CN215463798U - Drum-type coating mixing equipment - Google Patents

Abstract

The utility model discloses a drum-type coating mixing device, relates to coating mixing, and aims to solve the problems of time and labor waste and long air contact time when a container is replaced, and the key points of the technical scheme are as follows: a drum-type coating mixing device comprises a horizontal support, a friction roller set and a power source; the friction roller set comprises a driving shaft horizontally and rotatably arranged on the horizontal support and driven shafts symmetrically and rotatably connected to two sides of the driving shaft, and the driving shaft and the driven shafts are wrapped with rubber sleeves; the power source comprises a power shell arranged at one end of the horizontal support, an output shaft rotatably arranged on the power shell, and a servo motor in transmission connection with the output shaft, wherein the output shaft and the driving shaft are coaxially arranged, and a connecting shaft sleeve is arranged between the output shaft and the driving shaft. The drum-type paint mixing equipment disclosed by the utility model can be used for practically reducing the pouring times and improving the production efficiency, and greatly reducing the time for contacting raw materials with air and the hidden danger that the paint quality is influenced.

Description

Drum-type coating mixing equipment

Technical Field

The present invention relates to paint mixing, and more particularly, to a drum-type paint mixing apparatus.

Background

The ceramic paint is a novel ceramic paint which can react organic matters and inorganic matters so as to combine the advantages of the organic matters and the inorganic matters, the hardness of the new generation of ceramic paint can reach more than 6H, the high temperature resistance reaches 400 ℃, the ceramic paint has non-stick effect and various colors, and the ceramic paint can be made into water-based ceramic paint.

When the ceramic coating leaves a factory, a plurality of raw materials are mixed according to the actual requirements of customers in proportion, and are subpackaged into small bottles or are collectively placed into a large barrel; in the prior art, in order to ensure uniform mixing of the coating, a stirrer is mostly adopted for stirring, and in such a way, raw materials in a raw material barrel are poured into the stirrer, and the coating is filled into a small bottle or a large barrel after stirring and mixing are completed.

On one hand, the mixing mode takes time and labor for repeatedly replacing the container, and on the other hand, the paint has long contact time with air, which may affect the quality of the paint; therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a drum-type paint mixing device which can practically reduce the pouring times and improve the production efficiency, and greatly reduce the time for contacting raw materials with air and reduce the hidden trouble that the paint quality is influenced.

The technical purpose of the utility model is realized by the following technical scheme: a drum-type paint mixing device comprises a horizontal support, a friction roller set horizontally and rotatably arranged on the horizontal support, and a power source used for driving the friction roller set; the friction roller set comprises a driving shaft and driven shafts, wherein the driving shaft is horizontally and rotatably arranged on the horizontal support, the driven shafts are symmetrically and rotatably connected to two sides of the driving shaft, and the driving shaft and the driven shafts are wrapped with rubber sleeves; the power source comprises a power shell arranged at one end of the horizontal support, an output shaft rotatably arranged on the power shell, and a servo motor in transmission connection with the output shaft, wherein the output shaft and the driving shaft are coaxially arranged, and a connecting shaft sleeve is arranged between the output shaft and the driving shaft.

By adopting the technical scheme, when the device is actually used, raw materials and water are filled into the coating split charging barrel according to the proportion, the split charging barrel is horizontally placed on the rubber sleeves of one driven shaft and the driving shaft after sealing is finished, a split charging barrel for raw materials to be mixed can be placed on the rubber sleeve of the other driven shaft and the driving shaft, and the pall ring filler can be additionally added into the raw material barrel when the raw materials with too high viscosity and difficult mixing are required to be mixed; after the raw material barrel is placed, the servo motor is started to drive the output shaft to synchronously rotate, the driving shaft is driven to rotate through the connection of the connecting shaft sleeve, and the driving shaft drives the sub-packaging barrel to roll by utilizing the friction force between the rubber sleeve and the circumferential surface of the sub-packaging barrel in the rotating process, so that the sub-packaging barrel can roll by self to stir the raw materials to be mixed, and the uniform mixing of various raw materials is promoted; after rolling and mixing of various raw materials in the subpackaging barrel are finished, taking down the raw materials, and entering a storage state to leave a factory; to sum up, this application adopts the mode of the partial shipment bucket that rolls to promote the mixture of multiple raw materials, compares in prior art adoption mixer stirring's mode, reduces the number of times of empting one practically and improves production efficiency to reduce the hidden danger that the coating quality received the influence when long time of raw materials and air contact in a large number.

The utility model is further configured to: and two ends of the driving shaft and two ends of the driven shaft are rotatably arranged on the horizontal support through graphite bearings and bearing seats.

By adopting the technical scheme, the driving shaft and the driven shaft are supported by the bearing seat and the two ends of the graphite bearing, so that the technical requirement that the driving shaft and the driven shaft are horizontally and rotatably arranged on the horizontal support is met, the characteristic that the graphite bearing reduces friction force is utilized, and the rotation smoothness of the driving shaft and the driven shaft is improved.

The utility model is further configured to: the driving shaft is provided with limiting discs at two ends of the rubber sleeve respectively, and the diameter of each limiting disc is larger than the diameter of the cross section of the rubber sleeve.

Through adopting above-mentioned technical scheme, utilize the restriction dish to realize effectively preventing partial shipment bucket from slipping from to the restriction of the gliding activity degree of partial shipment bucket along driving shaft axis direction.

The utility model is further configured to: the horizontal support is provided with an adjusting through groove corresponding to the bearing seat of each driven shaft, a locking bolt penetrates through the adjusting through groove, and the locking bolt penetrates through the corresponding bearing seat and is matched with a locking nut in a threaded mode.

Through adopting above-mentioned technical scheme, move the interval between corresponding bearing frame and the driven shaft along adjusting logical groove length direction and can adjust, and then adapt to the partial shipment bucket of multiple diameter better, accomplish the distance adjustment back of driving shaft and driven shaft, screw up lock nut, the activity degree of restriction bearing frame to prevent that the driven shaft from taking place abnormal movement.

The utility model is further configured to: the friction roller sets are three in specific number, and driving shafts of the three friction roller sets are coaxially connected.

Through adopting above-mentioned technical scheme, realize the technological effect of six partial shipment buckets of rolling simultaneously, effectively improve actual production efficiency.

The utility model is further configured to: it is three be provided with between the driving shaft of friction roller set and dismantle coupling assembling, can dismantle coupling assembling includes two semicircle cuff, two the both sides of semicircle cuff all are provided with the edge of turning up, run through two the fixing bolt is worn to be equipped with along turning up of semicircle cuff, fixing bolt has fixation nut through two screw-thread fit after the edge of turning up.

By adopting the technical scheme, when a single or two sub-barrels need to be rolled simultaneously, the fixing nut is screwed out, the fixing bolt is pulled down, and the two semicircular sleeve openings are disassembled, so that the connection of adjacent driving shafts can be disconnected; when three to six sub-packaging barrels need to roll simultaneously, two semicircular sleeve openings are guided to sleeve adjacent driving shafts, and a fixing bolt and a fixing nut are screwed down to force the two semicircular sleeve openings to clamp the adjacent driving shafts, so that the connection of the adjacent driving shafts is realized; to sum up, adopt and to dismantle coupling assembling and realize the connection and the split of adjacent driving shaft to avoid when only needing the partial shipment bucket that rolls less quantity, because of the unnecessary driving shaft of needs drive, and the problem that leads to the kinetic energy to be extravagant takes place.

The utility model is further configured to: the outward turning edge of one semicircular sleeve opening is provided with a positioning embedding edge, and the outward turning edge of the other semicircular sleeve opening is provided with a positioning embedding groove for embedding the positioning embedding edge.

Through adopting above-mentioned technical scheme, utilize the mutual gomphosis of location caulking groove and location edge, realize the mutual location of two semicircle cuffs, effectively improve butt joint precision between them.

The utility model is further configured to: the opposite ends of the adjacent driving shafts are provided with straight grooves, and the semicircular sleeve openings are provided with anti-slip embedded plates embedded in the straight grooves.

Through adopting above-mentioned technical scheme, utilize the gomphosis between anti-skidding panel and the straight groove, realize the further restriction to adjacent driving shaft relative rotation activity degree, effectively prevent because of the driving shaft skids in semicircle cuff, and lead to two driving shafts in the rear unable by normal drive.

In conclusion, the utility model has the following beneficial effects: the mixing of various raw materials is promoted by adopting a rolling and subpackaging barrel mode, compared with the stirring mode of a stirrer in the prior art, the pouring times are practically reduced, the production efficiency is improved, the contact time of the raw materials and air is greatly reduced, and the hidden danger that the coating quality is influenced is reduced; the rotation smoothness of the driving shaft and the driven shaft is improved by utilizing the characteristic that the friction force of the graphite bearing is reduced; the limitation of the sliding activity of the split charging barrel along the axial direction of the driving shaft is realized by utilizing the limiting disc, so that the split charging barrel is effectively prevented from sliding away; the distance between the driven shaft and the driving shaft can be adjusted by moving the corresponding bearing seat along the length direction of the adjusting through groove, so that the split charging barrel is better suitable for split charging barrels with various diameters; the technical effect of simultaneously rolling six sub-packaging barrels is realized, and the actual production efficiency is effectively improved; the detachable connecting assembly is adopted to realize the connection and the disconnection of the adjacent driving shafts, so that the problem of kinetic energy waste caused by the fact that redundant driving shafts need to be driven when a small number of subpackaging barrels need to roll is avoided; the mutual positioning of the two semicircular looping is realized by utilizing the mutual embedding of the positioning caulking groove and the positioning caulking edge; the embedding between panel and the straight groove of preventing skidding is utilized, realizes the further restriction to adjacent driving shaft relative rotation activity degree, effectively prevents to skid in semicircle cuff because of the driving shaft, and leads to two driving shafts in the rear can't normally be driven.

Drawings

FIG. 1 is a schematic overall structure of the present application;

FIG. 2 is a schematic view of the overall structure from another perspective of the present application;

FIG. 3 is a schematic view of the overall structure of the present application in a bottom view;

FIG. 4 is a schematic view of the present application showing the removable coupling assembly connecting and disconnecting adjacent drive shafts;

fig. 5 is a schematic structural view of a detachable connection assembly of the present application.

Description of the drawings: 1. a recumbent support; 21. a drive shaft; 22. a driven shaft; 23. a rubber sleeve; 24. a graphite bearing; 25. a bearing seat; 26. a confinement plate; 27. adjusting the through groove; 28. locking the bolt; 29. locking the nut; 30. a semicircular looping; 31. turning out the edges; 32. fixing the bolt; 33. fixing a nut; 34. positioning the embedded edge; 35. positioning the caulking groove; 36. a straight slot; 37. an anti-slip panel; 41. a power housing; 42. an output shaft; 43. a servo motor; 44. a connecting shaft sleeve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A roller type paint mixing device is shown in figures 1 and 2 and comprises a horizontal support 1, a friction roller set horizontally and rotatably arranged on the horizontal support 1 and a power source used for driving the friction roller set; the friction roller group comprises a driving shaft 21 horizontally and rotatably arranged on the horizontal support 1 and driven shafts 22 symmetrically and rotatably connected to two sides of the driving shaft 21, and the driving shaft 21 and the driven shafts 22 are wrapped by rubber sleeves 23; the power source comprises a power shell 41 arranged at one end of the horizontal support 1, an output shaft 42 rotatably arranged on the power shell 41 and a servo motor 43 in transmission connection with the output shaft 42, the output shaft 42 and the driving shaft 21 are coaxially arranged, and a connecting shaft sleeve 44 is arranged between the output shaft 42 and the driving shaft 21.

When the material mixing device is actually used, raw materials and water are filled into the coating sub-packaging barrel according to the proportion, the sub-packaging barrel is horizontally placed on the rubber sleeve 23 of one driven shaft 22 and the driving shaft 21 after sealing is completed, the sub-packaging barrel of the raw materials to be mixed can be placed on the rubber sleeve of the other driven shaft 22 and the driving shaft 21, and it needs to be explained that when the raw materials with too high viscosity and difficult mixing need to be mixed, pall ring filling materials can be additionally added into the raw material barrel; after the raw material barrel is placed, the servo motor 43 is started to drive the output shaft 42 to synchronously rotate, the driving shaft 21 is driven to rotate through the connection of the connecting shaft sleeve 44, and the sub-packaging barrel is driven to roll by the friction force between the rubber sleeve 23 and the circumferential surface of the sub-packaging barrel in the rotating process of the driving shaft 21, so that the sub-packaging barrel can be used for stirring the raw materials to be mixed by rolling per se to promote the uniform mixing of various raw materials; after rolling and mixing of various raw materials in the subpackaging barrel are finished, taking down the raw materials, and entering a storage state to leave a factory; to sum up, this application adopts the mode of the partial shipment bucket that rolls to promote the mixture of multiple raw materials, compares in prior art adoption mixer stirring's mode, reduces the number of times of empting one practically and improves production efficiency to reduce the hidden danger that the coating quality received the influence when long time of raw materials and air contact in a large number.

The driving shaft 21 and the driven shaft 22 are rotatably mounted on the horizontal support 1 in such a manner that, as shown in fig. 1, both ends of the driving shaft 21 and the driven shaft 22 are rotatably mounted on the horizontal support 1 through the arrangement of the graphite bearing 24 and the bearing seat 25, so that the driving shaft 21 and the driven shaft 22 are supported by the bearing seat 25 and the two ends of the graphite bearing 24, the technical requirement that the driving shaft 21 and the driven shaft 22 are horizontally rotatably mounted on the horizontal support 1 is met, and the rotation smoothness of the driving shaft 21 and the driven shaft 22 is improved by the characteristic that the graphite bearing 24 reduces friction force.

In order to prevent the sub-packaging barrel from sliding along the axial direction of the driving shaft 21, as shown in fig. 1, the driving shaft 21 is fixedly provided with limiting discs 26 at two ends of the rubber sleeve 23 respectively, and the diameters of the limiting discs 26 are larger than the diameter of the cross section of the rubber sleeve 23, so that the sub-packaging barrel is limited to slide along the axial direction of the driving shaft 21 by the limiting discs 26, and the sub-packaging barrel is effectively prevented from sliding.

In order to adapt to the split charging barrels with different diameters, as shown in fig. 3, an adjusting through groove 27 is formed in the horizontal support 1 corresponding to the bearing seat 25 of each driven shaft 22 in a penetrating mode, a locking bolt 28 penetrates through the adjusting through groove 27, and a locking nut 29 is matched with the locking bolt 28 in a threaded mode after penetrating through the corresponding bearing seat 25; after the lock nut 29 is unscrewed, the corresponding bearing seat 25 is moved along the length direction of the adjusting through groove 27, so that the distance between the driven shaft 22 and the driving shaft 21 can be adjusted, the split charging barrels with various diameters can be better adapted, after the distance between the driving shaft 21 and the driven shaft 22 is adjusted, the lock nut 29 is screwed, the activity degree of the bearing seat 25 is limited, and therefore the driven shaft 22 is prevented from abnormally moving.

For improving the work efficiency of this application, as shown in fig. 1, the specific quantity of friction roller set is three, and three's driving shaft 21 coaxial coupling to realize the technological effect that can roll six partial shipment buckets at most simultaneously, effectively improve the work efficiency of this application.

As shown in fig. 4, the detachable connection assembly comprises two semicircular looping 30, two sides of each semicircular looping 30 are provided with outward turning edges 31, fixing bolts 32 penetrate through the outward turning edges 31 penetrating through the two semicircular looping 30, and fixing nuts 33 are in threaded fit after the fixing bolts 32 penetrate through the two outward turning edges 31; when a single or two sub-barrels need to be rolled simultaneously, the fixing nut 33 is screwed out, the fixing bolt 32 is pulled down, the two semicircular sleeve openings 30 are disassembled, and then the connection of the adjacent driving shafts 21 can be disconnected; when three to six sub-packaging barrels need to be rolled simultaneously, two semicircular looping parts 30 are guided to be sleeved on adjacent driving shafts 21, and a fixing bolt 32 and a fixing nut 33 are screwed to force the two semicircular looping parts 30 to clamp the adjacent driving shafts 21, so that the connection of the adjacent driving shafts 21 is realized; to sum up, adopt and to dismantle coupling assembling and realize the connection and the split of adjacent driving shaft 21 to avoid when only needing the partial shipment bucket that rolls less quantity, because of the unnecessary driving shaft 21 of needs drive, and the problem that leads to the kinetic energy to be extravagant takes place.

In order to improve the butt joint precision of the two semicircular sockets 30, as shown in fig. 5, the outward turning edge 31 of one semicircular socket 30 is provided with a positioning embedded edge 34, and the outward turning edge 31 of the other semicircular socket 30 is provided with a positioning embedded groove 35 for embedding the positioning embedded edge 34, so that the mutual positioning of the two semicircular sockets 30 is realized by utilizing the mutual embedding of the positioning embedded groove 35 and the positioning embedded edge 34, and the butt joint precision of the two semicircular sockets is effectively improved.

In order to prevent the driving shafts 21 from slipping on the semicircular pockets 30, as shown in fig. 4 and 5, the opposite ends of the adjacent driving shafts 21 are respectively provided with a straight groove 36, the semicircular pockets 30 are processed and formed with anti-slipping embedded plates 37 embedded in the straight grooves 36, so that the relative rotation activity of the adjacent driving shafts 21 is further limited by the embedding between the anti-slipping embedded plates 37 and the straight grooves 36, and the problem that the two driving shafts 21 at the rear cannot be normally driven due to the slipping of the driving shafts 21 on the semicircular pockets 30 is effectively prevented.

The specific embodiments are only for explaining the present invention, and the present invention is not limited thereto, and those skilled in the art can make modifications without inventive contribution to the present embodiments as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. A drum-type paint mixing apparatus characterized in that: the device comprises a horizontal support (1), a friction roller set horizontally and rotatably arranged on the horizontal support (1), and a power source for driving the friction roller set;

the friction roller set comprises a driving shaft (21) horizontally and rotatably mounted on the horizontal support (1) and driven shafts (22) symmetrically and rotatably connected to two sides of the driving shaft (21), and the driving shaft (21) and the driven shafts (22) are wrapped with rubber sleeves (23);

the power source comprises a power shell (41) arranged at one end of the horizontal support (1), an output shaft (42) rotatably arranged on the power shell (41), and a servo motor (43) in transmission connection with the output shaft (42), wherein the output shaft (42) and the driving shaft (21) are coaxially arranged, and a connecting shaft sleeve (44) is arranged between the output shaft and the driving shaft.

2. A roller-type paint mixing apparatus as claimed in claim 1, wherein: the two ends of the driving shaft (21) and the driven shaft (22) are rotatably arranged on the horizontal support (1) through graphite bearings (24) and bearing seats (25).

3. A roller-type paint mixing apparatus as claimed in claim 1, wherein: the limiting discs (26) are respectively arranged at two ends of the driving shaft (21) of the rubber sleeve (23), and the diameter of each limiting disc (26) is larger than the diameter of the cross section of the rubber sleeve (23).

4. A roller-type paint mixing apparatus as claimed in claim 2, wherein: the horizontal support (1) is provided with an adjusting through groove (27) corresponding to the bearing seat (25) of each driven shaft (22), a locking bolt (28) penetrates through the adjusting through groove (27), and the locking bolt (28) penetrates through the corresponding bearing seat (25) and then is matched with a locking nut (29) in a threaded mode.

5. A roller-type paint mixing apparatus as claimed in claim 1, wherein: the friction roller sets are three in specific number, and driving shafts (21) of the three friction roller sets are coaxially connected.

6. A roller-type paint mixing apparatus as claimed in claim 5, wherein: it is three be provided with between driving shaft (21) of friction roller set and dismantle coupling assembling, can dismantle coupling assembling includes two semicircle cuff (30), two the both sides of semicircle cuff (30) all are provided with evagination edge (31), run through two fixing bolt (32) are worn to be equipped with along (31) turning up of semicircle cuff (30), screw-thread fit has fixation nut (33) after fixing bolt (32) run through two evagination edges (31).

7. A roller-type paint mixing apparatus as claimed in claim 6, wherein: the outward turning edge (31) of one semicircular sleeve opening (30) is provided with a positioning embedding edge (34), and the outward turning edge (31) of the other semicircular sleeve opening (30) is provided with a positioning embedding groove (35) for embedding the positioning embedding edge (34).

8. A roller-type paint mixing apparatus as claimed in claim 7, wherein: the opposite ends of the adjacent driving shafts (21) are respectively provided with a straight groove (36), and the semicircular looping (30) is provided with an anti-slip embedded plate (37) embedded in the straight groove (36).

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