CN114953862A - Bicycle inner tube mouth pressing device and mouth pressing method - Google Patents

Abstract

The invention discloses a bicycle inner tube pressure nozzle device and a bicycle inner tube pressure nozzle method, which relate to the technical field of bicycle inner tube production and comprise a first support frame, wherein the first support frame is connected with a transmission driving assembly, and the transmission driving assembly is used for enabling a bicycle inner tube to move at a constant speed; the top of the first support frame is connected with a second support frame, and the top of the second support frame is connected with an automatic rotation driving assembly; the automatic rotation driving assembly is in driving connection with a reciprocating type punching assembly, and the reciprocating type punching assembly is used for punching a bicycle inner tube; the reciprocating type punching assembly is connected with a reciprocating type glue smearing assembly, and the reciprocating type glue smearing assembly is used for smearing glue at the punching position of the inner tube of the bicycle; the reciprocating type glue smearing assembly is connected with a reciprocating type pressing assembly, and the reciprocating type pressing assembly presses the air faucet to the punching hole of the inner tube of the bicycle; through the mode, the continuous operation of perforating, gluing and pressing can be carried out, the nozzle pressing efficiency is high, and the actual operation is facilitated.

Description

Bicycle inner tube mouth pressing device and mouth pressing method

Technical Field

The invention relates to the technical field of bicycle inner tube production, in particular to a bicycle inner tube mouth pressing device and a mouth pressing method.

Background

The bicycle inner tube is in an annular hollow shape, the bicycle inner tube is extruded into a hollow tube through an extruder, the hollow tube is cut and assembled, and the air nozzle is pressed after cutting.

The step of air cock pressure mouth is trompil, rubber coating and pressfitting, and the air cock is pressed the mouth and is cooperated the use through different equipment, will separately go on, can't carry out continuous operation, and the air cock is pressed mouth inefficiency, is unfavorable for actual operation.

Therefore, a bicycle inner tube pressure nozzle device and a pressure nozzle method are provided to solve the problems.

Disclosure of Invention

The invention aims to provide a bicycle inner tube pressure nozzle device and a bicycle inner tube pressure nozzle method, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a bicycle inner tube pressure nozzle device comprises a first support frame, wherein the first support frame is connected with a transmission driving assembly, and the transmission driving assembly is used for enabling a bicycle inner tube to move at a constant speed;

the top of the first support frame is connected with a second support frame, and the top of the second support frame is connected with an automatic rotation driving assembly;

the automatic rotation driving assembly is in driving connection with a reciprocating type punching assembly, and the reciprocating type punching assembly is used for punching a bicycle inner tube;

the reciprocating type punching assembly is connected with a reciprocating type glue smearing assembly, and the reciprocating type glue smearing assembly is used for smearing glue at the punching position of the inner tube of the bicycle;

the reciprocating type glue smearing assembly is connected with a reciprocating type pressing assembly, and the reciprocating type pressing assembly presses the air faucet to a punching hole of the inner tube of the bicycle;

the side wall of the second supporting frame is connected with a U-shaped plate, the U-shaped plate is connected with the reciprocating type punching assembly, the reciprocating type glue smearing assembly and the reciprocating type pressing assembly, and the U-shaped plate is used for vertically guiding the reciprocating type punching assembly, the reciprocating type glue smearing assembly and the reciprocating type pressing assembly;

when the reciprocating punching component is contacted with the inner tube of the bicycle, the reciprocating glue smearing component and the reciprocating pressing component are positioned at the same height, then the reciprocating type glue smearing component moves downwards, the reciprocating type pressing component moves upwards, the reciprocating type punching component and the reciprocating type pressing component are positioned at the same height when the reciprocating type glue smearing component is contacted with the inner tube of the bicycle, then the reciprocating punching component moves upwards, the reciprocating pressing component moves downwards, the reciprocating punching component and the reciprocating glue smearing component are positioned at the same height when the reciprocating pressing component is contacted with the inner tube of the bicycle, then the reciprocating type punching assembly moves downwards, the reciprocating type glue smearing assembly moves upwards, the reciprocating type punching assembly, the reciprocating type glue smearing assembly and the reciprocating type pressing assembly move downwards alternately, and punching, gluing and nozzle pressing are carried out sequentially.

Further, the automatic rotation driving assembly comprises a second servo driving assembly, a first supporting seat, a first cross shaft and a photoelectric sensor, the second servo driving assembly and the first supporting seat are installed at the top of the second supporting frame, the output end of the second servo driving assembly is coaxially connected with the first cross shaft, the first supporting seat is rotatably connected with the first cross shaft through a bearing, and the left end of the inner wall of the second supporting frame is provided with the photoelectric sensor.

Still further, reciprocating type subassembly that punches a hole is including the toper cutter that punches a hole, first straight slide, first curb plate, first fly leaf and first connecting axle, first curb plate of first connecting axle both ends fixedly connected with, first curb plate top is rotated and is connected with first fly leaf, first fly leaf bottom is rotated and is connected with first straight slide, first straight slide bottom is connected with the toper cutter that punches a hole.

Furthermore, the first side plate close to the automatic rotation driving assembly is fixedly connected with the end of the first transverse shaft.

Furthermore, the reciprocating glue smearing assembly comprises a reciprocating pushing assembly and a smearing assembly, the reciprocating pushing assembly is connected with the reciprocating punching assembly, and the reciprocating pushing assembly and the smearing assembly are connected.

Furthermore, reciprocal pushing assembly includes second cross axle, second curb plate, second fly leaf, the straight board of second and second connecting axle, the equal fixedly connected with second curb plate in second connecting axle both ends, second curb plate outer end fixedly connected with second cross axle, the second connecting axle rotates and is connected with the second fly leaf, second fly leaf bottom is rotated and is connected with the straight board of second.

Furthermore, the second transverse shaft close to the automatic rotation driving assembly is fixedly connected with the first side plate far away from the automatic rotation driving assembly.

Further, paint the subassembly including the annular paint the sponge, advance the rubber tube, deposit gluey case, contact switch installation straight-bar, motorised valve and go out the gluey hole, deposit gluey case and install in second straight board bottom, deposit gluey incasement bottom and seted up out gluey hole along the circumferencial direction equidistant, deposit gluey bottom of the case portion fixedly connected with annular and paint the sponge, it locates the annular and paints the sponge top to go out gluey hole, deposit gluey case lateral wall fixedly connected with and advance the rubber tube, advance rubber tube fixedly connected with motorised valve, contact switch installation straight-bar is installed on the horizontal position of U-shaped board, contact switch installation straight-bar top is connected with contact switch.

Furthermore, when the second side plate rotates to the position of the contact switch, the second side plate contacts a switch induction signal, and the electric valve is opened after the second side plate contacts the switch induction signal.

In order to better achieve the aim of the invention, the invention also provides a method for pressing the inner tube of the bicycle, which comprises the following steps:

the method comprises the following steps: conveying the bicycle inner tube to a conveying driving assembly, and conveying the bicycle inner tube at a constant speed by the conveying driving assembly;

step two: when the inner tube of the bicycle moves through the photoelectric sensor of the automatic rotation driving assembly, the photoelectric sensor senses a signal, and when the photoelectric sensor senses the signal, the second servo driving assembly drives the first transverse shaft to rotate;

step three: the first transverse shaft drives a first side plate of the reciprocating type punching assembly to rotate, the first side plate drives a first connecting shaft to rotate, the first connecting shaft drives a first movable plate to move, the first movable plate drives a first straight sliding plate to move downwards along a U-shaped plate, the first straight sliding plate drives a punching conical cutter to move downwards, when the punching conical cutter moves to the lowest end, the opening position of the bicycle inner tube moves to the position below the punching conical cutter, the punching conical cutter performs opening processing on the bicycle inner tube, automatic opening of the bicycle inner tube is achieved, meanwhile, the reciprocating type glue smearing assembly moves downwards, and the reciprocating type pressing assembly moves upwards;

step four: the punching conical cutter of the reciprocating punching component moves upwards, the conveying driving component drives the bicycle inner tube to move, the first side plate drives the second transverse shaft of the reciprocating pushing component of the reciprocating glue smearing component to rotate, the second transverse shaft drives the second side plate to rotate, the second side plate drives the second connecting shaft to rotate, the second connecting shaft drives the second movable plate to move, the second movable plate drives the second straight plate to move downwards along the U-shaped plate, the electric valve is opened when the second side plate rotates to a contact switch of the smearing component, glue enters the glue storage box through the glue inlet pipe, the glue in the glue storage box falls into the annular smearing sponge through the glue outlet hole, and at the moment, the bicycle inner tube is opened, the bicycle inner tube is moved to a position right below the annular smearing sponge, the annular smearing sponge smears glue on the bicycle inner tube, meanwhile, the reciprocating type punching assembly moves upwards, and the reciprocating type pressing assembly moves downwards;

step five: sponge rebound is paintd to the annular, and the conveying drive assembly drives the bicycle inner tube of a tyre removal again, and reciprocating type pressing components carries out the air cock pressfitting on the bicycle inner tube of a tyre with the air cock pressfitting when the automatic trompil of bicycle inner tube of a tyre removes under reciprocating type pressing components, realizes punching a hole, rubber coating and presses the mouth to go on in proper order.

The beneficial effects of the invention are:

1. according to the bicycle inner tube punching device, the first transverse shaft drives the first side plate of the reciprocating type punching assembly to rotate, the first side plate drives the first connecting shaft to rotate, the first connecting shaft drives the first movable plate to move, the first movable plate drives the first straight sliding plate to move downwards along the U-shaped plate, the first straight sliding plate drives the punching conical cutter to move downwards, when the punching conical cutter moves to the lowest end, the bicycle inner tube punching position moves to the position below the punching conical cutter, and the punching conical cutter performs punching processing on the bicycle inner tube, so that automatic punching of the bicycle inner tube is realized.

2. According to the invention, the first side plate drives the second transverse shaft of the reciprocating pushing assembly of the reciprocating type glue smearing assembly to rotate, the second transverse shaft drives the second side plate to rotate, the second side plate drives the second connecting shaft to rotate, the second connecting shaft drives the second movable plate to move, the second movable plate drives the second straight plate to move downwards along the U-shaped plate, the electric valve is opened when the second side plate rotates to a contact switch of the smearing assembly, glue enters the glue storage box through the glue inlet pipe, the glue in the glue storage box falls into the annular smearing sponge through the glue outlet hole, at the moment, the hole opening position of the bicycle inner tube moves to the position right below the annular smearing sponge, and the annular smearing sponge smears the glue on the bicycle inner tube.

3. According to the invention, the second transverse shaft drives the third side plate of the reciprocating type pressing assembly to rotate, the third side plate drives the third connecting shaft to rotate, the third connecting shaft drives the third movable plate to move, the third movable plate drives the third straight sliding plate to move, the third straight sliding plate drives the pushing circular plate to move to the uppermost end, the air nozzle in the U-shaped feeding plate moves from the U-shaped feeding plate to the straight cylinder, then the circular plate is pushed to move downwards, the circular plate is pushed to push the air nozzle in the straight cylinder to move downwards, the air nozzle is pressed at the position where the inner tube of the bicycle is perforated, then the air nozzle pressing is realized through the action of glue, and meanwhile, the valve core moving groove facilitates the movement of the valve core of the air nozzle.

4. The invention can continuously operate the hole opening, the gluing and the pressing, has high air nozzle pressing efficiency and is beneficial to the actual operation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a first perspective view of the present invention;

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

FIG. 3 is a left side view of the present invention;

FIG. 4 is a perspective view of the present invention;

FIG. 5 is a third structural perspective view of the present invention;

FIG. 6 is a perspective view of the present invention;

FIG. 7 is a sectional view taken along the line A-A of FIG. 2;

FIG. 8 is a sectional view taken along the line B-B of FIG. 3;

FIG. 9 is an enlarged view of the structure of FIG. 7 at C;

fig. 10 is an enlarged view of the structure at D in fig. 8.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the automatic punching machine comprises a first support frame 2, a transmission driving assembly 21, a first servo driving assembly 22, a conveyor belt 23, a driving roller 3, a second support frame 4, a third support frame 5, a U-shaped plate 6, an automatic rotation driving assembly 61, a second servo driving assembly 62, a first support seat 63, a first transverse shaft 64, a photoelectric sensor 7, a reciprocating punching assembly 71, a punching conical cutter 72, a first straight sliding plate 73, a first side plate 74, a first movable plate 75, a first connecting shaft 8, a reciprocating glue smearing assembly 81, an annular smearing sponge 82, a second transverse shaft 83, a glue inlet pipe 84, a second side plate 85, a second movable plate 86, a second straight plate 87, a glue storage box 88, a contact switch 89, a contact switch mounting straight rod 810, an electric valve 811, a glue outlet 812, a second connecting shaft 9, a reciprocating pressing assembly 91, a U-shaped feeding plate 92, a valve core movable groove 93 and a straight cylinder 94. The third straight sliding plate 95, the third cross shaft 96, the third side plate 97, the third movable plate 98, the third connecting shaft 99, the arc baffle 910 push the circular plate 10 and the second supporting seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention will be further described with reference to the following examples.

Example 1

As shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, the bicycle inner tube pressure nozzle device comprises a first support frame 1, wherein the first support frame 1 is connected with a transmission driving assembly 2, and the transmission driving assembly 2 is used for enabling a bicycle inner tube to move at a constant speed;

the conveying driving assembly 2 comprises a first servo driving assembly 21, a conveying belt 22 and driving rollers 23, the inner wall of the first support frame 1 is rotatably connected with the driving rollers 23 through bearings arranged at equal intervals, the outer wall of the driving rollers 23 is rotatably connected with the conveying belt 22, the outer wall of the first support frame 1 is provided with the first servo driving assembly 21, and the output shaft of the first servo driving assembly 21 is fixedly connected with one driving roller 23;

the top of the first support frame 1 is connected with a second support frame 3, and the top of the second support frame 3 is connected with an automatic rotation driving assembly 6;

the automatic rotation driving assembly 6 comprises a second servo driving assembly 61, a first supporting seat 62, a first cross shaft 63 and a photoelectric sensor 64, the second servo driving assembly 61 and the first supporting seat 62 are mounted at the top of the second supporting frame 3, the output end of the second servo driving assembly 61 is coaxially connected with the first cross shaft 63, the first supporting seat 62 is rotatably connected with the first cross shaft 63 through a bearing, and the photoelectric sensor 64 is arranged at the left end of the inner wall of the second supporting frame 3;

the automatic rotation driving assembly 6 is in driving connection with a reciprocating type punching assembly 7, and the reciprocating type punching assembly 7 is used for punching a bicycle inner tube;

the reciprocating punching assembly 7 comprises a punching conical cutter 71, a first straight sliding plate 72, a first side plate 73, a first movable plate 74 and a first connecting shaft 75, wherein the first side plate 73 is fixedly connected to two ends of the first connecting shaft 75, the first movable plate 74 is rotatably connected to the top of the first side plate 73, the first straight sliding plate 72 is rotatably connected to the bottom of the first movable plate 74, and the punching conical cutter 71 is connected to the bottom of the first straight sliding plate 72;

the first side plate 73 close to the automatic rotation driving assembly 6 is fixedly connected with the end part of the first transverse shaft 63;

the first transverse shaft 63 drives the first side plate 73 of the reciprocating type punching assembly 7 to rotate, the first side plate 73 drives the first connecting shaft 75 to rotate, the first connecting shaft 75 drives the first movable plate 74 to move, the first movable plate 74 drives the first straight sliding plate 72 to move downwards along the U-shaped plate 5, the first straight sliding plate 72 drives the punching conical cutter 71 to move downwards, the bicycle inner tube hole opening position moves to the lower side of the punching conical cutter 71 when the punching conical cutter 71 moves to the lowest end, the punching conical cutter 71 performs hole opening processing on the bicycle inner tube, and automatic hole opening of the bicycle inner tube is achieved.

The reciprocating type punching assembly 7 is connected with a reciprocating type glue smearing assembly 8, and the reciprocating type glue smearing assembly 8 is used for smearing glue at the punching position of the inner tube of the bicycle;

the reciprocating glue smearing assembly 8 comprises a reciprocating pushing assembly and a smearing assembly, the reciprocating pushing assembly is connected with the reciprocating punching assembly 7, and the reciprocating pushing assembly and the smearing assembly are connected;

the reciprocating pushing assembly comprises a second transverse shaft 82, a second side plate 84, a second movable plate 85, a second straight plate 86 and a second connecting shaft 812, the second side plate 84 is fixedly connected to both ends of the second connecting shaft 812, the second transverse shaft 82 is fixedly connected to the outer end of the second side plate 84, the second connecting shaft 812 is rotatably connected with the second movable plate 85, and the second straight plate 86 is rotatably connected to the bottom of the second movable plate 85;

the second transverse shaft 82 close to the automatic rotation driving assembly 6 is fixedly connected with the first side plate 73 far away from the automatic rotation driving assembly 6;

the smearing component comprises an annular smearing sponge 81, a rubber inlet pipe 83, a rubber storage box 87, a contact switch 88, a contact switch mounting straight rod 89, an electric valve 810 and a rubber outlet hole 811, the rubber storage box 87 is mounted at the bottom of the second straight plate 86, the rubber outlet holes 811 are formed in the bottom of the rubber storage box 87 at equal intervals along the circumferential direction, the annular smearing sponge 81 is fixedly connected to the bottom of the rubber storage box 87, the rubber outlet holes 811 are formed in the upper portion of the annular smearing sponge 81, the rubber inlet pipe 83 is fixedly connected to the side wall of the rubber storage box 87, the rubber inlet pipe 83 is fixedly connected with the electric valve 810, the contact switch mounting straight rod 89 is mounted on the transverse portion of the U-shaped plate 5, and the top of the contact switch mounting straight rod 89 is connected with the contact switch 88;

when the second side plate 84 rotates to the position of the contact switch 88, the contact switch 88 senses a signal, and the electric valve 810 is opened after the contact switch 88 senses the signal;

the first lateral plate 73 drives the second lateral shaft 82 of the reciprocating pushing assembly of the reciprocating glue smearing assembly 8 to rotate, the second lateral shaft 82 drives the second lateral plate 84 to rotate, the second lateral plate 84 drives the second connecting shaft 812 to rotate, the second connecting shaft 812 drives the second movable plate 85 to move, the second movable plate 85 drives the second straight plate 86 to move downwards along the U-shaped plate 5, the electric valve 810 is opened when the second lateral plate 84 rotates to the position of a contact switch 88 of the smearing assembly, glue enters the glue storage box 87 through the glue inlet pipe 83, the glue in the glue storage box 87 falls into the ring-shaped smearing sponge 81 through the glue outlet hole 811, at the moment, the hole opening position of the bicycle inner tube is moved to the ring-shaped smearing sponge 81, and the ring-shaped smearing sponge 81 is used for smearing glue on the bicycle inner tube.

The reciprocating glue smearing component 8 is connected with a reciprocating pressing component 9, and the reciprocating pressing component 9 presses the air faucet at a punching hole of the inner tube of the bicycle;

the side wall of the second supporting frame 3 is connected with a U-shaped plate 5, the U-shaped plate 5 is connected with a reciprocating type punching assembly 7, a reciprocating type glue smearing assembly 8 and a reciprocating type pressing assembly 9, and the U-shaped plate 5 is used for vertically guiding the reciprocating type punching assembly 7, the reciprocating type glue smearing assembly 8 and the reciprocating type pressing assembly 9;

when the reciprocating type punching assembly 7 is in contact with the bicycle inner tube, the reciprocating type glue smearing assembly 8 and the reciprocating type pressing assembly 9 are located at the same height, then the reciprocating type glue smearing assembly 8 moves downwards, the reciprocating type pressing assembly 9 moves upwards, when the reciprocating type glue smearing assembly 8 is in contact with the bicycle inner tube, the reciprocating type punching assembly 7 and the reciprocating type pressing assembly 9 are located at the same height, then the reciprocating type punching assembly 7 moves upwards, the reciprocating type pressing assembly 9 moves downwards, when the reciprocating type pressing assembly 9 is in contact with the bicycle inner tube, the reciprocating type punching assembly 7 and the reciprocating type glue smearing assembly 8 are located at the same height, then the reciprocating type punching assembly 7 moves downwards, the reciprocating type glue smearing assembly 8 moves upwards, the reciprocating type punching assembly 7, the reciprocating type glue smearing assembly 8 and the reciprocating type pressing assembly 9 move downwards alternately, and punching, pressing and pressing, The gluing and the nozzle pressing are performed in sequence.

Example 2

On the basis of embodiment 1, as shown in fig. 4, 5, 6, 7, 8, 9 and 10, the reciprocating press-fit assembly 9 comprises a U-shaped upper material plate 91 and a valve core movable groove 92, the automatic rotating and driving device comprises a straight cylinder 93, a third straight sliding plate 94, a third cross shaft 95, a third side plate 96, a third movable plate 97, a third connecting shaft 98, an arc-shaped baffle plate 99 and a pushing circular plate 910, wherein the third side plate 96 is fixedly connected to two ends of the third connecting shaft 98, the outer end of the third side plate 96 far away from the automatic rotating and driving assembly 6 is fixedly connected to the third cross shaft 95, the third connecting shaft 98 is rotatably connected to the third movable plate 97, the bottom of the third movable plate 97 is rotatably connected to the third straight sliding plate 94, the bottom of the third straight sliding plate 94 is fixedly connected to the pushing circular plate 910, the top of the first support frame 1 is connected to a U-shaped feeding plate 91, the discharge end of the U-shaped feeding plate 91 is fixedly connected to the straight cylinder 93, and the lower end of the straight cylinder 93 is provided with a valve core movable groove 92;

promote plectane 910 fixedly connected with cowl 99, locate flitch 91 discharge end on the U-shaped, cowl 99 top is higher than flitch 91 top on the U-shaped when promoting plectane 910 and moving to the bottom.

The second transverse shaft 82 remote from the automatic rotary drive assembly 6 is fixedly connected to the third side plate 96 adjacent to the automatic rotary drive assembly 6;

the valve core moving groove 92 is arranged towards the moving direction of the conveyor belt 22, and the U-shaped feeding plate 91 is connected with the air nozzle vibrating disk;

the top of the first support frame 1 is further connected with a third support frame 4, the top of the third support frame 4 is connected with a second support seat 10, the second support seat 10 is rotatably connected with the outer end of a third cross shaft 95 through a bearing, and the outer wall of one end of the U-shaped plate 5 is fixedly connected with the side wall of the third support frame 4.

The first, second, and third lateral shafts 63, 82, and 95 are coaxially disposed, and the central axes of the first, second, and third connecting shafts 75, 812, and 98 are equally spaced in the radial direction of the central axis of the first lateral shaft 63.

The first cross shaft 63, the second cross shaft 82, the third cross shaft 95, the first connecting shaft 75, the second connecting shaft 812 and the third connecting shaft 98 are combined in a matched mode to form a straight three-cylinder crankshaft.

The first straight sliding plate 72, the second straight plate 86 and the third straight sliding plate 94 are attached and slidably connected with sliding holes arranged at the transverse parts of the U-shaped plate 5.

The first transverse shaft 63 drives the first side plate 73 of the reciprocating type punching assembly 7 to rotate, the first side plate 73 drives the first connecting shaft 75 to rotate, the first connecting shaft 75 drives the first movable plate 74 to move, the first movable plate 74 drives the first straight sliding plate 72 to move downwards along the U-shaped plate 5, the first straight sliding plate 72 drives the punching conical cutter 71 to move downwards, the bicycle inner tube hole opening position moves to the lower side of the punching conical cutter 71 when the punching conical cutter 71 moves to the lowest end, the punching conical cutter 71 performs hole opening processing on the bicycle inner tube, and automatic hole opening of the bicycle inner tube is achieved.

The second cross shaft 82 drives the third side plate 96 of the reciprocating type pressing assembly 9 to rotate, the third side plate 96 drives the third connecting shaft 98 to rotate, the third connecting shaft 98 drives the third movable plate 97 to move, the third movable plate 97 drives the third straight sliding plate 94 to move, the third straight sliding plate 94 drives the pushing circular plate 910 to move to the top, air nozzles in the U-shaped feeding plate 91 move from the U-shaped feeding plate 91 to the straight cylinder 93, then the pushing circular plate 910 moves downwards, the pushing circular plate 910 pushes the air nozzles in the straight cylinder 93 to move downwards, the air nozzles press the inner tube of the bicycle to form holes, the air nozzles are pressed on the inner tube of the bicycle to form holes, and pressing of the air nozzles is achieved through the action of glue, and meanwhile, the valve core moving groove 92 facilitates movement of a valve core of the air nozzles.

The continuous operation can be carried out in the tapping, the gluing and the pressing, and the air tap pressing efficiency is high, thereby being beneficial to the actual operation.

The conveying driving component 2, the automatic rotating driving component 6 and the reciprocating glue smearing component 8 are all electrically connected with an external control system.

In order to better achieve the aim of the invention, the invention also provides a method for pressing the inner tube of the bicycle, which comprises the following specific steps:

the method comprises the following steps: the bicycle inner tube is conveyed to the conveying driving assembly 2, a first servo driving assembly 21 of the conveying driving assembly 2 drives a driving roller 23 to rotate, the driving roller 23 drives a conveying belt 22 to rotate, and the conveying belt 22 conveys the bicycle inner tube at a constant speed;

step two: when the inner tube of the bicycle moves through the photoelectric sensor 64 of the automatic rotation driving component 6, the photoelectric sensor 64 senses a signal, and when the photoelectric sensor 64 senses a signal, the second servo driving component 61 drives the first cross shaft 63 to rotate;

step three: the first transverse shaft 63 drives a first side plate 73 of the reciprocating type punching assembly 7 to rotate, the first side plate 73 drives a first connecting shaft 75 to rotate, the first connecting shaft 75 drives a first movable plate 74 to move, the first movable plate 74 drives a first straight sliding plate 72 to move downwards along the U-shaped plate 5, the first straight sliding plate 72 drives a punching conical cutter 71 to move downwards, when the punching conical cutter 71 moves to the lowest end, the opening position of the bicycle inner tube moves to the position below the punching conical cutter 71, the punching conical cutter 71 performs opening processing on the bicycle inner tube, automatic opening of the bicycle inner tube is achieved, meanwhile, the reciprocating type glue smearing assembly 8 moves downwards, and the reciprocating type pressing assembly 9 moves upwards;

step four: the conical cutter 71 for punching the hole of the reciprocating punching component 7 moves upwards, the conveying driving component 2 drives the bicycle inner tube to move, the first side plate 73 drives the second transverse shaft 82 of the reciprocating pushing component of the reciprocating glue smearing component 8 to rotate, the second transverse shaft 82 drives the second side plate 84 to rotate, the second side plate 84 drives the second connecting shaft 812 to rotate, the second connecting shaft 812 drives the second movable plate 85 to move, the second movable plate 85 drives the second straight plate 86 to move downwards along the U-shaped plate 5, the electric valve 810 is opened when the second side plate 84 rotates to the contact switch 88 of the smearing component, glue enters the glue storage box 87 through the glue inlet pipe 83, the glue in the glue storage box 87 falls into the annular smearing sponge 81 through the glue outlet hole 811, at the moment, the opening of the bicycle inner tube moves to the position right below the annular smearing sponge 81, and the annular smearing sponge 81 is smeared on the bicycle inner tube, meanwhile, the reciprocating punching component 7 moves upwards, and the reciprocating pressing component 9 moves downwards;

step five: the annular smearing sponge 81 moves upwards, the conveying driving assembly 2 drives the bicycle inner tube to move, the second cross shaft 82 drives the third side plate 96 of the reciprocating type pressing assembly 9 to rotate, the third side plate 96 drives the third connecting shaft 98 to rotate, the third connecting shaft 98 drives the third movable plate 97 to move, the third movable plate 97 drives the third straight sliding plate 94 to move, the third straight sliding plate 94 drives the pushing circular plate 910 to move to the uppermost end, the air nozzle in the U-shaped feeding plate 91 moves into the straight cylinder 93 from the U-shaped feeding plate 91, then the circular plate 910 is pushed to move downwards, the pushing circular plate 910 pushes the air nozzle in the straight cylinder 93 to move downwards, when the bicycle inner tube is automatically opened and moves to the position right below the reciprocating type pressing assembly 9, the air nozzle is pressed at the position where the bicycle inner tube is opened, then the air nozzle is pressed through the action of glue, punching, gluing and nozzle pressing are sequentially performed, and opening, gluing and pressing can be continuously operated, the air faucet is high in air faucet pressing efficiency, practical operation is facilitated, and meanwhile the valve core moving groove 92 facilitates movement of the valve core of the air faucet.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a bicycle inner tube presses mouth device, includes first support frame (1), its characterized in that: the first support frame (1) is connected with a conveying driving assembly (2), and the conveying driving assembly (2) is used for enabling the inner tube of the bicycle to move at a constant speed;

the top of the first support frame (1) is connected with a second support frame (3), and the top of the second support frame (3) is connected with an automatic rotation driving assembly (6);

the automatic rotating driving assembly (6) is in driving connection with a reciprocating punching assembly (7), and the reciprocating punching assembly (7) is used for punching a bicycle inner tube;

the reciprocating type punching assembly (7) is connected with a reciprocating type glue smearing assembly (8), and the reciprocating type glue smearing assembly (8) is used for smearing glue at the position of a bicycle inner tube punching hole;

the reciprocating glue smearing assembly (8) is connected with a reciprocating pressing assembly (9), and the reciprocating pressing assembly (9) presses the air faucet at a punching hole of the inner tube of the bicycle;

the side wall of the second supporting frame (3) is connected with a U-shaped plate (5), the U-shaped plate (5) is connected with the reciprocating type punching assembly (7), the reciprocating type glue smearing assembly (8) and the reciprocating type pressing assembly (9), and the U-shaped plate (5) is used for vertically guiding the reciprocating type punching assembly (7), the reciprocating type glue smearing assembly (8) and the reciprocating type pressing assembly (9);

when the reciprocating type punching component (7) is in contact with the bicycle inner tube, the reciprocating type glue smearing component (8) and the reciprocating type pressing component (9) are located at the same height, then the reciprocating type glue smearing component (8) moves downwards, and the reciprocating type pressing component (9) moves upwards, when the reciprocating type glue smearing component (8) is in contact with the bicycle inner tube, the reciprocating type punching component (7) and the reciprocating type pressing component (9) are located at the same height, then the reciprocating type punching component (7) moves upwards and the reciprocating type pressing component (9) moves downwards, when the reciprocating type pressing component (9) is in contact with the bicycle inner tube, the reciprocating type punching component (7) and the reciprocating type glue smearing component (8) are located at the same height, then the reciprocating type punching component (7) moves downwards and the reciprocating type glue smearing component (8) moves upwards, and therefore the reciprocating type punching component (7) and the reciprocating type pressing component (9) are achieved, The reciprocating glue smearing component (8) and the reciprocating pressing component (9) alternately move downwards to realize the sequential punching, gluing and nozzle pressing.

2. A bicycle inner tube pressure nozzle device according to claim 1, characterized in that: automatic rotation drive assembly (6) include second servo drive assembly (61), first supporting seat (62), first cross axle (63) and photoelectric sensing ware (64), second servo drive assembly (61) and first supporting seat (62) are installed in second support frame (3) top, second servo drive assembly (61) output coaxial coupling has first cross axle (63), first supporting seat (62) rotate with first cross axle (63) through the bearing and are connected, second support frame (3) inner wall left end is equipped with photoelectric sensing ware (64).

3. A bicycle inner tube pressure valve device according to claim 2, wherein: reciprocating type subassembly (7) of punching a hole is including punching a hole toper cutter (71), first straight slide (72), first curb plate (73), first fly leaf (74) and first connecting axle (75), first curb plate (73) of first connecting axle (75) both ends fixedly connected with, first curb plate (73) top is rotated and is connected with first fly leaf (74), first fly leaf (74) bottom is rotated and is connected with first straight slide (72), first straight slide (72) bottom is connected with the toper cutter (71) of punching a hole.

4. A bicycle inner tube pressure valve device according to claim 3, wherein: the first side plate (73) close to the automatic rotation driving assembly (6) is fixedly connected with the end part of the first transverse shaft (63).

5. A bicycle inner tube pressure nozzle device according to claim 4, characterized in that: the reciprocating glue smearing assembly (8) comprises a reciprocating pushing assembly and a smearing assembly, the reciprocating pushing assembly is connected with the reciprocating punching assembly (7), and the reciprocating pushing assembly and the smearing assembly are arranged.

6. A bicycle inner tube pressure nozzle device according to claim 5, characterized in that: reciprocating push assembly includes second cross axle (82), second curb plate (84), second fly leaf (85), second straight board (86) and second connecting axle (812), the equal fixedly connected with second curb plate (84) in second connecting axle (812) both ends, second curb plate (84) outer end fixedly connected with second cross axle (82), second connecting axle (812) rotate and are connected with second fly leaf (85), second fly leaf (85) bottom is rotated and is connected with second straight board (86).

7. A bicycle inner tube pressure nozzle device according to claim 6, characterized in that: the second transverse shaft (82) close to the automatic rotation driving assembly (6) is fixedly connected with the first side plate (73) far away from the automatic rotation driving assembly (6).

8. A bicycle inner tube pressure valve device according to claim 7, wherein: the smearing component comprises an annular smearing sponge (81), a rubber inlet pipe (83), a rubber storage box (87), a contact switch (88), a contact switch mounting straight rod (89), an electric valve (810) and a rubber outlet hole (811), the glue storage box (87) is arranged at the bottom of the second straight plate (86), glue outlet holes (811) are formed in the bottom of the glue storage box (87) at equal intervals along the circumferential direction, the bottom of the glue storage box (87) is fixedly connected with an annular smearing sponge (81), the glue outlet hole (811) is arranged above the annular smearing sponge (81), the side wall of the glue storage box (87) is fixedly connected with a glue inlet pipe (83), the rubber inlet pipe (83) is fixedly connected with an electric valve (810), the contact switch mounting straight rod (89) is mounted on the transverse part of the U-shaped plate (5), the top of the contact switch mounting straight rod (89) is connected with a contact switch (88).

9. A bicycle inner tube pressure valve device according to claim 8, wherein: when the second side plate (84) rotates to the position of the contact switch (88), the contact switch (88) senses a signal, and the electric valve (810) is opened after the contact switch (88) senses the signal.

10. A method for pressing a tire for a bicycle according to claim 9, wherein: the method comprises the following specific steps:

the method comprises the following steps: conveying the bicycle inner tube to a conveying driving assembly (2), and conveying the bicycle inner tube at a constant speed by the conveying driving assembly (2);

step two: when the inner tube of the bicycle moves through a photoelectric sensor (64) of the automatic rotation driving component (6), the photoelectric sensor (64) senses a signal, and when the photoelectric sensor (64) senses the signal, the second servo driving component (61) drives the first transverse shaft (63) to rotate;

step three: the first transverse shaft (63) drives a first side plate (73) of the reciprocating type punching assembly (7) to rotate, the first side plate (73) drives a first connecting shaft (75) to rotate, the first connecting shaft (75) drives a first movable plate (74) to move, the first movable plate (74) drives a first straight sliding plate (72) to move downwards along the U-shaped plate (5), the first straight sliding plate (72) drives a punching conical cutter (71) to move downwards, when the punching conical cutter (71) moves to the lowest end, a hole opening position of the bicycle inner tube moves to the position below the punching conical cutter (71), the punching conical cutter (71) performs hole opening processing on the bicycle inner tube, automatic hole opening of the bicycle inner tube is achieved, meanwhile, the reciprocating type glue smearing assembly (8) moves downwards, and the reciprocating type pressing assembly (9) moves upwards;

step four: a punching conical cutter (71) of the reciprocating punching assembly (7) moves upwards, the transmission driving assembly (2) drives the bicycle inner tube to move, the first side plate (73) drives a second transverse shaft (82) of a reciprocating pushing assembly of the reciprocating glue smearing assembly (8) to rotate, the second transverse shaft (82) drives a second side plate (84) to rotate, the second side plate (84) drives a second connecting shaft (812) to rotate, the second connecting shaft (812) drives a second movable plate (85) to move, the second movable plate (85) drives a second straight plate (86) to move downwards along the U-shaped plate (5), an electric valve (810) is opened when the second side plate (84) rotates to a contact switch (88) of the smearing assembly, glue enters a glue storage box (87) through a glue inlet pipe (83), and the glue in the glue storage box (87) falls into an annular smearing sponge (81) through a glue outlet hole (811), at the moment, the hole opening position of the bicycle inner tube moves to the position right below the annular smearing sponge (81), the annular smearing sponge (81) smears glue on the bicycle inner tube, meanwhile, the reciprocating type punching assembly (7) moves upwards, and the reciprocating type pressing assembly (9) moves downwards;

step five: sponge (81) rebound is paintd to the annular, and conveying drive assembly (2) drives the bicycle inner tube of a tyre removal again, and reciprocating type pressing components (9) are with the air cock pressfitting on the bicycle inner tube of a tyre when the automatic trompil of bicycle inner tube of a tyre removes under reciprocating type pressing components (9), realize punching a hole, rubber coating and press the mouth to go on in proper order.

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