CN214828897U - Cap screwing machine for beverage filling - Google Patents

Abstract

The utility model belongs to the technical field of beverage processing and specifically relates to a beverage filling is with spiral cover machine, including rotary mechanism and lower cover mechanism, the side-mounting has rotatory track on the rotary mechanism, and lower cover mechanism is located the rotary mechanism side for transport the beverage bottle lid to rotary mechanism department, be provided with determine module on the rotary mechanism, determine module's signal output part is connected with control system, control system is used for controlling whether the bottle lid of lower cover mechanism department falls. When the beverage bottle moves to the detection assembly on the rotating mechanism, the detection assembly detects a position signal of the beverage bottle, the signal is input into the control system, and the control system controls the bottle cap at the lower cover mechanism to fall down for sealing the bottle opening. If no beverage bottle passes through, the control system controls the bottle cap at the lower cover mechanism to stop moving, so that the phenomenon that the bottle cap still moves without the beverage bottle is reduced, each bottle cap can correspond to one beverage bottle, and the waste of the bottle cap is reduced.

Description

Cap screwing machine for beverage filling

Technical Field

The application relates to the field of beverage processing, in particular to a cap screwing machine for beverage filling.

Background

When the bottled beverage is processed, the beverage needs to be conveyed to a cap screwing machine for cap screwing and sealing after being filled. The utility model discloses a china utility model that bulletins at present is CN213060131U discloses a canned beverage spiral cover mechanism, including the workstation, two first motors of workstation lower extreme right part fixedly connected with, workstation upper end right part is equipped with fortune jar device, workstation upper end left part fixedly connected with riser, riser right-hand member lower part fixedly connected with diaphragm, diaphragm upper end middle part swing joint has fortune lid area, riser right-hand member upper portion fixedly connected with spreader, spreader upper end right part fixedly connected with second motor, and the second motor output runs through spreader and fixedly connected with rolling disc, six spiral cover motors of rolling disc upper end fixedly connected with, and the output of six spiral cover motors all runs through the rolling disc and is equipped with the spiral cover ware.

In view of the above-mentioned related art, the inventor believes that when no beverage bottle is on the can transporting device, the cover transporting tape may still transport the bottle cap, so that part of the bottle cap is not corresponding to the beverage bottle, and the bottle cap is wasted.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the related art, the present application provides a cap screwing machine for beverage filling.

The utility model provides a beverage is spiral cover machine for filling, includes rotary mechanism and lower cover mechanism, the side-mounting has rotatory track on the rotary mechanism, lower cover mechanism is located the rotary mechanism side for transport the beverage bottle lid to rotary mechanism department, the last determine module that is provided with of rotary mechanism, determine module's signal output part is connected with control system, control system is used for controlling whether the bottle lid of lower cover mechanism department falls.

By adopting the technical scheme, the beverage bottle after filling is transported to the next station through the rotating mechanism, the lower cover mechanism transports the beverage bottle cover to the rotating mechanism, and the beverage bottle is sealed by the bottle cover. When the beverage bottle moves to the detection assembly on the rotating mechanism, the detection assembly detects a position signal of the beverage bottle, the signal is input into the control system, and the control system controls the bottle cap at the lower cover mechanism to fall down for sealing the bottle opening. If no beverage bottle passes through, the control system controls the bottle cap at the lower cover mechanism to stop moving, so that the phenomenon that the bottle cap still moves without the beverage bottle is reduced, each bottle cap can correspond to one beverage bottle, and the waste of the bottle cap is reduced.

Optionally, the detection assembly comprises a detection piece, a contact bolt and a detection sensor, the detection piece is rotatably connected to the upper side face of the rotating mechanism, the contact bolt is fixedly connected to the detection piece, the detection sensor is installed on one side of the rotating mechanism in the vertical direction, and the contact bolt is in contact with the detection sensor when the detection piece rotates.

Through adopting above-mentioned technical scheme, when the beverage bottle moved to detecting piece department, the beverage bottle can promote to detect the piece and rotate for contact bolt and detection sensor contact, detection sensor can detect the position of beverage bottle this moment, and output position signal.

Optionally, a lower cover rail is arranged at the lower cover mechanism, a driving cylinder is arranged on one side, close to the ground, of the lower cover rail, a limiting plate is connected to the end of a telescopic rod of the driving cylinder, the limiting plate is located at an outlet of the lower cover rail, and the extending direction of the driving cylinder is consistent with the movement direction of the bottle cap; and the signal input end of the driving cylinder is connected with a control system.

By adopting the technical scheme, the extension direction of the driving cylinder is consistent with the movement direction of the bottle cap, and when the driving cylinder extends, the limiting plate connected to the end part of the driving cylinder is separated from the lower cap track, so that the bottle cap can move from the lower cap track to the rotating mechanism; when the driving cylinder contracts, the limiting plate is positioned at the outlet of the lower cover track and can block the outlet of the lower cover track to limit the movement of the bottle cap. The detection assembly outputs a position signal after detecting the beverage bottle, and the control system receives the position signal and then inputs the position signal to the driving cylinder to control the movement of the driving cylinder.

Optionally, a groove is formed in the upper side face of the lower cover mechanism, and one side, close to the ground, of the limiting plate is rotatably connected with the groove.

By adopting the technical scheme, the driving cylinder extends to push the limiting plate to rotate towards the direction far away from the lower cover track, so that the rotating plate is separated from the lower cover track; after the beverage bottle passes through the detection assembly, the detection assembly recovers the initial state, the control system controls the driving cylinder to shrink, and the limiting plate is driven to rotate towards the direction close to the lower cover track, so that the limiting plate blocks the outlet of the lower cover track.

Optionally, the detection piece is rotatably connected with the rotating mechanism through a first rotating shaft, a return spring is sleeved on the outer side of the first rotating shaft, one end of the return spring is connected with the first rotating shaft, the other end of the return spring is connected with the rotating mechanism, and the contact bolt is not in contact with the detection sensor in a natural state.

By adopting the technical scheme, the first rotating shaft is provided with the return spring, when the beverage bottle passes through the detection assembly, the beverage bottle pushes the detection sheet in the direction away from the rotating mechanism, the return spring is pushed by the beverage bottle, and the contact bolt can be contacted with the detection sensor; after the beverage bottle passes through the detection assembly, the thrust that reset spring received disappears, and reset spring resumes natural state for contact bolt and detection sensor separation are convenient for detect next time.

Optionally, the rotating mechanism is provided with a supporting plate, the supporting plate faces a direction away from the rotating mechanism, the detection sensor is mounted on the supporting plate, and the detection sensor can slide along the supporting plate in a direction close to or away from the rotating mechanism.

Through adopting above-mentioned technical scheme, the beverage bottle has different sizes, when beverage bottle bottom surface diameter is great, it is great to detect piece pivoted distance, when beverage bottle bottom surface diameter is less, it is less to detect piece pivoted distance, in order to improve detection component's suitability for contact bolt on the detection piece can with detect the sensor contact when the beverage bottle size changes, can slide detection sensor along the backup pad to the direction of being close to or keeping away from rotary mechanism, changes detection sensor's position.

Optionally, a through hole is formed in the supporting plate, the detection sensor penetrates through the through hole, a first nut and a second nut are connected to the detection sensor through threads, the first nut is abutted to the side face of the supporting plate, and the second nut is abutted to the lower side face of the supporting plate.

Through adopting above-mentioned technical scheme, the detection sensor can slide along the through-hole and change and the slide mechanism between the distance, first nut and second nut all with the backup pad butt, can fix the detection sensor in the backup pad, reduced the phenomenon that the detection sensor takes place the skew under the promotion that detects the piece.

In summary, the present application includes at least one of the following beneficial technical effects:

the detection assembly can detect the position of the beverage bottle and input a detection signal into the control system, and the control system can control the driving cylinder according to the detection signal, so that the lower cover is arranged when the beverage bottle exists, the lower cover is not arranged when the beverage bottle does not exist, and the phenomenon of bottle cap waste is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

fig. 2 is an exploded view at a rotary mechanism of an embodiment of the present application;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic structural view of the lower cover mechanism in the embodiment of the present application;

fig. 5 is an enlarged view at B in fig. 4.

Description of reference numerals: 100. a rotation mechanism; 110. a detection component; 111. detecting a sheet; 112. a detection sensor; 113. a return spring; 114. a first rotating shaft; 115. a contact bolt; 116. positioning a nut; 120. a support plate; 121. a first nut; 122. a second nut; 123. a through hole; 130. rotating the track; 200. a lower cover mechanism; 210. a lower cover track; 220. a driving cylinder; 230. a groove; 231. a limiting plate; 232. a second rotating shaft; 300. and (5) controlling the system.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a cap screwing machine for beverage filling.

Referring to fig. 1, the filling machine includes a rotating mechanism 100 on which beverage bottles are rotated, and a lower cap mechanism 200 to which beverage bottle caps are transported through the lower cap mechanism 200 to the rotating mechanism 100 for closing the bottle mouths of the beverage bottles. In order to enable each bottle cap to be used for closing a beverage bottle, reducing the waste of the bottle cap, a detection assembly 110 is provided on the rotation mechanism 100.

The detection assembly 110 comprises a detection sheet 111 and a detection sensor 112, a signal output end of the detection sensor 112 is connected with the control system 300, and when the detection assembly 110 detects that a beverage bottle exists, a position signal of the beverage bottle can be input into the control system 300. The lower cover mechanism 200 comprises a lower cover rail 210, a driving cylinder 220 is installed on one side of the lower cover rail 210 close to the ground, a signal input end of the driving cylinder 220 is connected with a control system 300, and the control system 300 can control the driving cylinder 220 to extend and retract according to a signal sent by the detection assembly 110.

Referring to fig. 2 and 3, the rotation mechanism 100 is provided with a rotation rail 130 on the upper side thereof, which can guide the movement of the beverage bottle. The detection piece 111 is rotatably connected to the upper side surface of the rotating mechanism 100 through a first rotating shaft 114, a contact bolt 115 is fixedly connected to one end of the detection piece 111 far away from the rotating mechanism 100, and when a beverage bottle passes through the detection piece 111, the contact bolt 115 is rotated to a position where the contact bolt 115 contacts with the detection sensor 112 under the pushing of the beverage bottle.

The rotating mechanism 100 is further connected to a supporting plate 120, one end of the supporting plate 120 is fixedly connected to the rotating mechanism 100, and the other end extends in a direction away from the rotating mechanism 100. The supporting plate 120 is provided with a strip-shaped through hole 123, the detection sensor 112 penetrates through the strip-shaped through hole 123, the detection sensor 112 is connected with a first nut 121 and a second nut 122 in a threaded mode, the first nut 121 is located on the upper side face of the supporting plate 120, the second nut 122 is located on the lower side face of the supporting plate 120, the first nut 121 and the second nut 122 are both abutted to the supporting plate 120, and the detection sensor 112 is fixed on the supporting plate 120. The worker can adjust the position of the detection sensor 112 on the support plate 120 according to the diameter of the drink bottle, when the diameter of the drink bottle is large, the detection sensor 112 is far from the rotation mechanism 100, and when the diameter of the drink bottle is small, the detection sensor 112 is near to the rotation mechanism 100.

A return spring 113 is fitted around the first rotating shaft 114, and a contact bolt 115 on the detection piece 111 is separated from the detection sensor 112 in a natural state. After the beverage bottle passes through the detection sheet 111, the detection sheet 111 is restored to the initial state under the action of the return spring 113, and the phenomenon of inaccurate detection caused by the fact that the contact bolt 115 is always in contact with the detection sensor 112 is reduced.

The upper side surface of the rotating mechanism 100 is also provided with a positioning nut 116, and when the detection sheet 111 rotates to be in contact with the positioning nut 116, the detection sheet 111 cannot move continuously due to the limiting effect of the positioning nut 116, so that the phenomenon that the detection sheet 111 rotates too much can be reduced.

Referring to fig. 4 and 5, a groove 230 is formed on the upper side of the lower cap mechanism 200, and a lower cap rail 210 is further connected to the upper side of the lower cap mechanism 200, through which the beverage bottle cap moves toward the rotating mechanism 100. Lower cover track 210 is close to ground one side and installs and drives actuating cylinder 220, and the tip that drives actuating cylinder 220 telescopic link sets up limiting plate 231, and limiting plate 231 one end can shelter from lower cover track 210's export, and the other end rotates with recess 230 through second axis of rotation 232 to be connected.

The extension direction of the driving cylinder 220 is consistent with the movement direction of the bottle cap, when the driving cylinder 220 extends, the limiting plate 231 rotates in the direction away from the lower cap rail 210 under the action of the driving cylinder 220, so that the outlet of the lower cap rail 210 is opened, and the bottle cap can move smoothly; when the driving cylinder 220 contracts, the limiting plate 231 rotates towards the direction close to the lower cover rail 210 under the action of the driving cylinder 220, so that the outlet of the lower cover rail 210 is blocked, and the bottle cap cannot move continuously.

The implementation principle of the cap screwing machine for beverage filling in the embodiment of the application is as follows: the worker first adjusts the position of the detecting sensor 112 according to the diameter of the bottom surface of the beverage bottle and then turns on the cap screwing machine. After the beverage is filled, the cap is screwed and closed, the beverage bottle rotates on the rotating mechanism 100 along the rotating track 130, when the beverage bottle rotates to the position of the detection assembly 110, the beverage bottle can push the detection sheet 111 to rotate towards the direction far away from the rotating mechanism 100, so that the contact bolt 115 is in contact with the detection sensor 112, after the detection sensor 112 receives a position signal of the beverage bottle, the position signal is input to the control system 300, the control system 300 outputs a control signal, the driving cylinder 220 receives the control signal, the telescopic rod of the driving cylinder 220 extends, the limiting plate 231 is pushed to rotate towards the direction far away from the lower cap track 210, the cap outlet of the lower cap track 210 is opened, and the cap slides to the rotating mechanism 100 from the lower cap track 210 and is used for closing the beverage bottle. After the cap is screwed, the beverage bottle continues to move on the rotating mechanism 100, the detection sheet 111 returns to the initial state, the contact bolt 115 on the detection sheet 111 is separated from the detection sensor 112, the telescopic rod of the driving cylinder 220 is contracted, the limiting plate 231 is driven to rotate towards the direction close to the lower cap track 210, and the movement of the bottle cap is limited. In summary, only when the detection assembly 110 detects a beverage bottle, the bottle cap in the lower cap rail 210 moves downward to close the bottle cap, so that the phenomenon that no beverage bottle falls is reduced, each bottle cap has a corresponding beverage bottle, and the waste of the bottle cap is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a beverage filling is with spiral cover machine which characterized in that: including rotary mechanism (100) and lower cover mechanism (200), side-mounting has rotatory track (130) on rotary mechanism (100), lower cover mechanism (200) are located rotary mechanism (100) side for transport the beverage bottle lid to rotary mechanism (100) department, be provided with determine module (110) on rotary mechanism (100), the signal output part of determine module (110) is connected with control system (300), control system (300) are used for controlling the bottle lid of lower cover mechanism (200) department and whether fall.

2. A capping machine for beverage filling according to claim 1, wherein: detection subassembly (110) is including detecting piece (111), contact bolt (115) and detection sensor (112), it connects side on rotary mechanism (100) to detect piece (111) rotation, contact bolt (115) fixed connection is on detecting piece (111), install in rotary mechanism (100) vertical direction one side detection sensor (112), contact bolt (115) and detection sensor (112) contact when detecting piece (111) rotation.

3. A capping machine for beverage filling according to claim 2, wherein: a lower cover rail (210) is arranged at the lower cover mechanism (200), a driving cylinder (220) is arranged on one side, close to the ground, of the lower cover rail (210), a limiting plate (231) is connected to the end part of a telescopic rod of the driving cylinder (220), the limiting plate (231) is located at an outlet of the lower cover rail (210), and the extending direction of the driving cylinder (220) is consistent with the movement direction of the bottle cap; the signal input end of the driving air cylinder (220) is connected with a control system (300).

4. A capping machine for beverage filling according to claim 3, wherein: the upper side surface of the lower cover mechanism (200) is provided with a groove (230), and one side, close to the ground, of the limiting plate (231) is rotatably connected with the groove (230).

5. A capping machine for beverage filling according to claim 4, wherein: the detection piece (111) is rotatably connected with the rotating mechanism (100) through a first rotating shaft (114), a return spring (113) is sleeved on the outer side of the first rotating shaft (114), one end of the return spring (113) is connected with the first rotating shaft (114), the other end of the return spring is connected with the rotating mechanism (100), and the contact bolt (115) is not in contact with the detection sensor (112) in a natural state.

6. A capping machine for beverage filling according to claim 5, wherein: the rotary mechanism (100) is provided with a support plate (120), the support plate (120) faces to the direction far away from the rotary mechanism (100), the detection sensor (112) is arranged on the support plate (120), and the detection sensor (112) can slide along the support plate (120) to the direction close to or far away from the rotary mechanism (100).

7. A capping machine for beverage filling according to claim 6, wherein: the supporting plate (120) is provided with a through hole (123), the detection sensor (112) penetrates through the through hole (123), the detection sensor (112) is connected with a first nut (121) and a second nut (122) in a threaded mode, the first nut (121) abuts against the upper side face of the supporting plate (120), and the second nut (122) abuts against the lower side face of the supporting plate (120).

Images