阅读说明：本技术 棒状物转向装置 (Rod-shaped object steering device ) 是由 程卫民 康瑛 黄雅琳 周海涛 于 2019-04-03 设计创作，主要内容包括：本发明提供一种棒状物转向装置,包括：轴承座组件,其用于支撑所述棒状物转向装置,所述轴承座组件内部设有形成负压气体流通的通道；驱动组件,包括驱动轴,所述驱动组件用于驱动所述棒状物转向装置沿驱动轴旋转；轮体组件,包括至少两个轮体,所述轮体组件用于实现所述棒状物的分离过程,所述轮体组件中设置有转向通道；转向组件,设置在所述转向通道中,所述转向组件用于实现所述棒状物的转向。本发明可以同时实现对棒状物的分离、调头转向功能。(The present invention provides a rod-shaped object steering device, comprising: the bearing seat assembly is used for supporting the rod-shaped object steering device, and a channel for forming negative pressure gas circulation is formed in the bearing seat assembly; a drive assembly including a drive shaft for driving the rod diverter to rotate along the drive shaft; the wheel body assembly comprises at least two wheel bodies, the wheel body assembly is used for realizing the separation process of the rodlike objects, and a steering channel is arranged in the wheel body assembly; a diversion assembly disposed in the diversion channel, the diversion assembly for effecting diversion of the rod. The invention can realize the functions of separating the rod-shaped objects and turning around.)

1. A stick diverter device, comprising:

the bearing seat assembly is used for supporting the rod-shaped object steering device, and a channel for forming negative pressure gas circulation is formed in the bearing seat assembly;

a drive assembly including a drive shaft for driving the rod diverter to rotate along the drive shaft;

the wheel body assembly is used for conveying the rodlike objects, and a steering channel is arranged in the wheel body assembly;

a diversion assembly disposed in the diversion channel, the diversion assembly for effecting diversion of the rod.

2. The stick diverter device of claim 1, wherein the diverter assembly comprises:

a suction claw (5) for sucking the rod-like object;

the gear shaft (6) is used for driving the suction claw (5) to rotate;

a gear block (11) which is meshed with the gear shaft (6) and drives the gear shaft to rotate;

the rotating arm (8) is used for driving the gear block (11) to rotate;

the rotating shaft (9) is used for driving the rotating arm (8) to rotate by taking the axis of the rotating arm as a rotating center;

a roller (10) for driving the rotating shaft (9) to rotate.

3. A steering device for stick-shaped articles according to claim 2, characterized in that the wheel assembly comprises a first wheel (3), an intermediate wheel (4) and a second wheel (2), wherein one side of the first wheel (3) and one side of the second wheel (2) are provided with a groove structure and a hole structure along the circumferential direction, and the two sides of the intermediate wheel (4) are provided with a groove structure and a hole structure; the groove structure and the hole structure of the middle wheel body (4) are respectively matched with the groove structure and the hole structure of the first wheel body (3) and the second wheel body (2) to form the through steering channel.

4. The rod-shaped object steering device according to claim 2, wherein the bearing housing assembly comprises a bearing housing (1) and a gas distribution ring (13), the gas distribution ring (13) is mounted at one end of the bearing housing (1), the gas distribution ring (13) is provided with an irregular inner and outer communicating structure at the middle part and an irregular groove structure at the two ends.

5. A rod deflector according to claim 4, in which the rollers (10) are mounted in grooves in the air distribution ring (13).

6. The stick diverter according to claim 3,

a plurality of side part notch channels (15) are arranged in the circumferential direction of the side surfaces of the first wheel body (3) and the second wheel body (2), the side part notch channels (15) are communicated along the radial direction, and the middle parts of the side part notch channels (15) are provided with grooves (12);

a middle gap channel (15) is arranged on the two sides of the middle wheel body (4) along the radial direction, a through hole (17) which is through along the radial direction is arranged in the middle wheel body (4),

the side notched passages (15) are respectively fitted with the middle notched passages (16) to form through holes.

7. A rod deflector according to claim 6, in which the centrally notched channel (16) communicates with the through-opening (17) via a slot (12).

8. The stick steering device according to claim 6, wherein the through hole (17) of the intermediate wheel body (4) is internally provided with a gear shaft (6), one end of the gear shaft (6) is provided with the suction claw (5), and the notched passage is provided with the swivel arm (8).

9. The stick-steering device according to claim 6, wherein the gear block (11) is mounted on the pivot arm (8) and engages with the gear shaft (6) through the groove (12).

Technical Field

The invention relates to the field of machine manufacturing, in particular to a rod-shaped object steering device.

Background

Filter cigarettes are produced in a number of processes carried out on the surface of a cylindrical drum. The production process of the traditional filter tip cigarette is to cut a double-length cigarette from the middle part and then separate the cigarette, then put a double-length filter into the middle of two cigarettes, wrap the filter and the two cigarettes with filter tipping paper, and finally cut along the center of the filter, thereby forming two filter tip cigarettes, and the two cigarettes are symmetrically distributed along the cutting plane of the filter tip. The two filter cigarettes must be realigned so that their filter directions are aligned before being handed over to the downstream machine. This process is generally carried out by three wheel trains comprising two cone drums. This process is relatively decentralized and must be accomplished by the participation of multiple drums.

A novel cigarette, which mainly refers to a production process of a low-temperature non-combustible filter cigarette, is to cut and separate a cigarette with double length from the middle, then put the cigarette into a smoking section with double length, and then cut the cigarette from the middle of the smoking section for the second time. After cutting, the two sections of cigarettes with the cigarette sending sections are turned around in a rotating way and are symmetrically separated for a distance. After putting into double length filter in the separation department, with the filter tipping paper parcel, carry out the cubic at the filter middle part and cut to finally form two branch and have the novel filter cigarette of filter tip and section of fuming respectively.

In the production process of the novel low-temperature non-combustible filter tip cigarette, after the smoke generation section is cut according to the process requirements, the cut smoke generation section and the cigarette have to be rapidly turned around and separated on the same drum wheel, and then the next procedure can be timely carried out. Therefore, a device is necessary to simultaneously perform the turning and separating functions during the delivery of the smoking segments.

On traditional cigarette production equipment, to accomplish separation and turn round function, need separate the function that turns round the cigarette and turn to on a plurality of drums respectively, the structure is more complicated, and the drum function is more single, occupies more space.

A cigarette separating device, the technique of which can be referred to the related patent, patent application No. CN 102188046A. In this patent, the device can separate two rows of cigarettes on the surface of the roller along the axial direction, so that the requirements of the production process and the flow are met. The technology can only carry out the separation process on the cigarettes on the surface of the roller and can not carry out the turning and turning processes.

The technology of the cigarette turning device can refer to the patent document with the patent application number 94106909.5. In the technology, three drums are mutually matched, cigarettes originally positioned on the inner side or the outer side of one drum are placed on the outer side or the inner side of the drum after being rotationally turned around through two conical drums, so that two rows of cigarettes which are symmetrically placed inside and outside the drum are placed on the drum in the same side and in the same direction. The technology can realize the turning function only by using three drums, but can not separate cigarettes.

In the production process of some novel cigarettes, such as low-temperature non-combustion cigarettes, because of the requirement of the production process, a cigarette which is adsorbed on the surface of a drum wheel and has double length is cut off from the middle and then separated, smoke components such as carbon rods or batteries, atomized raw materials and the like are filled in the separation position, after the separation position is wrapped with a packaging material, the cigarette is cut off from the middle again, two cut-off cigarettes are simultaneously turned and separated, a filter tip with certain length is placed in the separation position again, and filter tip tipping paper (commonly called 'tipping paper') which is coated with glue and has proper width is wrapped outside, so that the separated cigarette and the filter tip are tightly wrapped to prevent falling. And finally, cutting off the filter tip from the middle part by using a cutter to form two symmetrically arranged filter tip cigarettes with smoking sections such as carbon rods or batteries and atomized raw materials at the heads.

In the production process of the novel cigarette, after the cigarettes are cut for the second time, a device is needed, and meanwhile, the turning and separating functions of the two cigarettes are quickly realized, so that the process flow of the whole cigarette production is prevented from being influenced. If the processes of turning, separating and the like can be realized on the same drum wheel for the two cut cigarettes, the method is very beneficial to the rapidness and the conciseness of the cigarette production process.

The production equipment of the traditional cigarette process cannot meet the production process of the novel filter tip cigarette, cannot implement separation and turning steering process on the cigarette synchronously in the conveying process of the cigarette on the same drum wheel, and cannot produce the novel low-temperature non-combustible filter tip cigarette.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a rod-shaped object steering device, which can realize the functions of separating rod-shaped objects and turning around and steering at the same time, meet the implementation requirement of a novel filter tip cigarette production process, and is beneficial to space optimization and saving of production equipment and cost reduction.

In order to solve the above-described problems, the present invention provides a rod-shaped object steering device including: the bearing seat assembly is used for supporting the rod-shaped object steering device, and a channel for forming negative pressure gas circulation is formed in the bearing seat assembly; a drive assembly including a drive shaft for driving the rod diverter to rotate along the drive shaft; the wheel body assembly is used for conveying the rodlike objects, and a steering channel is arranged in the wheel body assembly; a diversion assembly disposed in the diversion channel, the diversion assembly for effecting diversion of the rod.

Preferably, the steering assembly comprises: a suction claw for sucking the rod-shaped object; the gear shaft is used for driving the suction claw to rotate; the gear block is meshed with the gear shaft and drives the gear shaft to rotate; the rotating arm is used for driving the gear block to rotate; the rotating shaft is used for driving the rotating arm to rotate by taking the axis of the rotating arm as a rotating center; and the roller is used for driving the rotating shaft to rotate.

Preferably, the wheel body assembly comprises a first wheel body, a middle wheel body and a second wheel body, wherein one side of the first wheel body and one side of the second wheel body are respectively provided with a groove structure and a hole structure along the circumferential direction, and the two sides of the middle wheel body are respectively provided with a groove structure and a hole structure; the groove structure and the hole structure of the middle wheel body are respectively matched with the groove structure and the hole structure of the first wheel body and the second wheel body to form the through steering channel.

Preferably, the bearing seat assembly comprises a bearing seat and a gas distribution ring, the gas distribution ring is installed at one end of the bearing seat, the middle part of the gas distribution ring is provided with an irregular inner and outer communicating structure, and the two ends of the gas distribution ring are provided with irregular groove structures.

Preferably, the rollers are mounted in grooves of the gas distribution ring.

Preferably, a plurality of side notched channels are arranged in the circumferential direction of the side surfaces of the first wheel body and the second wheel body, the side notched channels penetrate in the radial direction, and a groove is formed in the middle of each side notched channel; the middle wheel body is provided with middle gap channels on two sides along the radial direction, through holes penetrating along the radial direction are formed in the middle wheel body, and the side gap channels are matched with the middle gap channels respectively to form the through holes.

Preferably, a groove is arranged between the middle gap channel and the through hole for communication.

Preferably, a gear shaft is mounted in the through hole of the middle wheel body, a suction claw is mounted at one end of the gear shaft, and a rotating arm is mounted in the gap channel.

Preferably, the gear block is mounted on the pivot arm and is engaged with the gear shaft through the slot.

Drawings

FIG. 1 is a schematic view of a rod-shaped article turning device according to the present invention.

FIG. 2 is a schematic view of the structure of the rod-shaped article turning device of the present invention, taken along the line A-A in FIG. 3.

Fig. 3 is a schematic structural view of the cross section along B-B in fig. 2.

Fig. 4 is a schematic structural view of the cross section along C-C of fig. 2.

Description of the reference numerals

1 bearing seat 2 second wheel body

3 first wheel body 4 middle wheel body

5 suction claw 6 gear shaft

7 Flange 8 rotating arm

9 rotating shaft 10 roller

11 gear block 12 groove

13 distribution ring 14 driving shaft

15 side notched passages 16 middle notched passages

17 through hole

Detailed Description

The following detailed description of specific embodiments of the invention refers to the accompanying drawings. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; those skilled in the art can make many possible variations and modifications to the disclosed embodiments, or modify equivalent embodiments, without affecting the spirit of the invention, using the methods and techniques disclosed above, without departing from the scope of the invention.

The invention mainly comprises a bearing seat component, a driving component, a wheel body component, a steering component and the like. The wheel body part is a main body part for realizing one function of the device and is formed by combining three sub-wheel bodies. Each part of the device is provided with gas paths which can be mutually communicated to form a negative pressure gas flow channel.

The bearing seat assembly mainly undertakes the installation foundation and the air passage circulation of the whole device. The main body of the part consists of a bearing seat and a gas distribution ring, wherein the gas distribution ring is arranged at the tail end of the bearing seat. The bearing seat is internally provided with a plurality of through holes which are communicated from back to front, and the through holes are communicated with the open structure at the front part of the bearing seat. Gas can flow freely along the through holes and the open structure to form gas channels. The circumference of the gas distribution ring is provided with irregular openings according to the process requirements, so that the inner layer and the outer layer of the ring can be communicated, and gas can flow from the tail end of the bearing seat to the inside and the outside of the gas distribution ring. In addition, the special part of the gas distribution ring is provided with an irregular groove according to the movement requirement, and parts such as a bearing, a roller and the like can be accommodated in the irregular groove.

The driving assembly mainly comprises a driving shaft and a flange. The driving shaft is a long shaft type part, and the tail end of the shaft is provided with a gear or a synchronous belt structure which can drive the shaft to rotate. The shaft has a flange at its end which is connected to both the drive shaft and the drum body for transmitting motion.

The main structure of the wheel body component is a left wheel body, a middle wheel body and a right wheel body which are tightly combined, the main structures of the left wheel body and the right wheel body are similar, and one side of the wheel body is respectively provided with a groove structure and a part of a plurality of hole structures which are communicated along the radial direction. The middle wheel body is similar to the left wheel body and the right wheel body, groove structures are respectively designed on two sides, and a plurality of complete and partial through holes which are communicated along the radial direction are also designed in the circumferential direction. And these groove structures, partial through-hole can form complete installation space with left and right wheel body cooperation respectively, and inside can hold other parts.

The steering assembly mainly comprises a suction claw, a gear shaft, a gear block, a rotating arm, a rotating shaft and a roller. The sucking claw is arranged in a complete through hole which is formed in the middle wheel body in a penetrating mode along the radial direction, and the sucking claw is arranged at the top of the gear shaft. After the left wheel body and the right wheel body are combined with the middle wheel body, the respective partial through hole structures form a plurality of complete through hole structures which are communicated along the radial direction, and the rotating arms are arranged in the through holes. And a gear block is arranged in the middle of the rotating arm and is meshed with a gear on the gear shaft through a groove on the gear body to transmit motion. The bottom of rocking arm installs the pivot, and the terminal roller of installing of pivot to the roller is held in the slot that gas distribution ring surface was seted up. When the shape of the groove changes, the roller is driven to change along the axial direction of the bearing seat, so that the rotating shaft and the rotating arm are sequentially driven to rotate along the center of the rotating arm, and the gear block is driven to rotate. Due to the meshing action of the gear block and the gear shaft, the gear shaft synchronously rotates, and finally the suction claw and the cigarettes on the suction claw are driven to rotate, so that the rotating and separating actions are completed.

FIG. 1 shows a schematic diagram of a preferred embodiment of the present invention. The first wheel body 3, the intermediate wheel body 4 and the second wheel body 3 are correspondingly mounted in sequence to form a complete cylindrical drum wheel structure, a plurality of complete through holes penetrating in the radial direction are formed in the circumferential surface of the drum wheel, a plurality of grooves 12 are formed in the joint surfaces of the first wheel body 3 and the intermediate wheel body 4 and the second wheel body 3, and the groove structures penetrate through two rows of through holes of the intermediate wheel body 4.

As shown in fig. 2, the gas distribution ring 13 is mounted to the end of the bearing housing 1. The end of the bearing seat 1 is designed with an open space structure, the middle part of the gas distribution ring 13 is provided with an irregular open structure which penetrates through the inside and the outside, and the two ends of the gas distribution ring are also provided with irregular groove structures which can accommodate the rollers 10 and the like. The middle wheel body 4 is provided with middle gap channels 16 at two sides, the middle gap channels 16 are matched with the side gap channels 15 arranged on the first wheel body 3 and the second wheel body 3 to form a complete hole structure, and the rotating arm 8 is arranged in the complete hole structure formed after matching.

As shown in fig. 2 and 3, the gear shaft 6 is mounted in holes distributed in the circumferential direction of the intermediate wheel body 4, the suction claw 5 is mounted at the tail end of the gear shaft, the gear shaft 6 is communicated with the suction claw 5 through a hole channel inside, and gas can be transmitted to the surface of the suction claw 5 through the bearing seat 1, the gas distribution ring 13 and the gear shaft 6.

As shown in fig. 4, the swivel arm 8 is mounted in a complete hole formed by the first wheel 3, the intermediate wheel 4 and the second wheel 3. And the grooves 12 in the middle of the holes can be communicated with the complete holes of the middle wheel body 4. A gear block 11 is mounted on the swivel arm 8 and is engaged with the gear shaft 6 on the intermediate wheel 4 via a slot 12. The other end of the rotating arm 8 is provided with a rotating shaft 9, and the tail end of the rotating shaft 9 is provided with a roller 10.

In operation, the driving shaft 14 drives the flange 7 to rotate, and drives the first wheel body 3, the intermediate wheel body 4, the second wheel body 3, and the parts installed in the wheel bodies to rotate synchronously. Because the gas distribution ring 13 is provided with an irregular groove, the roller 10 moves along the axial direction when moving along the circumference in the groove, and the axial movement drives the rotating shaft 9 and the rotating arm 8 to rotate by taking the axis of the rotating arm 8 as a rotating center. The rotation of the rotating arm 8 drives the gear block 11 arranged on the rotating arm to synchronously rotate, and the gear block 11 is transmitted to the gear shaft 6 through the meshing action of the gear block 11 and the gear shaft 6, and finally the suction claw 5 at the top end of the gear shaft 6 is driven to rotate together, and the function of separating, turning and steering is realized.

By the aid of the cigarette conveying device, conveying, rotary turning, separating and other functions of rod-shaped objects such as cigarettes can be completed on the surface of the same drum wheel within limited movement space and movement time, and production requirements of a part of novel cigarettes, especially low-temperature non-combustible cigarettes, are met. Compared with the traditional cigarette device, the device has the advantages of simple structure, installation position saving, equipment structure simplification and the like, and simultaneously reduces the labor cost and the labor operation intensity.

While the preferred embodiments of the present invention have been described, it is to be understood that the invention is not limited to the precise embodiments disclosed herein, and that various changes and modifications may be effected therein without departing from the scope of the invention.