阅读说明：本技术 一种建筑陶瓷生产用消泡装置 (Fire fighting equipment is used in architectural ceramics production ) 是由 李阳芬 宋远珍 龙玖燕 于 2020-11-19 设计创作，主要内容包括：本发明公开了一种建筑陶瓷生产用消泡装置,包括消泡装置主体、主轴、承重杆、消泡杆、支撑杆、联动齿轮和收纳盒,所述消泡装置主体的内部设置有主轴,且主轴上设置有推块,并且推块的两侧与承重杆相连接,所述承重杆的一侧通过伸缩弹簧与消泡装置主体相连接。该建筑陶瓷生产用消泡装置,设置有消泡杆,在消泡杆的内部安装有震动棒,通过半齿轮的带动下,使得震动棒可以不停的敲击消泡杆的内壁,从而使得消泡杆能够震动,同时消泡杆可以通过承重杆在消泡装置主体上来回的移动,使得对陶瓷泥浆中的气泡清除的更加的彻底,同时消泡装置主体的体积比较小,可以直接固定放置在陶瓷泥浆搅拌设备的内部,从而减少对空间的占用。(The invention discloses a defoaming device for architectural ceramic production, which comprises a defoaming device main body, a main shaft, a bearing rod, a defoaming rod, a support rod, a linkage gear and a storage box, wherein the main shaft is arranged in the defoaming device main body, a push block is arranged on the main shaft, two sides of the push block are connected with the bearing rod, and one side of the bearing rod is connected with the defoaming device main body through a telescopic spring. This defoaming device for architectural ceramics production, be provided with the defoaming pole, internally mounted at the defoaming pole has the vibrations stick, drive through half-gear down, make the vibrations stick can be ceaselessly strike the inner wall of defoaming pole, thereby make the defoaming pole can shake, the defoaming pole can pass through the removal that the bearing bar made a round trip in the defoaming device main part simultaneously, make more thoroughly of cleaing away the bubble in the pottery mud, the volume ratio of defoaming device main part is smaller simultaneously, can the internal portion of placing at pottery mud agitated vessel by the snap-on, thereby reduce the occupation to the space.)

1. The utility model provides a defoaming device for architectural ceramics production, includes defoaming device main part (1), main shaft (2), bearing bar (4), defoaming pole (8), bracing piece (12), linkage gear (17) and receiver (20), its characterized in that: the defoaming device is characterized in that a main shaft (2) is arranged in the defoaming device main body (1), a push block (3) is arranged on the main shaft (2), two sides of the push block (3) are connected with a bearing rod (4), one side of the bearing rod (4) is connected with the defoaming device main body (1) through a telescopic spring (5), one end of the bearing rod (4) penetrates through the defoaming device main body (1) to be connected with a supporting block (7), the bottom of the supporting block (7) is connected with the top of a defoaming rod (8), a magnetic block (26) is arranged in the defoaming rod (8), a power gear (9) is arranged at the bottom of the main shaft (2), the surface of the power gear (9) is connected with a driven gear (10), one side of the driven gear (10) is connected with a supporting rod (12) through a resistance spring (11), the outer surface of the supporting rod (12) is connected with the bearing rod (4) through a limiting column (6), and the right side of bracing piece (12) runs through the surface of defoaming pole (8) and is connected with half gear (13), and the bottom of half gear (13) is connected with vibrations stick (15) through swing gear (14), and swing gear (14) internally mounted has torsional spring (16) simultaneously, the bottom of linkage gear (17) contacts with the top of spacing axle (18), and the central point of spacing axle (18) contacts with the surface of defoaming pole (8), and the bottom of spacing axle (18) with install cleaning brush (19), the surface of defoaming pole (8) is provided with fixed block (21), and the inside symmetric distribution of fixed block (21) has dead lever (25), and the top of dead lever (25) is connected with gim peg (23), the opening part of receiver (20) is provided with decontamination block (22), and the both sides of receiver (20) are connected with the top of gim peg (23), and the bottom of the fixing bolt (23) is connected with the fixing block (21) through a return spring (24).

2. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the spindle (2) and the push block (3) are of an integrated structure, arc-shaped notches are formed in the two sides of the push block (3), the outer surface of the push block (3) is connected with the top of the bearing rod (4) in a fit mode, and the bearing rod (4) is symmetrically distributed with the push block (3) as the center.

3. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the bearing rod (4) and the defoaming device main body (1) form a telescopic structure through the telescopic spring (5), one side of the bearing rod (4) is fixedly connected with the supporting block (7), and the defoaming rods (8) at the bottom of the supporting block (7) are symmetrically distributed by taking the defoaming device main body (1) as a center.

4. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the bottom of power gear (9) and driven gear (10) constitute the meshing and are connected, and the one end of driven gear (10) has the lug of cuboid to driven gear (10) pass through the inside constitution sliding construction of lug and bracing piece (12), and the bracing piece (12) is swivelling joint with the bottom of spacing post (6) simultaneously.

5. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the half gear (13) is in an incomplete tooth angle shape, the bottom of the half gear (13) is in meshed connection with the swinging gear (14), the swinging gear (14) is in rotary connection with the vibration rod (15) through the torsion spring (16), and the vibration rod (15) is located inside the defoaming rod (8).

6. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the limiting shaft (18) is arranged in a circular ring shape, tooth angles are arranged on the top of the limiting shaft (18) at equal angles, the limiting shaft (18) is in meshed connection with the linkage gear (17) through the tooth angles, and meanwhile the linkage gear (17) and the supporting rod (12) are of an integrated structure.

7. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the bottom fixedly connected with of spacing axle (18) cleans brush (19), and cleans brush (19) and has partly of brush and the surface of defoaming pole (8) to be connected for the laminating, and the last symmetric distribution of defoaming pole (8) has fixed block (21), and the distance between fixed block (21) is greater than the length of receiver (20) simultaneously.

8. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the utility model discloses a dirty piece of decontaminating is including the box (20), the opening part of box (20) is equidistant to distribute has decontamination piece (22), and the height of box (20) is less than cleaning brush (19) brush length to the inboard of box (20) is connected for the laminating with the surface of defoaming pole (8), and the internally mounted of defoaming pole (8) has convex magnetic path (26) simultaneously.

9. The defoaming device for architectural ceramic production according to claim 1, characterized in that: the both sides of receiver (20) constitute block structure with gim peg (23), and gim peg (23) bottom passes through dead lever (25) and constitutes sliding construction with fixed block (21), and gim peg (23) pass through reset spring (24) and constitute extending structure with fixed block (21), and gim peg (23) symmetric distribution is on fixed block (21) simultaneously.

Technical Field

The invention relates to the technical field of ceramic processing, in particular to a defoaming device for building ceramic production.

Background

The ceramic processing is specially used for processing ceramics in a workshop, ceramic slurry is used in the ceramic processing, a large amount of bubbles can be generated in the stirring production process of the ceramic slurry, the excessive bubbles enable the fired ceramics to easily generate the defects of foam injection, glaze explosion and the like, the production quality is greatly influenced, and a qualified product is lost due to a smaller defect, so a defoaming device is needed in the ceramic production, the defoaming device for the architectural ceramic production in the market has various shapes, but the principle is basically the same in the working process, and certain problems are still solved in the using process;

1. the general defoaming device has a large volume, so that the general defoaming device occupies a relatively large space when in use, can not directly defoam the ceramic slurry in a stirring process, needs to guide the ceramic slurry out for processing and defoaming again, has a large number of working flows, and reduces the working efficiency, for example, the application number CN201520885523.9, wherein the ceramic slurry needs to be guided, vibrated and defoamed for many times, so that the defoaming operation can be relatively thorough, but the working efficiency can be reduced;

2. there can be more metallic impurity in ceramic mud for the in-process of production that can lead to the fact the influence to the quality of pottery, consequently need metallic impurity wherein to clear away, be provided with the magnet and adsorb like in application number CN201520885523.9, after long-time use, the impurity of adsorbing simultaneously can not timely clear away, can make the absorbent effect reduce.

We have therefore proposed a defoaming apparatus for architectural ceramic production in order to solve the problems set forth above.

Disclosure of Invention

The invention aims to provide a defoaming device for building ceramic production, which solves the problems that the defoaming device in the prior market proposed by the background art has a large volume, occupies a relatively large space in use, can not be directly defoamed in the stirring process, needs to guide ceramic slurry out for processing and defoaming again, has more working flows, reduces the working efficiency, has more metal impurities in the ceramic slurry and influences the quality of ceramic in the production process.

In order to achieve the purpose, the invention provides the following technical scheme: a defoaming device for building ceramic production comprises a defoaming device main body, a main shaft, a bearing rod, a defoaming rod, a supporting rod, a linkage gear and a storage box, wherein the main shaft is arranged in the defoaming device main body, a push block is arranged on the main shaft, two sides of the push block are connected with the bearing rod, one side of the bearing rod is connected with the defoaming device main body through a telescopic spring, one end of the bearing rod penetrates through the defoaming device main body to be connected with the supporting block, the bottom of the supporting block is connected with the top of the defoaming rod, a magnetic block is arranged in the defoaming rod, a power gear is arranged at the bottom of the main shaft, the surface of the power gear is connected with a driven gear, one side of the driven gear is connected with the supporting rod through a resistance spring, the outer surface of the supporting rod is connected with the bearing rod through a limiting column, and the surface of the right side of the supporting, and the bottom of half gear is connected with the vibrting spear through swing gear, and swing gear internally mounted has the torsional spring simultaneously, the bottom of linkage gear contacts with the top of spacing axle, and the central point of spacing axle contacts with the surface of defoaming pole to the bottom of spacing axle with install the cleaning brush, the surface of defoaming pole is provided with the fixed block, and the inside symmetric distribution of fixed block has the dead lever, and the top of dead lever is connected with the gim peg, the opening part of receiver is provided with the decontamination piece, and the both sides of receiver are connected with the top of gim peg, and the bottom of gim peg is connected with the fixed block through reset spring.

Preferably, the main shaft and the push block are of an integrated structure, arc-shaped notches are formed in two sides of the push block, the outer surface of the push block is connected with the top of the bearing rod in a fitting mode, and the bearing rod is symmetrically distributed by taking the push block as a center.

Preferably, the bearing rod forms a telescopic structure with the defoaming device main body through an expansion spring, one side of the bearing rod is fixedly connected with the supporting block, and the defoaming rods at the bottom of the supporting block are symmetrically distributed by taking the defoaming device main body as a center.

Preferably, the bottom of power gear constitutes the meshing with driven gear and is connected, and driven gear's one end has the lug of cuboid to driven gear passes through the inside constitution sliding construction of lug and bracing piece, and the bracing piece is swivelling joint with the bottom of spacing post simultaneously.

Preferably, the half gear is in an incomplete tooth angle shape, the bottom of the half gear is in meshed connection with the swinging gear, the swinging gear is in rotary connection with the vibration rod through a torsion spring, and the vibration rod is located inside the defoaming rod.

Preferably, the limiting shaft is arranged in a circular ring shape, tooth angles are arranged on the top of the limiting shaft at equal angles, the limiting shaft is in meshed connection with the linkage gear through the tooth angles, and meanwhile the linkage gear and the supporting rod are of an integrated structure.

Preferably, the bottom fixedly connected with cleaning brush of spacing axle, and cleaning brush have partly and the surface of defoaming pole of brush be the laminating connection to the last symmetric distribution of defoaming pole has the fixed block, and the distance between the fixed block is greater than the length of receiver simultaneously.

Preferably, the opening part of receiver is equidistant to distribute the scrubbing piece, and the highly less than cleaning brush length of receiver to the inboard of receiver is connected for the laminating with the surface of defoaming pole, and the internally mounted of defoaming pole has convex magnetic path simultaneously.

Preferably, the both sides of receiver constitute the block structure with the gim peg, and the gim peg bottom constitutes sliding construction through dead lever and fixed block to the gim peg passes through reset spring and constitutes extending structure with the fixed block, and the gim peg symmetric distribution is on the fixed block simultaneously.

Compared with the prior art, the invention has the beneficial effects that: the defoaming device for the production of the architectural ceramics,

1. be provided with the defoaming pole, there is the vibrations stick at the internally mounted of defoaming pole, under the drive through half-gear, make the vibrations stick can be ceaselessly strike the inner wall of defoaming pole, thereby make the defoaming pole can shake, the defoaming pole can be through the removal that the bearing bar made a round trip in the fire fighting equipment main part simultaneously, make more thoroughly of cleaing away the bubble in the pottery mud, the volume of defoaming equipment main part is smaller simultaneously, can the internal portion of directly fixed placing at pottery mud agitated vessel, thereby reduce occuping to the space.

2. The inside at the defoaming pole is provided with the magnetic path, can adsorb the metallic impurity in the ceramic slurry when defoaming, and the spacing axle that sets up on the rethread defoaming pole drives the inside that the cleaning brush cleared up absorbent metallic impurity to the box of accomodating, is favorable to preventing that the absorbent metallic impurity of magnetic path is too much for the adsorption effect of magnetic path reduces, also makes things convenient for the staff to carry out centralized processing to metallic impurity simultaneously.

Drawings

FIG. 1 is a schematic view of the overall front view structure of the present invention;

FIG. 2 is a schematic view of the overall front cross-sectional structure of the present invention;

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

FIG. 4 is a schematic view of the left side view connection structure of the half gear and the swing gear of the present invention;

FIG. 5 is a schematic view of a top-view connection structure of the push block and the bearing bar according to the present invention;

FIG. 6 is a schematic view of the bottom cross-section connection structure of the cleaning brush and the defoaming bar according to the present invention;

FIG. 7 is a schematic view of a right-view snap-fit connection structure of the storage box and the fixing bolt of the present invention.

In the figure: 1. a defoaming device main body; 2. a main shaft; 3. a push block; 4. a load-bearing bar; 5. a tension spring; 6. a limiting column; 7. a support block; 8. a defoaming rod; 9. a power gear; 10. a driven gear; 11. a resistance spring; 12. a support bar; 13. a half gear; 14. a swing gear; 15. a vibration rod; 16. a torsion spring; 17. a linkage gear; 18. a limiting shaft; 19. a cleaning brush; 20. a storage box; 21. a fixed block; 22. removing the dirt blocks; 23. a fixing bolt; 24. a return spring; 25. fixing the rod; 26. a magnetic block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a defoaming device for building ceramic production comprises a defoaming device main body 1, a main shaft 2, a bearing rod 4, a defoaming rod 8, a supporting rod 12, a linkage gear 17 and a storage box 20, wherein the main shaft 2 is arranged in the defoaming device main body 1, a push block 3 is arranged on the main shaft 2, two sides of the push block 3 are connected with the bearing rod 4, one side of the bearing rod 4 is connected with the defoaming device main body 1 through an expansion spring 5, one end of the bearing rod 4 penetrates through the defoaming device main body 1 to be connected with a supporting block 7, the bottom of the supporting block 7 is connected with the top of the defoaming rod 8, a magnet block 26 is arranged in the defoaming rod 8, a power gear 9 is arranged at the bottom of the main shaft 2, the surface of the power gear 9 is connected with a driven gear 10, one side of the driven gear 10 is connected with the supporting rod 12 through a resistance spring 11, the outer surface of the supporting rod 12, and the right side of bracing piece 12 runs through the surface of defoaming pole 8 and is connected with half gear 13, and the bottom of half gear 13 is connected with vibrting spear 15 through swing gear 14, swing gear 14 internally mounted has torsional spring 16 simultaneously, the bottom of linkage gear 17 contacts with the top of spacing axle 18, and the central point of spacing axle 18 contacts with the surface of defoaming pole 8, and the bottom of spacing axle 18 with install cleaning brush 19, the surface of defoaming pole 8 is provided with fixed block 21, and the inside symmetric distribution of fixed block 21 has dead lever 25, and the top of dead lever 25 is connected with gim peg 23, the opening part of receiver 20 is provided with decontamination block 22, and the both sides of receiver 20 are connected with the top of gim peg 23, and the bottom of gim peg 23 is connected with gim peg 21 through reset spring 24.

The main shaft 2 and the push block 3 are of an integrated structure, arc-shaped notches are formed in two sides of the push block 3, the outer surface of the push block 3 is connected with the top of the bearing rod 4 in a fitting mode, and meanwhile the bearing rod 4 is symmetrically distributed by taking the push block 3 as a center, so that the push block 3 can drive the supporting block 7 to move left and right through the bearing rod 4.

Bearing bar 4 constitutes extending structure through expanding spring 5 and fire fighting equipment main part 1, and bearing bar 4 one side and supporting shoe 7 fixed connection to the defoaming pole 8 of supporting shoe 7 bottom uses fire fighting equipment main part 1 to be central symmetric distribution, is favorable to bearing bar 4 inseparabler with the laminating of ejector pad 3 under expanding spring 5's elastic action.

The bottom of power gear 9 constitutes the meshing with driven gear 10 and is connected, and driven gear 10's one end has the lug of cuboid to driven gear 10 passes through the lug and constitutes sliding structure with the inside of bracing piece 12, and bracing piece 12 is swivelling joint with the bottom of spacing post 6 simultaneously, and bracing piece 12 can slide on driven gear 10 when being favorable to supporting shoe 7 to remove.

Half gear 13 is incomplete tooth angle form, and the bottom and the swing gear 14 of half gear 13 constitute the meshing and be connected to swing gear 14 constitutes swivelling joint through torsional spring 16 and vibrations stick 15, and vibrations stick 15 is located the inside of defoaming pole 8 simultaneously, is favorable to half gear 13 to drive vibrations stick 15 and beats in defoaming pole 8 is inside, makes defoaming pole 8 take place vibrations.

The limiting shaft 18 is arranged in a circular ring shape, tooth angles are arranged at the tops of the limiting shaft 18 at equal angles, the limiting shaft 18 is meshed and connected with the linkage gear 17 through the tooth angles, and meanwhile the linkage gear 17 and the supporting rod 12 are of an integrated structure, so that the linkage gear 17 can drive the limiting shaft 18 to rotate, and the limiting shaft 18 can drive the cleaning brush 19 to rotate around the defoaming rod 8.

The bottom fixedly connected with of spacing axle 18 cleans brush 19, and clean brush 19 has partly of brush and the surface of defoaming pole 8 to be connected for the laminating, and the symmetric distribution has fixed block 21 on the defoaming pole 8, and the distance between fixed block 21 is greater than the length of receiver 20 simultaneously, is favorable to cleaning brush 19 to clear up defoaming pole 8 surface.

The opening part of receiver 20 is equidistant to distribute has decontamination piece 22, and receiver 20 highly is less than 19 brush lengths of cleaning brush to the inboard of receiver 20 is connected for the laminating with the surface of defoaming pole 8, and the internally mounted of defoaming pole 8 has convex magnetic path 26 simultaneously, is favorable to cleaning brush 19 to sweep into inside receiver 20 with the metal rubbish that magnetic path 26 adsorbs.

Receiver 20's both sides and gim peg 23 constitute the block structure, and gim peg 23 bottom constitutes sliding construction through dead lever 25 and fixed block 21 to gim peg 23 passes through reset spring 24 and fixed block 21 constitutes extending structure, 23 symmetric distribution of gim peg are favorable to receiver 20's installation and dismantlement on fixed block 21 simultaneously, make things convenient for the staff to carry out centralized processing to metal impurity.

The working principle of the embodiment is as follows: according to the figures 1-5, when the defoaming device for architectural ceramic production is used, firstly, a worker needs to fixedly install the defoaming device main body 1 at a proper position in the ceramic slurry stirring device, so that the defoaming device main body 1 does not need to guide slurry out, the defoaming device main body can directly work when the ceramic slurry stirring device rotates at a low speed, when the motor is turned on, the motor drives the push block 3 to rotate through the main shaft 2, so that the bearing rod 4 slides on the surface of the push block 3, because the two sides of the push block 3 are provided with the circular arc-shaped notches, and the bearing rod 4 is tightly attached to the surface of the push block 3 under the elastic action of the expansion spring 5, the push block 3 is favorable for driving the supporting block 7 to move back and forth through the bearing rod 4, so that the defoaming rod 8 at the bottom of the supporting block 7 is fully contacted with the ceramic slurry, and meanwhile, the bearing rod 4 drives the supporting rod 12 to slide on the driven gear, when being favorable to bearing bar 4 round trip movement, bracing piece 12 also can rotate, main shaft 2 drives driven gear 10 through power gear 9 and rotates after that, make driven gear 10 drive half gear 13 and rotate, when half gear 13 rotated to some that have the tooth angle, make half gear 13 drive vibrating spear 15 through swing gear 14 and strike defoaming rod 8, when half gear 13 rotated to some that do not have the tooth angle, vibrating spear 15 can carry out reset work under torsional spring 16's elastic action, so that next knocking work, be favorable to under the striking of vibrating spear 15, make defoaming rod 8 produce vibrations, thereby make the bubble that defoaming rod 8 contacted smashed.

According to fig. 6-7, the magnetic block 26 is disposed inside the defoaming rod 8, so that the defoaming rod 8 adsorbs metal impurities in the ceramic slurry while defoaming, when the main shaft 2 drives the support rod 12 to rotate, the support rod 12 can drive the limit shaft 18 to rotate on the defoaming rod 8, so that the limit shaft 18 drives the cleaning brush 19 to rotate around the defoaming rod 8, so that the cleaning brush 19 can sweep the metal impurities adsorbed by the magnetic block 26, so that the cleaning brush 19 is in contact with the decontamination block 22 at the opening of the storage box 20, so that the decontamination block 22 cleans the metal impurities on the cleaning brush 19, and the cleaning brush 19 pushes the metal impurities into the storage box 20, which is beneficial to preventing excessive metal impurities adsorbed by the magnetic block 26, so that the adsorption effect of the magnetic block 26 is reduced, and when the storage box 20 needs to be cleaned, the storage box 20 can be squeezed, make the gim peg 23 of receiver 20 both sides compress reset spring 24 to make receiver 20 break away from the fixed of gim peg 23, conveniently dismantle and install receiver 20, be favorable to the staff to carry out centralized processing to metal impurity, thereby accomplish a series of work.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.