CN216755840U - Atomizing and dust removing device for processing negative oxygen ion emulsion paint - Google Patents

Abstract

The utility model discloses an atomizing and dedusting device for processing negative oxygen ion emulsion paint, which comprises an installation block, an atomizing spray head and a conveying pipe, wherein the atomizing spray head is arranged below the installation block, the conveying pipe is connected above the atomizing spray head, liquid is conveyed into the atomizing spray head through the conveying pipe, a supporting plate is arranged below the installation block, the supporting plate is fixed below a supporting surface through the installation block, a connecting block is arranged on the outer side of the supporting plate, a supporting block is fixed below the connecting block, and the atomizing spray head is arranged on the inner side of the supporting block and moves along with the movement of the supporting block. This negative oxygen ion emulsion paint processing is with atomizing dust collector establishes the support plate frame on the holding surface of top through the installation piece, and follow-up rotation through the walking gear can make the connecting block remove in the backup pad to make atomizer remove, and atomizer sprays liquid dust fall from the top, and atomizer sinks can effectually get rid of the dust on space upper portion.

Description

Atomizing and dust removing device for processing negative oxygen ion emulsion paint

Technical Field

The utility model relates to the technical field of negative oxygen ion latex paint processing, in particular to an atomization dust removal device for negative oxygen ion latex paint processing.

Background

Add man-hour to negative oxygen ion emulsion paint, can produce certain dust in the mill, if can not handle the dust and can cause the pollution of workman's operation environment on the one hand, the dust also can influence the follow-up production quality of emulsion paint in entering into the emulsion paint simultaneously, accessible atomizing dust collector carries out the dust fall, but current atomizing dust collector still has some weak points when using:

the existing atomization dust removal device is generally placed on the ground for use, the upward spraying height of the atomization dust removal device has great limitation, the dust floating above the atomization dust removal device cannot be removed, the dust floating above the follow-up atomization dust removal device can still influence the environment, and the dust removal effect of the atomization dust removal device is reduced.

To the above problems, innovative design is urgently needed on the basis of the original atomizing and dust removing device.

Disclosure of Invention

The utility model aims to provide an atomizing and dust removing device for processing negative oxygen ion emulsion paint, which aims to solve the problems that the existing atomizing and dust removing device in the market is generally placed on the ground for use, the upward spraying height of the existing atomizing and dust removing device is limited greatly, dust floating above the existing atomizing and dust removing device cannot be removed, and the subsequent dust floating above the existing atomizing and dust removing device can still influence the environment after the existing atomizing and dust removing device is continuously floated.

In order to achieve the purpose, the utility model provides the following technical scheme: an atomizing and dust removing device for processing negative oxygen ion emulsion paint comprises an installation block, an atomizing spray head and a conveying pipe, wherein the atomizing spray head is arranged below the installation block, the conveying pipe is connected above the atomizing spray head, liquid is conveyed into the atomizing spray head through the conveying pipe, a supporting plate is arranged below the installation block, the supporting plate is fixed below a supporting surface through the installation block, a connecting block is arranged on the outer side of the supporting plate, a supporting block is fixed below the connecting block, the atomizing spray head is arranged on the inner side of the supporting block and moves along with the movement of the supporting block, the connecting block is sleeved between the outer side of the supporting plate and the supporting plate to form a left-right sliding structure, the upper surface of the supporting plate is in a tooth block-shaped structural design, a walking gear is arranged inside the connecting block, and the walking gear is installed inside the connecting block through the rotation of an output shaft, and the front end of the walking gear is connected with a motor, the motor is fixed on the front side of the connecting block and used for controlling the rotation of the walking gear, and the motor can move above the supporting plate when the walking gear rotates.

Further optimize this technical scheme, atomizer's top is fixed with the transmission piece, and both ends all are fixed with the installation axle about the transmission piece to the transmission piece constitutes the rotation through installing between axle and the supporting shoe and connects, and follow-up accessible installation axle's rotation makes atomizer swing.

Further optimize this technical scheme, the left side of installation axle is provided with rotary drive mechanism, the rotation of control installation axle.

Further optimizing the technical scheme, the rotary driving mechanism comprises a first connecting gear, a movable plate, a second connecting gear, a first transmission shaft and a transmission mechanism;

the first connecting gear is fixed at the left end of the mounting shaft and controls the rotation of the mounting shaft;

the movable plate is arranged above the first connecting gear and forms a front-back sliding structure with the supporting block;

the second connecting gear is arranged at the rear side of the first connecting gear and is in meshed connection with the first connecting gear;

the first transmission shaft is fixed on the right side of the second connecting gear and controls the rotation of the second connecting gear, and the first transmission shaft is mounted on the inner side of the supporting block in a bearing mode;

and the transmission mechanism is arranged on the outer side of the first transmission shaft and controls the rotation of the first transmission shaft.

Further optimize this technical scheme, all constitute the meshing connection between fly leaf and first connecting gear and the second connecting gear, and the second connecting gear does not mesh with fly leaf and first connecting gear simultaneously.

Further optimize this technical scheme, drive mechanism comprises bevel gear and second transmission shaft, bevel gear fixes the surface at first transmission shaft, and first transmission shaft passes through bevel gear and second transmission shaft meshing, and the inside at the supporting shoe is installed to the second transmission shaft bearing, and the upper end of second transmission shaft passes through bevel gear and output shaft and meshes mutually for the motor can drive the second transmission shaft in step and rotate when the rotatory.

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

(1) according to the atomizing and dedusting device for processing the negative oxygen ion emulsion paint, the supporting plate is erected on the supporting surface at the top through the mounting block, the connecting block can be moved on the supporting plate through the subsequent rotation of the traveling gear, so that the atomizing nozzle is moved, the atomizing nozzle sprays liquid from the upper part for dust reduction, the atomized liquid sinks, dust at the upper part of a space can be effectively removed, and the subsequent dust removal effect of the device is improved;

(2) this negative oxygen ion emulsion paint processing is with atomizing dust collector is provided with drive block and installation axle, can drive the drive block through the reciprocating rotation of installation axle and carry out reciprocating rotation, makes atomizer can carry out the swing of fore-and-aft direction, increases its effective dust fall area.

Drawings

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

FIG. 2 is a schematic view of a support block main section structure according to the present invention;

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

FIG. 4 is a schematic side sectional view of the present invention;

fig. 5 is a side view of the first connecting gear of the present invention.

In the figure: 1. mounting blocks; 2. a support plate; 3. connecting blocks; 4. a support block; 5. an atomizing spray head; 6. a delivery pipe; 7. a transmission block; 8. installing a shaft; 9. a traveling gear; 10. an output shaft; 11. a motor; 12. a first connecting gear; 13. a movable plate; 14. a second connecting gear; 15. a first drive shaft; 16. a bevel gear; 17. a second drive shaft.

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. 1-5, the present invention provides a technical solution: an atomizing and dust removing device for processing negative oxygen ion emulsion paint comprises an installation block 1, an atomizing spray head 5 and a conveying pipe 6, wherein the atomizing spray head 5 is arranged below the installation block 1, the conveying pipe 6 is connected above the atomizing spray head 5, liquid is conveyed into the atomizing spray head 5 through the conveying pipe 6, a support plate 2 is arranged below the installation block 1, the support plate 2 is fixed below a support surface through the installation block 1, a connecting block 3 is arranged on the outer side of the support plate 2, a support block 4 is fixed below the connecting block 3, the atomizing spray head 5 is arranged on the inner side of the support block 4 and moves along with the movement of the support block 4, the connecting block 3 is sleeved between the outer side of the support plate 2 and the support plate 2 to form a left-right sliding structure, the upper surface of the support plate 2 is in a toothed block structure design, a walking gear 9 is arranged inside the connecting block 3, and the walking gear 9 is rotatably arranged inside the connecting block 3 through an output shaft 10, the front end of the walking gear 9 is connected with a motor 11, the motor 11 is fixed on the front side of the connecting block 3, the rotation of the walking gear 9 is controlled, and the walking gear 9 can move above the supporting plate 2 when rotating;

carry out the transport of liquid in accessible conveyer pipe 6 is to atomizer 5 when removing dust, make atomizer 5 can spray steam downwards, get rid of the dust, but starting motor 11 simultaneously makes motor 11 drive walking gear 9 through output shaft 10 and rotates, will drive connecting block 3 through the meshing with backup pad 2 and remove on backup pad 2 in walking gear 9 rotation process to make atomizer 5 remove, improve the dust fall scope.

A transmission block 7 is fixed above the atomizing nozzle 5, mounting shafts 8 are fixed at the left end and the right end of the transmission block 7, the transmission block 7 is in rotary connection with the support block 4 through the mounting shafts 8, a rotary driving mechanism is arranged at the left side of the mounting shafts 8 and controls the rotation of the mounting shafts 8, and the rotary driving mechanism comprises a first connecting gear 12, a movable plate 13, a second connecting gear 14, a first transmission shaft 15 and a transmission mechanism;

a first connecting gear 12 fixed to the left end of the mounting shaft 8 to control the rotation of the mounting shaft 8;

a movable plate 13 disposed above the first connecting gear 12 and forming a front-rear sliding structure with the support block 4;

the second connecting gear 14 is arranged at the rear side of the first connecting gear 12 and forms meshing connection with the first connecting gear 12;

a first transmission shaft 15 fixed to the right side of the second connection gear 14 to control the rotation of the second connection gear 14, and the first transmission shaft 15 bearing-mounted on the inner side of the support block 4;

the transmission mechanism is arranged on the outer side of the first transmission shaft 15 and controls the rotation of the first transmission shaft 15, the movable plate 13, the first connecting gear 12 and the second connecting gear 14 are in meshed connection, the second connecting gear 14 is not meshed with the movable plate 13 and the first connecting gear 12 simultaneously, the transmission mechanism is composed of a bevel gear 16 and a second transmission shaft 17, the bevel gear 16 is fixed on the surface of the first transmission shaft 15, the first transmission shaft 15 is meshed with the second transmission shaft 17 through the bevel gear 16, the second transmission shaft 17 is installed inside the supporting block 4 in a bearing mode, and the upper end of the second transmission shaft 17 is meshed with the output shaft 10 through the bevel gear 16;

when the output shaft 10 rotates, the second transmission shaft 17 is driven to rotate by the bevel gear 16, the second transmission shaft 17 drives the first transmission shaft 15 to rotate by the bevel gear 16 when rotating, so that the first transmission shaft 15 drives the second connecting gear 14 to rotate, the second connecting gear 14 drives the first connecting gear 12 to rotate when meshing with the first connecting gear 12, meanwhile, the first connecting gear 12 drives the movable plate 13 to move backwards by meshing with the movable plate 13, when the second connecting gear 14 is staggered with the meshing of the first connecting gear 12, the second connecting gear 14 meshes with the movable plate 13 to drive the movable plate 13 to move forwards, the movable plate 13 drives the first connecting gear 12 to rotate by meshing with the first connecting gear 12 when moving, so that the first connecting gear 12 can keep reciprocating rotation, when the first connecting gear 12 rotates, the transmission block 7 is driven to move by the mounting shaft 8, the atomizing nozzle 5 can swing back and forth, and the dustfall range is enlarged.

The working principle is as follows: when using this negative oxygen ion emulsion paint processing to use atomizing dust collector, can fix installation piece 1 on the top holding surface earlier, make atomizer 5 hang and put in the regional top of dust fall, then carry out the transport of liquid in to atomizer 5 through conveyer pipe 6, can cooperate the rotation of walking gear 9 to make connecting block 3 move on backup pad 2 simultaneously, control atomizer 5's position.

Those not described in detail in this specification are within the skill of the art.

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 utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. An atomizing and dedusting device for processing negative oxygen ion emulsion paint comprises a mounting block (1), an atomizing spray head (5) and a conveying pipe (6), wherein the atomizing spray head (5) is arranged below the mounting block (1), the conveying pipe (6) is connected above the atomizing spray head (5), and liquid is conveyed into the atomizing spray head (5) through the conveying pipe (6);

the method is characterized in that: the device is characterized in that a supporting plate (2) is arranged below the mounting block (1), the supporting plate (2) is fixed below a supporting surface through the mounting block (1), a connecting block (3) is arranged on the outer side of the supporting plate (2), a supporting block (4) is fixed below the connecting block (3), the atomizing spray head (5) is arranged on the inner side of the supporting block (4) and moves along with the supporting block (4), the connecting block (3) is sleeved between the outer side of the supporting plate (2) and the supporting plate (2) to form a left-right sliding structure, the upper surface of the supporting plate (2) is designed to be a toothed block-shaped structure, a walking gear (9) is arranged inside the connecting block (3), the walking gear (9) is rotatably arranged inside the connecting block (3) through an output shaft (10), the front end of the walking gear (9) is connected with a motor (11), and the motor (11) is fixed on the front side of the connecting block (3), the rotation of the traveling gear (9) is controlled, and the traveling gear (9) can move above the support plate (2) when rotating.

2. The atomizing and dedusting device for processing the negative oxygen ion emulsion paint according to claim 1, is characterized in that: the top of atomizer (5) is fixed with transmission piece (7), and both ends all are fixed with installation axle (8) about transmission piece (7), and constitute between installation axle (8) and supporting shoe (4) and rotate the connection transmission piece (7).

3. The atomizing and dedusting device for processing the negative oxygen ion emulsion paint according to claim 2, is characterized in that: the left side of installation axle (8) is provided with rotary driving mechanism, the rotation of control installation axle (8).

4. The atomizing and dedusting device for processing the negative oxygen ion latex paint according to claim 3, is characterized in that: the rotary driving mechanism comprises a first connecting gear (12), a movable plate (13), a second connecting gear (14), a first transmission shaft (15) and a transmission mechanism;

the first connecting gear (12) is fixed at the left end of the mounting shaft (8) and controls the rotation of the mounting shaft (8);

the movable plate (13) is arranged above the first connecting gear (12) and forms a front-back sliding structure with the supporting block (4);

the second connecting gear (14) is arranged at the rear side of the first connecting gear (12) and is in meshed connection with the first connecting gear (12);

the first transmission shaft (15) is fixed on the right side of the second connecting gear (14) and controls the rotation of the second connecting gear (14), and the first transmission shaft (15) is arranged on the inner side of the supporting block (4) in a bearing mode;

and a transmission mechanism which is arranged outside the first transmission shaft (15) and controls the rotation of the first transmission shaft (15).

5. The atomization and dust removal device for processing the negative oxygen ion emulsion paint, according to claim 4, is characterized in that: the movable plate (13) and the first connecting gear (12) and the second connecting gear (14) are in meshed connection, and the second connecting gear (14) is not meshed with the movable plate (13) and the first connecting gear (12) simultaneously.

6. The atomizing and dedusting device for processing the negative oxygen ion latex paint according to claim 5, is characterized in that: the transmission mechanism is composed of a bevel gear (16) and a second transmission shaft (17), the bevel gear (16) is fixed on the surface of the first transmission shaft (15), the first transmission shaft (15) is meshed with the second transmission shaft (17) through the bevel gear (16), the second transmission shaft (17) is installed inside the supporting block (4) in a bearing mode, and the upper end of the second transmission shaft (17) is meshed with the output shaft (10) through the bevel gear (16).

Images