CN211225167U

CN211225167U - Reason bottle dish equipment and contain its beverage bottle recovery system

Info

Publication number: CN211225167U
Application number: CN201922323649.8U
Authority: CN
Inventors: 常涛; 杨光泽
Original assignee: Beijing Yingchuang Gaoke New Technology Development Co ltd
Current assignee: Beijing Yingchuang Gaoke New Technology Development Co ltd
Priority date: 2019-12-23
Filing date: 2019-12-23
Publication date: 2020-08-11
Anticipated expiration: 2029-12-23

Abstract

The utility model discloses a bottle arranging tray device and a beverage bottle recovery system comprising the same; the bottle arranging disc device comprises a centrifugal disc, and a conveying belt is arranged around the periphery of the centrifugal disc; the conveying belt comprises an annular conveying belt and an outward conveying belt, and the outward conveying belt is surrounded to form an outward conveying channel; a narrow transmission section is arranged at the front side of the inlet of the outward transmission channel; and a plurality of nozzles for blowing off or righting bottles which have irregular movement and do not meet the conveying condition are respectively arranged at the front sides of the inlets of the outward conveying channels; the nozzle comprises a bottle stacking nozzle, a bottle holding nozzle and a bottle falling nozzle; a reverse brush roller mechanism is arranged at the front side of the inlet. The utility model discloses a reason bottle dish equipment can arrange the bottle of different specification models in order at a high speed and can realize the order ejection of compact, has promoted beverage bottle recovery system's recovery efficiency greatly.

Description

Reason bottle dish equipment and contain its beverage bottle recovery system

Technical Field

The utility model relates to a beverage bottle field of retrieving especially relates to a reason bottle dish equipment and contain its beverage bottle recovery system.

Background

In the beverage bottle recycling process, a batch of beverage bottles need to be automatically arranged, oriented and conveyed through a bottle arranging tray device. The existing bottle arranging disc technology generally arranges unordered bottles by using the thrust of a rotary disc, automatically positions the bottles by using the centrifugal force in the rotating process, and outputs the bottles to enter the next procedure through an outlet of a fixed track. The bottle arranging tray device in the prior art is generally only used for arranging and recycling bottles with the same specification and model. However, in this way, the specification and model of the bottles need to be screened manually in the earlier stage, so that the recovery efficiency of the beverage bottles is greatly reduced.

Therefore, it is obvious that the above conventional bottle tray arranging apparatus still has the inconvenience and disadvantages, and further improvement is needed. How to create a bottle arranging tray device suitable for arranging bottles with different specifications and models becomes an object of great improvement in the industry at present.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a reason bottle dish equipment makes it can realize the bottle and the order ejection of compact of high-speed different specification models of arrangement, promotes recovery efficiency.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the bottle arranging disc device comprises a centrifugal disc, wherein a conveying belt is arranged around the periphery of the centrifugal disc; the conveying belt comprises an annular conveying belt and an outward conveying belt; the annular conveying belt comprises a first conveying section and a second conveying section, wherein the first conveying section is used for receiving bottles thrown out by the centrifugal disc, the second conveying section is gradually raised relative to the first conveying section, and an outer blocking wall is arranged on the periphery of the annular conveying belt; the second conveying section extends outwards continuously to form the outward conveying belt, and the outward conveying belt is surrounded to form an outward conveying channel; a narrow transmission section is arranged on the second transmission section in front of the inlet of the outward transmission channel; and a plurality of nozzles for blowing off or righting the bottles which have irregular movement and do not meet the conveying condition are respectively arranged at the front side of the inlet of the outward conveying channel.

As a further improvement of the utility model, the nozzle comprises a bottle stacking nozzle, a bottle holding nozzle and a bottle falling nozzle; the bottle stacking nozzle is used for blowing off the bottles positioned at the upper part of the bottles stacked up and down to the centrifugal disc; the bottle holding nozzle is used for blowing the bottles which are inclined to the centrifugal disc to be right, so that the bottle body direction of the bottles is consistent with the direction of the conveying belt; the bottle dropping nozzle is used for blowing the bottles close to the centrifugal disc out of the two bottles running on the conveying belt side by side to the centrifugal disc.

Further, a reverse brush roller mechanism is mounted above the centrifugal disc and close to the second conveying section, and the reverse brush roller mechanism is located at a distance in front of the inlet of the outward conveying channel.

Further, the reverse brush roller mechanism employs a brush tray rotating about a vertical axis, the bottom of the brush tray being for rotational contact with the bottles on the centrifugal tray, and the side of the brush tray being for rotational contact with the bottles on the second conveying section.

Further, still include the arc guide board of perpendicular to horizontal plane, the one end of arc guide board is connected near the inside wall of centrifugal plate side on with the second transmission section, and the other end of arc guide board extends to outside transmission path entrance and to the side bending of centrifugal plate.

The width adjusting baffle is arranged on the inner side of the outer blocking wall through the width adjusting mechanism, and the second transmission section is formed with the narrow transmission section through adjusting the width adjusting mechanism.

Further, the width of the narrow transmission section is 100-120 mm.

Further, the bottle stacking nozzle is arranged on the outer blocking wall of the second conveying section, and the air spraying direction of the bottle stacking nozzle is parallel to the horizontal plane; the bottle holding nozzle is obliquely arranged downwards, and the inclined angle between the inclined downwards air injection direction and the horizontal plane is 25-35 degrees; the bottle falling nozzle is obliquely arranged downwards, and the inclined angle between the inclined downward air injection direction and the horizontal plane is 55-65 degrees; the air outlets of the bottle holding nozzle and the bottle falling nozzle are linear.

Further, the bottle holding nozzle and the bottle falling nozzle are installed through the nozzle support, and the angle of the bottle holding nozzle and the bottle falling nozzle relative to the nozzle support is adjustable.

The utility model also provides a beverage bottle recovery system, including reason bottle dish equipment and connect the aftertreatment equipment at reason bottle dish equipment rear portion, reason bottle dish equipment adopts foretell reason bottle dish equipment.

By adopting the technical scheme, the utility model discloses at least, following advantage has:

1. utilize a plurality of nozzles (if fold bottle nozzle, hold up bottle nozzle, bottle nozzle that falls) to blow or right the bottle that the motion is irregular and be not conform to the conveying condition in outside transmission channel entry front side, can guarantee that the bottle of different specification models can one by one carry the ejection of compact smoothly, supply next process to use, promoted arrangement recovery efficiency.

2. The reverse brush roller mechanism is arranged at a distance in front of the inlet of the outward conveying channel, so that materials can be prevented from being accumulated at the inlet of the channel, and bottles close to the centrifugal disc in two bottles running on the conveying belt side by side can be brushed down to the centrifugal disc.

3. Through setting up the arc guide board, also can prevent at the passageway entrance because the rotatory material that brings of centrifugal disk is piled up and is piled up by the material that the bottle that falls down produced on the transmission band, the arc guide board can be with bottle direction centrifugal disk and further get rid of to first transmission sector through the centrifugal disk.

4. By adopting the width adjusting mechanism and the nozzle bracket, the adaptability of the nozzle bracket is stronger, and the nozzle bracket can be adjusted according to actual requirements.

Drawings

The foregoing is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clear, the present invention will be further described in detail with reference to the accompanying drawings and the detailed description.

Fig. 1 is a schematic top view of a bottle tray arranging device according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a bottle tray arranging device according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

fig. 4 is a schematic front view of a bottle tray arranging device according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1-3, the present embodiment provides a bottle tray arranging device, which is mainly used for automatically arranging, orienting and conveying bottle-like objects.

The equipment comprises a centrifugal disc 1 positioned in the center, wherein a conveying belt is arranged on the periphery of the centrifugal disc 1 in a surrounding manner; the conveying belt comprises an annular conveying belt 21 and an outward conveying belt 22; the endless conveyor belt 21 comprises a first conveyor section 211 for receiving the bottles thrown off by the centrifugal discs and a second conveyor section 212 gradually raised with respect to the first conveyor section 211, the outer circumference of the endless conveyor belt 21 being provided with an outer retaining wall 3 (which also serves as a frame body of the apparatus); the second conveying section 212 extends outward to form an outward conveying belt 22, a channel cover 4 is arranged on the outward conveying belt 22, the outward conveying channel is formed by surrounding the channel cover 4, and of course, baffles can be arranged on two sides of the outward conveying belt 22 to form a semi-surrounding outward conveying channel.

In operation, a batch of beverage bottles of unlimited specification and type to be sorted is introduced into the centrifugal disc 1, and under the rotation of the centrifugal disc 1, the bottles are thrown out to the first conveying section 211 on the endless conveyor 21 by the principle of centrifugal force, and are conveyed to the second conveying section 212 along with the movement of the conveyor and then enter the outward conveying channel.

Wherein, the centrifugal disc 1 preferably adopts a conical disc with a high middle part and a low periphery, and the centrifugal effect is good. The first transfer section 211 is positioned at an equal or slightly higher or slightly lower level with respect to the peripheral height of the centrifugal disc 1 in order to receive the bottles thrown off by the centrifugal disc 1; the gradual elevation of the second conveying section 212 prevents bottles on the centrifuge disk 1 from directly passing through the second conveying section 212 into the outward conveying path, which is preferably a keel chain conveyor, and forming a jam.

Since the bottles arranged by the apparatus need to be processed one by one in the subsequent process, and the bottles need to be guaranteed to be sequentially transported one by one, a narrow transport section is provided on the second transport section 212; the narrow transfer section is located at the front side of the entrance of the outward transfer channel. Of course, in order to enhance the adaptability of the apparatus, the narrow conveying section may be adjusted by a width adjustment baffle 81 disposed above the second conveying section 212, and the width adjustment baffle 81 may be mounted inside the outer blocking wall 3 by a width adjustment mechanism 82 (such as an adjustment bolt, etc.), so that the width of the narrow conveying section may be adjusted according to different arrangement requirements when in use.

Since the apparatus is suitable for bottles of different sizes, the width of the transport surface at its narrowest point is such as to ensure the passage of a single largest size bottle (typically a 2L bottle) without falling, preferably 100 and 120 mm. For some small size (500ml) bottles, it may happen that two bottles are parallel in the same channel, or that two bottles are stacked one above the other, or that the bottle direction is not the same as the conveyor direction, and the head or tail of the bottle is tilted away from the centrifuge disk 1. Therefore, a plurality of nozzles for blowing off or righting bottles which move irregularly and do not meet conveying conditions are respectively arranged at the front side of the inlet of the outward conveying channel, and respectively comprise a bottle stacking nozzle 51, a bottle righting nozzle 52 and a bottle falling nozzle 53; wherein, the bottle stacking nozzle 51 is used for blowing off the bottle positioned at the upper part of the bottles stacked up and down to the centrifugal disc 1; the bottle stack nozzles 51 are preferably arranged on the outer baffle wall 3 of the second conveying section, the air injection direction of the bottle stack nozzles 51 being parallel to the horizontal plane. The bottle holding nozzle 52 is mainly used for blowing bottles which are inclined to the centrifugal disc 1 to be right, so that the bottle body direction of the bottles is consistent with the conveying belt direction; for this purpose, a fixed position and a fixed angle nozzle may be used, or alternatively an adjustable angle nozzle, such as the above-mentioned bottle holding nozzle 52 may be mounted on a nozzle bracket 54, and the nozzle bracket 54 may be mounted at any suitable position of the apparatus, as the case may be. The angle of the bottle supporting nozzle 52 can be adjusted, the bottle supporting nozzle is arranged obliquely downwards after adjustment, and the included angle between the oblique downward air injection direction and the horizontal plane is 25-35 degrees, preferably 30 degrees; the bottle falling nozzle 53 is used for blowing off bottles close to the centrifugal disc 1 in two bottles running on the conveying belt side by side to the centrifugal disc 1, is similar to the bottle holding nozzle 52, can be arranged on the same nozzle bracket 54, can adjust the angle, is arranged obliquely downwards after being adjusted, and has an included angle of 55-65 degrees, preferably 60 degrees, between the oblique downward air injection direction and the horizontal plane; the air outlets of the bottle holding nozzle 52 and the bottle dropping nozzle 53 are preferably linear.

Due to possible material blockage during operation, a reverse brush roller mechanism 6 is arranged above the centrifugal disc 1 near the second conveying section 212, the reverse brush roller mechanism 6 is located at a distance in front of the inlet of the outward conveying channel, and the rotation direction of the reverse brush roller mechanism 6 is opposite to the rotation direction of the centrifugal disc 1. The reverse brush roller mechanism 6 preferably employs a brush disc rotating about a vertical axis, the bottom of which is intended to be in rotational contact with the bottles on the centrifuge disc 1, and the side of which is intended to be in rotational contact with the bottles on the second transfer section 212. The reverse brush roller mechanism 6 can limit the material blocking position at the front side of the channel to prevent the material from being accumulated at the channel opening; at the same time, it can also brush down bottles that are close to the centrifugal disk 1, of two bottles that are running side by side on the conveyor belt, onto the centrifugal disk 1.

As shown in fig. 1, the apparatus further includes an arc guide plate 7 (not shown in fig. 2 and 3) perpendicular to the horizontal plane, one end of the arc guide plate 7 is connected to the inner sidewall of the second conveying section 212 near the centrifugal plate 1, and the end is located between the reverse brush roller mechanism 6 and the inlet of the outward conveying passage near the reverse brush roller mechanism 6, and the other end of the arc guide plate 7 extends to the inlet of the outward conveying passage and is bent toward the centrifugal plate 1, the arc guide plate 7 can prevent material accumulation at the inlet of the passage due to the rotation of the centrifugal plate 1 and material accumulation generated by bottles falling from the conveying belt, and the arc guide plate 7 can guide the bottles to the centrifugal plate 1 and further throw the bottles toward the first conveying section 211 through the centrifugal plate 1.

With reference to fig. 4, the bottle arranging tray device further includes a control portion 9 for controlling the operation of the whole device, and a supporting leg 10 for supporting the device, wherein the bottom of the supporting leg 10 is provided with a foot margin.

The work flow of the bottle arranging tray equipment is as follows:

manually guiding a batch of beverage bottles (plastic bottles with different specifications and diameters of 50-120mm) into a bottle arranging disc, starting the device, enabling a centrifugal disc 1 to rotate to throw part of the bottles to a first conveying section 211 by utilizing the principle of centrifugal force, enabling part of the bottles to continue to rotate on the centrifugal disc 1 along with the centrifugal disc 1, separating the beverage bottles on the centrifugal disc 1 from the beverage bottles on a second conveying section 212 when the bottles meet a reverse brush roller mechanism 6, preventing the bottles from being accumulated at an inlet of an outward conveying channel, and simultaneously brushing the bottles close to the centrifugal disc in two bottles running on a conveying belt side by side to the centrifugal disc 1; in the process of continuous conveying, the bottles on the conveying belt pass through the narrow conveying section, only one bottle can pass through the large-size bottles, the situation that two bottles simultaneously pass through the small-size bottles in parallel can exist, the situation that the two bottles are stacked up and down can also exist, and the situation that the directions of the bottles and the conveying belt are not consistent, and the heads or the tails of the bottles incline to the centrifugal disc 1 can also occur. At the moment, the bottles are blown off or righted through the nozzles, so that the bottles can be conveyed out one by one through the outward conveying channel; in addition, after passing through the reverse brush roller mechanism 6, the arc-shaped guide plate 7 guides the bottles, so that the bottles can be guided to the centrifugal disc 1 and further thrown to the first transmission section 211 through the centrifugal disc 1, and the next circle of transmission and arrangement is performed.

The utility model discloses an above-mentioned reason bottle dish equipment can realize the bottle of the different specifications of high number arrangement and the ejection of compact of order, has promoted beverage bottle recovery system's recovery efficiency greatly. The bottles conveyed by the bottle arranging tray equipment can be continuously recycled through the post-processing equipment connected to the rear part of the bottle arranging tray equipment, and finally the beverage bottles are recycled.

The above description is only for the preferred embodiment of the present invention, and not intended to limit the present invention in any way, and those skilled in the art can make various modifications, equivalent changes and modifications using the above-described technical content, all of which fall within the scope of the present invention.

Claims

1. The bottle arranging disc equipment is characterized by comprising a centrifugal disc, wherein a conveying belt is arranged around the periphery of the centrifugal disc;

the conveying belt comprises an annular conveying belt and an outward conveying belt; the annular conveying belt comprises a first conveying section and a second conveying section, wherein the first conveying section is used for receiving bottles thrown out by the centrifugal disc, the second conveying section is gradually raised relative to the first conveying section, and an outer blocking wall is arranged on the periphery of the annular conveying belt; the second conveying section extends outwards continuously to form the outward conveying belt, and the outward conveying belt is surrounded to form an outward conveying channel;

a narrow transmission section is arranged on the second transmission section in front of the inlet of the outward transmission channel; and a plurality of nozzles for blowing off or righting the bottles which have irregular movement and do not meet the conveying condition are respectively arranged at the front side of the inlet of the outward conveying channel.

2. The bottle organizer apparatus of claim 1, wherein the nozzles comprise a bottle stacking nozzle, a bottle holding nozzle, and a bottle dropping nozzle; the bottle stacking nozzle is used for blowing off the bottles positioned at the upper part of the bottles stacked up and down to the centrifugal disc; the bottle holding nozzle is used for blowing the bottles which are inclined to the centrifugal disc to be right, so that the bottle body direction of the bottles is consistent with the direction of the conveying belt; the bottle dropping nozzle is used for blowing the bottles close to the centrifugal disc out of the two bottles running on the conveying belt side by side to the centrifugal disc.

3. The bottle organizer apparatus of claim 1 or 2, wherein a reverse brush roller mechanism is mounted above the centrifuge disc near the second conveying section and at a distance in front of the inlet of the outward conveying channel.

4. The bottle tray arrangement device according to claim 3, wherein the reverse brush roller mechanism employs a brush tray rotating about a vertical axis, the bottom of the brush tray being adapted for rotational contact with bottles on a centrifugal tray, and the sides of the brush tray being adapted for rotational contact with bottles on the second conveying section.

5. The bottle unscrambling device according to claim 1 or 2, further comprising an arcuate guide plate perpendicular to the horizontal plane, one end of the arcuate guide plate being connected to the inner side wall of the second conveying section near the centrifugal tray side, the other end of the arcuate guide plate extending to the entrance of the outward conveying passage and curving toward the centrifugal tray side.

6. The bottle tray arranging device according to claim 1 or 2, further comprising a width adjusting mechanism and a width adjusting baffle, wherein the width adjusting baffle is mounted on the inner side of the outer blocking wall through the width adjusting mechanism, and the second conveying section is formed into the narrow conveying section through adjusting the width adjusting mechanism.

7. The bottle arranging tray device according to claim 1 or 2, wherein the narrow transmission section has a width of 100 and 120 mm.

8. The bottle unscrambling apparatus according to claim 2, wherein the bottle stacking nozzle is disposed on the outer baffle wall of the second conveying section, and the air injection direction of the bottle stacking nozzle is parallel to the horizontal plane; the bottle holding nozzle is obliquely arranged downwards, and the inclined angle between the inclined downwards air injection direction and the horizontal plane is 25-35 degrees; the bottle falling nozzle is obliquely arranged downwards, and the inclined angle between the inclined downward air injection direction and the horizontal plane is 55-65 degrees; the air outlets of the bottle holding nozzle and the bottle falling nozzle are linear.

9. The bottle organizer apparatus of claim 2, wherein the bottle-holding and bottle-dropping nozzles are mounted by a nozzle support, the angle of the bottle-holding and bottle-dropping nozzles relative to the nozzle support being adjustable.

10. A beverage bottle recovery system, comprising a bottle arranging tray device and a post-processing device connected to the rear part of the bottle arranging tray device, wherein the bottle arranging tray device adopts the bottle arranging tray device according to any one of claims 1 to 9.