A dust removal air force balance distribution device of a cigarette making machine

By designing storage, adjustment, and collection components, the dust removal airflow of the winding unit is precisely adjusted and dust is efficiently collected, solving the problems of complex structure and limited adjustment accuracy of existing devices, and improving dust removal effect and production environment stability.

CN224487014UActive Publication Date: 2026-07-14CHINA TOBACCO HENAN IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHINA TOBACCO HENAN IND CO LTD
Filing Date
2025-06-20
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing dust removal airflow balance distribution device of the rolling and splicing unit has a complex structure, is difficult to install and maintain, and has limited adjustment accuracy, which affects the stability and reliability of the dust removal effect.

Method used

A dust removal wind force balance distribution device for a roll-to-roll unit was designed, comprising a storage component, an adjustment component, and a collection component. The device achieves precise adjustment of wind direction and angle by driving fan blades with a motor and a belt with gears, and collects dust with an arc-shaped plate to ensure uniform wind force distribution.

Benefits of technology

It achieves uniform distribution of wind power in all parts, improves the stability and reliability of dust removal effect, reduces installation and maintenance difficulty, and improves the hygiene of the production environment and the comfort of operators.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a dust-removing wind balance distribution device of a cigarette making machine group, which comprises a cigarette making machine group body, a storage assembly is arranged on one side of the cigarette making machine group body, the storage assembly comprises a blowing box, a plurality of storage boxes are arranged in the blowing box, air outlets are formed in the storage boxes, a first motor is arranged in the blowing box, a fan blade is arranged at one end of the first motor, an adjusting assembly is arranged on the top of the storage assembly, the adjusting assembly is used for adjusting the inclination angle of the storage boxes, and a collecting assembly is arranged on the side, away from the storage assembly, of the cigarette making machine group body. The first motor in the blowing box is started to drive the fan blade to rotate, wind power is generated, and the wind is blown out of the air outlets on the storage boxes. The blowing box provides protection and support for the whole device. Through the assembly, stable wind power can be provided in a specific direction, and a foundation is laid for realizing dust-removing wind balance distribution.
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Description

Technical Field

[0001] This utility model relates to the field of dust removal airflow balance distribution technology, and in particular to a dust removal airflow balance distribution device for a rolling and splicing unit. Background Technology

[0002] The function of the dust removal airflow balance distribution device of the coiling unit is to ensure that the airflow of the dust removal system is evenly distributed in all parts, thereby effectively removing dust in the unit. By precisely adjusting the airflow, it balances the air pressure in different areas, avoiding localized excessive dust suction or insufficient airflow. This can improve the dust removal effect, reduce equipment failure, ensure the normal operation of the coiling unit, and improve the hygiene of the production environment and the working comfort of the operators.

[0003] In practical work, the existing dust removal devices for coiling machines can basically meet the dust removal needs, but the following problems still exist:

[0004] However, in actual use, it has been found that the existing dust removal wind force balance distribution device for roll forming units has the disadvantage of complex structure, which greatly increases the difficulty of installation and maintenance. It requires professional personnel to spend a lot of time and energy, and the adjustment accuracy is limited, making it difficult to achieve accurate wind force balance distribution, which affects the stability and reliability of dust removal effect. This application provides a dust removal wind force balance distribution device for roll forming units to meet the requirements. Utility Model Content

[0005] The technical problem to be solved by this utility model is to provide a dust removal air force balance distribution device for a coiling machine unit, which overcomes the above-mentioned defects of the prior art.

[0006] The technical problem to be solved by this utility model is achieved through the following technical solution:

[0007] A dust removal airflow balancing distribution device for a coiling machine unit includes a coiling machine unit body. A storage component is provided on one side of the coiling machine unit body. The storage component includes a blower box, inside which are arranged multiple storage boxes. An air outlet is provided on the storage box. A first motor is arranged inside the blower box, and a fan blade is provided at one end of the first motor. An adjustment component is provided on the top of the storage component for adjusting the tilt angle of the storage boxes. A collection component is provided on the side of the coiling machine unit body away from the storage component.

[0008] Preferably, in the above technical solution, the adjustment component includes a second motor, a second fixed shaft and a plurality of driven fixed shafts. One end of the second fixed shaft is connected to the output end of the second motor, and the other end is fixed to the blower box. A gear is provided on the second fixed shaft, and the gear is connected to the plurality of driven fixed shafts through a belt. The bottom end of the driven fixed shaft is connected to the storage box.

[0009] Preferably, in the above technical solution, a second support plate is provided at the bottom of the gear, a dustproof box is provided on the outside of the belt, the gear and the belt form a synchronous transmission mechanism, and the second fixed shaft is driven to rotate by the second motor to synchronously adjust the tilt angle of the multiple storage boxes to change the air output direction of the air outlet.

[0010] Preferably, in the above technical solution, a collection component is provided on the side of the coiling unit body away from the storage component. The collection component includes a support box, a top plate is provided on the top of the support box, and an exhaust port is provided on the top plate. A first fixed shaft is provided inside the support box, and an arc-shaped plate is provided on the first fixed shaft. A receiving trough is provided inside the support box.

[0011] Preferably, in the above technical solution, the arc-shaped plate is rotatably connected to the first fixed shaft.

[0012] Preferably, in the above technical solution, a first support plate is provided on the outer side of the collection component, and a collection box is provided on the top of the first support plate.

[0013] The above-mentioned technical solution of this utility model has the following beneficial effects:

[0014] This application comprises a blower box, a storage box, an air outlet, a first motor, fan blades, a second motor, a second fixed shaft, a belt, and gears. The first motor inside the blower box starts, driving the fan blades to rotate and generate airflow. The airflow is then blown out from the air outlet on the storage box. The blower box provides protection and support for the entire device. This component allows for stable airflow in a specific direction, laying the foundation for balanced airflow distribution in dust removal. The second motor drives the second fixed shaft to rotate, thereby adjusting the gears and belt to modify the angle of the storage box, thus achieving balanced airflow distribution. Attached Figure Description

[0015] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments of the present invention and, together with their description, serve to explain the principles of the present invention.

[0016] Figure 1 This is a schematic diagram of the dust removal airflow balance distribution device for the coiling unit of this application;

[0017] Figure 2 This is a schematic diagram of the dust box structure of the dust removal airflow balance distribution device for the coiling unit in this application;

[0018] Figure 3 This is a schematic diagram of the storage component structure of the dust removal airflow balance distribution device for the coiling unit of this application;

[0019] Figure 4 This is a schematic diagram of the collection component structure of the dust removal wind power balance distribution device for the coiling unit of this application.

[0020] In the diagram: 1. Rolling and coiling unit body; 2. Collection assembly; 21. Support box; 22. Top plate; 23. Exhaust vent; 24. First fixed shaft; 25. Arc plate; 26. Material receiving trough; 3. First support plate; 4. Collection box; 5. Storage assembly; 51. Blowing box; 52. Storage box; 53. Air outlet; 54. First motor; 55. Fan blade; 6. Adjustment assembly; 61. Second motor; 62. Second fixed shaft; 63. Belt; 64. Second support plate; 65. Gear; 66. Dustproof box. Detailed Implementation

[0021] Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that, unless otherwise specifically stated, the relative arrangement, numerical expressions, and values ​​of the components and steps set forth in these embodiments do not limit the scope of the present invention.

[0022] Unless otherwise specified, the experimental methods used in the following examples are conventional methods, and the materials and reagents used are commercially available. Unless otherwise specified, the equipment used in the experiments is well known to those skilled in the art.

[0023] This application provides a dust removal airflow balance distribution device for a coiling machine unit, including a coiling machine unit body 1, with a storage component 5 disposed on one side of the coiling machine unit body 1; the storage component 5 includes a blower box 51, with a storage box 52 disposed inside the blower box 51, and an air outlet 53 opened on the storage box 52; a first motor 54 is disposed inside the blower box 51, with a fan blade 55 disposed at one end of the first motor 54; after the first motor 54 inside the blower box 51 is started, it drives the fan blade 55 to rotate, generating airflow, and the airflow is blown out from the air outlet 53 on the storage box 52; the blower box 51 provides protection and support for the entire device; through this component, stable airflow can be provided in a specific direction, laying the foundation for achieving dust removal airflow balance distribution.

[0024] The adjustment assembly 6 includes a second motor 61 and a second fixed shaft 62. The output end of the second motor 61 is connected to the outermost second fixed shaft 62, and the other end of the outermost second fixed shaft 62 is connected to the blower box 51. The other ends of the remaining second fixed shafts 62 (i.e., driven fixed shafts) are connected to the storage box 52. Each second fixed shaft 62 is equipped with a gear 65, and a belt 63 is provided on the outside of the gear 65. A second support plate 64 is provided at the bottom of the gear 65, and a dustproof box 66 is provided on the outside of the belt 63. The second motor 61 in the adjustment assembly 6 plays a key role. After the second motor 61 is started, it can drive the second fixed shaft 62 at the bottom to rotate. The second fixed shaft 62 is connected to the storage box 52, and its rotation drives the gear 65 on it to rotate. The belt 63 on the outside of the gear 65 starts to drive under the action of the gear 65 rotation, thereby driving the remaining second fixed shafts 62 and gear 65 to rotate. The second support plate 64 at the bottom of the gear 65 provides stable support for the gear 65. Through this assembly, the storage assembly 5 can be adjusted at the same time, thereby effectively controlling the distribution of air force.

[0025] To address the drawback of the inability to collect dust collectively, the collection component 2 in this solution includes a support box 21. The top of the support box 21 is equipped with a top plate 22, and each top plate 22 has an exhaust vent 23. Inside the support box 21 is a first fixed shaft 24, on which arc-shaped plates 25 are mounted. A receiving trough 26 is also located inside the support box 21. The top plate 22 plays a crucial role, as the exhaust vents 23 on the top plate 22 can expel excess air. The first fixed shaft 24 inside the support box 21 can rotate, thereby adjusting the angle of the arc-shaped plates 25 on the first fixed shaft 24. When air blown from the storage component 5 passes by, the arc-shaped plates 25 can send dust into the collection component 2 for collection, effectively achieving dust collection and processing.

[0026] The dust removal airflow balancing distribution device for the coiling unit of this application, when in use:

[0027] First, the blower box 51 in the storage assembly 5 provides protection and support for the entire device. The first motor 54 starts and drives the fan blades 55 to rotate, generating airflow. The air is blown out from the air outlet 53 on the storage box 52, providing stable airflow in a specific direction, laying the foundation for achieving balanced airflow distribution for dust removal. The second motor 61 of the adjustment assembly 6 is crucial. After starting, it drives the second fixed shaft 62 to rotate. The second fixed shaft 62 is connected to the storage box 52, driving the gear 65 on it to rotate. The belt 63 on the outside of the gear 65 drives the other second fixed shafts 62 (driven fixed shafts) and gears 65 to rotate. The second support plate 64 at the bottom of 65 provides stable support for gear 65. Through this component, the storage component 5 can be adjusted simultaneously to effectively control the distribution of wind power. In the collection component 2, the exhaust port 23 on the top plate 22 of the support box 21 can exhaust excess air. The first fixed shaft 24 inside the support box 21 can rotate to adjust the angle of the arc plate 25. When the air blown out by the storage component 5 passes by, the arc plate 25 sends the dust into the collection component 2 for collection. The first support plate 3 on the outside of the collection component 2 provides stable support for the collection box 4. The collection box 4 can collect dust for centralized processing.

[0028] Although the present invention has been disclosed above with reference to embodiments, it is not intended to limit the present invention. Any person skilled in the art can make various different choices and modifications without departing from the spirit and scope of the present invention. Therefore, the scope of protection of the present invention is defined by the claims and their equivalents.

Claims

1. A dust removal airflow balancing distribution device for a coiling machine unit, characterized in that, The device includes a winding and splicing unit body (1), a storage component (5) is provided on one side of the winding and splicing unit body (1), the storage component (5) includes a blower box (51), a plurality of storage boxes (52) are provided inside the blower box (51), an air outlet (53) is provided on the storage box (52), a first motor (54) is provided inside the blower box (51), a fan blade (55) is provided at one end of the first motor (54), and an adjustment component (6) is provided on the top of the storage component (5), the adjustment component (6) is used to adjust the tilt angle of the storage box (52).

2. The dust removal airflow balancing distribution device for a coiling machine unit according to claim 1, characterized in that, The adjustment assembly (6) includes a second motor (61), a second fixed shaft (62) and a plurality of driven fixed shafts. One end of the second fixed shaft (62) is connected to the output end of the second motor (61), and the other end is fixed to the blower box (51). A gear (65) is provided on the second fixed shaft (62). The gear (65) is connected to the plurality of driven fixed shafts through a belt (63). The bottom end of the driven fixed shaft is connected to the storage box (52).

3. The dust removal airflow balancing distribution device for a coiling machine unit according to claim 2, characterized in that, The bottom of the gear (65) is provided with a second support plate (64), and the outer side of the belt (63) is provided with a dustproof box (66). The gear (65) and the belt (63) form a synchronous transmission mechanism. The second fixed shaft (62) is driven to rotate by the second motor (61) to synchronously adjust the tilt angle of the multiple storage boxes (52) so as to change the wind output direction of the air outlet (53).

4. The dust removal airflow balancing distribution device for a coiling machine unit according to claim 1, characterized in that, The main body (1) of the winding unit is provided with a collection component (2) on the side away from the storage component (5). The collection component (2) includes a support box (21). The top of the support box (21) is provided with a top plate (22). The top plate (22) is provided with an exhaust port (23). The support box (21) is provided with a first fixed shaft (24). The first fixed shaft (24) is provided with an arc plate (25). The support box (21) is provided with a receiving trough (26).

5. The dust removal airflow balancing distribution device for a coiling machine unit according to claim 4, characterized in that, The arc-shaped plate (25) is rotatably connected to the first fixed shaft (24).

6. The dust removal airflow balancing distribution device for a coiling machine unit according to claim 4, characterized in that, The outer side of the collection component (2) is provided with a first support plate (3), and the top of the first support plate (3) is provided with a collection box (4).