CN111267216A - Intelligent production line system for blank making of ceramic wine bottles - Google Patents

Abstract

The invention relates to the field of ceramic wine bottle blank making devices, in particular to an intelligent production line system for making a ceramic wine bottle blank, which comprises a rack, a transmission structure, a clamping device, a centrifugal structure, a moving structure, an adjusting structure, a sliding structure, a grouting structure, a mold transmission device, a drying device and a transfer device, wherein a mold is poured on the rack after passing through the transmission structure, the clamping device, the centrifugal mechanism and the grouting structure, a mold picking and releasing manipulator and a mold conveying manipulator are matched to put the mold on the drying device for drying, the dried mold is conveyed to the clamping device of the rack through the transfer device for circulating grouting centrifugation and other processes, the cyclic utilization is automatically realized, the full automation of a ceramic wine bottle blank making process can be realized, the manual operation of workers is not needed, the ceramic wine bottle blank making efficiency is improved, the yield can be improved, but also can reduce the production cost of the ceramic wine bottle.

Description

Intelligent production line system for blank making of ceramic wine bottles

Technical Field

The invention relates to the field of ceramic wine bottle blank making devices, in particular to an intelligent production line system for making ceramic wine bottles.

Background

Wine bottles are containers used to contain wine. Historically, wine bottles are mostly represented in front of people in a simple style of soy sauce bottle type, glass material, less information and no heavy decoration. The material of wine bottles is more and more diversified, and the wine bottles comprise gold plating, copper plating, iron, tin, stainless steel, pottery, purple sand, porcelain, wood, bamboo, glass, oxhorn, bakelite and the like. Wine bottles of various materials exhibit their own characteristics and styles. Some are gorgeous and precious, some are solemn and elegant, and some are light and body. Common wine bottles include ceramic bottles, glass bottles, plastic bottles and the like, wherein the ceramic bottles are particularly popular.

However, the traditional intelligent production line system for making blanks of ceramic wine bottles generally adopts fixed-point grouting operation on the mold in the using process, so that good continuity cannot be realized, and a static grouting mode is generally adopted during grouting, the condition that the thickness of the product inside the mold is uneven possibly occurs is caused, clamping and disassembling cannot be well performed during mold clamping, time is wasted, and the condition that the grouting amount is too much wasted possibly exists during grouting.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an intelligent production line system for blank making of ceramic wine bottles.

The technical scheme adopted by the invention for solving the technical problems is as follows: an intelligent production line system for ceramic wine bottle blank making comprises a rack, a transmission structure, a clamping device, a centrifugal structure, a moving structure, an adjusting structure, a sliding structure and a grouting structure, wherein the transmission structure for moving a mould is arranged at one end of the rack for supporting and mounting other parts; the clamping device for clamping and fixing the die is arranged at one end of the transmission structure, and the centrifugal structure for centrifuging the die is arranged at the bottom end of the clamping device; the top end of the rack is provided with the moving structure for controlling the grouting position, the top end of the moving structure is provided with the adjusting structure for adjusting the grouting position, one end of the adjusting structure is provided with the sliding structure for adjusting the grouting position, the top end of the adjusting structure is provided with the grouting structure for grouting, the end part of the rack is provided with a mold transmission device extending in the width direction of the rack, one end of the grinding tool transmission device, which is adjacent to the rack, is provided with an unlocking mechanism, one side of the unlocking mechanism is provided with an unlocking and mold-taking manipulator, a conveying belt extending along the grinding tool transmission device is arranged below the unlocking and mold-taking manipulator, the unlocking and mold-taking manipulator is used for clamping a mold on the clamping device onto the conveying belt, and the other end of the grinding tool transmission device is provided with a mold-sending manipulator, grinding apparatus transmission device one side is equipped with drying device, drying device includes transmission device and baking house, transmission device is located the baking house with send between the mould manipulator, just send the mould manipulator be used for with mould clamp on the conveyer belt is established transmission device, transmission device with the frame is equipped with transfer device, transfer device be used for with mould on the transmission device removes extremely on the clamping device of frame.

Specifically, drive structure is including clamping device, pivot, sprocket, chain, first sprocket, belt, second sprocket, fixed plate and motor, clamping device is equipped with four, four clamping device all is fixed in the inside of frame four clamping device is last all to rotate and is connected with the pivot the one end of pivot is fixed the sprocket, four the sprocket divide into two sets ofly, every group the sprocket passes through the chain rotates to be connected, at one of them the external fixation of pivot the first sprocket the one end of frame is fixed the fixed plate the top of fixed plate is fixed the motor the one end of motor is fixed the second sprocket, just first sprocket with the second sprocket passes through the belt rotates to be connected.

Specifically, the clamping device comprises a connecting rod, a connecting plate, a placing plate, a stand column, a sliding rod, a clamping plate, a first spring, a button, a limiting groove, a sliding block, a limiting tooth, a second spring, a rotating column, a first bearing, a ball, a slot, an anti-skidding groove, an inserted rod, a rotating groove and a third spring, wherein the connecting rod is clamped between two chains, the connecting plate is fixed at one end of the connecting rod, the placing plate is arranged at the top end of the connecting plate, the stand column is provided with two upright columns, the two upright columns are vertically fixed at two ends of the placing plate in a symmetrical relation, the sliding rod in a cuboid structure is connected on the stand column in a sliding way, the clamping plate is fixed at one end of the sliding rod in a vertical relation, the first spring is connected between the clamping plate and the stand column, the button is connected in the stand column in a sliding way, the limiting grooves which are distributed in a linear structure are, the bottom end of the button is fixed with the sliding block, the sliding block is connected with the upright column in a sliding mode, one end of the sliding block is fixed with the limiting tooth, the sliding block can be clamped with the limiting groove in the sliding rod through the limiting tooth, the second spring is clamped and fixed between the sliding block and the upright column, the bottom end of the placing plate is fixed with the rotary column in a vertical relation, the rotary column is rotatably connected with the connecting plate through the first bearing, a plurality of balls roll in the connecting plate, the inserting groove is formed in the rotary column, the anti-skidding groove is formed in the connecting plate, the inserting rod is connected in the rotary column in a sliding mode, the rotary groove is formed in the connecting plate, and the third spring is clamped and fixed between the inserting rod and the connecting plate.

Specifically, the centrifugal structure comprises two guide rails, a fixing frame, two upright rods, an insertion block, rollers, a rolling belt, a second motor, a cross rod and a first air cylinder, wherein the two guide rails are symmetrically fixed at one end of two clamping devices respectively, the two guide rails are connected with the guide sleeves in a sliding manner, one end of each guide sleeve is fixed with the fixing frame, the three upright rods are rotatably connected inside the fixing frame, the insertion block is fixed at the top ends of the upright rods, the rollers are fixed outside the three upright rods, the three rollers are rotatably connected through the rolling belt, the second motor is fixed at the bottom end of the fixing frame and fixedly connected with one of the upright rods, the cross rod is fixed at one end of each clamping device, and the first air cylinder is fixed at one end of the fixing frame, and one end of the first cylinder is fixed with the cross rod.

Specifically, the mobile structure includes traveller, sliding sleeve and mount, the traveller is equipped with two, two the traveller is parallel relationship and is fixed in respectively the both ends of frame, two the outside sliding connection of traveller has the sliding sleeve deviates from the one end of traveller is fixed the mount, just the mount passes through the traveller with the sliding sleeve with frame sliding connection.

Specifically, the adjusting structure comprises two fixing grooves, two supporting sleeves, a fixing sleeve, a threaded sleeve, a screw rod, a second bearing, a rotating sleeve, a fixing rod, a rotating cylinder, a first gear and a second gear, wherein the two fixing grooves are respectively arranged at two ends of the fixing frame, the two ends of the fixing frame are symmetrically fixed with the supporting sleeves respectively, the fixing sleeve is fixed at the top end of the supporting sleeve, the threaded sleeve is fixed at the top end of the fixing sleeve, the screw rod is connected with the internal thread of the threaded sleeve and penetrates through the fixing sleeve and the supporting sleeve, the second bearing is fixed outside the screw rod, the rotating sleeve is fixed outside the second bearing, the screw rod is rotatably connected with the rotating sleeve through the second bearing, and the fixing rod is fixed at one end of the rotating sleeve, the rotating rod is rotatably connected with the fixed sleeve, the rotary drum is rotatably connected inside the fixed sleeve, the screw rod penetrates through the rotary drum and is in threaded connection with the rotary drum, the first gear is fixed outside the rotary drum and is rotatably connected with the fixed sleeve, the second gear is rotatably connected inside the fixed sleeve and is meshed with the first gear, and the center of the second gear is fixedly connected with the rotating rod.

Specifically, the grouting structure comprises two material containing barrels, a fixed pipe, a connecting pipe, a discharging pipe, a first grouting pipe, a second grouting pipe, a first valve, a second valve, a grouting sleeve, a spray head, a liquid level sensor and an electromagnetic valve, wherein the two material containing barrels are fixed at the top end of the fixed frame in a symmetrical relationship, the fixed pipe is fixed outside the material containing barrels, the connecting pipe is fixed at one end of the fixed pipe, the two discharging pipes are fixed at one end of the connecting pipe, which is far away from the fixed pipe, the first grouting pipe is fixed at one end of the discharging pipe, the second grouting pipe is fixed at the other end of the discharging pipe, the first valve is fixed at one end of the first grouting pipe, the second valve is fixed at one end of the second grouting pipe, the grouting sleeve is fixed at one end of the first valve and one end of the second valve, the bottom end of the grouting sleeve is fixed with the spray head, one end of the grouting sleeve is fixed with the liquid level sensor, the top end of the grouting sleeve is fixed with the electromagnetic valve, the liquid level sensor is electrically connected with the electromagnetic valve, and the electromagnetic valve is electrically connected with the first valve and the second valve.

Specifically, sliding construction includes spout, screw, mounting panel and nut, the spout is located the dead lever the inside sliding connection of spout has the screw the one end of dead lever is equipped with the mounting panel, the screw runs through the mounting panel the one end threaded connection of screw has the nut.

The invention has the beneficial effects that:

(1) the intelligent production line system for ceramic wine bottle blank making can ensure that four chain wheels can be rotationally connected with a frame through four rotating shafts by fixing four clamping devices on the frame in a concave structure, and a first chain wheel is fixed outside one rotating shaft and is rotationally connected with a second chain wheel fixed at one end of a first motor through a belt, so that when the first motor works, the rotating shafts can be driven to rotate, and one of the chain wheels can be driven to rotate by the rotating shafts, and because the four chain wheels are divided into two groups and the two groups of chain wheels are driven by the chains, one chain wheel can drive the four chain wheels to simultaneously rotate, thereby realizing the synchronous rotation of the four chain wheels, reducing the equipment cost, and when two chains synchronously rotate, driving a plurality of groups of connecting rods of which are two groups and are clamped between the two chains to do translational motion, because fix through the connecting plate between every group connecting rod to can enough increase the stability between every group connecting rod, can also make the board of placing fixed on the connecting plate more stable.

(2) According to the intelligent production line system for ceramic wine bottle blank making, the placing plate is arranged, the mold can be placed on the placing plate, the mold can move along with the translational motion of the placing plate, the mold on the placing plate can be driven to move, the mold after grouting can be conveniently moved out in time, and continuous processing is convenient to carry out, so that the processing efficiency is increased, because the two upright posts are symmetrically arranged on the placing plate, the slide rods slide in the upright posts, the clamping plate is fixed at one end of the slide rods, the mold can be fixed when the clamping plate is abutted against the mold, because the plurality of limiting grooves with triangular cross sections are arranged at the two ends of the slide rods, the limiting teeth with triangular cross sections on the sliding blocks are matched, the limiting teeth can rise under the elastic force of the second spring after the clamping plate is abutted against the mold, and can be inserted into the limiting grooves, the slide bar is limited and fixed, so that the die is fixed, the die is prevented from falling, when the die is detached, the button is only pressed, the limit teeth are no longer limited on the slide bar, and the clamping plate can automatically reset under the elastic action of the first spring.

(3) According to the intelligent production line system for blank making of the ceramic wine bottle, when the mold on the placing plate moves to be close to the insert block on the upright post, the first air cylinder acts at the moment to jack up the fixing frame, the insert block on the upright post can be just inserted into the slot inside the rotary column, the second motor works at the moment, the second motor works to drive one upright post fixed with the second motor to rotate, the rollers are fixed outside the three upright posts rotatably connected to the inside of the fixing frame, and the three rollers are rotatably connected through the rolling belt, so that one upright post rotates to drive the other two upright posts to synchronously rotate, the insert rod is pushed into the inside of the rotary groove due to the fact that the insert block is inserted into the slot, the rotary column is not limited by the insert rod, and a space for the rotation of the insert rod is arranged inside the rotary groove, therefore, the rotary column can rotate under the rotation of the vertical rod, the rotation of the placing plate is completed only by one step, complex processes are saved, time can be saved, efficiency is improved, the mold can rotate when grouting is performed on the mold through the rotation of the placing plate, centrifugal force is generated, and the quality of products is guaranteed.

(4) According to the intelligent production line system for ceramic wine bottle blank making, when the height of the spray head needs to be adjusted, only the rotating rod needs to be rotated, the rotating rod is fixed with the second gear which is rotatably connected inside the fixed sleeve, the second gear can be driven to rotate when the rotating rod rotates, the first gear which is meshed with the second gear can be driven to rotate when the second gear rotates, the first gear is fixedly connected with the rotary drum, and the screw rod is in threaded connection with the rotary drum, so that the screw rod can be driven to rotate in a threaded manner in the rotating process of the rotary drum, the up-and-down lifting of the screw rod can be realized, the screw rod is rotatably connected with the fixed rod through the bearing, the up-and-down lifting of the fixed rod can be realized, the grouting sleeve is connected with the fixed rod through the screw and the nut, the lifting of the spray head can be realized, the up-and-down adjustment of the spray head is facilitated, therefore, the left position and the right position of the mounting plate can be conveniently adjusted, the spacing position of the spray heads can be conveniently adjusted, and actual grouting can be conveniently carried out on the mold.

(5) The intelligent production line system for ceramic wine bottle blank making can temporarily store the slurry by arranging the material containing barrel at the top end of the fixing frame, can further divide the slurry by fixing the fixing pipe outside the material containing barrel and fixing the connecting pipe at one end of the fixing pipe, and can further divide the slurry by arranging the blanking pipes at two ends of the connecting pipe respectively, so that the working efficiency can be increased, the two ends of the blanking pipe are respectively connected with the first grouting pipe and the second grouting pipe, and both the grouting pipes are connected with the grouting sleeve, because the liquid level sensor is arranged at the bottom end of the grouting sleeve, the injection amount of the slurry in the mold can be accurately known through the arrangement of the liquid level sensor, when the slurry in the mold is injected to exceed a certain liquid level, the liquid level sensor can transmit an electric signal to the electromagnetic valve, and the electromagnetic valve can transmit the electric signal to the first valve and the second valve when the electromagnetic valve works, at this moment, first valve is closed, and the work of second valve, thick liquid will follow the outflow of second slip casting pipe, because the outside diameter of second slip casting pipe is less than the outside diameter of first slip casting pipe to just can realize the outflow of low discharge, thereby can avoid overflowing and extravagant of thick liquid that large-traffic thick liquid outflow caused, thereby can improve the raw materials rate of utilization greatly.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural diagram of an intelligent production line system for blank making of ceramic wine bottles, provided by the invention;

FIG. 2 is a structural diagram of the overall structure of a preferred embodiment of the intelligent production line system for ceramic wine bottle blank making provided by the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic view of the clamping device shown in FIG. 2;

FIG. 5 is a schematic view showing a coupling structure of the coupling plate and the placing plate shown in FIG. 3;

FIG. 6 is an enlarged view of the portion B shown in FIG. 2;

FIG. 7 is an enlarged view of section C of FIG. 2;

FIG. 8 is a schematic structural view of the adjustment mechanism shown in FIG. 2;

FIG. 9 is a schematic structural view of the sliding mechanism shown in FIG. 2;

fig. 10 is an enlarged view of the portion D shown in fig. 2.

In the figure: 1. a frame, 2, a transmission structure, 21, a clamping device, 22, a rotating shaft, 23, a chain wheel, 24, a chain, 25, a first chain wheel, 26, a belt, 27, a second chain wheel, 28, a fixed plate, 29, a first motor, 3, a clamping device, 31, a connecting rod, 32, a connecting plate, 33, a placing plate, 34, a stand column, 35, a sliding rod, 36, a clamping plate, 37, a first spring, 38, a button, 39, a limiting groove, 39a, a sliding block, 39b, a limiting tooth, 39c, a second spring, 39d, a rotating column, 39e, a first bearing, 39f, a ball, 39g, a slot, 39h, an anti-slip slot, 39i, a plug rod, 39j, a rotating slot, 39k, a third spring, 4, a centrifugal structure, 41, a guide rail, 42, a guide sleeve, 43, a fixed frame, 44, a vertical rod, a third spring, 4, a centrifugal structure, 41, a guide rail, 47, a guide sleeve, a guide rail, 48, a second motor, 49, a cross, 5. the device comprises a moving structure 51, a sliding column 52, a sliding sleeve 53, a fixed frame 6, an adjusting structure 61, a fixed groove 62, a supporting sleeve 63, a fixed sleeve 64, a threaded sleeve 65, a screw rod 66, a second bearing 67, a rotating sleeve 68, a fixed rod 69, a rotating cylinder 69a, a first gear 69b, a first gear 69c, a second gear 7, a sliding structure 71, a sliding groove 72, a screw 73, a mounting plate 74, a nut 8, a grouting structure 81, a material containing barrel 82, a fixed pipe 83, a connecting pipe 84, a blanking pipe 85, a first grouting pipe 86, a second grouting pipe 87, a first valve 88, a second valve 89, a grouting sleeve 89a, a nozzle 89b, a liquid level sensor 89c, an electromagnetic valve 90, a mold conveying device 91, a conveying device 92, a drying room 93 and a transferring device.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-10, the intelligent production line system for ceramic wine bottle blank making according to the present invention comprises a rack 1, a transmission structure 2, a clamping device 3, a centrifugal structure 4, a moving structure 5, an adjusting structure 6, a sliding structure 7 and a grouting structure 8, wherein the transmission structure 2 for moving a mold is installed at one end of the rack 1 for supporting and installing other components; the clamping device 3 for clamping and fixing the mold is arranged at one end of the transmission structure 2, and the centrifugal structure 4 for centrifuging the mold is arranged at the bottom end of the clamping device 3; the top of frame 1 sets up and is used for controlling the slip casting position removal structure 5 the top installation of removal structure 5 is used for adjusting the slip casting position adjust structure 6 the one end installation of adjusting structure 6 is used for adjusting the slip casting position sliding structure 7 the top installation of adjusting structure 6 is used for slip casting structure 8.

Specifically, the transmission structure 2 includes four clamping devices 21, a rotating shaft 22, chain wheels 23, chains 24, first chain wheels 25, belts 26, second chain wheels 27, a fixing plate 28, and a motor 29, the four clamping devices 21 are all fixed inside the frame 1, the rotating shaft 22 is rotatably connected to each of the four clamping devices 21, the chain wheels 23 are fixed to one end of the rotating shaft 22, the four chain wheels 23 are divided into two groups, each group of the chain wheels 23 is rotatably connected by the chains 24, the first chain wheel 25 is fixed to the outside of one of the rotating shafts 22, the fixing plate 28 is fixed to one end of the frame 1, the motor 29 is fixed to the top end of the fixing plate 28, the second chain wheel 27 is fixed to one end of the motor 29, and the first chain wheel 25 and the second chain wheel 27 are rotatably connected by the belts 26, by fixing four clamping devices 21 on the frame 1 in a concave structure, it can be ensured that the four chain wheels 23 can be rotatably connected with the frame 1 through the four rotating shafts 22, and the first chain wheel 25 is fixed outside one of the rotating shafts 22, and the first chain wheel 25 is rotatably connected with the second chain wheel 27 fixed at one end of the first motor 29 through the belt 26, so that when the first motor 29 operates, the rotating shaft 22 can be driven to rotate, the rotating shaft 22 can drive one of the chain wheels 23 to rotate, and since the four chain wheels 23 are divided into two groups, and the two groups of chain wheels 23 are driven by the chain 24, one chain wheel 23 rotates to drive the four chain wheels 23 to rotate simultaneously, thereby achieving synchronous rotation of the four chain wheels 23, the equipment cost can be reduced, when the two chains 24 rotate synchronously, a plurality of groups of two-in-one connecting rods 31 clamped between the two chains 24 can be driven to move in a translation manner, because each group of connecting rods 31 is fixed through the connecting plate 32, the stability between each group of connecting rods 31 can be improved, and the placing plate 33 fixed on the connecting plate 32 can be more stable, the end part of the rack is provided with a mold transmission device 90 extending along the width direction of the rack 1, one end of the grinding tool transmission device, which is adjacent to the rack 1, is provided with an unlocking mechanism, one side of the unlocking mechanism is provided with an unlocking mold taking manipulator, a conveyor belt extending along the grinding tool transmission device is arranged below the unlocking mold taking manipulator, and the unlocking mold taking manipulator is used for clamping the mold on the clamping device 3 onto the conveyor belt, the other end of grinding apparatus transmission device is equipped with and send the mould manipulator, grinding apparatus transmission device one side is equipped with drying device, drying device includes transmission device 91 and baking house 92, transmission device 91 is located baking house 92 with send between the mould manipulator, just send the mould manipulator be used for with mould clamp on the conveyer belt is established transmission device, transmission device with frame 1 is equipped with transfer device 93, transfer device 93 be used for with mould on the transmission device 91 removes extremely on the clamping device 3 of frame 1.

The mould is through transmission structure 2 in frame 1, clamping device 3, accomplish pouring of mould behind centrifugal mechanism 4 and the slip casting structure 8, the mould is got to the unblank and is gone to transfer the mould to dry on drying device with sending the cooperation of mould manipulator, mould after the stoving realizes cyclic utilization on the clamping device 3 of transfer device 93 transportation to frame 1, can realize the full automatization of pottery beverage bottle base technology from this, need not staff manual operation, the efficiency of pottery beverage bottle base has been promoted, not only can the increase of production, and can reduce the manufacturing cost of pottery beverage bottle.

Specifically, the clamping device 3 includes a connecting rod 31, a connecting plate 32, a placing plate 33, a vertical column 34, a sliding rod 35, a clamping plate 36, a first spring 37, a button 38, a limiting groove 39, a sliding block 39a, a limiting tooth 39b, a second spring 39c, a rotating column 39d, a first bearing 39e, a ball 39f, an insertion groove 39g, an anti-sliding groove 39h, an insertion rod 39i, a rotating groove 39j and a third spring 39k, the connecting rod 31 is clamped between the two chains 24, the connecting plate 32 is fixed at one end of the connecting rod 31, the placing plate 33 is arranged at the top end of the connecting plate 32, the two vertical columns 34 are provided, the two vertical columns 34 are perpendicularly fixed at two ends of the placing plate 33 in a symmetrical relationship, the sliding rod 35 in a rectangular parallelepiped structure is slidably connected to the vertical column 34, the clamping plate 36 is fixed at one end of the sliding rod 35 in a perpendicular relationship, the first spring 37 is connected between the clamp plate 36 and the upright post 34, the button 38 is slidably connected to the inside of the upright post 34, the plurality of stopper grooves 39 distributed in a linear structure are provided on the outside of the slide bar 35, the slider 39a is fixed to the bottom end of the button 38, the slider 39a is slidably connected to the upright post 34, the stopper tooth 39b is fixed to one end of the slider 39a, the slider 39a is engaged with the stopper groove 39 of the slide bar 35 via the stopper tooth 39b, the second spring 39c is held and fixed between the slider 39a and the upright post 34, the rotary post 39d is fixed to the bottom end of the placement plate 33 in a vertical relationship, and the rotary post 39d is rotatably connected to the connection plate 32 via the first bearing 39e, and the plurality of balls 39f roll inside the connection plate 32, the insertion groove 39g is arranged in the rotary column 39d, the anti-slip groove 39h is arranged in the connecting plate 32, the insertion rod 39i is connected in the rotary column 39d in a sliding manner, the rotary groove 39j is arranged in the connecting plate 32, the third spring 39k is clamped and fixed between the insertion rod 39i and the connecting plate 32, the placing plate 33 is arranged to place a mold thereon, the mold can move along with the translational motion of the placing plate 33, the mold on the placing plate 33 can be driven to move, the mold after grouting can be timely moved out, continuous processing is facilitated, and the processing efficiency is increased, because the two upright columns 34 are arranged on the placing plate 33 in a symmetrical relationship, the slide rod 35 slides in the upright columns 34, the clamping plate 36 is fixed at one end of the slide rod 35, will can accomplish the fixed of mould when splint 36 contradicts with the mould, because slide bar 35's both ends are equipped with the cross-section and are a plurality of triangular structure spacing groove 39, in the cooperation the cross-section on the slider 39a is the triangular structure spacing tooth 39b splint 36 supports the back with the mould, spacing tooth 39b will rise under the spring action of second spring 39c, spacing tooth 39b just can insert spacing groove 39's inside, will slide bar 35 carries out spacing fixed to accomplish the fixed of mould, thereby prevent that the mould from dropping, when dismantling, only need press button 38 makes spacing tooth 39b no longer right slide bar 35 carries on spacingly, splint 36 will automatic re-setting under first spring 37's the spring action.

Specifically, the centrifugal structure includes a guide rail 41, a guide sleeve 42, a fixed frame 43, an upright rod 44, two insertion blocks 45, rollers 46, a rolling belt 47, a second motor 48, two guide rails 41 are symmetrically fixed at two ends of the clamping device 21, the two guide rails 41 are slidably connected with the guide sleeve 42, one end of the guide sleeve 42 is fixed at the fixed frame 43, the fixed frame 43 is rotatably connected with three upright rods 44 inside, the insertion blocks 45 are fixed at the top ends of the upright rods 44, the rollers 46 are fixed outside the three upright rods 44, the three rollers 46 are rotatably connected through the rolling belt 47, the second motor 48 is fixed at the bottom end of the fixed frame 43, and the second motor 48 is fixedly connected with one of the upright rods 44, the cross bar 49 is fixed to one end of the clamping device 21, the first cylinder 49a is fixed to one end of the fixing frame 43, one end of the first cylinder 49a is fixed to the cross bar 49, when the mold on the placing plate 33 is moved to be close to the insert block 45 on the upright post 44, the first cylinder 49a is operated to jack up the fixing frame 43, the insert block 45 on the upright post 44 is inserted into the insert groove 39g inside the rotary post 39d, the second motor 48 is operated to rotate one of the upright posts 44 fixed to the second motor 48, the rollers 46 are fixed to the outer portions of the three upright posts 44 rotatably connected to the inside of the fixing frame 43, and the three rollers 46 are rotatably connected by the rolling belt 47, therefore, one of the upright posts 44 rotates to drive the other two upright posts 34 to rotate synchronously, and the insertion block 45 is inserted into the slot 39g to push the insertion rod 39i into the rotary groove 39g, at this time, the rotary column 39d has no limit of the insertion rod 39i, and the rotary groove 39g has a space for rotating the insertion rod 39i, so that the rotary column 39d rotates under the rotation of the upright post 44, and the rotation of the placing plate 33 is completed only by one step, which saves complicated processes, saves time, improves efficiency, and can rotate the mold while performing grouting through the rotation of the placing plate 33, thereby generating centrifugal force and ensuring the quality of products.

Specifically, the mobile structure 5 includes traveller 51, sliding sleeve 52 and mount 53, traveller 51 is equipped with two, two traveller 51 is parallel relation and is fixed in respectively the both ends of frame 1, two the outside sliding connection of traveller 51 has sliding sleeve 52 deviates from sliding sleeve 52 the one end of traveller 51 is fixed mount 53, just mount 53 passes through traveller 51 with sliding sleeve 52 with frame 1 sliding connection, through traveller 51 with sliding sleeve 52's cooperation is used, can be convenient for adjust mount 53 is in position on the frame 1 to can be convenient for realize accurate slip casting.

Specifically, the adjusting structure 6 includes two fixing grooves 61, a supporting sleeve 62, a fixing sleeve 63, a threaded sleeve 64, two screws 65, a second bearing 66, a rotating sleeve 67, a fixing rod 68, a rotating rod 69, a drum 69a, a first gear 69b and a second gear 69c, the two fixing grooves 61 are respectively disposed at two ends of the fixing frame 53, the supporting sleeve 62 is respectively fixed at two ends of the fixing frame 53 in a symmetrical relationship, the fixing sleeve 63 is fixed at a top end of the supporting sleeve 62, the threaded sleeve 64 is fixed at a top end of the fixing sleeve 63, the screws 65 are connected to the inner threads of the threaded sleeve 64, the screws 65 penetrate through the fixing sleeve 63 and the supporting sleeve 62, the second bearing 66 is fixed outside the screws 65, the rotating sleeve 67 is fixed outside the second bearing 66, and the screws 65 are rotatably connected to the rotating sleeve 67 through the second bearing 66, the fixed rod 68 is fixed at one end of the rotating sleeve 67, the rotating rod 69 is rotatably connected to the fixed sleeve 63, the rotating cylinder 69a is rotatably connected inside the fixed sleeve 63, the screw 65 penetrates through the rotating cylinder 69a and is in threaded connection with the rotating cylinder 69a, the first gear 69b is fixed outside the rotating cylinder 69a and is rotatably connected with the fixed sleeve 63, the second gear 69c is rotatably connected inside the fixed sleeve 63 and is meshed with the first gear 69b, the center of the second gear 69c is fixedly connected with the rotating rod 69, when the height of the spray head 89a needs to be adjusted, only the rotating rod 69 needs to be rotated, and when the rotating rod 69 is fixed with the second gear 69c rotatably connected inside the fixed sleeve 63, the second gear 69c can be driven to rotate by the rotation of the rotating rod 69, when the second gear 69c rotates, the first gear 69b engaged with the second gear 69c is driven to rotate, because the first gear 69b is fixedly connected with the drum 69a, and the screw rod 65 is in threaded connection with the drum 69a, the screw rod 65 can be driven to rotate in a threaded manner during the rotation of the drum 69a, the screw rod 65 can be lifted up and down, and the screw rod 65 is rotatably connected with the fixing rod 68 through the bearing 66, so the fixing rod 68 can be lifted up and down, because the grouting sleeve 89 is connected with the fixing rod 68 through the screw 72 and the nut 74, the lifting and the lowering of the nozzle 89a can be realized, thereby the up and down adjustment of the nozzle 89a is facilitated, and because the screw 72 can slide in the chute 71, the left and right position of the mounting plate 73 can be adjusted, thereby facilitating adjustment of the spacing position of the nozzles 49a and facilitating actual grouting of the mold.

Specifically, the grouting structure 8 includes two material containing buckets 81, a fixed pipe 82, a connecting pipe 83, a blanking pipe 84, a first grouting pipe 85, a second grouting pipe 86, a first valve 87, a second valve 88, a grouting sleeve 89, a nozzle 89a, a liquid level sensor 89b and an electromagnetic valve 89c, the two material containing buckets 81 are fixed at the top end of the fixed frame 53 in a symmetrical relationship, the fixed pipe 82 is fixed outside the material containing bucket 81, the connecting pipe 83 is fixed at one end of the fixed pipe 82, the two blanking pipes 84 are fixed at one end of the connecting pipe 83 away from the fixed pipe 82, the first grouting pipe 85 is fixed at one end of the blanking pipe 84, the second grouting pipe 86 is fixed at the other end of the blanking pipe 84, the first valve 87 is fixed at one end of the first grouting pipe 85, the second valve 88 is fixed at one end of the second grouting pipe 86, the grouting sleeve 89 is fixed at one end of the first valve 87 and the second valve 88, the nozzle 89a is fixed at the bottom end of the grouting sleeve 89, the liquid level sensor 89b is fixed at one end of the grouting sleeve 89, the electromagnetic valve 89c is fixed at the top end of the grouting sleeve 89, the liquid level sensor 89b is electrically connected with the electromagnetic valve 89c, the electromagnetic valve 89c is electrically connected with both the first valve 87 and the second valve 88, the slurry can be temporarily stored by arranging the material containing barrel 81 at the top end of the fixing frame 53, the fixing pipe 82 is fixed outside the material containing barrel 81, the connecting pipe 83 is fixed at one end of the fixing pipe 82, the slurry can be divided, the blanking pipe 84 is respectively arranged at two ends of the connecting pipe 83, the slurry can be further divided, and the working efficiency can be increased, the two ends of the blanking pipe 84 are respectively connected with the first grouting pipe 85 and the second grouting pipe 86, and both grouting pipes are connected with the grouting sleeve 89, because the liquid level sensor 89b is arranged at the bottom end of the grouting sleeve 89, the amount of grout injected into the mold can be accurately known through the arrangement of the liquid level sensor 89b, when the grout injected into the mold exceeds a certain liquid level, the liquid level sensor 89b transmits an electric signal to the electromagnetic valve 89c, the electromagnetic valve 89c works to transmit an electric signal to the first valve 87 and the second valve 88, at this time, the first valve 87 is closed, the second valve 88 works, the grout flows out from the second grouting pipe 86, and because the external diameter of the second grouting pipe 86 is smaller than the external diameter of the first grouting pipe 85, therefore, the small-flow outflow can be realized, the overflow and waste of the slurry caused by the large-flow slurry outflow can be avoided, and the utilization rate of the raw materials can be greatly improved.

Specifically, sliding structure 7 includes spout 71, screw 72, mounting panel 73 and nut 74, spout 71 is located dead lever 68 the inside sliding connection of spout 71 has screw 72 the one end of dead lever 68 is equipped with mounting panel 73, screw 72 runs through mounting panel 73 the one end threaded connection of screw 72 has nut 74.

When in use, the four clamping devices 21 are fixed on the frame 1 in a concave structure, so that the four chain wheels 23 can be rotatably connected with the frame 1 through the four rotating shafts 22, the first chain wheel 25 is fixed outside one of the rotating shafts 22, and the first chain wheel 25 is rotatably connected with the second chain wheel 27 fixed at one end of the first motor 29 through the belt 26, so that when the first motor 29 works, the rotating shaft 22 can be driven to rotate, the rotating shaft 22 can drive one of the chain wheels 23 to rotate, and since the four chain wheels 23 are divided into two groups and the two groups of chain wheels 23 are driven by the chain 24, one chain wheel 23 can drive the four chain wheels 23 to rotate simultaneously, thereby realizing synchronous rotation of the four chain wheels 23, the equipment cost can be reduced, when the two chains 24 rotate synchronously, a plurality of groups of two-in-one connecting rods 31 clamped between the two chains 24 can be driven to move in a translation manner, and because each group of connecting rods 31 is fixed through the connecting plate 32, the stability between each group of connecting rods 31 can be improved, and the placing plate 33 fixed on the connecting plate 32 can be more stable; through the arrangement of the placing plate 33, a mold can be placed on the placing plate, the mold can move along with the translational motion of the placing plate 33, the mold on the placing plate 33 can be driven to move, the mold after grouting can be conveniently moved out in time, and continuous processing is convenient, so that the processing efficiency is increased, because two upright posts 34 are arranged on the placing plate 33 in a symmetrical relationship, the slide rods 35 slide in the upright posts 34, the clamping plate 36 is fixed at one end of the slide rods 35, the mold can be fixed when the clamping plate 36 is abutted against the mold, because a plurality of limiting grooves 39 with triangular sections are arranged at two ends of the slide rods 35, the limiting teeth 39b with triangular sections are matched with the limiting teeth 39b with the triangular sections on the slide blocks 39a, and after the clamping plate 36 is abutted against the mold, the limiting teeth 39b can rise under the elastic force of the second springs 39c, the limiting teeth 39b can be inserted into the limiting grooves 39 to limit and fix the sliding rod 35, so that the fixing of the mold is completed, and the mold is prevented from falling off, and when the mold is disassembled, the limiting teeth 39b do not limit the sliding rod 35 any more only by pressing the button 38, and the clamping plate 36 can automatically reset under the elastic force of the first spring 37; when the mold on the placing plate 33 moves to be close to the inserting block 45 on the upright post 44, at this time, the first cylinder 49a operates to jack up the fixed frame 43, at this time, the inserting block 45 on the upright post 44 can be just inserted into the slot 39g inside the rotary column 39d, at this time, the second motor 48 operates to drive one of the upright posts 44 fixed with the second motor 48 to rotate, since the rollers 46 are fixed outside the three upright posts 44 rotatably connected inside the fixed frame 43 and the three rollers 46 are rotatably connected by the roller belt 47, one of the upright posts 44 rotates to drive the other two upright posts 34 to rotate synchronously, and since the inserting block 45 is inserted into the slot 39g, the inserting rod 39i is pushed into the rotating groove 39g, at this time, the rotating column 39d does not have the limit of the inserting rod 39i, and the rotating groove 39g has a space for the rotating of the inserting rod 39i, so that the rotating column 39d rotates under the rotation of the upright rod 44, the rotation of the placing plate 33 is completed only by one step, the complex process is saved, the time is saved, the efficiency is improved, and the mold can rotate while grouting is performed through the rotation of the placing plate 33, so that the centrifugal force is generated, and the quality of the product is ensured; through the matching use of the sliding column 51 and the sliding sleeve 52, the position of the fixed frame 53 on the frame 1 can be conveniently adjusted, so that accurate grouting can be conveniently realized; when the height of the spray head 89a needs to be adjusted, only the rotating rod 69 needs to be rotated, since the rotating rod 69 is fixed with the second gear 69c which is rotatably connected inside the fixed sleeve 63, the rotating rod 69 rotates to drive the second gear 69c to rotate, and the second gear 69c rotates to drive the first gear 69b which is meshed with the second gear 69c to rotate, since the first gear 69b is fixedly connected with the drum 69a and the screw rod 65 is in threaded connection with the drum 69a, the screw rod 65 can be driven to rotate in a threaded manner during the rotation of the drum 69a, the up-and-down lifting of the screw rod 65 can be realized, and the screw rod 65 is rotatably connected with the fixed rod 68 through the bearing 66, the up-and-down lifting of the fixed rod 68 can be realized, since the grouting sleeve 89 is connected with the fixed rod 68 through the screw 72 and the nut 74, the spray head 89a can be lifted, so that the spray head 89a can be adjusted up and down conveniently, and the screw 72 can slide in the chute 71, so that the left and right positions of the mounting plate 73 can be adjusted conveniently, the spacing position of the spray heads 49a can be adjusted conveniently, and actual grouting on a mold can be performed conveniently; the slurry can be temporarily stored by arranging the material containing barrel 81 at the top end of the fixing frame 53, the outer part of the material containing barrel 81 is fixed with the fixing pipe 82, one end of the fixing pipe 82 is fixed with the connecting pipe 83 to divide the slurry, the two ends of the connecting pipe 83 are respectively provided with the discharging pipe 84 to further divide the slurry, so that the working efficiency can be increased, the two ends of the discharging pipe 84 are respectively connected with the first grouting pipe 85 and the second grouting pipe 86, the two grouting pipes are both connected with the grouting sleeve 89, the bottom end of the grouting sleeve 89 is provided with the liquid level sensor 89b, the injection amount of the slurry in the mold can be accurately known through the arrangement of the liquid level sensor 89b, when the slurry in the mold exceeds a certain liquid level, the liquid level sensor 89b can transmit an electric signal to the electromagnetic valve 89c, at this time, the electromagnetic valve 89c works to transmit an electric signal to the first valve 87 and the second valve 88, at this time, the first valve 87 is closed, the second valve 88 works, and the slurry flows out from the second grouting pipe 86, and as the outer diameter of the second grouting pipe 86 is smaller than that of the first grouting pipe 85, the small-flow outflow can be realized, so that the overflow and waste of the slurry caused by the large-flow outflow can be avoided, and the utilization rate of the raw materials can be greatly improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a pottery beverage bottle base intelligence production line system which characterized in that: the mould-moving device comprises a rack (1), a transmission structure (2), a clamping device (3), a centrifugal structure (4), a moving structure (5), an adjusting structure (6), a sliding structure (7) and a grouting structure (8), wherein the transmission structure (2) for moving a mould is installed at the upper end of the rack (1) for supporting and installing other parts; the clamping device (3) for clamping and fixing the mold is arranged on the transmission structure (2), and the centrifugal structure (4) for centrifuging the mold is arranged at the bottom end of the clamping device (3); the top end of the frame (1) is provided with the moving structure (5) for controlling the grouting position, the top end of the moving structure (5) is provided with the adjusting structure (6) for adjusting the grouting position, one end of the adjusting structure (6) is provided with the sliding structure (7) for adjusting the grouting position, and the top end of the adjusting structure (6) is provided with the grouting structure (8) for grouting;

the end part of the rack is provided with a die transmission device (90) extending in the width direction of the rack (1), one end of the grinding tool transmission device, which is adjacent to the rack (1), is provided with an unlocking mechanism, one side of the unlocking mechanism is provided with an unlocking and die-taking mechanical arm, a conveying belt extending along the grinding tool transmission device is arranged below the unlocking and die-taking mechanical arm, the unlocking and die-taking mechanical arm is used for clamping a die on the clamping device (3) onto the conveying belt, the other end of the grinding tool transmission device is provided with a die-conveying mechanical arm, one side of the grinding tool transmission device is provided with a drying device, the drying device comprises a transmission device (91) and a drying room (92), the transmission device (91) is positioned between the drying room (92) and the die-conveying mechanical arm, and the die-conveying mechanical arm is used for clamping the die on the conveying belt, the conveying device and the rack (1) are provided with a transfer device (93), and the transfer device (93) is used for moving the molds on the conveying device (91) to the clamping device (3) of the rack (1).

2. The intelligent production line system for ceramic wine bottle blank making according to claim 1, characterized in that: the transmission structure (2) comprises a clamping device (21), a rotating shaft (22), a chain wheel (23), a chain (24), a first chain wheel (25), a belt (26), a second chain wheel (27), a fixing plate (28) and a motor (29), the chain wheel (23) is fixed at one end of the rotating shaft (22), the four chain wheels (23) are divided into two groups, each group of chain wheels (23) is rotationally connected through the chain (24), -fixing the first sprocket (25) outside one of the shafts (22), the fixed plate (28) is fixed at one end of the frame (1), the motor (29) is fixed at the top end of the fixed plate (28), the second chain wheel (27) is fixed at one end of the motor (29), and the first chain wheel (25) and the second chain wheel (27) are rotationally connected through the belt (26).

3. The intelligent production line system for ceramic wine bottle blank making according to claim 2, characterized in that: the clamping device (3) comprises a connecting rod (31), a connecting plate (32), a placing plate (33), upright posts (34), a sliding rod (35), a clamping plate (36), a first spring (37), a button (38), a limiting groove (39), a sliding block (39a), limiting teeth (39b), a second spring (39c), a rotating column (39d), a first bearing (39e), a ball (39f), a slot (39g), an anti-skidding groove (39h), an inserted bar (39i), a rotating groove (39j) and a third spring (39k), wherein the connecting rod (31) is clamped between the two chains (24), the connecting plate (32) is fixed at one end of the connecting rod (31), the placing plate (33) is arranged at the top end of the connecting plate (32), the upright posts (34) are arranged in two numbers, the two upright posts (34) are vertically fixed at two ends of the placing plate (33) in a symmetrical relationship, the slide bar (35) is of a cuboid structure and is connected to the upright column (34) in a sliding manner, one end of the slide bar (35) is fixed in a vertical relationship to the clamp plate (36), the clamp plate (36) and the upright column (34) are connected with the first spring (37), the button (38) is connected to the upright column (34) in a sliding manner, a plurality of limiting grooves (39) which are distributed in a linear structure are arranged outside the slide bar (35), the bottom end of the button (38) is fixed with the sliding block (39a), the sliding block (39a) is connected to the upright column (34) in a sliding manner, one end of the sliding block (39a) is fixed with the limiting teeth (39b), the sliding block (39a) can pass through the limiting teeth (39b) and the limiting grooves (39) on the slide bar (35) in a clamping manner, the second spring (39c) is fixed between the sliding block (39a) and the upright column (34), the bottom end of the placing plate (33) is vertically fixed with the rotating column (39d), the rotating column (39d) is rotatably connected with the connecting plate (32) through the first bearing (39e), the plurality of balls (39f) roll in the connecting plate (32), the inserting groove (39g) is formed in the rotating column (39d), the anti-slip groove (39h) is formed in the connecting plate (32), the inserting rod (39i) is slidably connected in the rotating column (39d), the rotating groove (39j) is formed in the connecting plate (32), and the third spring (39k) is clamped and fixed between the inserting rod (39i) and the connecting plate (32).

4. The intelligent production line system for ceramic wine bottle blank making according to claim 2, characterized in that: the centrifugal structure comprises a guide rail (41), a guide sleeve (42), a fixed frame (43), an upright rod (44), two insertion blocks (45), rollers (46), a rolling belt (47), a second motor (48), a cross rod (49) and a first air cylinder (49a), wherein the guide rail (41) is provided with two guide rails (41) which are symmetrically fixed at one end of the clamping device (21), the guide sleeve (42) is connected on the two guide rails (41) in a sliding manner, the fixed frame (43) is fixed at one end of the guide sleeve (42), the three upright rods (44) are rotatably connected inside the fixed frame (43), the insertion blocks (45) are fixed at the top end of the upright rods (44), the rollers (46) are fixed outside the three upright rods (44), and the three rollers (46) are rotatably connected through the rolling belt (47), the bottom end of fixed frame (43) is fixed second motor (48), just second motor (48) and one of them pole setting (44) fixed connection the one end of clamping device (21) is fixed horizontal pole (49) the one end of fixed frame (43) is fixed first cylinder (49a), just the one end of first cylinder (49a) with horizontal pole (49) are fixed.

5. The intelligent production line system for ceramic wine bottle blank making according to claim 1, characterized in that: moving structure (5) include traveller (51), sliding sleeve (52) and mount (53), traveller (51) are equipped with two, two traveller (51) are parallel relation and are fixed in respectively the both ends of frame (1) two the outside sliding connection of traveller (51) has sliding sleeve (52) deviate from sliding sleeve (52) the one end of traveller (51) is fixed mount (53), just mount (53) pass through traveller (51) with sliding sleeve (52) with frame (1) sliding connection.

6. The intelligent production line system for ceramic wine bottle blank making according to claim 5, wherein: the adjusting structure (6) comprises two fixing grooves (61), a supporting sleeve (62), a fixing sleeve (63), a threaded sleeve (64), a screw rod (65), a second bearing (66), a rotating sleeve (67), a fixing rod (68), a rotating rod (69), a rotating drum (69a), a first gear (69b) and a second gear (69c), wherein the two fixing grooves (61) are respectively arranged at two ends of the fixing frame (53), the two ends of the fixing frame (53) are respectively fixed with the supporting sleeve (62) in a symmetrical relationship, the fixing sleeve (63) is fixed at the top end of the supporting sleeve (62), the threaded sleeve (64) is fixed at the top end of the fixing sleeve (63), the screw rod (65) is connected with the internal thread of the threaded sleeve (64), and the screw rod (65) penetrates through the fixing sleeve (63) and the supporting sleeve (62), the second bearing (66) is fixed on the outer part of the screw rod (65), the rotating sleeve (67) is fixed on the outer part of the second bearing (66), the screw rod (65) is rotatably connected with the rotating sleeve (67) through the second bearing (66), the fixed rod (68) is fixed on one end of the rotating sleeve (67), the rotating rod (69) is rotatably connected with the fixed sleeve (63), the rotary drum (69a) is rotatably connected on the inner part of the fixed sleeve (63), the screw rod (65) penetrates through the rotary drum (69a) and is in threaded connection with the rotary drum (69a), the first gear (69b) is fixed on the outer part of the rotary drum (69a), the first gear (69b) is rotatably connected with the fixed sleeve (63), and the second gear (69c) is rotatably connected on the inner part of the fixed sleeve (63), and the first gear (69b) is meshed with the second gear (69c), and the center of the second gear (69c) is fixedly connected with the rotating rod (69).

7. The intelligent production line system for ceramic wine bottle blank making according to claim 5, wherein: the grouting structure (8) comprises two material containing barrels (81), two fixing pipes (82), a connecting pipe (83), a blanking pipe (84), a first grouting pipe (85), a second grouting pipe (86), a first valve (87), a second valve (88), a grouting sleeve (89), a spray head (89a), a liquid level sensor (89b) and an electromagnetic valve (89c), wherein the two material containing barrels (81) are fixed at the top end of the fixing frame (53) in a symmetrical relation, the fixing pipes (82) are fixed outside the material containing barrels (81), the connecting pipe (83) is fixed at one end of the fixing pipes (82), the two blanking pipes (84) are fixed at one end of the connecting pipe (83) deviating from the fixing pipes (82), the first grouting pipe (85) is fixed at one end of the blanking pipes (84), and the second grouting pipe (86) is fixed at the other end of the blanking pipes (84), the first valve (87) is fixed to one end of the first grouting pipe (85), the second valve (88) is fixed to one end of the second grouting pipe (86), the grouting sleeve (89) is fixed to one end of the first valve (87) and one end of the second valve (88), the spray head (89a) is fixed to the bottom end of the grouting sleeve (89), the liquid level sensor (89b) is fixed to one end of the grouting sleeve (89), the electromagnetic valve (89c) is fixed to the top end of the grouting sleeve (89), the liquid level sensor (89b) is electrically connected with the electromagnetic valve (89c), and the electromagnetic valve (89c) is electrically connected with the first valve (87) and the second valve (88).

8. The intelligent production line system for ceramic wine bottle blank making according to claim 6, wherein: sliding structure (7) include spout (71), screw (72), mounting panel (73) and nut (74), spout (71) are located dead lever (68) the inside sliding connection of spout (71) has screw (72) the one end of dead lever (68) is equipped with mounting panel (73), screw (72) run through mounting panel (73) the one end threaded connection of screw (72) has nut (74).

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