CN211338758U - Automatic production line from empty bottle feeding and filling to packaging - Google Patents

Abstract

The utility model discloses an automatic production line from empty bottle feeding and filling to packaging, which comprises a first automatic bottle body conveying line, a second automatic bottle body conveying line, an empty bottle feeding system, a sub-filling and weighing system, a spinning sealing system and a finished product discharging system; the first automatic bottle body conveying line and the second bottle body conveying line are changed through the conveying line changing mechanism. The utility model realizes the separate filling and packaging processes of fluid and fluid products, integrates multiple processes, and realizes the miniaturization and automation of a mechanical system; the method is suitable for the requirements of small-batch production in small and medium-sized enterprises and individual merchants. The whole system is miniaturized, movable and compact in structure, and has the characteristics of integration, automation, simplicity in operation, high reliability, sanitation, safety and relatively low cost.

Description

Automatic production line from empty bottle feeding and filling to packaging

Technical Field

The utility model belongs to the technical field of nonstandard automation equipment technique and specifically relates to an automatic production line from empty bottle material loading filling to packing is related to.

Background

Current industrial automation assembly technology is an essential component of modern manufacturing. In the field of food processing, enterprises can realize production automation assembly, greatly shorten the production period, reduce the manufacturing cost, improve the food sanitation and safety level and the like. The automatic filling and packaging of liquid food is a bottleneck of automatic assembly technology for small and medium enterprises.

In the face of problems such as filling, weighing, sealing, packaging and code spraying of liquid food such as white spirit, wine and beverages, medium and small enterprises and individual merchants cannot develop and develop different types of sub-filling and packaging production lines in a targeted manner, and meanwhile, the medium and small enterprises and individual merchants cannot purchase large and medium-sized universal automatic filling systems, can only continue semi-automatic or even manual filling and packaging, and increasingly highlight various problems in aspects such as food sanitation safety, industrial standardization, continuous profit and the like.

In conclusion, on the basis of large-scale study and effective demonstration, the empty bottle loading, weighing, sealing, packaging, code spraying and conveying system is provided for enterprises and small workshops. A filling, packaging and conveying system is an automatic system for dividing the liquid food into zero and thinning the liquid food and completing the rotary pressing, sealing, edge pasting and code spraying of the liquid food.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical defect who exists, the utility model aims to provide a realize that fluid, full-automatic branch filling of fluid product, packing, compact structure, small batch and variety produce edible, the automatic production line of high reliability.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

the technical scheme is that the automatic production line from empty bottle feeding and filling to packaging comprises a first automatic bottle body conveying line, a second automatic bottle body conveying line, an empty bottle feeding system, a sub-filling and weighing system, a spinning sealing system and a finished product discharging system; an empty bottle feeding system and a sub-filling and weighing system are sequentially arranged at two sides of the first automatic bottle body conveying line; a spinning sealing system and a finished product discharging system are sequentially arranged on two sides of the second automatic bottle body conveying line; the first automatic bottle body conveying line and the second automatic bottle body conveying line are changed through the conveying line changing mechanism; and the empty bottle feeding system, the sub-filling and weighing system, the spinning sealing system, the finished product discharging system and the conveying line-changing mechanism are respectively provided with a detection trigger device.

As optimization, the automatic bottle body conveying line further comprises a packaging and code spraying system arranged on the second automatic bottle body conveying line; the packaging and code spraying system is arranged between the spinning sealing system and the finished product blanking system; the packaging and code spraying system comprises a labeling machine mechanism and a laser code spraying machine; the labeling machine mechanism comprises a driving roller, a driven mechanism and a driven mechanism telescopic cylinder; the driving roller and the driven mechanism are oppositely arranged on two sides of the second automatic bottle body conveying line, and the whole action of the labeling machine mechanism is triggered through the detection trigger device arranged on the second automatic bottle body conveying line.

As optimization, the conveying wire-changing mechanism is a hexagonal prism anti-rotation cylinder; and a detection trigger device for triggering the conveying line changing mechanism to act is arranged on the first automatic bottle body conveying line opposite to the conveying line changing mechanism.

As optimization, the first automatic bottle body conveying line comprises a motor, a synchronous toothed belt, a guide rail sliding block mechanism and a pneumatic claw; the second automatic bottle body conveying line and the first automatic bottle body conveying line are identical in structure.

As optimization, the empty bottle feeding system is an empty bottle push rod cylinder; and a detection trigger device for triggering the air cylinder of the empty bottle push rod to act is arranged on the first automatic bottle body conveying line opposite to the air cylinder of the empty bottle push rod.

As optimization, the sub-filling and weighing system comprises a sub-filling mechanism and a weighing mechanism; the sub-filling mechanism comprises a filling moving cylinder, a filling clamping cylinder, a sub-filling manipulator, a sub-filling head and a filling lifting rod; the weighing mechanism comprises a base and a strain block; the sub-filling heads, the sub-filling manipulator and the weighing mechanism are arranged on the same vertical working plane; and a detection trigger device for triggering the whole action of the sub-filling and weighing system is arranged on the first automatic bottle body conveying line opposite to the filling moving cylinder.

As optimization, the spinning sealing system comprises a bottle cap supply mechanism and a bottle cap screwing mechanism; the bottle cap supply mechanism comprises a rack, a bin and a cap pushing cylinder; the bottle cap screwing mechanism comprises a rotating rack, an upper telescopic cylinder, a lower telescopic cylinder and a swinging pneumatic claw; the upper and lower telescopic cylinders control the up and down movement of the swinging gas claw, and the upper and lower telescopic cylinders are driven by the rotating frame to rotate within the range of the bottle cap and the bottle body conveying station; and a detection trigger device for triggering the whole action of the spinning sealing system is arranged on the first automatic bottle body conveying line opposite to the cap pushing cylinder.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model realizes the separate filling and packaging processes of fluid and fluid products, integrates multiple processes, and realizes the miniaturization and automation of a mechanical system; the method is suitable for the requirements of small-batch production in small and medium-sized enterprises and individual merchants. The whole system is miniaturized, movable and compact in structure, and has the characteristics of integration, automation, simplicity in operation, high reliability, sanitation, safety and relatively low cost. The automatic production line realizes the accurate positioning of the bottle body conveying line by a Hall sensor technology, and provides important guarantee for the normal operation of each process; the detection of the split filling manipulator and the weighing mechanism is utilized to feed back to the programmable logic controller in real time, and the split filling mechanism is combined to realize the accurate split filling of the product; the accurate sub-filling and packaging of different sizes and different volumes can be realized by changing the size and the shape of the manipulator and modifying the sub-filling capacity in the program; the bottle cap is telescopically grabbed by the air cylinder, the swing air claw is used for carrying out knob on the bottle cap, and the magnitude of the tightening force is controlled by the pressure regulating valve, so that a complicated spinning mechanism is simplified, and the bottle cap can be accurately positioned and screwed; the air pressure control system in the spinning sealing system has an overload protection function, so that the surface of a product is prevented from being scratched, and the attractive appearance of a bottle cap and a bottle body is effectively protected; in addition, the use of a packaging and code-spraying system enables the product to be printed on line with the packaging, date and product.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic front view of the first automatic bottle body conveying line of the present invention;

FIG. 4 is a schematic top view of the first automatic bottle body conveyor line of the present invention;

fig. 5 is a schematic structural view of the labeling mechanism of the present invention;

fig. 6 is a schematic structural view of the robot of the split filling mechanism of the present invention;

fig. 7 is a schematic structural diagram of the sub-filling head of the sub-filling mechanism of the present invention;

fig. 8 is a schematic structural view of a weighing mechanism in the present invention;

fig. 9 is a schematic front view of the bottle cap supply mechanism of the present invention;

fig. 10 is a schematic top view of the bottle cap supply mechanism of the present invention;

fig. 11 is a schematic structural view of a bottle cap screwing mechanism according to the present invention;

fig. 12 is a schematic structural diagram of a detection trigger device for triggering the actions of the units according to the present invention.

The labels in the figure are: the automatic bottle body conveying system comprises a first automatic bottle body conveying line 1, a motor 1a, a synchronous toothed belt 1b, a guide rail sliding block mechanism 1c and a pneumatic claw 1 d;

the automatic bottle body conveying system comprises a second automatic bottle body conveying line 2, an empty bottle feeding system 3, a finished product discharging system 4 and a conveying line changing mechanism 5;

a labeling machine mechanism 6, a driving roller 6a, a driven mechanism 6b and a driven mechanism telescopic cylinder 6 c;

a laser code spraying machine 7;

a sub-filling mechanism 8, a filling moving cylinder 8a, a filling clamping cylinder 8b, a sub-filling manipulator 8c, a sub-filling head 8d and a filling lifting rod 8 e;

the weighing mechanism 9, a base 9a and a strain block 9 b;

the bottle cap feeding mechanism 10, a frame 10a, a bin 10b and a cap pushing cylinder 10 c;

the bottle cap screwing mechanism 11, the rotating frame 11a, the upper and lower telescopic cylinders 11b and the swing pneumatic claw 11 c.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In an embodiment, as shown in fig. 1 to 12, the present invention relates to an automatic production line for loading and filling empty bottles into packages, which includes a first automatic bottle body conveying line 1, a second automatic bottle body conveying line 2, an empty bottle loading system 3, a sub-loading and weighing system, a spin-sealing system and a finished product unloading system 4; an empty bottle feeding system 3 and a sub-filling and weighing system are sequentially arranged at two sides of the first automatic bottle body conveying line 1; a spinning sealing system and a finished product blanking system 4 are sequentially arranged at two sides of the second automatic bottle body conveying line 2; the first automatic bottle body conveying line 1 and the second automatic bottle body conveying line 2 are changed through the conveying line changing mechanism 5; and detection trigger devices are respectively arranged on the empty bottle feeding system 3, the sub-filling and weighing system, the spinning sealing system, the finished product discharging system 4 and the conveying line-changing mechanism 5.

The automatic bottle body conveying line is characterized by also comprising a packaging and code spraying system arranged on the second automatic bottle body conveying line 2; the packaging and code spraying system is arranged between the spinning sealing system and the finished product blanking system 4; the packaging and code spraying system comprises a labeler mechanism 6 and a laser code spraying machine 7; the labeling machine mechanism 6 comprises a driving roller 6a, a driven mechanism 6b and a driven mechanism telescopic cylinder 6 c; the driving roller 6a and the driven mechanism 6b are oppositely arranged on two sides of the second automatic bottle body conveying line 2, and the whole action of the labeling machine mechanism 6 is triggered through the detection trigger device arranged on the second automatic bottle body conveying line 2.

The conveying wire-changing mechanism 5 is a hexagonal prism anti-rotation cylinder; and a detection trigger device for triggering the conveying line changing mechanism 5 to act is arranged on the first automatic bottle body conveying line 1 opposite to the conveying line changing mechanism 5.

The first automatic bottle body conveying line 1 comprises a motor 1a, a synchronous toothed belt 1b, a guide rail sliding block mechanism 1c and a pneumatic claw 1 d; the second automatic bottle body conveying line 2 and the first automatic bottle body conveying line 1 are identical in structure.

The empty bottle feeding system 3 is an empty bottle push rod cylinder; and a detection trigger device for triggering the air cylinder of the empty bottle push rod to act is arranged on the first automatic bottle body conveying line 1 opposite to the air cylinder of the empty bottle push rod.

The sub-filling and weighing system comprises a sub-filling mechanism 8 and a weighing mechanism 9; the sub-filling mechanism 8 comprises a filling moving cylinder 8a, a filling clamping cylinder 8b, a sub-filling manipulator 8c, a sub-filling head 8d and a filling lifting rod 8 e; the weighing mechanism 9 comprises a base 9a and a strain block 9 b; the sub-filling heads 8d, the sub-filling manipulator 8c and the weighing mechanism 9 are arranged on the same vertical working plane; and a detection trigger device for triggering the whole action of the sub-filling and weighing system is arranged on the first automatic bottle body conveying line 1 opposite to the filling moving cylinder 8 a. The strain block 9b is connected with the controller through a weighing A/D conversion module; the filling moving cylinder 8a controls the filling clamping cylinder 8b and the sub-filling manipulator 8c to extend out, and the filling clamping cylinder 8b controls the sub-filling manipulator 8c to clamp;

the spinning sealing system comprises a bottle cap supply mechanism 10 and a bottle cap screwing mechanism 11; the bottle cap supply mechanism 10 comprises a frame 10a, a bin 10b and a cap pushing cylinder 10 c; the bottle cap screwing mechanism 11 comprises a rotating frame 11a, an upper telescopic cylinder 11b, a lower telescopic cylinder 11b and a swinging pneumatic claw 11 c; the upper and lower telescopic cylinders 11b control the up and down movement of the swing air claw 11c, and the upper and lower telescopic cylinders 11b are driven by the rotating frame 11a to rotate within the range of the bottle cap and bottle body conveying stations; and a detection trigger device for triggering the whole action of the spinning sealing system is arranged on the first automatic bottle body conveying line 1 opposite to the cap pushing cylinder 10 c. The detection trigger device in the whole automatic production line is a Hall element.

The laser code spraying machine 7 and the finished product blanking system 4 are located at the tail end of the second automatic bottle body conveying line 2 and respectively complete the processes of printing the bottle production date and the product model and product offline. The finished product blanking system 4 is a push rod cylinder.

Each system of the automatic production line is controlled by a control system, and the control system comprises a travel switch, a photoelectric switch, a Hall element and a laser sensor; after the signals in each system are fed back to the control system, the control system controls each motor and each air cylinder through a driving control circuit, a relay, an electromagnetic valve and the like. Equipment is electrified, and control system carries out inside resetting, selects the mode through manual automatic transfer switch: if the manual mode is selected, the debugging personnel can control the equipment manually; if the automatic mode is selected, the control system waits for the input of an enable signal. The manual mode is generally used in the debugging stage, and the equipment belongs to full-automatic control when normally working. When the empty bottle feeding system 3 detects that a bottle body is arranged, the material pushing cylinder feeds the bottle body; the first automatic bottle body conveying line 2 is combined with the detection of the Hall element to enable the empty bottle to reach the filling process; meanwhile, the control system controls the filling manipulator 8c to move the bottle body to the weighing mechanism 9, the sub-filling head 8d and the weighing system work in a coordinated and matched mode, and after the sub-filling capacity is achieved, the filling system closes a valve port to finish the accurate filling of the fluid medium; after the sub-filling is finished, the filling manipulator 8c grabs the sub-filled bottle bodies; when the second automatic bottle body conveying line detects a signal, the bottle cap supply mechanism 10 and the bottle cap screwing mechanism 11 work in a coordinated manner to clamp and spin-seal the bottle cap; the bottle cap supply mechanism 10 provides a bottle cap for the bottle cap screwing mechanism 11, the bottle cap is clamped by the swinging air claw 11c, and the upper and lower telescopic cylinders 11b move upwards to prepare the bottle cap required by spinning; after the bottle caps are fully prepared, the PLC sends out a signal of a control solenoid valve, so that the air cylinder on the conveying line-changing mechanism 5 acts, the filled bottle bodies are changed to the second automatic bottle body conveying line 2, and the bottle bodies reach a spinning sealing station; an upper telescopic cylinder 11b and a lower telescopic cylinder 11b of the bottle cap spinning manipulator press the bottle cap downwards, the swinging cylinder 11c acts to drive the bottle cap to be screwed down for the first time in a rotating mode, after the bottle cap is rotated in place, the swinging air claw 11c is loosened, the rotating cylinder resets, and the second rotating screwing action is carried out. After spinning is finished, the labeler mechanism 6 operates to strip labels, the active roller 6a and the passive mechanism 6b are used for rolling the labels, and the laser code printer 7 performs laser printing after the photoelectric switch detects the bottle body; and finally, finishing the finished product blanking process through a finished product blanking mechanism 4.

First, the unloading mechanism in body utilizes the aluminium alloy to carry out the construction of bottom plate, does benefit to and alleviates structure weight. The conveying line-changing mechanism 5 is a hexagonal prism anti-rotation cylinder, and the hexagonal prism anti-rotation cylinder is used to prevent the bottle pushing finger from deflecting, so that the empty bottle is more stably and reliably supplied to the first automatic bottle body conveying line 1.

And in the second step, the empty bottles are conveyed by the first automatic bottle body conveying line 1, and the empty bottles arrive at the sub-filling station after the Hall elements of the detection trigger devices in the sub-filling and weighing systems detect the gas claws 1 d. The first automatic bottle body conveying line 1 drives the synchronous toothed belt 1b through the motor 1a to realize the movement of the air claw 1d, and the guide rail sliding block mechanism 1c realizes the guide and bearing functions of the empty bottle; within a set range, the horizontal stable automatic conveying of the empty bottle body can be realized through the positive and negative rotation of the motor 1 a.

Thirdly, the sub-filling manipulator 8c is used for moving the sub-filling bottles, and the sub-filling heads 8d and the weighing mechanism 9 work in coordination; and after the sub-filling capacity is reached, the sub-filling mechanism closes the 8d valve port of the sub-filling head to finish the accurate sub-filling of the fluid medium. The weighing mechanism 9 finishes the accurate weighing control of the filling amount, and the filled bottle body is grabbed away by the sub-filling manipulator 8 c.

And fourthly, pushing the separately filled bottle bodies to a second automatic bottle body conveying line 2 through a conveying line changing mechanism 5 to reach a spinning sealing system. The bottle cap supply mechanism 10 provides a bottle cap for the bottle cap screwing mechanism 11, the bottle cap is clamped through the swinging air claw 11c in the bottle cap screwing mechanism 11, the upper telescopic cylinder 11b and the lower telescopic cylinder 11b press the bottle cap downwards, the swinging air claw 11 is controlled by the swinging air cylinder on the rotating rack 11a to rotate to drive the bottle cap to be screwed down for the first time, and after the bottle cap is rotated to the position, the swinging air claw 11c is loosened, the swinging air claw 11c resets, and the second time of rotation screwing is carried out. The upper telescopic cylinder 11b and the lower telescopic cylinder 11b finish the extraction of the bottle cap, and the swinging air claw 11c finishes the clamping of the bottle cap and the screwing of the bottle cap. The bin 10b of the bottle cap supply mechanism 10 provides bottle caps, and the cap pushing cylinder 10c pushes out the bottle caps after the material taking signal is sent out and waits for the bottle cap tightening mechanism 11 to clamp the bottle caps. And the bottles with the screwed bottle caps are conveyed to a packaging and code spraying system through a second automatic bottle body conveying line 2.

Fifthly, in the labeling machine mechanism 6, after the label is peeled off, the rolling of the label is completed by using the driving roller 6a and the driven mechanism 6b, and after the size of the bottle body is changed, the pressing force can be adjusted through the adjusting nut of the driven mechanism 6 b. The laser code spraying machine 7 performs laser printing after the photoelectric switch detects the bottle body; and finally, finishing the finished product blanking process through a finished product blanking system 4.

The utility model realizes the accurate sub-filling and packaging of different sizes (the bottle body size: diameter is 30-70 mm, height is 70-150 mm) and different volumes (less than or equal to 350ml) by changing the size and shape of the mechanical arm, modifying the sub-filling capacity and combining the real-time weighing feedback and automatic control; the bottle cap is turned by utilizing the swinging pneumatic claw of the spinning manipulator, and meanwhile, the pressure regulating valve controls the magnitude of the tightening force, so that the efficient spinning and tightening of the bottle cap are controlled; and the final labeling and production date laser printing and spraying are finished by combining the labeling and pressing device and the laser code spraying assembly. The whole system realizes the sub-filling, spinning sealing, labeling and code spraying actions of a large barrel of liquid food such as white wine, and the actions are matched with one another to finish a plurality of processes, so that the production requirements of small batch and diversity are met. The device has the advantages of being 1050mm 900mm 1225mm in overall minimum structural size, 100 in work efficiency, good in flexibility and strain capacity, integrated, automatic, simple to operate, sanitary, safe, low in cost and the like.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides an automatic production line from empty bottle material loading filling to packing which characterized in that: the automatic bottle body feeding system comprises a first automatic bottle body conveying line (1), a second automatic bottle body conveying line (2), an empty bottle feeding system (3), a sub-filling and weighing system, a spinning sealing system and a finished product discharging system (4); an empty bottle feeding system (3) and a sub-filling and weighing system are sequentially arranged on two sides of the first automatic bottle body conveying line (1); a spinning sealing system and a finished product blanking system (4) are sequentially arranged at two sides of the second automatic bottle body conveying line (2); the first automatic bottle body conveying line (1) and the second automatic bottle body conveying line (2) are changed through the conveying line changing mechanism (5); and the empty bottle feeding system (3), the sub-filling and weighing system, the spinning sealing system, the finished product discharging system (4) and the conveying line changing mechanism (5) are respectively provided with a detection trigger device.

2. An automatic production line from empty bottle filling to packaging according to claim 1, characterized in that: the bottle body conveying line is characterized by also comprising a packaging and code spraying system arranged on the second automatic bottle body conveying line (2); the packaging and code spraying system is arranged between the spinning sealing system and the finished product blanking system (4); the packaging and code spraying system comprises a labeler mechanism (6) and a laser code spraying machine (7); the labeling machine mechanism (6) comprises a driving roller (6a), a driven mechanism (6b) and a driven mechanism telescopic cylinder (6 c); the driving roller (6a) and the driven mechanism (6b) are arranged on two sides of the second automatic bottle body conveying line (2) oppositely, and the whole action of the labeling machine mechanism (6) is triggered through a detection trigger device arranged on the second automatic bottle body conveying line (2).

3. An automatic production line from empty bottle filling to packaging according to claim 1, characterized in that: the conveying wire-changing mechanism (5) is a hexagonal prism anti-rotation cylinder; a detection trigger device for triggering the conveying and line changing mechanism (5) to act is arranged on the first automatic bottle body conveying line (1) opposite to the conveying and line changing mechanism (5).

4. An automatic production line from empty bottle filling to packaging according to claim 2, characterized in that: the first automatic bottle body conveying line (1) comprises a motor (1a), a synchronous toothed belt (1b), a guide rail sliding block mechanism (1c) and a pneumatic claw (1 d); the second automatic bottle body conveying line (2) and the first automatic bottle body conveying line (1) are identical in structure.

5. An automatic production line from empty bottle filling to packaging according to claim 1 or 4, characterized in that: the empty bottle feeding system (3) is an empty bottle push rod cylinder; a detection trigger device for triggering the air cylinder of the empty bottle push rod to act is arranged on the first automatic bottle body conveying line (1) opposite to the air cylinder of the empty bottle push rod.

6. An automatic production line from empty bottle filling to packaging according to claim 1 or 4, characterized in that: the sub-filling and weighing system comprises a sub-filling mechanism (8) and a weighing mechanism (9); the sub-filling mechanism (8) comprises a filling moving cylinder (8a), a filling clamping cylinder (8b), a sub-filling manipulator (8c), a sub-filling head (8d) and a filling lifting rod (8 e); the weighing mechanism (9) comprises a base (9a) and a strain block (9 b); the sub-filling heads (8d), the sub-filling manipulator (8c) and the weighing mechanism (9) are arranged on the same vertical working plane; a detection trigger device for triggering the whole action of the sub-filling and weighing system is arranged on the first automatic bottle body conveying line (1) opposite to the filling moving cylinder (8 a).

7. An automatic production line from empty bottle filling to packaging according to claim 1 or 4, characterized in that: the spinning sealing system comprises a bottle cap supply mechanism (10) and a bottle cap screwing mechanism (11); the bottle cap supply mechanism (10) comprises a rack (10a), a storage bin (10b) and a cap pushing cylinder (10 c); the bottle cap screwing mechanism (11) comprises a rotating rack (11a), an upper telescopic cylinder (11b), a lower telescopic cylinder (11b) and a swinging pneumatic claw (11 c); the upper and lower telescopic cylinders (11b) control the up and down movement of the swinging gas claw (11c), and the upper and lower telescopic cylinders (11b) are driven by the rotating machine frame (11a) to rotate within the range of the bottle cap and the bottle body conveying station; a detection trigger device for triggering the whole action of the spinning sealing system is arranged on the first automatic bottle body conveying line (1) opposite to the cap pushing cylinder (10 c).

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