CN213761608U

CN213761608U - Coating mixing equipment convenient to clearance

Info

Publication number: CN213761608U
Application number: CN202022419737.0U
Authority: CN
Inventors: 阮必兴; 阮鸿; 李文生
Original assignee: Fuzhou Gelikai Environmental Protection Technology Co ltd
Current assignee: Fuzhou Gelikai Environmental Protection Technology Co ltd
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2021-07-23
Anticipated expiration: 2030-10-27

Abstract

The utility model discloses a coating mixing apparatus convenient to clearance, including device bottom plate, first motor, recess and second through-hole, the cavity has all been seted up to the inside four corners position department of device bottom plate, and the one end that the cavity is close to each other all runs through the bearing and install the transfer line, fifth conical gear is all installed at the both ends of transfer line, device bottom plate top four corners position department all installs the screw-nut who runs through to device bottom plate bottom through the bearing, and the screw-nut outside all installs the fourth conical gear with fifth conical gear intermeshing. This coating mixing apparatus drives the sixth conical gear through first motor drive and drives the fourth conical gear and rotate, rotates through fourth conical gear drive screw-nut simultaneously for the device drives the first device shell of lead screw ejector pin drive and goes up and down when using, makes that the device can be better go up and down to the device when using clear up the device is inside.

Description

Coating mixing equipment convenient to clearance

Technical Field

The utility model relates to a coating production facility technical field specifically is coating mixing apparatus of clearance for being convenient for.

Background

With the development of society and the continuous progress of science and technology, raw materials with different components and sizes need to be mixed in the processing of coating for use, and the mixing equipment of coating needs to be used in the mixing of coating, and the traditional coating mixing equipment convenient to clean can basically meet the use requirements of people, but still has certain problems, and the concrete problem is as follows:

1. when most of coating mixing equipment in the current market is used, the existing device cannot better clean the interior of the device when in use, so that the residual coating in the last use is often adhered to the interior of the device, and the device is not convenient to use;

2. most coating mixing equipment is in the time of using in the existing market, and current device is when using, and the coating that enters into the device is big or small different, mixes inadequately, can't pulverize the coating that enters into the device inside for the availability factor of device is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a coating mixing apparatus convenient to clearance to the use that proposes in solving above-mentioned background art is convenient not enough and the problem that the availability factor is low.

In order to achieve the above object, the utility model provides a following technical scheme: the coating mixing equipment convenient to clean comprises a device bottom plate, a first motor, a groove and a second through hole, wherein cavities are formed in four corners inside the device bottom plate, a transmission rod is arranged at one end, close to each other, of each cavity in a penetrating mode through a bearing, fifth bevel gears are arranged at two ends of the transmission rod, screw nuts penetrating to the bottom end of the device bottom plate are arranged at four corners on the top end of the device bottom plate through bearings, fourth bevel gears meshed with the fifth bevel gears are arranged on the outer sides of the screw nuts, the first motor is arranged on two sides of one end of the device bottom plate, a sixth bevel gear penetrating to the inside of each cavity and meshed with the fourth bevel gears is arranged at the output end of the first motor, a first device shell is arranged at the top end of the device bottom plate, sliding grooves are formed in four corners at the bottom end of the first device shell, and a screw mandrel rod which runs through a screw nut is arranged inside the sliding chute, a second device shell which runs through the first device shell is arranged at the top end of the first device shell, a first through hole is uniformly formed in the top end of the second device shell, a second motor is arranged at the bottom end of the second device shell, a grinding wheel which runs through the second device shell is arranged at the output end of the second motor through a bearing, a grinding shell is arranged on the inner wall of the second device shell outside the grinding wheel, a third device shell is arranged at the middle position of the top end of the first device shell, a third motor is arranged at the top end of the third device shell, a second bevel gear which runs through the third device shell is arranged at the output end of the third motor through a bearing, and a first bevel gear which is meshed with the second bevel gear is arranged on the inner wall of one side of the second bevel gear, close to the third device shell, through a bearing, the inside bottom of third device shell is installed through the bearing and is run through to the inside second puddler of first device shell, and second puddler top install with first bevel gear intermeshing's third bevel gear, the first puddler that runs through to the inside bottom of first device shell is installed through the bearing to second bevel gear bottom.

Preferably, guide rods are vertically arranged on two sides of two ends of the top end of the device bottom plate, and sliding blocks connected with the bottom ends of two ends of the first device shell are sleeved on the outer sides of the guide rods.

Preferably, the bottom end of the first device shell is provided with a top block, and the bottom end of the top block is provided with a groove.

Preferably, the top end of the first device shell is uniformly provided with a pipeline penetrating into the first device shell, and a second through hole penetrating through the pipeline is required to be uniformly formed in the pipeline.

Preferably, spring ejector rods are evenly installed on the top of the inner portion of the groove, a rubber top plate is installed at the bottom end of each spring ejector rod, and a sealing block connected with the top end of the device bottom plate is arranged inside the groove in the bottom end of each rubber top plate.

Preferably, a through hole sieve plate is installed at one end inside the second through hole, and a spring plug penetrating into the pipeline is installed at one end of the through hole sieve plate.

Compared with the prior art, the beneficial effects of the utility model are that:

1. by installing the first motor, the first device shell and the fourth bevel gear, the sixth bevel gear is driven by the first motor to drive the fourth bevel gear to rotate, and meanwhile, the lead screw nut is driven by the fourth bevel gear to rotate, so that the device drives the lead screw ejector rod to drive the first device shell to lift when in use, and the device can be better lifted to clean the inside of the device when in use;

2. meanwhile, the device is provided with a second device shell, a second motor and a grinding wheel, the grinding wheel is driven to rotate by the second motor, and meanwhile, the coating is poured into the second device shell through the first through hole and then ground, so that the material can be ground better when the device is used, and the service efficiency of the device is improved;

3. meanwhile, the device is provided with the groove, the spring ejector rod and the rubber top plate, and the spring ejector rod in the groove pushes the rubber top plate to be in contact with the sealing block, so that the sealing effect of the device is improved.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a right side view of the structure of the present invention;

fig. 4 is a schematic top view of the present invention;

FIG. 5 is an enlarged view of the portion A of FIG. 1 according to the present invention;

fig. 6 is an enlarged schematic view of a portion B in fig. 1 according to the present invention.

In the figure: 1. a device chassis; 2. a first motor; 3. a guide bar; 4. a first device housing; 5. a pipeline; 6. a second device housing; 7. a first bevel gear; 8. a third device housing; 9. a second motor; 10. grinding the shell; 11. a grinding wheel; 12. a first through hole; 13. a third motor; 14. a second bevel gear; 15. a first stirring rod; 16. a third bevel gear; 17. a second stirring rod; 18. a slider; 19. a fourth bevel gear; 20. a cavity; 21. a feed screw nut; 22. a screw mandrel; 23. a fifth bevel gear; 24. a transmission rod; 25. a sixth bevel gear; 26. a chute; 27. a top block; 28. a groove; 29. a spring ejector rod; 30. A rubber top plate; 31. a sealing block; 32. a spring plug; 33. a second through hole; 34. a through hole sieve plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: the coating mixing equipment convenient to clean comprises a device bottom plate 1, a first motor 2, a groove 28 and a second through hole 33, wherein cavities 20 are formed in four corners inside the device bottom plate 1, guide rods 3 are vertically arranged on two sides of two ends of the top end of the device bottom plate 1, and sliders 18 connected with the bottom ends of two ends of a first device shell 4 are sleeved on the outer sides of the guide rods 3, so that the sliders 18 can be driven to move outside the guide rods 3 when the first device shell 4 rises or falls during use, and the first device shell 4 can better guide a device when rising;

one end of the cavity 20, which is close to each other, is provided with a transmission rod 24 in a penetrating manner through a bearing, both ends of the transmission rod 24 are provided with fifth bevel gears 23, four corners of the top end of the device bottom plate 1 are provided with screw nuts 21 penetrating to the bottom end of the device bottom plate 1 through bearings, the outer sides of the screw nuts 21 are provided with fourth bevel gears 19 meshed with the fifth bevel gears 23, both sides of one end of the device bottom plate 1 are provided with first motors 2, the types of the first motors 2 can be MSME-5AZG1, the output ends of the first motors 2 are provided with sixth bevel gears 25 penetrating into the cavity 20 and meshed with the fourth bevel gears 19, and the top end of the device bottom plate 1 is provided with a first device shell 4;

the top block 27 is mounted at the bottom end of the first device shell 4, the groove 28 is formed in the bottom end of the top block 27, and the sealing block 31 can be better clamped through the groove 28 formed in the bottom end of the top block 27 in use, so that the device can be better fixed in use;

the top end of the first device shell 4 is uniformly provided with the pipelines 5 penetrating into the first device shell 4, second through holes 33 penetrating through the pipelines 5 need to be uniformly formed in the pipelines 5, and when the cleaning device is used, cleaning liquid in the pipelines 5 can be better sprayed out through the second through holes 33 formed in the pipelines 5 to clean the first device shell 4;

spring ejector rods 29 are uniformly arranged at the top ends inside the grooves 28, rubber top plates 30 are arranged at the bottom ends of the spring ejector rods 29, sealing blocks 31 connected with the top ends of the device bottom plates 1 are arranged inside the grooves 28 at the bottom ends of the rubber top plates 30, the rubber top plates 30 can be pushed by the spring ejector rods 29 to be in contact with the sealing blocks 31 better when the device is used, and the device bottom plates 1 and the first device shell 4 can be sealed better when the device is used;

a through hole sieve plate 34 is arranged at one end inside the second through hole 33, a spring plug 32 penetrating into the pipeline 5 is arranged at one end of the through hole sieve plate 34, and the second through hole 33 can be better plugged by the spring plug 32 on the through hole sieve plate 34 when the device is used, so that the device can be better sealed when the device is used, and the coating is prevented from entering the pipeline 5 to damage the pipeline 5;

the four corners of the bottom end of the first device shell 4 are all provided with sliding chutes 26, the sliding chutes 26 are internally provided with screw mandrel rods 22 penetrating through screw nuts 21, the top end of the first device shell 4 is provided with a second device shell 6 penetrating into the first device shell 4, the top end of the second device shell 6 is uniformly provided with first through holes 12, the bottom end of the second device shell 6 is provided with a second motor 9, the model of the second motor 9 can be MSME-011G1, the output end of the second motor 9 is provided with a grinding wheel 11 penetrating into the second device shell 6 through a bearing, the inner wall of the second device shell 6 outside the grinding wheel 11 is provided with a grinding shell 10, the middle position of the top end of the first device shell 4 is provided with a third device shell 8, the top end of the third device shell 8 is provided with a third motor 13, the model of the third motor 13 can be BLDC-38S, the output end of the third motor 13 is provided with a second bevel gear 14 which penetrates through the inside of the third device shell 8 through a bearing, the first bevel gear 7 which is meshed with the second bevel gear 14 is arranged on the inner wall of one side of the third device shell 14 close to the second bevel gear 14 through a bearing, the second stirring rod 17 which penetrates through the inside of the first device shell 4 is arranged at the bottom end of the inside of the third device shell 8 through a bearing, the third bevel gear 16 which is meshed with the first bevel gear 7 is arranged at the top end of the second stirring rod 17, and the first stirring rod 15 which penetrates through the bottom end of the inside of the first device shell 4 is arranged at the bottom end of the second bevel gear 14 through a bearing.

The working principle is as follows: when the coating mixing equipment convenient to clean is used, a power supply is externally connected to the device, after coating is poured into the second device shell 6 through the first through hole 12, the second motor 9 drives the grinding wheel 11 to rotate so that the grinding wheel 11 and the grinding shell 10 grind the coating, after the coating is ground, the coating enters the first device shell 4 through the second device shell 6 to be stirred, so that the coating can be ground better when the device is used, the use efficiency of the device is improved, the third motor 13 drives the second bevel gear 14 to drive the first stirring rod 15 to stir the coating in the device, meanwhile, the second bevel gear 14 drives the first bevel gear 7 meshed with the first bevel gear to rotate when the first bevel gear 7 rotates, and the third bevel gear 16 meshed with the first bevel gear is driven to rotate when the first bevel gear 7 rotates so as to drive the second stirring rod 17 and the first stirring rod 15 to rotate in opposite directions, so that the coating inside the device can be better stirred when the device is used,

when the device is used, the first motor 2 drives the sixth bevel gear 25 to rotate, when the sixth bevel gear 25 rotates, the fourth bevel gear 19 drives the fifth bevel gear 23 to drive the transmission rod 24 to rotate, when the fourth bevel gear 19 rotates, the feed screw nut 21 is driven to rotate, meanwhile, when the screw mandrel 22 is driven to rotate by the screw mandrel nut 21, the first device shell 4 is pushed, the first device shell 4 drives the sliding block 18 to move outside the guide rod 3, make the device can go up and down when using, push up spring plug 32 after the rethread pipeline 5 pours into the washing liquid into, the inside of rethread second through-hole 33 is cleared up the inside of first device shell 4 to the inside washing liquid that pours into of first device shell 4 into, does above the utility model discloses a whole theory of operation.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. Coating mixing apparatus convenient to clearance, including device bottom plate (1), first motor (2), recess (28) and second through-hole (33), its characterized in that: the device is characterized in that cavities (20) are arranged at four corners inside a device bottom plate (1), a transmission rod (24) is arranged at one end, close to each other, of each cavity (20) in a penetrating mode through a bearing, fifth bevel gears (23) are arranged at two ends of each transmission rod (24), a lead screw nut (21) penetrating to the bottom end of the device bottom plate (1) is arranged at four corners at the top end of the device bottom plate (1) in a penetrating mode through a bearing, fourth bevel gears (19) meshed with the fifth bevel gears (23) are arranged on the outer sides of the lead screw nuts (21), first motors (2) are arranged at two sides of one end of the device bottom plate (1), sixth bevel gears (25) penetrating to the inside of the cavities (20) and meshed with the fourth bevel gears (19) are arranged at output ends of the first motors (2), a first device shell (4) is arranged at the top end of the device bottom plate (1), the device is characterized in that sliding chutes (26) are arranged at four corners of the bottom end of the first device shell (4), a screw mandrel (22) penetrating through a screw nut (21) is arranged in each sliding chute (26), a second device shell (6) penetrating into the first device shell (4) is arranged at the top end of the first device shell (4), first through holes (12) are uniformly formed in the top end of the second device shell (6), a second motor (9) is arranged at the bottom end of the second device shell (6), a grinding wheel (11) penetrating into the second device shell (6) is arranged at the output end of the second motor (9) through a bearing, a grinding shell (10) is arranged on the inner wall of the second device shell (6) at the outer side of the grinding wheel (11), a third device shell (8) is arranged at the middle position of the top end of the first device shell (4), and a third motor (13) is arranged at the top end of the third device shell (8), third motor (13) output is installed through the bearing and is run through second bevel gear (14) to third device shell (8) inside, and second bevel gear (14) are close to third device shell (8) one side inner wall and install first bevel gear (7) with second bevel gear (14) intermeshing through the bearing, third device shell (8) inside bottom is installed through the bearing and is run through to first device shell (4) inside second puddler (17), and second puddler (17) top install with first bevel gear (7) intermeshing third bevel gear (16), second bevel gear (14) bottom is installed through the bearing and is run through to first device shell (4) inside first puddler (15) bottom.

2. The easy-to-clean paint mixing apparatus of claim 1, wherein: guide rods (3) are vertically arranged on two sides of two ends of the top end of the device bottom plate (1), and sliding blocks (18) connected with the bottom ends of two ends of the first device shell (4) are sleeved on the outer sides of the guide rods (3).

3. The easy-to-clean paint mixing apparatus of claim 1, wherein: the bottom end of the first device shell (4) is provided with a top block (27), and the bottom end of the top block (27) is provided with a groove (28).

4. The easy-to-clean paint mixing apparatus of claim 1, wherein: first device shell (4) top is evenly installed and is run through to pipeline (5) of first device shell (4) inside, and pipeline (5) inside need evenly set up second through-hole (33) that run through pipeline (5).

5. The easy-to-clean paint mixing apparatus of claim 3, wherein: spring ejector rods (29) are evenly installed on the top end inside the groove (28), rubber top plates (30) are installed at the bottom ends of the spring ejector rods (29), and sealing blocks (31) connected with the top end of the device bottom plate (1) are arranged inside the groove (28) in the bottom ends of the rubber top plates (30).

6. The easy-to-clean paint mixing apparatus of claim 4, wherein: through-hole sieve (34) are installed to the inside one end of second through-hole (33), and through-hole sieve (34) one end is installed and is run through to inside spring end cap (32) of pipeline (5).