CN210763170U - Bottle cap conveying device - Google Patents

Abstract

The utility model discloses a bottle cap transmission device, including the container, set up the air intake on the container, along spiral direction around the defeated lid passageway of locating on the container, along defeated lid passageway spiral around the air outlet of setting on the container of arranging in proper order of the direction of establishing, a plurality of air outlets are used for the transmission of drive bottle lid of mutually supporting in defeated lid passageway, defeated lid passageway during operation, defeated lid passageway's axial lead direction and vertical direction's contained angle are α, wherein 0 is less than or equal to α and is less than or equal to 90.

Description

Bottle cap conveying device

Technical Field

The utility model relates to a beverage filling technical field, in particular to bottle lid transmission device.

Background

The traditional linear type air conveying cover and cache mechanism is formed by splicing a plurality of sections of cover conveying parts, the time consumption for installation and maintenance on the spot of a client is long, and the requirement on the proficiency of splicing workers is high; the floor area is large, the plane layout of the whole air conveying cover conveying mechanism cannot be standardized, and the air conveying cover conveying mechanism must be customized according to the layout of a factory building, so that the cost is too high.

In the linear air conveying cover and the caching mechanism, a fan needs to be installed at certain intervals to ensure the normal conveying of the bottle cover; in the linear air conveying cover and the caching mechanism, the air duct occupies a large space and the energy consumption of the fan is relatively high.

Disclosure of Invention

The utility model aims at providing a bottle lid transmission device has standardized and compact advantage, under the unchangeable condition of wind channel length, very big reduction area to reduce fan quantity and fan energy consumption, reduced transmission cost.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a bottle cap conveying device comprises a container, an air inlet arranged on the container, a cap conveying channel arranged on the container in a winding mode along a spiral direction, and air outlets arranged on the container and arranged in sequence along the spiral winding direction of the cap conveying channel, wherein the air outlets are used for driving bottle caps to be conveyed in the cap conveying channel in a matched mode;

when the cap conveying channel works, the included angle between the axis direction of the cap conveying channel and the vertical direction is α, wherein the included angle is more than or equal to 0 degree and less than or equal to α degree and less than or equal to 90 degree.

Preferably, the container comprises an annular cylinder body and annular sealing plates arranged at two ends of the annular cylinder body.

More preferably, the device further comprises a fan and air pipes respectively communicated with the fan and one of the annular sealing plates.

Still further preferably, the annular sealing plate is provided with at least two air inlets, and the air pipe is communicated with all the air inlets.

Preferably, the device further comprises a support for co-operating securing the container in the operative position.

Preferably, the air outlet comprises an air deflector which is arranged on the periphery of the outer side of the container in a concave manner, and an included angle between the air deflector and the motion track of the bottle cap at the corresponding position of the air deflector is β, wherein 0 degrees is less than β degrees and less than 90 degrees.

Preferably, the cap conveying channel comprises a first spiral support for abutting against an end of the cap, a second spiral support for abutting against one side of the cap, and a third spiral support for abutting against the opposite side of the cap in a matching manner, and a conveying path for conveying the cap therein is defined between the first spiral support, the second spiral support, the third spiral support and the outer peripheral portion of the container.

More preferably, the cap conveying channel further comprises a plurality of fixing members for fixing the first spiral supporting member, the second spiral supporting member and the third spiral supporting member on the container, the fixing members are sequentially arranged at intervals along the spiral winding direction of the cap conveying channel, and each fixing member is sequentially connected with the container, the second spiral supporting member, the first spiral supporting member, the third spiral supporting member and the container along the length direction of the fixing member.

Compared with the prior art, the bottle cap conveying device has the advantages that the bottle cap conveying device changes the linear type occupying a large amount of plane space into the three-dimensional spiral type under the condition that the length of the air channel is not changed, only occupies a small amount of three-dimensional space, and greatly reduces the occupied area, meanwhile, only one fan is needed to supply air to all air outlets due to the fact that the air outlets are densely arranged along the spiral direction, equipment cost is reduced, the total volume of the air channel occupied by the air outlets arranged along the spiral direction is far smaller than that of the air channel in the linear type air conveying cover and the caching mechanism, so that energy consumption of the fan is greatly reduced, and conveying cost is reduced, when the bottle cap conveying device is actually used, the included angle α between the axial lead direction and the vertical direction of the conveying cover channel is adjusted according to the height difference between front-end equipment (such as a cap sorting machine) and rear-end equipment (such as a cap screwing machine), so that the conveying device can be suitable for various occasions, and meanwhile, the on-site splicing cost is reduced due to the advantage of standardization.

Drawings

FIG. 1 is a schematic structural diagram of the device of the present invention;

FIG. 2 is a schematic view of the gas flow direction in the apparatus of the present invention;

FIG. 3 is a schematic structural view of a cap conveying passage;

FIG. 4 is a top view of the cap conveying passage;

fig. 5 is a schematic structural diagram of the device of the present invention when α =0 °;

fig. 6 is a structural schematic diagram of the device of the present invention when α =90 °.

Wherein: 1. a container; 11. an air inlet; 12. an air outlet; 13. an annular cylinder; 14. an annular seal plate; 15. an air deflector; 2. a cover conveying channel; 21. a first helical support; 22. a second helical support; 23. a third helical support; 24. a fixing member; 3. a fan; 4. an air duct; 5. a support frame.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1-4, the bottle cap conveying device includes a container 1, an air inlet 11 disposed on the container 1, a cap conveying channel 2 spirally wound on the outer peripheral portion of the container 1, and a plurality of air outlets 12 sequentially and uniformly arranged on the outer peripheral portion of the container 1 at intervals along the direction in which the cap conveying channel 2 spirally winds, wherein the arrangement direction of the plurality of air outlets 12 is also the spiral direction, so that the plurality of air outlets 12 are used for driving the bottle caps to be conveyed in the cap conveying channel 2 in a mutually matched manner, and when the bottle caps are conveyed from one end to the other end of the cap conveying channel 2, the height of the bottle caps can be raised, kept unchanged or lowered. The spiral cap conveying channel 2 also plays a role in buffering the bottle caps. Under the condition that the length of the air channel is not changed, the movement track of the bottle cap is changed into a three-dimensional spiral type from a linear type occupying a large amount of plane space, only a small amount of three-dimensional space is occupied, and the occupied area is greatly reduced. Because the air outlets 12 are densely arranged along the spiral direction, air supply to all the air outlets 12 can be realized by only one fan 3, and the equipment cost is reduced; because the total volume of the air ducts occupied by the air outlets 12 arranged in the spiral direction is far smaller than the total volume of the air ducts in the linear air conveying cover and the caching mechanism under the same length, the energy consumption of the fan 3 is greatly reduced, and the transmission cost is reduced.

When the cover conveying channel 2 works, the included angle between the axial lead direction of the cover conveying channel 2 and the vertical direction is α, wherein the included angle is more than or equal to 0 degree and less than or equal to α and less than or equal to 90 degrees, through the arrangement, the included angle α between the axial lead direction of the cover conveying channel 2 and the vertical direction can be adjusted according to the height difference between front-end equipment (such as a cover arranging machine) and rear-end equipment (such as a cover separating and screwing machine), so that the conveying device can be suitable for various different occasions, and meanwhile, because the device has the advantage of standardization, the workload of on-site splicing can be reduced, and the labor cost is reduced.

In this embodiment, the container 1 includes an annular cylinder 13 and annular closing plates 14 provided at both ends of the annular cylinder 13. The bottle cap conveying device further comprises a fan 3 and an air pipe 4 which is respectively communicated with the fan 3 and one of the annular sealing plates 14. At least two air inlets 11 are formed in the annular sealing plate 14, in order to ensure the uniformity of air flow, the at least two air inlets 11 are uniformly arranged along the circumferential direction at intervals, and the air pipe 4 is communicated with all the air inlets 11 and used for supplying air to all the air inlets 11 simultaneously. Referring to fig. 2, the bottom annular sealing plate 14 is communicated with the air duct 4, and the flowing air enters the bottom of the container 1 through the air inlet 11 and flows upwards, and is output through each air outlet 12 during the flowing process, and the bottle caps in the cap conveying channel 2 are driven to move at a certain pressure and speed during the outputting process, so that the purpose of conveying the bottle caps is achieved.

The air outlet 12 comprises an air deflector 15 which is concavely arranged on the outer periphery of the container 1, namely, one edge of the air deflector 15 is arranged on the outer periphery of the container 1, the other opposite edge of the air deflector 15 is positioned in the container 1, an included angle between the air deflector 15 and a motion track of a bottle cap at a corresponding position is β, wherein 0 degree is more than β and less than 90 degrees, the corresponding position is the air deflector 15 and the bottle cap which are arranged along the radial direction of the annular cylinder 13, the motion track is the tangential direction of the bottle cap at the corresponding position when the bottle cap moves in a curve, and the conveying speed of the bottle cap is controlled by adjusting the angle of the included angle β.

The bottle cap transfer device further comprises a support frame 5 which is used for fixing the container 1 in a working position in a matched mode. As shown in fig. 5-6, the supporting frame 5 may be a supporting column disposed below the container 1 for supporting the container 1 to be placed in a vertical direction (i.e., standing); the support frame 5 may also be a support plate disposed below the blower 3 for supporting the container 1 to be placed in a horizontal direction (i.e., horizontal). The support frame 5 can also support the container 1 to be placed obliquely as required.

The cap conveying channel 2 comprises a first spiral support 21 for abutting against the end of the cap, a second spiral support 22 for abutting against one side of the cap, and a third spiral support 23 for abutting against the opposite side of the cap in a matching manner, wherein a conveying path for conveying the cap is formed between the first spiral support 21, the second spiral support 22, the third spiral support 23 and the outer periphery of the container 1. In the present embodiment, the spiral directions of the first spiral support 21, the second spiral support 22, and the third spiral support 23 are all the same. The first spiral supporting piece 21 is matched with the periphery of the outer side of the container 1 and abuts against two ends of the bottle cap, and the second spiral supporting piece 22 and the third spiral supporting piece 23 are matched with each other and abut against two opposite sides of the bottle cap; the number of the first, second and third spiral supports 21, 22 and 23 may be respectively set as needed.

The cap conveying channel 2 further comprises a plurality of fixing pieces 24 for fixing the first spiral supporting piece 21, the second spiral supporting piece 22 and the third spiral supporting piece 23 on the container 1, and the plurality of fixing pieces 24 are sequentially arranged at intervals along the spiral winding direction of the cap conveying channel 2. Each of the fixing members 24 is connected to the container 1, the second spiral supporting member 22, the first spiral supporting member 21, the third spiral supporting member 23, and the container 1 in sequence along the length direction thereof. In this embodiment, the fixing member 24 is composed of two horizontal sides for connecting the container 1 and the second screw support 22 (the third screw support 23), respectively, and a vertical side for connecting the first screw support 21, and the fixing member 24 is integrally connected to the outside of the cap feeding passage 2 to prevent interference with the feeding of the cap.

The following specifically explains the working process of this embodiment:

firstly, the value of the included angle α is adjusted according to the height difference between the front-end equipment and the rear-end equipment, then, the motor is started, the bottle caps are transmitted in the cap transmission channel 2, and the bottle caps in the front-end equipment are transmitted to the rear-end equipment.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. A bottle lid transmission device which characterized in that: the bottle cap conveying device comprises a container, an air inlet arranged on the container, a cap conveying channel wound on the container along a spiral direction, and air outlets arranged on the container and arranged in sequence along the spiral winding direction of the cap conveying channel, wherein the air outlets are used for driving the bottle caps to be conveyed in the cap conveying channel in a matched manner;

when the cap conveying channel works, the included angle between the axis direction of the cap conveying channel and the vertical direction is α, wherein the included angle is more than or equal to 0 degree and less than or equal to α degree and less than or equal to 90 degree.

2. The bottle cap transfer device of claim 1, wherein: the container comprises an annular cylinder body and annular sealing plates arranged at two ends of the annular cylinder body.

3. The bottle cap transfer device of claim 2, wherein: the device also comprises a fan and air pipes which are respectively communicated with the fan and one of the annular seal plates.

4. A bottle cap transfer device according to claim 3, wherein: the annular sealing plate is provided with at least two air inlets, and the air pipe is communicated with all the air inlets.

5. The bottle cap transfer device of claim 1, wherein: the device also comprises a support frame used for fixing the container in a working position in a matching way.

6. The bottle cap conveying device according to claim 1, wherein the air outlet comprises a concave air deflector arranged on the outer periphery of the container, and an included angle between the air deflector and a moving track of the bottle cap at a corresponding position is β, wherein 0 degrees < β degrees < 90 degrees.

7. The bottle cap transfer device of claim 1, wherein: the cap conveying channel comprises a first spiral supporting piece used for abutting against the end part of the bottle cap, a second spiral supporting piece used for abutting against one side of the bottle cap, and a third spiral supporting piece used for abutting against the opposite side of the bottle cap in a matched mode, and a conveying path used for allowing the bottle cap to convey in the conveying path is formed between the first spiral supporting piece, the second spiral supporting piece, the third spiral supporting piece and the periphery of the outer side of the container in a surrounding mode.

8. The bottle cap transfer device of claim 7, wherein: defeated lid passageway still includes a plurality ofly be used for with first spiral support piece second spiral support piece with third spiral support piece fixes mounting on the container, it is a plurality of the mounting is followed defeated lid passageway spiral is around the direction of establishing interval arrangement in proper order, every the mounting all along its length direction in proper order with the container second spiral support piece first spiral support piece third spiral support piece the container is connected.

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