CN104925502A - Cap conveying device in belt type cap lifting and arranging machine - Google Patents

Abstract

The invention discloses a cap conveying device in a belt type cap lifting and arranging machine. The power consumption of the cap conveying device is greatly reduced. The cap conveying device comprises a blowing nozzle located on a mounting rack on the other side of a lifting conveying belt at the height position of a bottle cap outlet channel, wherein the blowing nozzle structurally comprises an air inlet pipe capable of being communicated with a compressed air source, the air inlet pipe is fixedly installed in a beam pipe, the first pipe section of the beam pipe is a conical pipe with the caliber gradually decreased from outside to inside, the second pipe section of the beam pipe is a flat and straight pipe, a pipe orifice rightly faces the bottle cap outlet channel, the pipe diameter of the second pipe section is smaller than the caliber of the small-caliber end of the first pipe section, the pipe wall of the second pipe section and the pipe wall of the small-caliber end of the first pipe section form circular-arc smooth transition, the air inlet pipe extends into the first pipe section from the large-caliber end of the first pipe section, and when compressed air output by a compression air source flows into the first pipe section, a negative pressure cavity is formed between the air inlet pipe and the first pipe section, so that outside air is introduced into the first pipe section and is sprayed out of the second pipe section with the compressed air.

Description

Defeated lid arrangement in belt type hoisting cap arranger

Technical field

The present invention relates to packing machinery technology, be specifically related to the defeated lid arrangement in belt type hoisting cap arranger.

Background technology

The structure of belt type hoisting cap arranger mainly comprises: erecting frame, erecting frame is provided with lifting load-transfer device, promote load-transfer device constantly to carry from the bottom of erecting frame to the top-direction of erecting frame under the driving of lifting driving device, promote load-transfer device is arranged at intervals with and somely carry lid blend stop for what carry bottle cap, every root carries lid blend stop all along the horizontally set promoting load-transfer device, promote the bottom of load-transfer device outward-dipping and form the bottom of bottle cap feed bin, bottle cap in bottle cap feed bin adjacent two of can drop on the lifting load-transfer device of bottle cap bin bottom carry between lid blend stop, along with lifting load-transfer device constantly moves up, carry on lid blend stop for one below adjacent two bottle caps carried between lid blend stop progressively can drop on and be positioned at, lid reverse in the process upwards run can drop in bottle cap feed bin from carrying lid blend stop under gravity, the upper end being positioned at the erecting frame promoting load-transfer device side is fixedly installed bottle cap exit passageway, erecting frame is also provided with for delivering into defeated lid arrangement to bottle cap exit passageway fast by moving to the bottle cap carried on lid blend stop being positioned at bottle cap exit passageway height and position place, traditional defeatedly mount cover the multiple blowing nozzles being set to and being arranged on erecting frame, erecting frame will arrange 6 ~ 8 blowing nozzles usually, each blowing nozzle is all connected with compressed gas source, the bottle cap carried on lid blend stop moving to bottle cap exit passageway height and position place can blow in bottle cap exit passageway by the pressurized air of blowing nozzle blowout fast, the bottle cap entered in bottle cap exit passageway is transported to next station.

The defect of traditional defeated lid arrangement is: need adopt multiple blowing nozzle that the bottle cap carried on lid blend stop moving to bottle cap exit passageway height and position place just can be guaranteed to be delivered in bottle cap exit passageway fast, air supply needed for multiple valve is very large, thus causes that the energy consumption of belt type hoisting cap arranger is high, riko cover cost is high.

Summary of the invention

The present invention needs the problem solved: provide a kind of defeated lid arrangement that can greatly reduce in the belt type hoisting cap arranger of belt type hoisting cap arranger energy consumption.

For solving the problem, the technical solution used in the present invention is: the defeated lid arrangement in belt type hoisting cap arranger, comprise: for installing the erecting frame promoting load-transfer device, the upper end promoting the erecting frame of load-transfer device side is provided with bottle cap exit passageway, the erecting frame of the lifting load-transfer device opposite side at bottle cap exit passageway height and position place there is a blowing nozzle, the structure of described blowing nozzle comprises: the air inlet pipe that can be connected with compressed gas source, described air inlet pipe is fixedly mounted in line pipe, line pipe comprises the first pipeline section and the second pipeline section, first pipeline section is the taper pipe that bore ecto-entad diminishes gradually, second pipeline section is straight pipe, the mouth of pipe of the second pipeline section faces bottle cap exit passageway, the caliber of the second pipeline section is less than the bore of the first pipeline section small-caliber end, second pipeline section is connected to the small-caliber end of the first pipeline section, between the tube wall of the second pipeline section and the tube wall of the first pipeline section small-caliber end, circular arc seamlessly transits, described air inlet pipe stretches in the first pipeline section from the heavy caliber end of the first pipeline section, and when the pressurized air that compressed gas source exports enters to the first pipeline section from air inlet pipe, negative pressure cavity can be formed between air inlet pipe and the first pipeline section, thus outside air is introduced into the first pipeline section from the heavy caliber end of the first pipeline section, and along with pressurized air is together from the second pipeline section ejection.

Further, defeated lid arrangement in aforesaid belt type hoisting cap arranger, wherein, the air inlet pipe length stretched in the first pipeline section be more than or equal to the first length of pipe section 1/4th, be less than or equal to 1/3rd of the first length of pipe section, the bore of the first described pipeline section heavy caliber end is more than or equal to the caliber of the second pipeline section of octuple, is less than or equal to the caliber of second pipeline section of ten times, and the caliber of the second pipeline section is more than or equal to the caliber of twice air inlet pipe, is less than or equal to the caliber of three times of air inlet pipes.

Further, the defeated lid arrangement in aforesaid belt type hoisting cap arranger, wherein, described air inlet pipe and line pipe coaxial line.

Further, the defeated lid arrangement in aforesaid belt type hoisting cap arranger, wherein, is fixedly connected with locating plate between the outer wall of air inlet pipe and the inwall of the first pipeline section.

Advantage of the present invention is: when air inlet pipe sprays into pressurized air in line pipe, the negative pressure cavity formed between the outer wall of air inlet pipe and the inwall of the first pipeline section can constantly by the air intake of outside in line pipe, the air entered in line pipe can spray together with pressurized air from the second pipeline section.Owing to introducing extraneous air in a large number, therefore the object that a blowing nozzle just can reach conveying bottle cap fast only need be set on erecting frame, this greatly reduces compressed-air actuated use amount, thus greatly reduce the energy consumption of belt type hoisting cap arranger upper bottle cover output, and then greatly reduce the riko cover cost of belt type hoisting cap arranger.

Accompanying drawing explanation

Fig. 1 is the structural representation of the defeated lid arrangement in belt type hoisting cap arranger of the present invention.

Fig. 2 is the inner structure schematic diagram of blowing nozzle in Fig. 1.

Fig. 3 is the connection structure schematic diagram in Fig. 1 between air inlet pipe and the first pipeline section.

Fig. 4 is the structural representation of the left apparent direction of Fig. 2.

Detailed description of the invention

Below in conjunction with accompanying drawing and preferred embodiment, the present invention is described in further detail.

As Fig. 1, Fig. 2, Fig. 3, shown in Fig. 4, defeated lid arrangement in belt type hoisting cap arranger, comprise: for installing the erecting frame 1 promoting load-transfer device 2, the upper end promoting the erecting frame 1 of load-transfer device 2 side is provided with bottle cap exit passageway 3, the erecting frame 1 of lifting load-transfer device 2 opposite side at bottle cap exit passageway 3 height and position place is provided with a blowing nozzle 4, the structure of described blowing nozzle 4 comprises: the air inlet pipe 5 that can be connected with compressed gas source, described air inlet pipe 5 is fixedly mounted in line pipe 6, line pipe 6 comprises the first pipeline section 61 and the second pipeline section 62, first pipeline section 61 is the taper pipe that bore ecto-entad diminishes gradually, second pipeline section 62 is straight pipe, the mouth of pipe of the second pipeline section 62 faces bottle cap exit passageway 3, second pipeline section 62 is connected to the small-caliber end of the first pipeline section 61, the caliber of the second pipeline section 62 is less than the bore of the first pipeline section 61 small-caliber end, between the tube wall of the second pipeline section 62 and the tube wall of the first pipeline section 61 small-caliber end, circular arc seamlessly transits, described air inlet pipe 5 stretches in the first pipeline section 61 from the heavy caliber end of the first pipeline section 61, air inlet pipe 5 length stretched in the first pipeline section 61 is more than or equal to 1/4th of the first pipeline section 61 length, be less than or equal to 1/3rd of the first pipeline section 61 length, the length that air inlet pipe 5 stretches in the first pipeline section 61 can adjust according to actual needs, the bore of the first described pipeline section 61 heavy caliber end is more than or equal to the caliber of the second pipeline section 62 of octuple, be less than or equal to the caliber of second pipeline section 62 of ten times.The caliber of the second pipeline section 62 is more than or equal to the caliber of twice air inlet pipe 5, is less than or equal to the caliber of three times of air inlet pipes 5.The caliber of the bore of the first pipeline section 61 heavy caliber end and the caliber of the second pipeline section 62 and air inlet pipe 5 can be arranged according to required wind-force size and actual conditions.In this enforcement, described air inlet pipe 5 and line pipe 6 coaxial line, be fixedly connected with locating plate 7 between the outer wall of air inlet pipe 5 and the inwall of the first pipeline section 61.

When be loaded with bottle cap carry lid blend stop 21 move to bottle cap exit passageway 3 height and position place time, pressurized air sprays into in the first pipeline section 61 from air inlet pipe 5, under compressed-air actuated effect in the first pipeline section 61, negative pressure cavity 611 is formed between the outer wall of air inlet pipe 5 and the inwall of the first pipeline section 61, air outside first pipeline section 61 is constantly sucked in negative pressure cavity 611 from the heavy caliber end of the first pipeline section 61, air in negative pressure cavity 611 constantly blows out from the mouth of pipe of the second pipeline section 62 to the direction of bottle cap exit passageway 3 along with the pressurized air in air inlet pipe 5, thus the bottle cap carried on lid blend stop 21 moving to bottle cap exit passageway 3 At The Height is blown in bottle cap exit passageway 3 fast, the bottle cap entered in bottle cap exit passageway 3 is transported to next station.

The invention has the advantages that: when air inlet pipe 5 sprays into pressurized air in line pipe 6, the negative pressure cavity 611 formed between the outer wall of air inlet pipe 5 and the inwall of the first pipeline section 61 can constantly by the air intake of outside in line pipe 6, entering air in line pipe 6 can spray together with pressurized air from the second pipeline section 62.Owing to introducing extraneous air in a large number, therefore the object that a blowing nozzle 4 just can reach conveying bottle cap fast only need be set on erecting frame 1, this greatly reduces compressed-air actuated use amount, thus greatly reduce the energy consumption of belt type hoisting cap arranger upper bottle cover output, and then greatly reduce the riko cover cost of belt type hoisting cap arranger.

Claims (4)

1. the defeated lid arrangement in belt type hoisting cap arranger, comprise: for installing the erecting frame promoting load-transfer device, the upper end promoting the erecting frame of load-transfer device side is provided with bottle cap exit passageway, it is characterized in that: the erecting frame of the lifting load-transfer device opposite side at bottle cap exit passageway height and position place has a blowing nozzle, the structure of described blowing nozzle comprises: the air inlet pipe that can be connected with compressed gas source, described air inlet pipe is fixedly mounted in line pipe, line pipe comprises the first pipeline section and the second pipeline section, first pipeline section is the taper pipe that bore ecto-entad diminishes gradually, second pipeline section is straight pipe, the mouth of pipe of the second pipeline section faces bottle cap exit passageway, the caliber of the second pipeline section is less than the bore of the first pipeline section small-caliber end, second pipeline section is connected to the small-caliber end of the first pipeline section, between the tube wall of the second pipeline section and the tube wall of the first pipeline section small-caliber end, circular arc seamlessly transits, described air inlet pipe stretches in the first pipeline section from the heavy caliber end of the first pipeline section, and when the pressurized air that compressed gas source exports enters to the first pipeline section from air inlet pipe, negative pressure cavity can be formed between air inlet pipe and the first pipeline section, thus outside air is introduced into the first pipeline section from the heavy caliber end of the first pipeline section, and along with pressurized air is together from the second pipeline section ejection.

2. the defeated lid arrangement in belt type hoisting cap arranger according to claim 1, it is characterized in that: the air inlet pipe length stretched in the first pipeline section be more than or equal to the first length of pipe section 1/4th, be less than or equal to 1/3rd of the first length of pipe section, the bore of the first described pipeline section heavy caliber end is more than or equal to the caliber of the second pipeline section of octuple, is less than or equal to the caliber of second pipeline section of ten times, and the caliber of the second pipeline section is more than or equal to the caliber of twice air inlet pipe, is less than or equal to the caliber of three times of air inlet pipes.

3. the defeated lid arrangement in belt type hoisting cap arranger according to claim 1 and 2, is characterized in that: described air inlet pipe and line pipe coaxial line.

4. the defeated lid arrangement in belt type hoisting cap arranger according to claim 1 and 2, is characterized in that: be fixedly connected with locating plate between the outer wall of air inlet pipe and the inwall of the first pipeline section.