58 and the third guide rod 512 to move upwards, the second guide rod 57 is separated from the limiting hole 511, the second spring 513 is stretched to enable the suction mechanism 6 to suck the ceramic container, when the third guide rod 512 moves upwards to the highest position, the mounting plate 54, the first guide rod 52, the suction mechanism 6 and the ceramic container are driven to move upwards to enable the first spring 53 to be compressed, the first pulling rope 43 moves rightwards to enable the ceramic container to be glazed, the ceramic container is taken down, under the action of the second spring 513 and the first spring 53, the second guide rod 57, the driving frame 58, the third guide rod 512, the first guide rod 52, the mounting plate 54 and the suction mechanism 6 are driven to move downwards, and when the first pulling rope 43 rotates clockwise, the second guide rod 57, the driving frame 58, the third guide rod 512 are driven, The third guide rod 512, the first guide rod 52, the mounting plate 54 and the suction mechanism 6 move leftwards to be reset, so that the second guide rod 57 is clamped with the limiting hole 511.

The suction mechanism 6 comprises a piston cylinder 61, a vertical pipe 62 and a suction cup 63, the bottom of the mounting plate 54 is connected with the piston cylinder 61, the middle of the bottom of the piston cylinder 61 is connected with the vertical pipe 62, and the bottom of the vertical pipe 62 is connected with the suction cup 63.

When third guide arm 512 upward movement, adsorb the air for the ceramic vessel is adsorbed by sucking disc 63, can fix the ceramic vessel like this, and mounting disc 54 moves right and drives piston cylinder 61, standpipe 62, sucking disc 63 and ceramic vessel and move right, takes off the ceramic vessel after accomplishing the glazing, and the air flows in the piston cylinder 61, and then makes third guide arm 512 move down, then follows mounting disc 54 and move left and drive piston cylinder 61, standpipe 62 and sucking disc 63 and move left and reset.

Example 3

Based on the embodiment 2, as shown in fig. 1, 2, 3, 5, 6, 7 and 8, the following mechanism 7 includes a sliding frame 71, an extension frame 72, a third wire guiding wheel 73, a second pulling rope 74, a sliding rod 75, a first telescopic rod 76, a placing plate 77, a sliding sleeve 78, a third spring 79, a square block 710, a mounting frame 711, a pawl 712, a fourth spring 713 and a helical rack 714, the sliding frame 71 is slidably connected to the left side of the square rail 45, the extension frame 72 is connected to the left front side of the square rail 45, the third wire guiding wheel 73 is rotatably connected to the right upper side of the extension frame 72, the sliding rod 75 is connected to the right lower side of the extension frame 72, the sliding sleeve 78 is slidably connected to the sliding rod 75, two first telescopic rods 76 are connected to the left side of the top of the transverse plate 2, the placing plate 77 is connected between the tops of the first telescopic rods 76, the helical rack 714 is connected to the left side of the placing plate 77, the helical rack 714 is slidably connected to the transverse plate 2, the lower portion of the sliding rod 75 is connected with a square block 710, a third spring 79 is connected between the top of the square block 710 and the sliding sleeve 78, the third spring 79 is sleeved outside the sliding rod 75, the right side of the sliding sleeve 78 and the right side of the square block 710 are both connected with a mounting frame 711, a second pull rope 74 is connected between the top of the mounting frame 711 on the upper portion and the sliding frame 71, the second pull rope 74 bypasses the third wire guide wheel 73, the bottom of the right side of the mounting frame 711 is connected with a pawl 712 in a rotating mode, the pawl 712 is meshed with the bevel rack 714, and a fourth spring 713 is connected between the top of the left side of the pawl 712 and the mounting frame 711.

When people need to glaze the ceramic container, the ceramic container is firstly placed on the placing disc 77, when the square hole sleeve 46 moves leftwards to be jointed with the sliding frame 71, the sliding frame 71 is driven to move leftwards, so that the second pull rope 74 is pulled upwards to drive the upper mounting frame 711, the sliding sleeve 78, the pawl 712, the fourth spring 713, the helical rack 714, the placing disc 77 and the ceramic container to move upwards, the third spring 79 is stretched, the lower pawl 712 blocks the helical rack 714 to prevent the helical rack 714 from sliding downwards, when the sliding frame 71 moves rightwards, the second pull rope 74 is loosened, the mounting frame 711, the sliding sleeve 78, the pawl 712 and the fourth spring 713 are driven to move downwards under the action of the third spring 79, when the upper pawl 712 is contacted with the convex part of the helical rack 714, the pawl 712 is rotated, the fourth spring 713 is stretched, and when the upper pawl 712 is contacted with the concave part of the helical rack 714, under the action of the fourth spring 713, the pawl 712 is rotated to reset, the placing plate 77 can be continuously and slowly moved upwards by repeating the above operations, the first telescopic rod 76 is slowly stretched, when the placing plate 77 needs to be reset, the two pawls 712 are poked, the pawl 712 is separated from the helical rack 714, the fourth spring 713 is stretched, the helical rack 714 and the placing plate 77 are moved downwards to reset, the first telescopic rod 76 is compressed to reset, then the two pawls 712 are loosened, and under the action of the fourth spring 713, the pawl 712 is driven to rotate to reset.

Glazing mechanism 8 is including second telescopic link 81, liquid tank 82, trapezoidal plate 83, first connecting plate 84 and contact wheel 85, diaphragm 2 left side top four sides all are connected with second telescopic link 81, second telescopic link 81 is located first telescopic link 76 right side, be connected with liquid tank 82 between the second telescopic link 81 top, liquid tank 82 top is connected with trapezoidal plate 83, be connected with first connecting plate 84 between the first guide pin bushing 51 of front side, first connecting plate 84 front side rotation type is connected with contact wheel 85, contact wheel 85 and trapezoidal plate 83 contact cooperation.

When people pour glaze water into the liquid tank 82, the first guide sleeve 51 moves rightwards to drive the first connecting plate 84 and the contact wheel 85 to move rightwards, when the contact wheel 85 is in contact with the trapezoidal plate 83, the liquid tank 82 and the trapezoidal plate 83 move upwards, the second telescopic rod 81 is stretched to enable the bottom of the ceramic container to be glazed, when the contact wheel 85 is separated from the trapezoidal plate 83, the liquid tank 82 and the trapezoidal plate 83 move downwards, the second telescopic rod 81 is compressed to reset, and when the first guide sleeve 51 moves leftwards to drive the first connecting plate 84 and the contact wheel 85 to move leftwards to reset.

Still including transport mechanism 9, transport mechanism 9 is including link 91, cylinder 92, second gear motor 93 and conveyer belt 94, and both sides all are connected with link 91 around 2 right side tops of diaphragm, and the equal rotary type in both sides is connected with cylinder 92 between the link 91, is connected with conveyer belt 94 between the cylinder 92, and the right back side in 2 tops of diaphragm is connected with second gear motor 93, and second gear motor 93 output shaft is connected with left cylinder 92.

When the ceramic container is glazed and falls onto the conveyor belt 94, the second speed reducing motor 93 is started, so that the roller 92 and the conveyor belt 94 rotate to drive the ceramic container to move rightwards, people can collect the ceramic container conveniently, and the second speed reducing motor 93 can be turned off when the ceramic container is not used.

The pressure relief mechanism 10 comprises a press type air inlet valve 101, a hanging frame 102 and a push plate 103, the hanging frame 102 is connected to the right side of the bottom of the square rail 45, the push plate 103 is connected to the left side of the hanging frame 102, the press type air inlet valve 101 is connected to the right side of the vertical pipe 62, and the press type air inlet valve 101 is in extrusion fit with the push plate 103.

When the vertical tube 62 moves rightwards to drive the push type air inlet valve 101 to move rightwards, when the push type air inlet valve 101 is squeezed with the push plate 103, the push type air inlet valve 101 is opened, air flows into the piston cylinder 61, the ceramic container is released, when the vertical tube 62 moves leftwards to drive the push type air inlet valve 101 to move leftwards, and when the push type air inlet valve 101 is separated from the push plate 103, the push type air inlet valve 101 is closed.

Still including liquid level compensation mechanism 11, liquid level compensation mechanism 11 is including dysmorphism frame 111, guide post 112, filling block 113, second connecting plate 114, fourth wire wheel 115 and third stay cord 116, 2 top left sides of the front portion of diaphragm are connected with dysmorphism frame 111, dysmorphism frame 111 right side sliding connection has guide post 112, guide post 112 bottom is connected with filling block 113, guide post 112 left side sub-unit connection has second connecting plate 114, dysmorphism frame 111 left side rear portion rotary type is connected with fourth wire wheel 115, it is connected with third stay cord 116 to place between dish 77 top rear side and the second connecting plate 114 top, fourth wire wheel 115 is walked around to third stay cord 116.

During the glazing of ceramic vessel, glaze water can be continuous to be reduced, the water level then can descend, in order to can normally glaze, need rise glaze water, then can use this device, when placing a set 77 and rise a bit distance, loosen the stay cord, make guide post 112, filling block 113 and second connecting plate 114 remove a bit distance downwards, make filling block 113 go deep into the packing in glaze water, make the glaze water level rise, when placing set 77 and descend, the pulling stay cord, make guide post 112, filling block 113 and second connecting plate 114 rebound and reset.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a glaze adheres to equipment for ceramic container outer wall processing, characterized by, including:

the device comprises a base (1) and a transverse plate (2), wherein the top of the base (1) is connected with the transverse plate (2);

one side of the top of the base (1) is connected with the curved beam (3);

the moving mechanism (4) is connected between the top of the transverse plate (2) and the curved beam (3);

the lifting mechanism (5) is connected to the moving mechanism (4);

the suction mechanism (6) is connected to the lifting mechanism (5);

the following mechanism (7) is connected between the transverse plate (2) and the moving mechanism (4);

the glazing mechanism (8) is connected between the top of the transverse plate (2) and the lifting mechanism (5);

the moving mechanism (4) comprises:

one side of the bent beam (3) is connected with the first speed reducing motor (41);

the middle part of the bent beam (3) is connected with the square rail (45);

the double-disc reel (42) is rotatably connected to one side, close to the first speed reducing motor (41), of the square rail (45), and the double-disc reel (42) is connected with an output shaft of the first speed reducing motor (41);

the first wire guide wheel (44) is rotatably connected to one side, away from the double-disc reel (42), of the square rail (45);

the first pull rope (43) is wound on the double-disc reel (42), the first pull rope (43) is wound around the first guide wire wheel (44), and the end part of the first pull rope (43) is connected with the lifting mechanism (5);

the square hole sleeves (46), the square rails (45) are connected with the two square hole sleeves (46) in a sliding mode, and the square hole sleeves (46) are connected with the lifting mechanism (5);

the following mechanism (7) comprises:

the sliding frame (71) is connected to the left side of the square rail (45) in a sliding manner;

the square rail (45) is connected with the extending frame (72) at one side close to the sliding frame (71);

a third wire guide wheel (73), wherein one side of the extension frame (72) is rotatably connected with the third wire guide wheel (73);

a sliding rod (75) is connected to one side of the extension frame (72);

the sliding sleeve (78) is connected with the sliding rod (75) in a sliding manner;

the left side of the top of the transverse plate (2) is connected with two first telescopic rods (76);

a placing disc (77) is connected between the tops of the first telescopic rods (76);

one side of the placing disc (77) is connected with the helical rack (714), and the helical rack (714) is connected with the transverse plate (2) in a sliding manner;

the sliding rod (75) is connected with the square block (710);

the third spring (79) is connected between the top of the square block (710) and the sliding sleeve (78), and the third spring (79) is sleeved on the outer side of the sliding rod (75);

the mounting frame (711), the sliding sleeve (78) and the square block (710) are connected with the mounting frame (711);

a second pull rope (74) is connected between the top of the upper mounting frame (711) and the sliding frame (71), and the second pull rope (74) bypasses the third wire guide wheel (73);

the bottom of the mounting frame (711) is rotatably connected with a pawl (712), and the pawl (712) is meshed with the helical rack (714);

and a fourth spring (713) is connected between the top of the pawl (712) and the mounting frame (711).

2. The glaze attaching apparatus for processing the outer wall of a ceramic container as set forth in claim 1, wherein the elevating means (5) comprises:

the two sides of the first guide sleeve (51) and the square hole sleeve (46) are both connected with the first guide sleeve (51);

the first guide rod (52) is connected to the first guide sleeve (51) in a sliding mode;

the mounting disc (54) is connected between the bottoms of the first guide rods (52), and the mounting disc (54) is connected with the suction mechanism (6);

the first springs (53) are connected between the tops of the mounting plates (54) and the first guide sleeves (51), and the first springs (53) are sleeved on the outer sides of the first guide rods (52);

the fixing frame (55) is connected between the middle tops of the square hole sleeves (46);

the middle of the fixing frame (55) is connected with a second guide sleeve (56);

the inner side of the second guide sleeve (56) is connected with a second guide rod (57) in a sliding way;

the driving frame (58) is connected between the two sides of the second guide rod (57);

the bracket (59) is connected with both sides of the top of the fixed frame (55);

the bracket (59) is rotatably connected with the second wire guide wheels (510), and two ends of the first pull rope (43) are connected with the tops of the second guide rods (57);

one side of the square rail (45) is provided with a limiting hole (511), and the limiting hole (511) is clamped with the second guide rod (57);

the mounting disc (54) is connected with the third guide rod (512) in a sliding mode, and the top of the third guide rod (512) is connected with the bottom of the driving frame (58);

and a second spring (513) is connected between the bottom of the driving frame (58) and the top of the mounting plate (54), and the second spring (513) is sleeved on the outer side of the third guide rod (512).

3. The glaze attaching device for processing the outer wall of the ceramic container as set forth in claim 2, wherein the engaging mechanism (6) comprises:

the bottom of the mounting disc (54) is connected with the piston cylinder (61);

the bottom of the piston cylinder (61) is connected with the vertical pipe (62);

the bottom of the vertical pipe (62) is connected with the sucker (63).

4. A glaze attachment apparatus for use in the processing of the outer wall of a ceramic container as defined in claim 3, wherein the glazing means (8) comprises:

the four sides of the top of the transverse plate (2) are connected with second telescopic rods (81), and the second telescopic rods (81) are positioned on one side of the first telescopic rod (76);

the liquid tank (82) is connected between the tops of the second telescopic rods (81);

the top of the liquid tank (82) is connected with the trapezoidal plate (83);

the first connecting plate (84) is connected between the first guide sleeves (51) on the front side;

the contact wheel (85) is rotatably connected to one side of the first connecting plate (84), and the contact wheel (85) is in contact fit with the trapezoidal plate (83).

5. The glaze attaching apparatus for processing the outer wall of a ceramic container as set forth in claim 4, further comprising a conveying mechanism (9), wherein the conveying mechanism (9) comprises:

the connecting frames (91) are connected with the two sides of the top of the right side of the transverse plate (2);

the two sides of the connecting frame (91) are rotatably connected with the rollers (92);

a conveyor belt (94), wherein the conveyor belt (94) is connected between the rollers (92);

and one side of the top of the transverse plate (2) is connected with a second speed reducing motor (93), and an output shaft of the second speed reducing motor (93) is connected with the left roller (92).

6. The glaze attaching device for processing the outer wall of the ceramic container as claimed in claim 5, further comprising a pressure releasing mechanism (10), wherein the pressure releasing mechanism (10) comprises:

the hanger (102) is connected to one side, close to the connecting frame (91), of the bottom of the square rail (45);

the push plate (103) is connected to one side of the hanger (102);

the pressing type air inlet valve (101) is connected to one side of the vertical pipe (62), and the pressing type air inlet valve (101) is in extrusion fit with the push plate (103).

7. The glaze attaching device for processing the outer wall of a ceramic container as recited in claim 6, further comprising a liquid level compensating mechanism (11), wherein the liquid level compensating mechanism (11) comprises:

the special-shaped frame (111) is connected with one side of the top of the transverse plate (2);

one side of the special-shaped frame (111) is connected with the guide column (112) in a sliding way;

the bottom of the guide column (112) is connected with the filling block (113);

the lower part of the left side of the guide column (112) is connected with a second connecting plate (114);

a fourth guide wheel (115), the special-shaped frame (111) is connected with the fourth guide wheel (115) in a rotating way;

and a third pull rope (116) is connected between the rear side of the top of the placing disc (77) and the top of the second connecting plate (114), and the fourth wire guide wheel (115) is wound by the third pull rope (116).

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