CN109757764B

CN109757764B - Filter rod receiving device

Info

Publication number: CN109757764B
Application number: CN201910060605.2A
Authority: CN
Inventors: 陈河清
Original assignee: Changde Sanyou Machinery Manufacturing Co ltd
Current assignee: Changde Sanyou Machinery Manufacturing Co ltd
Priority date: 2019-01-22
Filing date: 2019-01-22
Publication date: 2023-12-05
Anticipated expiration: 2039-01-22
Also published as: CN109757764A

Abstract

The invention belongs to a receiving device, in particular to a filter rod receiving device, which comprises a filter rod counting receiving section, a second filter rod guiding section and a cigarette delivering and accelerating section, wherein the filter rod counting receiving section, the second filter rod guiding section and the cigarette delivering and accelerating section are sequentially connected, and the filter rod receiving device is characterized in that the second filter rod guiding section comprises an arc-shaped side plate, a second V-shaped arc guide rail and a plurality of arc blocks; the second V-shaped arc guide rail is fixed on the arc-shaped side plate; the invention has the beneficial effects that the interval formed by the arc blocks and the second V-shaped arc guide rail is uniform, and the filter stick is not easy to be blocked; secondly, the first constant-speed roller group enables the speed of the filter stick entering the guide rail to be consistent, reduces blockage and enables the passing efficiency of the filter stick to be higher; thirdly, the heads of the first optical fiber sensor and the second optical fiber sensor can be cleaned immediately, and the counting is accurate; fourth, articulated dodge gate, convenient clearance.

Description

Filter rod receiving device

Technical Field

The invention belongs to a receiving device, in particular to a filter rod receiving device.

Background

The longitudinal guide rail of the traditional filter rod receiving device has only two pairs of friction wheels, when the filter rods arrive at a receiving station, the speed is unstable, and the rear-end collision phenomenon easily occurs between the filter rods; the longitudinal guide rail of the traditional filter rod receiving device adopts a steel belt bolt tightening mode, the gap between the steel belt and the circular arc guide rail is controlled by 5 fixed points, the filter rods are easy to be overlapped together when the gap between the steel belt and the circular arc guide rail is too large, the gap between the steel belt and the circular arc guide rail is too small, the 5 fixed points are easy to be blocked to control too little when the filter rods pass, the gap between the steel belt and the circular arc guide rail is changed greatly, and the filter rods are easy to be blocked when running to the filter rods; the traditional filter rod receiving device adopts infrared laser to count the filter rod entrance, but is easy to stick ash to influence the count.

Disclosure of Invention

In order to solve the above problems, the present invention proposes a filter rod receiving device.

The filter rod receiving device comprises a filter rod counting receiving section, a second filter rod guiding section and a cigarette conveying speed increasing section, wherein the filter rod counting receiving section, the second filter rod guiding section and the cigarette conveying speed increasing section are sequentially connected, and the filter rod receiving device is characterized in that the second filter rod guiding section comprises an arc-shaped side plate, a second V-shaped arc guide rail and a plurality of arc blocks; the second V-shaped arc guide rail is fixed on the arc-shaped side plate; a plurality of arc blocks positioned at the left side of the second V-shaped arc guide rail are fixed on the arc side plate; the arc blocks are contacted with each other from beginning to end in sequence; the bottom surfaces of the arc blocks are connected to form an arc surface, and a space is reserved between the bottom surfaces of the arc blocks and the second V-shaped arc guide rail.

Further, the number of the arc blocks is 4-10.

Further, the filter rod counting and receiving section comprises a filter rod receiving plate, and a filter rod channel is arranged in the filter rod receiving plate; the two sides of the lower part of the filter rod channel are symmetrically provided with first constant-speed roller groups which are arranged in the filter rod receiving plate; a motor is fixed at the rear part of the filter rod receiving plate; the motor and the first fixed-speed roller group are driven by a belt, and a counting sensor is arranged above the first fixed-speed roller group and is arranged beside the filter rod channel wall.

Further, the counting sensor comprises a first optical fiber sensor and a second optical fiber sensor, horizontal channels are symmetrically arranged on two sides of the channel wall above the first fixed-speed roller group and are communicated with the filter rod channel, the first optical fiber sensor and the second optical fiber sensor are symmetrically inserted into the horizontal channels, right-angle air connectors are arranged between the sensing heads of the first optical fiber sensor and the second optical fiber sensor and the channel wall, the air outlet sections of the right-angle air connectors are communicated with the horizontal channels, and the input ends of the right-angle air connectors are connected with the air connectors.

Further, a door is hinged in front of the filter rod channel above the filter rod receiving plate.

Further, the first constant-speed roller group comprises a roller shaft arranged on the filter rod receiving plate, a V-shaped groove roller wheel, eccentric gears and a belt pulley which are sequentially arranged on the roller shaft from front to back, the eccentric gears in the first constant-speed roller group which are symmetrically arranged are meshed with each other, an adjusting gear arranged on the filter rod receiving plate is meshed below one of the eccentric gears, and the belt pulley is connected with the motor through a belt.

Further, the right side of the upper part of the second V-shaped arc guide rail is hinged with an arc cover plate, and an arc transparent window is uniformly arranged in the middle of the arc cover plate.

Further, the metal sheet is arranged at the bottommost part of the arc-shaped cover plate, and a magnet is arranged at the lower part of the arc-shaped side plate corresponding to the metal sheet.

The invention has the beneficial effects that the interval formed by the arc blocks and the second V-shaped arc guide rail is uniform, and the filter stick is not easy to be blocked; secondly, the first constant-speed roller group enables the speed of the filter stick entering the guide rail to be consistent, reduces blockage and enables the passing efficiency of the filter stick to be higher; thirdly, the heads of the first optical fiber sensor and the second optical fiber sensor can be cleaned immediately, and the counting is accurate; fourth, articulated dodge gate, convenient clearance.

Drawings

FIG. 1 is a schematic diagram of a prior art filter rod receiving apparatus;

FIG. 2 is a schematic diagram of a filter rod receiving device according to the present invention;

FIG. 3 is a schematic view of a prior art filter rod guide segment;

FIG. 4 is a schematic view of the structure of the filter rod guide segment of the present invention;

FIG. 5 is a schematic view of the structure of the counting and receiving section of the filter stick of the present invention

FIG. 6A cross-sectional view of a filter rod count receiving section A-A of the present invention

FIG. 7 is a cross-sectional view of a filter rod count receiving section B-B of the present invention

FIG. 8 is a cross-sectional view of a filter rod count receiving section C-C of the present invention

FIG. 9 is a right side view of a filter rod count receiving section of the present invention

FIG. 10 is a schematic view of the arc-shaped cover plate of the present invention

As can be seen from fig. 1 and fig. 3, 1 a filter rod receiving section, 2 a first filter rod guiding section, 3 a smoke delivery accelerating section, 301 a horizontal guiding part, 302 a constant speed roller group, 303 a speed accelerating roller group, 4 a first V-shaped arc guide rail, 5 a steel belt fixing clamp, 6 a steel belt;

as can be seen in fig. 2 and 4, 7, a filter rod counting receiving section, 8, a second filter rod guiding section, 801, an arc-shaped side plate, 802, a second V-shaped arc guide rail, 803 and a plurality of arc blocks;

in fig. 5 to 10, 701, a filter rod receiving plate, 702, a filter rod channel, 703, a first set of fixed speed rollers, 704, a motor, 706, a filter rod channel; 9. the device comprises a counting sensor 901, a first optical fiber sensor 902, a second optical fiber sensor 10, a horizontal channel 11, a right-angle air pipe joint 12, an air pipe joint 13, a roller shaft 14, a V-shaped groove roller wheel 15, an eccentric gear 16, an arc cover plate 17, an arc transparent window 18, a metal sheet 19, a magnet 20, a door 21, a belt pulley 22, a belt 23 and an adjusting gear.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

As can be seen from fig. 1 and 3, the filter rod receiving device in the prior art comprises a filter rod receiving section 1, a first filter rod guiding section 2 and a tobacco conveying and accelerating section 3, wherein the first filter rod guiding section 2 comprises a first V-shaped arc guide rail 4, 5 steel belt fixing clips 5 and steel belts 6, and the tobacco conveying and accelerating section 3 comprises a horizontal guiding part 301, a constant speed roller group 302 and an accelerating roller group 303.

As can be seen from fig. 2 and 4, the filter rod receiving device according to the present invention includes a filter rod counting receiving section 7, a second filter rod guiding section 8 and a tobacco conveying accelerating section 3, wherein the filter rod counting receiving section 7, the second filter rod guiding section 8 and the tobacco conveying accelerating section 3 are sequentially connected, and the filter rod receiving device is characterized in that the second filter rod guiding section 8 includes an arc side plate 801, a second V-shaped arc guide rail 802 and a plurality of arc blocks 803; a second V-shaped circular arc guide rail 802 is fixed on the circular arc side plate 801; a plurality of arc blocks 803 positioned on the left side of the second V-shaped arc guide rail 802 are fixed on the arc side plate 801; a plurality of arc blocks 803 are contacted end to end in sequence; the bottom surfaces of the arc blocks 803 are connected to form an arc surface, and a space is reserved between the bottom surfaces of the arc blocks 803 and the second V-shaped arc guide rail 802.

Further, the number of circular blocks 803 is 4-10.

In fig. 5 to 10, further, the filter rod count receiving segment 7 comprises a filter rod receiving plate 701, the filter rod receiving plate 701 having a filter rod channel 702 therein; the two sides of the lower part of the filter rod channel 702 are symmetrically provided with first fixed-speed roller groups 703, and the first fixed-speed roller groups 703 are arranged in the filter rod receiving plate 701; a motor 704 is fixed at the rear part of the filter rod receiving plate 701; the motor 704 and the first fixed-speed roller group 703 are driven by a belt, and a counting sensor 9 is arranged above the first fixed-speed roller group 703 and is arranged beside the wall of the filter rod channel 706; when the filter rod is used, the filter rod passes through the filter rod channel 706, is fixed in speed through the first fixed-speed roller group 703 after being counted by the counting sensor 9, then enters the second filter rod guide section 8, and passes through the arc surface formed by connecting the bottom surfaces of the arc blocks 803 and the second V-shaped arc guide rail 802.

Further, the counting sensor 9 comprises a first optical fiber sensor 901 and a second optical fiber sensor 902, two sides of the channel wall above the first fixed-speed roller group 703 are symmetrically provided with a horizontal channel 10, the horizontal channel 10 is communicated with the filter rod channel 706, the first optical fiber sensor 901 and the second optical fiber sensor 902 are symmetrically inserted into the horizontal channel 10, right-angle air pipe connectors 11 are arranged between the sensing heads of the first optical fiber sensor 901 and the second optical fiber sensor 902 and the wall of the filter rod channel 706, the air outlet section of the right-angle air pipe connectors 11 is communicated with the horizontal channel 10, and the input end of the right-angle air pipe connectors 11 is connected with air pipe connectors 12.

In use, the first optical fiber sensor 901 and the second optical fiber sensor 902 are connected with a PLC of a host outside the site, the air pipe joint 12 is connected with an air source outside the site, the PLC controls the air source outside to supply air, the first optical fiber sensor 901 and the second optical fiber sensor 902 count because of the shielding of the filter stick, meanwhile, the right-angle air pipe joint 11 always has low-speed air flow passing through, dust cannot be adhered to the sensing heads of the first optical fiber sensor 901 and the second optical fiber sensor 902 by the filter stick channel 706,

further, a gate 20 is hinged above the plug receiving plate 701 in front of the plug channel 706; when in use, the door 20 is conveniently opened to check the internal problems of the filter rod counting receiving section 7.

Further, the first fixed speed roller group 703 comprises a roller shaft 13 mounted on the filter rod receiving plate 701, a V-groove roller 14, an eccentric gear 15 and a belt pulley 21 are sequentially mounted on the roller shaft 13 from front to back, the eccentric gears 15 in the symmetrically arranged first fixed speed roller group 703 are meshed with each other, an adjusting gear 23 mounted on the filter rod receiving plate 701 is meshed under one eccentric gear 15, and the belt pulley 21 is connected with a motor 704 through a belt 22; when in use, the incoming filter rod can be fixed in speed, and the clamping distance between the V-shaped groove rollers 14 can be adjusted through the meshing point of the eccentric gear 15 by adjusting the adjusting gear 23.

In fig. 3 and 10, further, the right side of the upper portion of the second V-shaped arc guide rail 802 is hinged with an arc cover plate 16, and the middle portion of the arc cover plate 16 is uniformly provided with an arc transparent window 17, so that when in use, the internal condition can be observed through the arc transparent window 17.

Further, the metal sheet 18 is arranged at the bottommost part of the arc-shaped cover plate 16, and the magnet 19 is arranged at the lower part of the arc-shaped side plate 16 corresponding to the metal sheet 18, so that the arc-shaped cover plate 16 is convenient to close and close when in use.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. The filter rod receiving device comprises a filter rod counting receiving section, a second filter rod guiding section and a cigarette conveying speed increasing section, wherein the filter rod counting receiving section, the second filter rod guiding section and the cigarette conveying speed increasing section are sequentially connected, and the filter rod receiving device is characterized in that the second filter rod guiding section comprises an arc-shaped side plate, a second V-shaped arc guide rail and a plurality of arc blocks; the second V-shaped arc guide rail is fixed on the arc-shaped side plate; a plurality of arc blocks positioned at the left side of the second V-shaped arc guide rail are fixed on the arc side plate; the arc blocks are contacted with each other from beginning to end in sequence; the bottom surfaces of the arc blocks are connected to form an arc surface, and a space is reserved between the bottom surfaces of the arc blocks and the second V-shaped arc guide rail.

2. A filter rod receiving device according to claim 1, wherein the number of circular arc blocks is 4-10.

3. A filter rod receiving apparatus according to claim 2, wherein the filter rod count receiving section comprises a filter rod receiving plate having a filter rod passage provided therein; the two sides of the lower part of the filter rod channel are symmetrically provided with first constant-speed roller groups which are arranged in the filter rod receiving plate; a motor is fixed at the rear part of the filter rod receiving plate; the motor and the first fixed-speed roller group are driven by a belt, and a counting sensor is arranged above the first fixed-speed roller group and is arranged beside the filter rod channel wall.

4. A filter rod receiving device according to claim 3, wherein the counting sensor comprises a first optical fiber sensor and a second optical fiber sensor, horizontal channels are symmetrically arranged on two sides of a channel wall above the first fixed speed roller group, the horizontal channels are communicated with the filter rod channels, the first optical fiber sensor and the second optical fiber sensor are symmetrically inserted into the horizontal channels, right-angle air pipe connectors are arranged between sensing heads of the first optical fiber sensor and the second optical fiber sensor and the channel wall, an air outlet section of the right-angle air pipe connectors is communicated with the horizontal channels, and an air pipe connector is connected to an input end of the right-angle air pipe connectors.

5. A filter rod receiving apparatus according to claim 4, wherein a door is hinged in front of the filter rod channel above the filter rod receiving plate.

6. The filter rod receiving apparatus according to claim 5, wherein the first fixed speed roller group comprises a roller shaft mounted on the filter rod receiving plate, V-groove rollers mounted on the roller shaft in sequence from front to back, eccentric gears and pulleys, the eccentric gears in the symmetrically arranged first fixed speed roller group are engaged with each other, an adjusting gear mounted on the filter rod receiving plate is engaged under one of the eccentric gears, and the pulleys are connected with the motor through a belt.

7. The filter rod receiving device according to claim 6, wherein the right side of the upper part of the second V-shaped arc guide rail is hinged with an arc cover plate, and an arc transparent window is uniformly arranged in the middle of the arc cover plate.

8. The filter rod receiving device according to claim 7, wherein the lowest part of the arc-shaped cover plate is provided with a metal sheet, and the lower part of the arc-shaped side plate is provided with a magnet corresponding to the metal sheet.