CN110775926B

CN110775926B - Filling and capping integrated machine

Info

Publication number: CN110775926B
Application number: CN201911035866.5A
Authority: CN
Inventors: 丁赟; 张虎; 沈军; 高擎宇
Original assignee: Jiangsu Newamstar Packagin Machinery Co Ltd
Current assignee: Jiangsu Newamstar Packagin Machinery Co Ltd
Priority date: 2019-10-29
Filing date: 2019-10-29
Publication date: 2022-03-08
Anticipated expiration: 2039-10-29
Also published as: CN110775926A

Abstract

The invention discloses a filling and capping integrated machine, which comprises: the rotary filling machine is characterized in that a cover sealing block is arranged between each filling valve and the corresponding bottle clamp, a cover die cavity capable of containing a bottle cap is formed in the cover sealing block, an elastic blocking mechanism on the cover sealing block can block the bottle cap in the cover die cavity, and the cover sealing block can move up and down; the bottle is input into the bottle clamp below the filling valve which runs to the bottle feeding station by the bottle feeding mechanism, the filling valve fills the bottle in the filling area, the bottle cap is conveyed to the cap input station by the cap input mechanism, each cover sealing block which runs to the cap input station grabs the bottle cap into the cap die cavity, the cover sealing block presses the bottle cap downwards onto the bottle mouth of the filled bottle in the cover pressing station, the bottle which is filled and sealed is output by the bottle discharging mechanism, and the cover pressing block moves upwards to return to the initial position. The invention has the advantages that: the equipment occupation space of the filling production line is greatly reduced, and the manufacturing, using and managing costs are effectively reduced.

Description

Filling and capping integrated machine

Technical Field

The invention relates to the technical field of beverage packaging equipment, in particular to a filling machine.

Background

Currently, a filling line is generally provided with a filling machine and a capping machine, in which filled bottles are conveyed to the capping machine for capping.

With the continuous development of filling lines, the requirements of customers on equipment are higher and higher, such as the manufacturing cost of the equipment, the occupied space of the equipment and the like. For this reason, my company developed a filling and capping all-in-one machine that integrates filling and capping.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the utility model provides a filling closing cap all-in-one, it collects filling and closing cap as an organic whole, more can effectively practice thrift equipment occupation space, reduce equipment manufacturing cost.

In order to solve the problems, the invention adopts the technical scheme that: filling closing cap all-in-one includes: the bottle cap sealing device comprises a rotary filling machine, wherein a plurality of filling valves are arranged at intervals in the circumferential direction of the rotary filling machine, a bottle clamp is arranged below each filling valve, a cap sealing block is arranged between each filling valve and the corresponding bottle clamp, a cap die cavity capable of containing a bottle cap is formed in the cap sealing block, a through hole communicated with the cap die cavity is formed in the top of the cap sealing block, the through hole is communicated with a valve nozzle of each filling valve, an elastic blocking mechanism is arranged on the cap sealing block, the elastic blocking mechanism can block the bottle cap in the cap die cavity, the cap sealing block is connected with a lifting driving mechanism, and the cap sealing block can move up and down under the driving of the lifting driving mechanism; each filling valve on the rotary filling machine rotating for one circle sequentially passes through a bottle inlet station, a filling area, a cap sealing area and a bottle outlet station, a bottle inlet mechanism is arranged at the bottle inlet station, a cap input station and a cap pressing station are sequentially arranged in the cap sealing area, a cap input mechanism is arranged at the cap input station, a bottle outlet mechanism is arranged at the bottle outlet station, a bottle to be filled is input into a bottle clamp below each filling valve which moves to the bottle inlet station by the bottle inlet mechanism, the filling valve fills the bottle in the filling area, the bottle cap is conveyed to the cap input station by the cap input mechanism, a cap sealing block below each filling valve which moves to the cap input station moves downwards to grab the bottle cap into a cap die cavity, the cap is pressed downwards on the bottle mouth of the filled bottle by the cap sealing block at the cap pressing station, then the cap sealing block is separated from the bottle cap on the bottle mouth, and the filled and capped bottles are output by the bottle outlet mechanism, the capping block moves upward to return to the initial position.

Further, in the filling and capping all-in-one machine, the aperture of each through hole ensures that the valve mouth at the bottom of the filling valve can extend to the capping cavity, the initial position of each capping block is located at the bottom of the filling valve, and the valve mouth of the filling valve extends to the capping cavity; a cover kicking station is arranged between the bottle feeding station and the bottle discharging station, the cover sealing block returns to the initial position at the cover kicking station, and the valve mouth in the cover die cavity is stretched to remove the bottle cover retained in the cover die cavity.

Further, the filling and capping all-in-one machine is characterized in that the filling valve is a non-contact filling valve.

Further, aforementioned filling closing cap all-in-one, wherein, lift actuating mechanism's structure includes: and a piston rod of the air cylinder drives the sealing cover block to vertically move up and down between the filling valve and the bottle clamp.

Further, in the above-mentioned filling and capping all-in-one machine, the structure of the elastic blocking mechanism includes: be provided with a plurality of installation through-holes on the lateral wall of closing cap piece, the installation through-hole all is provided with compression spring around the looks interval setting of lid die cavity in every installation through-hole, is provided with the end cap in the installation through-hole of compression spring outer end, and spherical fender pearl sets up in compression spring's inner end, and spherical fender pearl protrusion in installation through-hole but also do not fall out the installation through-hole under compression spring's effect.

Further, in the filling and capping all-in-one machine, the valve mouth of each filling valve and the through hole and the capping mold cavity of the corresponding capping block are coaxial.

The invention has the advantages that: the filling and capping are integrated, a capping machine does not need to be arranged independently, the occupied space of the whole filling production line is further reduced, the manufacturing cost of the filling production line is effectively reduced, and the use cost and the management cost of a user in daily production can be reduced due to the integration of the filling and capping. And the initial position of the sealing cover block is positioned at the bottom of the filling valve, and the valve nozzle of the filling valve extends to the cover die cavity, so that the valve nozzle can remove the bottle cap retained in the cover die cavity once the bottle cap is retained in the cover die cavity, thereby ensuring that the filling valve can be normally filled in the filling area.

Drawings

Fig. 1 is a schematic layout of the filling and capping all-in-one machine of the present invention.

Fig. 2 is a schematic view of the installation structure of the filling valve and the capping block in the filling and capping all-in-one machine of the invention.

Fig. 3 is a schematic structural diagram of a capping block in the filling and capping all-in-one machine of the invention during capping.

Detailed Description

The invention is described in further detail below with reference to the figures and preferred embodiments.

As shown in fig. 1, 2 and 3, the filling and capping all-in-one machine includes: the rotary filling machine 10 is characterized in that a plurality of filling valves 1 are arranged at intervals in the circumferential direction of the rotary filling machine 10, and the filling valves 1 are non-contact filling valves, namely filling valves with valve mouths 12 not in contact with bottle mouths.

A bottle clamp 3 is arranged below each filling valve 1. Every filling valve 1 and the bottle that corresponds press from both sides and all be provided with closing cap piece 4 between 3, offer the lid mould chamber 41 that can hold bottle lid 5 on the closing cap piece 4, the through-hole 42 that is linked together with lid mould chamber 41 is seted up at the top of closing cap piece 4, and through-hole 42 link up with the valve mouth 12 of filling valve 1 mutually, and the valve mouth 12 of every through-hole 42 bottom is ensured in this embodiment can stretch to lid mould chamber 41 in the aperture of every through-hole 42.

The capping block 4 is provided with an elastic blocking mechanism which can block the bottle cap 5 in the cap cavity 41. In this embodiment, the structure of the elastic blocking mechanism includes: be provided with a plurality of installation through-holes 43 on the lateral wall of closing cap piece 4, installation through-hole 43 sets up around 41 week looks intervals of lid die cavity, all be provided with compression spring in every installation through-hole 43, be provided with the end cap in the installation through-hole 43 of compression spring outer end, spherical fender pearl 44 sets up the inner end at compression spring, spherical fender pearl 43 protrusion in installation through-hole 43 but also do not fall out the installation through-hole under compression spring's effect, just so can make spherical fender pearl 44 block on the outer wall of bottle lid 5 that gets into to in the lid die cavity 41, thereby the bottle lid 5 is blocked to the card, can realize that the bottle lid snatchs. By adopting the elastic blocking mechanism, the bottle cap 5 entering the cap mold cavity 41 of the capping block 4 can be reliably ensured not to fall out of the cap mold cavity 41 before the capping action.

The cover sealing block 4 is connected with a lifting driving mechanism, and can move up and down under the driving of the lifting driving mechanism. Specifically, the structure of the lifting drive mechanism comprises: the cylinder 2, the piston rod of the cylinder 2 drives the capping block 4 to move vertically up and down between the filling valve 1 and the bottle clamp 3.

Each filling valve 1 on the rotary filling machine 10 rotating for one circle sequentially passes through a bottle feeding station 20, a filling area 30, a cap sealing area 40, a bottle discharging station 50 and a cap kicking station 60. The cap kicking station 60 is located between the bottle entry station 20 and the bottle exit station 50. The bottle feeding station 20 is provided with a bottle feeding mechanism 201, the capping area 40 is sequentially provided with a cap input station 401 and a capping station 402, the cap input station 401 is provided with a cap input mechanism 403, and the bottle discharging station 50 is provided with a bottle discharging mechanism 501. The bottles 6 to be filled are input into the bottle clamps 3 below the filling valves 1 running to the bottle feeding station 20 by the bottle feeding mechanism 201, the filling valves 1 fill the bottles 6 in the filling area 30, the top of the cover block 4 is provided with through holes 42 communicated with the cover die cavity 41, and the valve mouth 12 of each filling valve 1 is coaxial with the corresponding through hole 42 of the cover block 4 and the cover die cavity 41, so that the feed liquid in the filling valves 1 can be effectively ensured to enter the bottle openings through the valve mouths 12, the through holes 42 and the cover die cavity 41.

The bottle caps 5 are transported by the cap infeed mechanism 403 to the cap infeed station 401, the capping block 4 below each filling valve 1 running to the cap infeed station 401 moves downwardly to capture the bottle caps 5 into the cap cavities 41, and the capping block 4 then moves downwardly at the capping station 402 to cap the bottle caps 5 onto the mouths of the filled bottles 6. Then, the capping block 4 moves upwards, and since the interaction force between the bottle cap 5 and the bottle mouth is greater than the force of the spherical blocking bead 44 in the elastic blocking mechanism on the bottle cap 5 after the bottle cap 5 is pressed on the bottle mouth, the capping block 4 is separated from the bottle cap 5 on the bottle mouth when the capping block 4 moves upwards. The filled and capped bottles 6 are output by the bottle output mechanism 501. The filling valve 1 is operated to the cap kicking station 60, the capping blocks 4 are returned to the initial positions at the cap kicking station 60, the initial position of each capping block 4 is located at the bottom of the filling valve 1, and the valve mouth 12 of the filling valve 1 extends to the cap mold cavity 41. The purpose of the valve mouth 12 extending into and covering the mold cavity 41 is to: if the bottle cap 5 in the cap mold cavity 41 of the cap block 4 is not covered on the bottle mouth, the valve mouth 12 can remove the bottle cap 5 remained in the cap mold cavity 41, so that the filling valve 1 can be ensured to be filled normally in the filling area 30; the valve mouth 12 extends into the cover mold cavity 41 to achieve better filling effect.

The invention has the advantages that: the filling and capping are integrated, a capping machine does not need to be arranged independently, the occupied space of the whole filling production line is further reduced, the manufacturing cost of the filling production line is effectively reduced, and the use cost and the management cost of a user in daily production can be reduced due to the integration of the filling and capping. Secondly, the initial position of the capping block 4 is located at the bottom of the filling valve 1, and the valve mouth 12 of the filling valve 1 extends to the cap mold cavity 41, so that once the bottle cap 5 stays in the cap mold cavity 41, the valve mouth 12 can remove the bottle cap 5 staying in the cap mold cavity 41, thereby ensuring that the filling valve 1 can be normally filled in the filling area 30.

Claims

1. Filling closing cap all-in-one includes: rotation liquid filling machine, the interval sets up a plurality of filling valves in the circumference of rotation liquid filling machine, and the below of every filling valve all is provided with a bottle clamp, its characterized in that: a cover sealing block is arranged between each filling valve and the corresponding bottle clamp, a cover die cavity capable of containing a bottle cap is formed in the cover sealing block, a through hole communicated with the cover die cavity is formed in the top of the cover sealing block, the through hole is communicated with a valve nozzle of the filling valve, the aperture of each through hole ensures that the valve nozzle at the bottom of the filling valve can extend to the cover die cavity, the initial position of each cover sealing block is located at the bottom of the filling valve, and the valve nozzle of the filling valve extends to the cover die cavity; the cap sealing block is provided with an elastic blocking mechanism which can block the bottle cap in the cap die cavity, the cap sealing block is connected with the lifting driving mechanism, and the cap sealing block can move up and down under the driving of the lifting driving mechanism; each filling valve on the rotary filling machine rotating for one circle sequentially passes through a bottle feeding station, a filling area, a cover sealing area, a bottle discharging station and a cover picking station, a bottle feeding mechanism is arranged at the bottle feeding station, a cover inputting station and a cover pressing station are sequentially arranged in the cover sealing area, a cover inputting mechanism is arranged at the cover inputting station, a bottle discharging mechanism is arranged at the bottle discharging station, a bottle to be filled is input into a bottle clamp below each filling valve which moves to the bottle feeding station by the bottle feeding mechanism, the filling valve fills the bottle in the filling area, the bottle cover is conveyed to the cover inputting station by the cover inputting mechanism, a cover sealing block below each filling valve which moves to the cover inputting station moves downwards to grab the bottle cover into a cover die cavity, the cover sealing block presses the bottle cover downwards on the bottle mouth of the filled bottle at the cover pressing station, the cover sealing block is separated from the bottle cover on the bottle mouth, and the filled and sealed bottle is output by the bottle discharging mechanism, the cover sealing block moves upwards and returns to the initial position at the cover removing station, so that the valve nozzle in the cover extending die cavity can remove the bottle cover retained in the cover die cavity.

2. The filling and capping all-in-one machine according to claim 1, wherein: the filling valve is a non-contact filling valve.

3. The filling and capping all-in-one machine according to claim 1 or 2, wherein: the structure of the lifting driving mechanism comprises: and a piston rod of the air cylinder drives the sealing cover block to vertically move up and down between the filling valve and the bottle clamp.

4. The filling and capping all-in-one machine according to claim 1 or 2, wherein: the structure of the elastic blocking mechanism comprises: be provided with a plurality of installation through-holes on the lateral wall of closing cap piece, the installation through-hole all is provided with compression spring around the looks interval setting of lid die cavity in every installation through-hole, is provided with the end cap in the installation through-hole of compression spring outer end, and spherical fender pearl sets up in compression spring's inner end, and spherical fender pearl protrusion in installation through-hole but also do not fall out the installation through-hole under compression spring's effect.

5. The filling and capping all-in-one machine according to claim 1 or 2, wherein: and the valve mouth of each filling valve is coaxial with the through hole of the corresponding sealing cover block and the cover die cavity.