CN210794433U - Automatic compression treatment beverage bottle garbage bin - Google Patents

Abstract

The utility model provides an automatic compression handles beverage bottle garbage bin, is including throwing bottleneck, beverage bottle pipeline, clamping mechanism, pricking device, waste water recovery mechanism, gyro wheel compressing mechanism, detection classification mechanism, beverage bottle collection mechanism. The beverage bottle pipeline is hollow cylinder shape, and the upper end of the beverage bottle pipeline is connected with the bottle mouth and then passes through the clamping mechanism. After a beverage bottle put into a beverage bottle pipeline is clamped by the clamping mechanism, the beverage bottle is punctured by the puncturing mechanism and then flows out of the waste water; the waste water recovery mechanism comprises a first baffle, a drainage pipeline and a waste liquid collecting box which are matched with each other through the first baffle and the drainage pipeline to collect waste water; the lower end of the pipeline wall of the beverage bottle is provided with a roller compression mechanism; the beverage bottle collecting mechanism is used for classifying and collecting different materials of beverage bottles through the second baffle plate. The utility model discloses practice thrift the garbage bin space, improve collection efficiency, plan rationally, the mechanism is simple and novel, easily realizes, is fit for using widely.

Description

Automatic compression treatment beverage bottle garbage bin

Technical Field

The invention relates to the field of garbage recovery, in particular to a beverage bottle garbage can capable of automatically compressing and processing.

Background

Although the existing trash cans, especially trash cans in public places, are divided into recyclable trash cans and non-recyclable trash cans, most people have no habit of garbage classification, so that a plurality of beverage bottles are thrown into the non-recyclable trash cans, and therefore the beverage bottles are difficult to centrally process and are wasted in resources. The existing beverage bottle treatment device is not perfect enough, most beverage bottle treatment modes are dispersion treatment, the problems of poor recovery environment, high frequency, low efficiency and the like exist, and a great deal of inconvenience is brought to recovery workers in the recovery process. There is therefore a need for a device which is specifically adapted for beverage bottle handling.

Disclosure of Invention

1. The technical problem to be solved is as follows:

the invention provides a garbage can capable of automatically compressing beverage bottles, which can be used for putting the beverage bottles into the garbage can and classifying and collecting the beverage bottles by adopting an automatic identification material according to the structural characteristics of the beverage bottles.

2. The technical scheme is as follows:

the utility model provides an automatic compression handles beverage bottle garbage bin, is including throwing bottleneck, beverage bottle pipeline, clamping mechanism, pricking mechanism, waste water recovery mechanism, gyro wheel compressing mechanism, detection classification mechanism, beverage bottle collection mechanism.

The beverage bottle pipeline is hollow cylinder shape, and the upper end of the beverage bottle pipeline is connected with the bottle mouth and then passes through the clamping mechanism.

The clamping mechanism specifically comprises: the middle position of the beverage bottle pipeline is oppositely provided with a first through hole and a second through hole on the same horizontal plane; a first clamping shaft capable of passing through the first through hole to perform telescopic motion is arranged in the first through hole; the first clamping shaft is connected with an output shaft of the first motor; the first motor is arranged at the outer end of the pipeline; a second clamping shaft capable of passing through the second through hole to perform telescopic motion is arranged in the second through hole; the second clamping shaft is connected with an output shaft of a second motor; the second motor is arranged at the outer end of the pipeline; the first clamping shaft and the second clamping shaft can clamp and fix a beverage bottle entering a beverage bottle pipeline between the two clamping shafts from the left direction and the right direction; the first and second clamping shafts and the first and second motors are arranged in the shell of the clamping mechanism; the outer end of the beverage bottle is sleeved in the shell of the clamping mechanism; the thickness of the shell of the clamping mechanism is slightly thicker than that of the first through hole and the first through hole is positioned in the shell of the clamping mechanism.

A pricking mechanism is arranged below the shell of the clamping mechanism; the pricking mechanism is in a strip shape, and one end of the pricking mechanism can be fixed on the inner wall of the beverage bottle pipeline in a surrounding way through a rivet structure; the other end of the conical body is provided with a conical body towards the interior of the beverage bottle pipeline, and the conical body can penetrate the tip end of the conical body into the hollow part of the beverage bottle pipeline through a third through hole arranged at the beverage bottle pipeline through a third motor arranged at the outer end of the beverage bottle; when the clamping mechanism fixes the beverage bottle, the third motor pierces the conical body into the lower end of the beverage bottle.

The waste water recovery mechanism comprises a first baffle, a drainage pipeline and a waste liquid collecting box; the method specifically comprises the following steps: a first baffle plate is arranged below the third through hole and positioned on the inner wall of the beverage bottle pipeline; one side of the first baffle plate is rotatably fixed on the inner wall of the beverage bottle pipeline, and the first baffle plate can rotate up and down by taking the fixed side as the circle center through a fourth motor arranged at the outer end of the beverage bottle; when the beverage bottle is detected to be in sealing contact with the beverage bottle pipeline, the first baffle plate is lifted and inclined by a certain angle, so that the beverage bottle can be prevented from sliding downwards, and when the beverage bottle is punctured and liquid flows out, the liquid flows into the waste liquid collecting opening along the inclined first baffle plate; the waste liquid collecting port is a through hole arranged on the wall of the beverage bottle pipeline; the waste liquid collecting port is connected with a drainage pipeline arranged below the waste liquid collecting port to collect the collected waste liquid into a waste liquid collecting box; the drainage duct is located outside the beverage bottle duct wall.

The lower end of the pipeline wall of the beverage bottle is provided with a roller compression mechanism; the roller compression mechanism comprises two rollers which are separated by a certain distance and roll in the same plane; beverage bottles passing through beverage bottle pipelines can fall into the middle of the two rollers, and the two rollers rotate to compress the beverage bottles falling into the rollers and move downwards; and the roller is connected with an output shaft of the fifth motor.

The detection and classification mechanism is a material detection device arranged in a beverage bottle pipeline; the material detection device is used for detecting whether the beverage bottle is plastic or metal.

The beverage bottle collecting mechanism is specifically as follows: the beverage bottle passing through the roller compression mechanism falls on the upper end of the second baffle plate; the second baffle is rectangular; two garbage cans which are arranged side by side are placed at the lower end of the second baffle plate, and when the left surface of the second baffle plate descends, beverage bottles fall into the left garbage can; when the beverage bottle descends to the right of the second baffle plate, the beverage bottle falls into a garbage can on the right; and the turnover of the second baffle is controlled by a sixth motor.

The device also comprises a controller; the controller integration includes the executive component and the motor control chip of first motor, second motor, third motor, fourth motor, fifth motor and sixth motor, record the beam sensor of sensing signal, timing module, record and transmit the material detection device of signal, signal conversion module and switch execution unit. And the output end of the controller is connected with the first motor, the second motor, the third motor, the fourth motor, the fifth motor and the sixth motor. The output end of the light beam sensor is connected with the input end of the controller; and the output end of the material detection device is connected with the input end of the controller.

Further, the first baffle and the conical body of the puncturing mechanism are started simultaneously; the silica gel is surrounded by three edges of the first baffle; when the first baffle plate is lifted to the waste liquid collecting opening, the first baffle plate is in sealing connection with the beverage bottle pipeline in contact with the first baffle plate.

Further, a resistance wire is arranged in the conical body; the resistance wire is connected with a power supply.

Further, a motor is arranged in the conical body, and the conical body can rotate along with the rotation of the motor.

Further, a pressure sensor is arranged at the contact part of the first clamping shaft and the second clamping shaft and the beverage bottle, and the pressure sensor transmits the detected pressure to the controller.

Furthermore, a light beam sensor is arranged at the bottle throwing opening.

Furthermore, two rollers in the roller compression mechanism are the same in size, and anti-skid patterns are arranged on the surfaces of the rollers.

3. Has the advantages that:

when the automatic compression beverage bottle garbage can provided by the invention works, a beverage bottle enters from the opening of the can, the two clamping devices contract inwards to clamp the beverage bottle so that the beverage bottle cannot fall down, the beverage bottle is detected and clamped by the detection clamping mechanism, the beverage bottle is punctured by starting the nail post, and wastewater enters the wastewater collection mechanism along the pipeline. After the waste water is drained, the clamping mechanism is withdrawn, the screw column is withdrawn, the empty beverage bottle continuously slides along the pipeline to enter the roller compression mechanism, the compressed beverage bottle after being flattened is classified and determined by detection, and then falls into the beverage bottle collection mechanism after being guided by the baffle, and the automatic compression processing beverage bottle device finishes the work. The garbage can has the advantages of saving garbage can space, improving collection efficiency, being reasonable in planning, simple and novel in mechanism, easy to realize and suitable for popularization and use.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a front view of the internal structure of the present invention;

FIG. 3 is a rear view of the internal structure of the present invention;

FIG. 4 is a schematic view of the clamping structure of the present invention;

FIG. 5 is a structural view of the puncturing mechanism of the present invention;

FIG. 6 is a schematic diagram of the mechanical transmission in the embodiment;

FIG. 7 is a schematic view of a roller compression mechanism according to the present invention;

FIG. 8 is a perspective view of a roller compression mechanism of the present invention;

FIG. 9 is a schematic view of a second baffle plate of the beverage bottle collecting mechanism of the present invention;

fig. 10 shows the collection box of the beverage bottle collection mechanism and the waste water recovery mechanism of the present invention.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings:

as shown in the attached drawings 1 to 9, the automatic compression treatment beverage bottle garbage can comprises a bottle feeding opening 1, a beverage bottle pipeline 2, a clamping mechanism 3, a puncturing mechanism 4, a waste water recovery mechanism, a roller compression mechanism 6, a detection and classification mechanism and a beverage bottle collection mechanism. Fig. 1 is an external view of the device, and 8 is a shell of the garbage can. The mouth of the spout is typically provided as a flare.

Fig. 2 is a front view of the internal structure of the present invention and fig. 3 is a rear view of the internal structure of the present invention, and as shown in the drawings, the beverage bottle pipe is hollow and cylindrical, and the upper end of the beverage bottle pipe is connected with the mouth of the bottle and then passes through the clamping mechanism 3. The beverage bottle pipeline adopts a square pipeline. The compressing mechanism is positioned at the lower end of the beverage bottle pipeline.

As shown in fig. 4, which is a schematic structural diagram of the clamping structure, as shown in the figure, the clamping mechanism 3 is specifically: the middle position of the beverage bottle pipeline is oppositely provided with a first through hole and a second through hole on the same horizontal plane; a first clamping shaft 31 capable of passing through the first through hole for telescopic motion is arranged in the first through hole; the first clamping shaft is connected with an output shaft of the first motor; the first motor 32 is arranged at the outer end of the pipeline; a second clamping shaft 33 capable of passing through the second through hole to perform telescopic motion is arranged in the second through hole; the second clamping shaft is connected with an output shaft of a second motor 34; the second motor is arranged at the outer end of the pipeline; the first clamping shaft and the second clamping shaft can clamp and fix a beverage bottle entering a beverage bottle pipeline between the two clamping shafts from the left direction and the right direction; the first and second clamp shafts and the first and second motors are arranged in a shell 35 of the clamping mechanism; the outer end of the beverage bottle is sleeved in the shell of the clamping mechanism; the housing thickness of the clamping mechanism is slightly thicker than the first and second through holes and the first and second through holes are located in the housing 35 of the clamping mechanism.

A puncturing mechanism 4 is arranged below the shell 35 of the clamping mechanism; the pricking mechanism is in a long strip shape as shown in the attached figure 5, and one end of the pricking mechanism can be fixed on the inner wall of the beverage bottle pipeline in a surrounding way through a rivet structure; the other end of the conical body 41 is arranged towards the interior of the beverage bottle pipeline, and the conical body can penetrate the tip end of the conical body into the hollow part of the beverage bottle pipeline through a third through hole arranged at the beverage bottle pipeline through a third motor arranged at the outer end of the beverage bottle; when the clamping mechanism fixes the beverage bottle, the third motor pierces the conical body into the lower end of the beverage bottle. Fig. 6 shows a mechanical transmission device of the puncturing mechanism 4, wherein the roller 411 rotates around the center of the roller to drive the sliding block 412 to move left and right, so as to drive the conical body of the puncturing mechanism to move up and down, thereby puncturing the beverage bottle placed on the conical body.

The wastewater recovery mechanism 5 comprises a first baffle 51, a drainage pipeline 52 and a waste liquid collection box 53; the method specifically comprises the following steps: a first baffle 51 is arranged on the inner wall of the beverage bottle pipeline below the third through hole; one side of the first baffle 51 is rotatably fixed on the inner wall of the beverage bottle pipeline, and the first baffle 51 can rotate up and down by taking the fixed side as the center of a circle through a fourth motor arranged at the outer end of the beverage bottle; when the beverage bottle is detected to be in sealing contact with the beverage bottle pipeline, the first baffle plate is lifted and inclined by a certain angle, so that the beverage bottle can be prevented from sliding downwards, and when the beverage bottle is punctured and liquid flows out, the liquid flows into the waste liquid collecting opening along the inclined first baffle plate; the waste liquid collecting port is a through hole arranged on the wall of the beverage bottle pipeline; the waste liquid collecting port is connected with a drainage pipeline arranged below the waste liquid collecting port to collect the collected waste liquid into a waste liquid collecting box; the drainage duct is located outside the beverage bottle duct wall. The mechanical rotation of the first baffle can also be referred to in fig. 6, and the puncturing mechanism in fig. 6 is replaced by the first baffle.

Fig. 7 and 8 show the roller compression mechanism 6; the lower end of the pipeline wall of the beverage bottle is provided with a roller compression mechanism 6; the roller compression mechanism 6 comprises two rollers 61 which are separated by a certain distance and roll in the same plane; beverage bottles passing through beverage bottle pipelines can fall into the middle of the two rollers, and the two rollers rotate to compress the beverage bottles falling into the rollers and move downwards; and the roller is connected with an output shaft of the fifth motor. As can be seen from the figure, the two rollers are arranged with corresponding distance for beverage bottles to pass through and compress when passing through, thereby greatly reducing the storage volume of the beverage bottles and increasing the collection efficiency.

The detection and classification mechanism is a material detection device arranged in a beverage bottle pipeline; the material detection device is used for detecting whether the beverage bottle is plastic or metal. The material detection mechanism takes a metal sensor as a leading element, and can detect beverage bottles into two categories of metal and nonmetal. In actual use, the material detection mechanism can be arranged on a beverage bottle pipeline at the upper end of the collecting device as required and also can be arranged on the clamping shaft.

As shown in fig. 9 and 10, the beverage bottle passing through the roller compressing mechanism 6 falls on the upper end of the second barrier 71; the second baffle is rectangular; two garbage cans 72 which are arranged side by side are arranged at the lower end of the second baffle plate, and when the left surface of the second baffle plate descends, beverage bottles fall into the left garbage can; when the beverage bottle descends to the right of the second baffle plate, the beverage bottle falls into a garbage can on the right; the turning of the second shutter 71 is controlled by a sixth motor.

The device also comprises a controller; the controller integration includes the executive component and the motor control chip of first motor, second motor, third motor, fourth motor, fifth motor and sixth motor, record the beam sensor of sensing signal, timing module, record and transmit the material detection device of signal, signal conversion module and switch execution unit. The output end of the controller is connected with the first motor, the second motor, the third motor, the fourth motor, the fifth motor and the sixth motor; the output end of the light beam sensor is connected with the input end of the controller; and the output end of the material detection device is connected with the input end of the controller.

Further, the first baffle and the conical body of the puncturing mechanism are started simultaneously; the silica gel is surrounded by three edges of the first baffle; when the first baffle plate is lifted to the waste liquid collecting opening, the first baffle plate is in sealing connection with the beverage bottle pipeline in contact with the first baffle plate.

Further, a resistance wire is arranged in the conical body; the resistance wire is connected with a power supply. In the specific implementation process, a heating resistance wire can be arranged in the conical body, and the wall or the bottom of the beverage bottle can be more effectively punctured by utilizing the heat effect of current.

Further, a motor is arranged in the conical body, and the conical body can rotate along with the rotation of the motor. In the process of implementation, the conical body can be a rotatable structure, and the pressure of the top of the conical body on the wall of the beverage bottle or the bottom of the beverage bottle can be increased through rotation.

Further, a pressure sensor is arranged at the contact part of the first clamping shaft and the second clamping shaft and the beverage bottle, and the pressure sensor transmits the detected pressure to the controller. The controller can judge whether to clamp the beverage bottle according to the pressure.

Furthermore, a light beam sensor is arranged at the bottle throwing opening. The light beam sensor can detect whether a beverage bottle is put in. If the beverage bottle is judged to be put into the beverage bottle, the controller controls the motor in the beverage bottle putting-in device to do corresponding action.

Furthermore, two rollers in the roller compression mechanism are the same in size, and anti-skid patterns are arranged on the surfaces of the rollers. The friction force between the roller and the beverage bottle can be increased by the method.

In the device, a controller receives information collected by a light beam sensor, confirms that a beverage bottle enters a pipeline, a timing module performs timing, a first motor and a second motor are started to move inwards rapidly after a preset time t1, a third motor pushes a conical body to move, and a fourth motor pushes a first baffle plate to ascend to be in sealing contact with the beverage bottle pipeline; after a preset time t2, the first baffle plate is retracted and the beverage bottle falls. Then the controller sends a working signal to the fifth motor, and the roller of the roller compression mechanism moves to drive the beverage bottle to move downwards so as to complete the compression task; meanwhile, the material detection device sends the detected structure to the controller, and the controller sends a signal to the sixth motor to control the rotation direction of the second baffle.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides an automatic compression handles beverage bottle garbage bin which characterized in that: comprises a bottle feeding opening (1), a beverage bottle pipeline (2), a clamping mechanism (3), a puncturing mechanism (4), a waste water recycling mechanism, a roller compression mechanism (6), a detection and classification mechanism and a beverage bottle collecting mechanism;

the beverage bottle pipeline (2) is hollow and cylindrical, and the upper end of the beverage bottle pipeline is connected with the bottle feeding opening (1) and then passes through the clamping mechanism (3);

the clamping mechanism (3) is specifically as follows: the middle position of the beverage bottle pipeline (2) is oppositely provided with a first through hole and a second through hole on the same horizontal plane; wherein a first clamping shaft (31) capable of passing through the first through hole for telescopic motion is arranged in the first through hole; the first clamping shaft (31) is connected with an output shaft of a first motor (32); the first motor (32) is arranged at the outer end of the pipeline; a second clamping shaft (33) capable of passing through the second through hole to perform telescopic motion is arranged in the second through hole; the second clamping shaft (33) is connected with an output shaft of a second motor (34); the second motor (34) is arranged at the outer end of the pipeline; the first clamping shaft (31) and the second clamping shaft (33) can clamp and fix a beverage bottle entering a beverage bottle pipeline (2) between the two clamping shafts from the left direction and the right direction; the first and second clamping shafts and the first and second motors are arranged in a shell (35) of the clamping mechanism; the outer end of the beverage bottle is sleeved inside the outer shell (35) of the clamping mechanism; the thickness of the housing (35) of the clamping mechanism is thicker than the first and second through holes, and the first and second through holes are positioned in the housing (35) of the clamping mechanism;

a pricking mechanism (4) is arranged below a shell (35) of the clamping mechanism; the pricking mechanism (4) is in a long strip shape, and one end of the pricking mechanism can be fixed on the inner wall of the beverage bottle pipeline (2) in a surrounding way through a rivet structure; the other end of the conical body (41) is provided with a conical body (41) towards the interior of the beverage bottle pipeline (2), the conical body (41) can penetrate the conical body (41) into the hollow part of the beverage bottle pipeline (2) through a third through hole arranged at the outer end of the beverage bottle by the aid of a third motor arranged at the outer end of the beverage bottle;

the wastewater recovery mechanism comprises a first baffle (51), a drainage pipeline (52) and a waste liquid collecting box (53); the method specifically comprises the following steps: a first baffle (51) is arranged below the third through hole and positioned on the inner wall of the beverage bottle pipeline (2); one side of the first baffle plate (51) is rotatably fixed on the inner wall of the beverage bottle pipeline (2), and the first baffle plate (51) can rotate up and down by taking the fixed side as the circle center through a fourth motor arranged at the outer end of the beverage bottle; the waste liquid collecting port is a through hole arranged on the wall of the beverage bottle pipeline (2); the waste liquid collecting port is connected with a drainage pipeline (52) arranged below the waste liquid collecting port to collect the collected waste liquid into a waste liquid collecting box (53); the drainage pipe (52) is positioned outside the wall of the beverage bottle pipe (2);

the lower end of the wall of the beverage bottle pipeline (2) is provided with a roller compression mechanism (6); the roller compression mechanism (6) comprises two rollers (61) which are separated by a certain distance and roll in the same plane; the roller (61) is connected with an output shaft of a fifth motor;

the detection and classification mechanism is a material detection device arranged in a beverage bottle pipeline (2); the material detection device is used for detecting whether the beverage bottle is plastic or metal;

the beverage bottle collecting mechanism is specifically as follows: the second baffle (71) is rectangular; two garbage cans (72) which are arranged side by side are placed at the lower end of the second baffle plate (71), and the overturning of the second baffle plate (71) is controlled by a sixth motor;

the device also comprises a controller; the controller integration comprises executing elements of a first motor, a second motor, a third motor, a fourth motor, a fifth motor and a sixth motor, a motor control chip, a light beam sensor for recording induction signals, a timing module, a material detection device for recording and transmitting signals, a signal conversion module and a switch executing unit; the output end of the controller is connected with the first motor, the second motor, the third motor, the fourth motor, the fifth motor and the sixth motor; the output end of the light beam sensor is connected with the input end of the controller; and the output end of the material detection device is connected with the input end of the controller.

2. An automatic compression processing beverage bottle trash can according to claim 1, wherein: the first baffle (51) and the conical body (41) of the puncturing mechanism (4) are started simultaneously; the silica gel is surrounded by three edges of the first baffle (51); when the first baffle plate (51) is lifted to the waste liquid collecting opening, the first baffle plate (51) is in sealing connection with the beverage bottle pipeline (2) contacted with the first baffle plate.

3. An automatic compression processing beverage bottle trash can according to claim 1, wherein: a resistance wire is arranged in the conical body (41); the resistance wire is connected with a power supply.

4. An automatic compression processing beverage bottle trash can according to claim 1, wherein: the motor is arranged in the conical body (41).

5. An automatic compression processing beverage bottle trash can according to claim 1, wherein: a pressure sensor is arranged at the contact part of the first clamping shaft and the second clamping shaft with the beverage bottle; the pressure sensor transmits the detected pressure to the controller.

6. An automatic compression processing beverage bottle trash can according to claim 1, wherein: and a light beam sensor is arranged at the bottle opening (1).

7. An automatic compression processing beverage bottle trash can according to claim 1, wherein: two rollers (61) in the roller compression mechanism (6) are the same in size, and anti-skid patterns are arranged on the surfaces of the rollers (61).

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