CN211283703U

CN211283703U - Full-automatic liquid feed filling production line

Info

Publication number: CN211283703U
Application number: CN201922157258.3U
Authority: CN
Inventors: 陈伟华; 刘娟
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-28
Filing date: 2020-06-28
Publication date: 2020-08-18
Anticipated expiration: 2030-06-28

Abstract

The utility model discloses a full-automatic liquid feed filling production line, which comprises a conveyer belt for conveying filling bottles, wherein one side of the conveyer belt is provided with a capping mechanism for capping sealing caps of the filled filling bottles, the capping mechanism comprises a cap storage box for storing the sealing caps, and a conveying device for conveying the sealing caps to the filled liquid feed filling bottles is arranged in the cap storage box; the utility model discloses, think about ingenious, rational in infrastructure, can transport to the direct arrangement of air medicine bottle and accomplish the filling on the conveyer belt, block, twist the cap action, whole realization is automatic, has improved production efficiency, can save the labour, reduction in production cost can directly filter the closing cap through block mechanism, send the lid more accurate fast, the block moves, can press from both sides tightly and drive the removal to the medicine bottle through pressing from both sides tight conveyer belt, realize quick adjustment cap and twist the cap action, improved the accuracy of twisting the cap.

Description

Full-automatic liquid feed filling production line

Technical Field

The utility model relates to a filling line, specific theory relates to a full-automatic production line that mixes, bottles, block to liquid feed has improved production efficiency, can save the labour, reduction in production cost's full-automatic liquid feed filling line belongs to liquid feed filling technical field.

Background

The liquid feed is a uniformly dispersed liquid animal feed which is prepared by processing byproducts generated in the processes of grain processing, sugar processing, food fermentation, meat processing and other agricultural product processing by a suspension technology with other ingredients according to the animal nutrition requirements. In recent years, the production of liquid feed at home and abroad has a growing trend, which is mainly caused by that firstly, in a plurality of industrial productions related to food and beverage, fermentation technology is applied to generate a large amount of fermentation byproducts which provide resource guarantee for the application of the byproducts in the feed, secondly, because of the environmental protection requirement and the cost consideration, the traditional method (such as direct scattering in the field) is limited to treat the industrial byproducts with high water content, and thirdly, the development of the industrial suspension technology enables a plurality of dry ingredients to be successfully applied to the production of the liquid feed; in China, the liquid feed technology is developed rapidly, the traditional antibiotics are really replaced to realize green feeding, the environment pollution and the sewage treatment cost can be reduced for food processing enterprises, precious breeding feed can be obtained for farms, and the energy-saving and environment-friendly concept is favorably realized.

Because liquid feed is liquid, need use the liquid filling machine to carry out the filling to liquid feed when producing the packing sale to liquid feed, and traditional liquid filling machine can only realize the filling, can not automize and mix, the bottling, the block cap operation, work efficiency is low, it is inconvenient to use, and because its hardness of liquid feed is bigger than water, the mobility is slower than water, need spend more time at the in-process of filling, cause the jam easily simultaneously, and current liquid filling machine overall structure is complicated, its cost of maintenance and maintenance cost are high, the practicality is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved main technical problem of the utility model is to provide a full-automatic production line that mixes, bottles, block to liquid feed, improved production efficiency, can save the labour, reduction in production cost's full-automatic liquid feed filling line.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model provides a full-automatic liquid feed filling line, is including the conveyer belt that is used for carrying the filling bottle, and one side of conveyer belt is provided with and is used for adding the capping mechanism that covers the closing cap to the filling bottle that the filling is good, adds the capping mechanism including being used for the storage lid case that has the closing cap, is provided with in the storage lid case to be used for transporting the closing cap to the conveyor on the filling liquid feed filling bottle.

The following is the utility model discloses to above-mentioned technical scheme's further optimization:

the conveying device comprises a conveying belt arranged in the cover storage box, and blocking plates used for blocking the sealing cover on the conveying belt to drive the sealing cover to move together are evenly arranged on the conveying belt at intervals.

Further optimization: the conveying belt is obliquely arranged and used for screening the sealing covers.

Further optimization: the cap blowing device is characterized in that a cap blowing head is fixedly arranged at a position, close to the upper end, of one side of the conveying belt, a cap discharging box is arranged on one side, opposite to the cap blowing head, of the conveying belt, the cap discharging box is connected with a cap discharging slide way, the lower end of the cap discharging slide way is fixedly connected with a cap discharging head, and the cap discharging head is located right above the conveying belt.

Further optimization: the top of conveyer belt is provided with the twist capping device that is used for screwing up the closing cap, and the twist capping device includes that two symmetries are installed and is pressed from both sides tight conveyer belt in the conveyer belt both sides, and the top of two tight conveyer belts of clamp is provided with a plurality of nut screwing rollers respectively, and the top of nut screwing roller is provided with driving motor.

Further optimization: two symmetrically-arranged cap adjusting plates are fixedly mounted above one side, close to the cap outlet head, of the clamping conveying belt respectively.

Further optimization: the one end of conveyer belt is provided with and is used for making the even empty bottle loading attachment of arranging on the conveyer belt of filling bottle, and one side of conveyer belt is provided with the filling device who is used for filling liquid feed.

Further optimization: the filling device comprises a filling rack, a plurality of filling heads for filling are arranged above the filling rack, and a liquid storage tank is fixedly arranged behind the filling heads.

Further optimization: a plurality of liquid suction pipes are arranged below the liquid storage tank on the filling rack, pistons are movably arranged in the liquid suction pipes, piston rods are fixedly arranged below the pistons, and a liquid suction driving device used for driving the piston rods to move is arranged inside the filling rack.

Further optimization: the empty bottle feeding device comprises a rack, a rotary table is rotatably arranged above the rack, a guardrail plate is arranged outside the rotary table, and an opening is formed in one side, close to the conveying belt, of the guardrail plate and communicated with the conveying belt.

By adopting the technical scheme, when the liquid feed mixing device is used, liquid feed is injected into the storage vat, and then the mixing driving motor and the heating plate are started to heat and fully mix the liquid feed in the storage vat;

when filling is needed, the second telescopic cylinder and the first telescopic cylinder respectively drive the bottle blocking plate to move above the conveying belt so as to block the movement of empty filling bottles on the conveying belt, then the moving plate is driven by the motor to move up and down, liquid feed in the liquid storage tank is sucked into the liquid suction pipe and conveyed to the filling head, and the liquid feed is filled in the empty bottles blocked on the conveying belt;

after filling, the second telescopic cylinder and the first telescopic cylinder respectively drive the bottle blocking plate to move away from the upper part of the conveying belt, so that filled filling bottles on the conveying belt move, and the next round of blocking and filling is carried out;

when the filled filling bottles move to the position of the speed reducing roller, the speed reducing roller is driven by the speed reducing motor to rotate, so that the filling bottles on the conveying belt are decelerated;

when the cap is required to be capped on the filled filling bottle, the sealing caps are conveyed to the cap blowing head through the stop plate and the conveying belt, the sealing caps are blown into the cap discharging box through the cap blowing head, then the sealing caps are uniformly arranged at the cap discharging head under the guidance of the cap discharging slide way, when the filled filling bottle moves to the position below the cap discharging head under the driving of the conveying belt, the sealing caps in the cap discharging head can be obliquely covered on the filling bottle, and then the sealing caps are tightly pressed on the filling bottle under the action of the cap pressing plate.

When the sealing caps on the filling bottles need to be screwed, firstly, the filling bottles which are covered with the sealing caps are clamped by a clamping conveyor belt and driven to move;

when the filling bottle covered with the sealing cap moves to the position of the cap adjusting plate under the driving of the clamping conveyor belt, the sealing cap on the filling bottle is screwed back through the cap adjusting plate, so that the sealing cap is flatly placed on the filling bottle;

then the clamping conveyor belt drives the filling bottles which are covered with the sealing covers to continuously move, and when the filling bottles move to the position below the cap screwing rollers, the driving motor drives the cap screwing rollers to rotate, so that the sealing covers are screwed on the filling bottles.

The utility model discloses, think about ingenious, rational in infrastructure, can transport to the direct arrangement of empty filling bottle and accomplish the filling on the conveyer belt, block, twist the cap action, whole realization is automatic, has improved production efficiency, can save the labour, reduction in production cost can directly filter the closing cap through block mechanism, more accurate quick lid that send, the block moves, can press from both sides tight and drive the removal to the filling bottle through pressing from both sides tight conveyer belt, realize quick cap and twist the cap action, improved the accuracy of twisting the cap.

The present invention will be further explained with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention in an embodiment;

fig. 2 is a schematic structural view of an empty bottle feeding device in an embodiment of the present invention;

FIG. 3 is a schematic structural view of a storage vat according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a filling device according to an embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1 at A;

fig. 6 is a schematic view of a capping mechanism in an embodiment of the present invention;

FIG. 7 is a view showing a structure of a screw capping device according to an embodiment of the present invention;

fig. 8 is a partial enlarged view of fig. 1 at B.

In the figure: 1-a conveyor belt; 2-empty bottle feeding device; 3-a filling device; 4-a capping mechanism; 5-a screw capping device; 6-a frame; 7-a turntable; 8-a guardrail plate; 9-arc-shaped plates; 10-a storage barrel; 11-a stirring shaft; 12-a stirring blade; 13-stirring driving motor; 14-a water storage barrel; 15-heating plate; 16-a discharge hole; 18-fixing the guide post; 19-adjusting plate; 20-a filling head; 21-upper top plate; 22-a first threaded rod; 23-a hand wheel; 24-a liquid storage tank; 25-pipette; 26-a piston; 27-a piston rod; 28-a first one-way valve, 29-a second one-way valve; 30-moving the plate; 31-a second threaded rod; 32-a filling machine frame; 33-a motor; 34-a first telescopic cylinder; 35-a second telescopic cylinder; 36-a bottle blocking plate; 37-a first sensor; 38-a second sensor; 39-cover storage box; 40-a conveyor belt; 41-a barrier plate; 42-a blow-capping head; 43-cap outlet box; 44-a cap ejection slide; 45-cap outlet; 46-capping plate; 47-clamping the conveyor belt; 48-screw cap roller; 49-a drive motor; 50-adjusting a cap plate; 51-a reduction motor; 52-reduction rolls; 53-guide plate.

Detailed Description

Example (b): as shown in fig. 1-7, a full-automatic liquid feed filling production line, including the conveyer belt 1 that is used for carrying the filling bottle, the one end of conveyer belt 1 is provided with and is used for making the even empty bottle loading attachment 2 of arranging on conveyer belt 1 of filling bottle, one side of conveyer belt 1 is provided with the filling device 3 that is used for filling liquid feed, and one side of conveyer belt 1 is provided with and is used for adding lid mechanism 4 of lid to the filling bottle that fills, and the top of conveyer belt 1 is provided with and is used for the screw capping device 5 of screwing up the lid.

As shown in fig. 1 and 2, the empty bottle feeding device 2 comprises a frame 6, a turntable 7 is rotatably arranged above the frame 6, a turntable driving motor for driving the turntable 7 to rotate is arranged in the frame 6, and the output end of the turntable driving motor is fixedly connected with the center of the lower end of the turntable 7.

Design like this, can rotate through carousel driving motor drive carousel 7, and then can be with waiting that the filling bottle of filling puts on carousel 7, can make the filling bottle obtain centrifugal force, make the automatic marginal position that moves to carousel 7 of filling bottle.

The outside of carousel 7 is provided with guardrail board 8, the lower extreme and the frame 6 fixed connection of guardrail board 8, and guardrail board 8 is close to one side of conveyer belt 1 and is provided with the opening and is linked together with conveyer belt 1 through this opening.

The opening part of the guardrail plate 8 is fixedly connected with an arc-shaped plate 9, and a channel which can only pass through one filling bottle is formed between the arc-shaped plate 9 and the guardrail plate 8.

By the design, when the rotary disc 7 rotates, filling bottles to be filled on the rotary disc 7 are uniformly arranged on a channel formed between the arc-shaped plate 9 and the guardrail plate 8, and the filling bottles are uniformly conveyed to the conveying belt 1 through the guide of the channel.

Two symmetrically-arranged guide plates 53 are fixedly mounted above the rotary disc 7, and the guide plates 53 can guide filling bottles on the rotary disc 7 into a channel formed between the arc-shaped plate 9 and the guardrail plate 8.

As shown in fig. 1 and 3, a storage tank 10 for storing liquid feed to be filled is arranged on one side of the conveyor belt 1, a stirring shaft 11 is rotatably arranged inside the storage tank 10, and a plurality of stirring blades 12 for stirring the liquid feed are uniformly arranged on the stirring shaft 11 at intervals.

The fixed stirring driving motor 13 that is provided with in top of storage vat 10, stirring driving motor 13's output runs through the upper end and the (mixing) shaft 11 fixed connection of storage vat 10.

Design like this, can rotate through stirring driving motor 13 drive (mixing) shaft 11, (mixing) shaft 11 rotates and drives stirring vane 12 and rotate and carry out intensive mixing to the liquid feed of treating the filling in the storage vat 10.

One side of the upper end of the storage vat 10, which is located at the stirring driving motor 13, is provided with a liquid inlet hole which is convenient for injecting liquid feed into the storage vat 10.

The outside of storage vat 10 is provided with water storage bucket 14 coaxially, the excircle diameter of water storage bucket 14 is greater than the excircle diameter of storage vat 10.

Water is stored in the cavity between the water storage barrel 14 and the material storage barrel 10, and a heating plate 15 for heating the water is arranged in the cavity between the water storage barrel 14 and the material storage barrel 10.

Design like this, can heat water through hot plate 15, can heat the liquid fodder in the storage vat 10 to the water that the heating was accomplished can heat through the cavity internal storage water between water storage bucket 14 and the storage vat 10, makes liquid fodder can the intensive mixing to the temperature of control liquid fodder that like this can also be fine.

The lower extreme of storage vat 10 is provided with discharge gate 16, the one end that storage vat 10 was kept away from to discharge gate 16 is connected with the inlet of water pump 17 through the transfer line, the liquid outlet of water pump 17 passes through the transfer line and communicates with filling device 3.

By the design, the liquid feed in the storage vat 10 can be connected with the water pump 17 through the discharge hole 16 and the infusion tube, and then the liquid feed in the storage vat 10 can be conveyed to the filling device 3 under the driving of the water pump 17.

As shown in fig. 1 and fig. 4 to 5, the filling device 3 includes a filling frame 32, two bilaterally symmetrical fixed guide pillars 18 are respectively and fixedly disposed above the filling frame 32 near left and right sides, an adjusting plate 19 is slidably disposed on the two fixed guide pillars 18, and a plurality of filling heads 20 for filling are disposed on the adjusting plate 19.

The plurality of filling heads 20 are evenly and movably arranged on the adjusting plate 19 at intervals.

Design like this, through the activity setting of filling head 20 on regulating plate 19, the spacing distance between two filling heads 20 of regulation that can be convenient, and then the alignment that can make the lower extreme of filling head 20 accurate treats the filling bottle of filling.

An upper top plate 21 is fixedly connected between the upper ends of the two fixed guide columns 18.

A threaded hole is formed in the middle of the adjusting plate 19, a first threaded rod 22 is spirally connected in the threaded hole, and the lower end of the first threaded rod 22 is rotatably connected to the upper side of the filling machine frame 32.

The upper end of the first threaded rod 22 penetrates through the upper top plate 21 and is fixedly connected with a hand wheel 23.

By the design, the lower end of the first threaded rod 22 is rotatably connected with the filling machine frame 32, the first threaded rod 22 can be supported to rotate, and the adjusting plate 19 can move up and down by the threaded connection of the first threaded rod 22 and the adjusting plate 19 when the hand wheel 23 is rotated.

A liquid storage tank 24 is fixedly arranged behind the fixed guide post 18, and a liquid outlet of the water pump 17 is communicated with the liquid storage tank 24 through a liquid conveying pipe.

By means of the design, the liquid fertilizer in the storage barrel 10 can be conveyed to the liquid storage tank 24 through the water pump 17 to be stored.

A plurality of liquid suction pipes 25 are arranged below the liquid storage tank 24 and on the filling rack 32, a piston 26 is movably arranged in each liquid suction pipe 25, a piston rod 27 is fixedly arranged below each piston 26, and a liquid suction driving device for driving the piston rod 27 to move is arranged in the filling rack 32.

The upper left and right sides of the pipette 25 are provided with a first check valve 28 and a second check valve 29,

the liquid outlet of the first one-way valve 28 is communicated with the liquid suction pipe 25, and the liquid inlet of the first one-way valve 28 is communicated with the liquid storage tank 24 through a liquid conveying pipe.

The liquid inlet of the second one-way valve 29 is communicated with the pipette 25, and the liquid outlet of the second one-way valve 29 is communicated with the filling head 20 through a liquid conveying pipe.

Design like this, can be when pulling piston rod 27 drives piston 26 and remove, can be through transfer line and first check valve 28 with the liquid fodder in the liquid storage pot 24 imbibition pipette 25 in, then promote piston rod 27 again and drive piston 26 and remove, pass through second check valve 29 and transfer line with the liquid fodder in the pipette 25, carry liquid fodder to filling head 20 and carry out the filling to the filling bottle of treating the filling on the conveyer belt 1.

The first check valve 28 and the second check valve 29 can be used for controlling the flow direction of the liquid feed and preventing the liquid feed from flowing backwards.

The number of the pipette tubes 25 is equal to the number of the filling heads 20, so that the liquid feed can be supplied to one filling head 20 through one pipette tube 25, and the volume of the liquid feed filled into the filling bottles can be the same.

The liquid suction driving device comprises a moving plate 30, and the lower end of each piston rod 27 penetrates through the upper side of the filling rack 32 and is fixedly connected with the moving plate 30.

Threaded holes are respectively formed in the positions, close to the two ends, of the moving plate 30, and second threaded rods 31 are respectively in threaded connection in the threaded holes.

The upper end and the lower end of the second threaded rod 31 are respectively supported and rotated through a bearing seat, and the bearing seats are installed on the inner wall of the filling rack 32.

The filling machine frame 32 is internally provided with a motor 33 for driving the two second threaded rods 31 to synchronously rotate, and the motor 33 is in transmission connection with the two second threaded rods 31 respectively.

By the design, the two second threaded rods 31 can be synchronously driven to rotate by the motor 33, the second threaded rods 31 rotate to drive the moving plate 30 to move up and down, and then the piston rod 27 and the piston 26 can be driven to move down in the pipette 25 by the moving plate 30 moving up and down, so that the liquid feed in the liquid storage tank 24 can be sucked into the pipette 25 and conveyed into the filling head 20.

As shown in fig. 5, a bottle stopping device for stopping the filling bottles on the conveyor belt 1 from moving is arranged on one side of the conveyor belt 1, so that filling is facilitated.

The bottle blocking device comprises a first telescopic cylinder 34 and a second telescopic cylinder 35, the first telescopic cylinder 34 and the second telescopic cylinder 35 are symmetrically arranged at the lower ends of the two outermost filling heads 20 respectively, and bottle blocking plates 36 are fixedly connected to output ends of the first telescopic cylinder 34 and the second telescopic cylinder 35 respectively.

Design like this, can hinder bottle board 36 through the drive of first telescopic cylinder 34 and the telescopic cylinder 35 of second and move to the top of conveyer belt 1 for it removes to block the filling bottle on the conveyer belt 1, and then conveniently carries out the filling to the filling bottle.

And a first sensor 37 and a second sensor 38 which are used for monitoring the movement of the filling bottles on the conveying belt 1 at any time are respectively arranged on one side of the first telescopic cylinder 34 and one side of the second telescopic cylinder 35.

When the filling machine works, the second telescopic cylinder 35 acts to drive the bottle blocking plate 36 to move to the position above the conveying belt 1 so as to block the filling bottles on the conveying belt 1 from moving, at the moment, when the first sensor 37 detects that the filling bottles on the conveying belt 1 move to the position of the first sensor 37, the first sensor 37 counts, and when the counting reaches the number of the filling heads 20, the first telescopic cylinder 34 acts to drive the bottle blocking plate 36 to move to the position above the conveying belt 1 so as to block the filling bottles on the conveying belt 1 from moving;

the filling bottle quantity that is blockked between first telescopic cylinder 34 and the telescopic cylinder 35 of second this moment equals the quantity of filling head 20, and the bottleneck of filling bottle is just to the liquid outlet of filling head 20, and then the liquid feed filling of the output of filling head 20 enters in the filling bottle.

After filling, the second telescopic cylinder 35 acts to drive the bottle blocking plate 36 to move away from the upper part of the conveyer belt 1, so that filled filling bottles on the conveyer belt 1 continue to move, at the moment, the second sensor 38 detects the filling bottles passing through the second sensor 38, counting is performed, and when the counting reaches the number of the filling heads 20, the second telescopic cylinder 35 acts to drive the bottle blocking plate 36 to move to the upper part of the conveyer belt 1, so as to block the filling bottles to be filled on the conveyer belt 1 at the next time;

when the second telescopic cylinder 35 is operated to drive the bottle blocking plate 36 to move away from the upper part of the conveyer belt 1, the first telescopic cylinder 34 is also operated to drive the bottle blocking plate 36 to move away from the upper part of the conveyer belt 1, so that the blocked bottles to be filled are moved, and the first sensor 37 performs the next round of counting.

As shown in fig. 1 and fig. 6 to 7, the capping mechanism 4 includes a cap storage box 39, a sealing cap is temporarily stored in the cap storage box 39, and a conveying device for conveying the sealing cap in the cap storage box 39 to a filled liquid feed filling bottle is arranged in the cap storage box 39.

The conveying device comprises a conveying belt 40 arranged in the cap storage box 39, and blocking plates 41 used for blocking the sealing caps on the conveying belt 40 and driving the sealing caps to move together are uniformly arranged on the conveying belt 40 at intervals.

The sealing cap is blocked on the conveyor belt 40 by the blocking plate 41, so that the sealing cap can move along with the conveyor belt 40.

The upper end of the conveyor belt 40 is inclined toward one side of the filling device 3.

The design is that the weight of the end of the sealing cover with the opening is smaller than that of the closed end of the sealing cover, the conveyor belt 40 is arranged to be inclined, so that the opening end of the sealing cover automatically falls off on the conveyor belt 40 under the action of gravity when facing the conveyor belt 40, and the sealing cover can cling to the conveyor belt 40 under the action of gravity and move along with the conveyor belt 40 when the closed end of the sealing cover faces the conveyor belt 40;

furthermore, the sealing cover can be directly placed in the cover storage box 39 without being arranged.

A cap blowing head 42 is fixedly arranged at a position close to the upper end of one side of the conveyor belt 40, a cap discharging box 43 is arranged at the position opposite to the cap blowing head 42 at the other side of the conveyor belt 40, and the cap discharging box 43 is communicated with the conveyor belt 40.

With this arrangement, when the closure cap moved by the conveyor 40 is moved to the position of the cap blowing head 42, the closure cap can be blown into and out of the cap case 43 by the cap blowing head 42.

One side of going out cap box 43 and keeping away from conveyer belt 40 is provided with the play cap slide 44 that is used for guiding the flap to arrange and pass through, the one end fixedly connected with that goes out cap box 43 is kept away from to go out cap slide 44 goes out cap head 45, and goes out cap head 45 and be located the square of conveyer belt 1.

With this arrangement, the caps blown into the cap case 43 by the cap blowing head 42 can be uniformly arranged on the cap discharging head 45 by being guided by the cap discharging slide 44, and the filled bottles can be moved to the position of the cap discharging head 45 by the conveyor belt 1, so that the caps in the cap discharging head 45 can be obliquely covered on the filled bottles.

A cap pressing plate 46 for pressing the sealing cap covered on the filling bottle is fixedly connected above the cap outlet head 45.

The outer side of the conveyor belt 40 is fixedly provided with a transparent plate near the upper end for packaging the conveyor belt 40, so that the phenomenon that the sealing cover falls off when the conveyor belt 40 and the blocking plate 41 drive the sealing cover to move near the upper end of the conveyor belt 40 is prevented.

As shown in fig. 1 and fig. 7-8, the capping device 5 includes two symmetrically disposed clamping conveyor belts 47 fixedly installed on the left and right sides of the conveyor belt 1, a plurality of capping rollers 48 are respectively and uniformly arranged above the two clamping conveyor belts 47 at intervals, and a driving motor 49 for driving the capping rollers 48 to rotate to screw the cap on the filling bottle is arranged above the capping rollers 48.

The driving motors 49, which are respectively provided above the two clamping conveyors 47 for driving the capping rollers 48 to rotate, are rotated in opposite directions.

With this configuration, the filled bottles capped with the closures on the conveyor 1 can be driven to move by being clamped by the clamp conveyor 47, and when the filled bottles capped with the closures are driven by the clamp conveyor 47 to move to the lower side of the capping rollers 48, the drive motor 49 drives the capping rollers 48 to rotate, thereby screwing the closures onto the filled bottles.

The clamp conveyor 47 and the capping roller 48 are both made of rubber having elasticity.

By the design, the elasticity of the rubber and the rubber can be used for increasing the friction force when the filling bottles and the sealing caps are contacted with the clamping conveyor belt 47 and the cap screwing roller 48, so that the filling bottles and the sealing caps are better clamped and cap screwed, and the rigid impact on the filling bottles during the clamping and cap screwing actions can be effectively reduced.

For better screwing the closure cap onto the filling bottle, two symmetrically arranged cap adjusting plates 50 are respectively fixedly mounted above one side of the clamping conveyor belt 47 close to the cap outlet head 45.

The side of the hat-adjusting plate 50 adjacent to the hat-turning roller 48 is inclined toward the side of the passage formed by the two clamp conveyors 47.

By the design, when the filling bottle which can press the sealing cap through the cap pressing plate 46 is in contact with the cap adjusting plate 50 under the action of the conveying belt 1, the sealing cap on the filling bottle is back-screwed through the cap adjusting plate 50, so that the sealing cap is flatly placed on the filling bottle, and the cap screwing action in the next step is facilitated.

As shown in fig. 1, a speed reducer is fixedly arranged on one side of the conveyor belt 1 for making filled bottles pass through the lower part of the cap outlet head 45 uniformly.

The speed reducing device comprises a speed reducing motor 51 fixedly arranged on one side of the conveying belt 1, and the output end of the speed reducing motor 51 is fixedly connected with a speed reducing roller 52.

Design like this, can rotate through gear motor 51 drive reduction roller 52, reduction roller 52 rotates, can make the filling bottle on the conveyer belt 1 slow down, make the even removal in filling bottle interval of arranging on the conveyer belt 1, and then can be convenient carry out the block and twist the cap action to the filling bottle.

When the mixing device is used, firstly, liquid feed needs to be injected into the storage barrel 10, and when the liquid feed needs to be mixed, the stirring driving motor 13 is started to drive the stirring shaft 11 to drive the stirring blades 12 to rotate, so that the liquid feed in the storage barrel 10 is fully stirred;

when liquid feed needs to be heated, the heating plate 15 is started to heat the water in the water storage barrel 14, and the heated water can heat the liquid feed in the storage barrel 10.

When empty filling bottles need to be filled, the empty filling bottles are directly placed on the rotary disc 7, the empty filling bottles are uniformly conveyed to the conveyer belt 1 under the rotation of the rotary disc 7, and then the conveyer belt 1 drives the empty filling bottles to move;

when filling is needed, firstly, the second telescopic cylinder 35 acts to drive the bottle blocking plate 36 to move to the upper part of the conveying belt 1 so as to block the empty filling bottles on the conveying belt 1 from moving, at the moment, the first sensor 37 detects the empty filling bottles on the conveying belt 1 and counts the number of the empty filling bottles, and when the number of the empty filling bottles reaches the number of the filling heads 20, the first telescopic cylinder 34 acts to drive the bottle blocking plate 36 to move to the upper part of the conveying belt 1 so as to block the empty filling bottles on the conveying belt 1 from moving;

the number of the air filling bottles blocked between the first telescopic cylinder 34 and the second telescopic cylinder 35 is equal to the number of the filling heads 20, and the bottle openings of the air filling bottles are opposite to the liquid outlets of the filling heads 20.

During filling, the liquid feed in the storage barrel 10 is conveyed to the liquid storage tank 24 through the water pump 17 for storage, then the two second threaded rods 31 are driven to synchronously rotate through the motor 33, the second threaded rods 31 rotate to drive the movable plate 30 to move up and down, further the movable plate 30 moves up and down to drive the piston rod 27 and the piston 26 to move down in the pipette 25, the liquid feed in the liquid storage tank 24 is sucked into the pipette 25 and conveyed to the filling head 20, and then the liquid feed is output through the filling head 20 to be filled into empty filling bottles.

After filling, the second telescopic cylinder 35 acts to drive the bottle blocking plate 36 to move away from the upper part of the conveyer belt 1, so that filled filling bottles on the conveyer belt 1 continue to move, at the moment, the second sensor 38 detects the filling bottles passing through the position of the second sensor 38 and counts, and when the counting reaches the number of the filling heads 20, the second telescopic cylinder 35 acts to drive the bottle blocking plate 36 to move to the upper part of the conveyer belt 1, so as to block empty filling bottles to be filled on the conveyer belt 1 at the next time;

when the second telescopic cylinder 35 is operated to drive the bottle blocking plate 36 to move away from the upper part of the conveyer belt 1, the first telescopic cylinder 34 is also operated to drive the bottle blocking plate 36 to move away from the upper part of the conveyer belt 1, so that the blocked empty filling bottles to be filled move, and the first sensor 37 performs the next round of counting.

Then the conveyor belt 1 drives the filled filling bottles to move continuously, and when the filled filling bottles move to the position of the speed reducing roller 52, the speed reducing roller 52 rotates under the driving of the speed reducing motor 51, so that the filling bottles on the conveyor belt 1 are reduced in speed, and a certain distance is separated between two adjacent filling bottles.

When the filled filling bottles need to be capped, the sealing caps are blocked on the conveyor belt 40 through the blocking plate 41, so that the sealing caps move along with the conveyor belt 40; when the conveyor belt 40 drives the sealing cover to move to the position of the cover blowing head 42, the sealing cover is blown into and out of the cap box 43 through the cover blowing head 42;

then the sealing caps in the cap discharging box 43 are guided by the cap discharging slide way 44 to be uniformly arranged at the cap discharging head 45, and when the filled filling bottles move to the position below the cap discharging head 45 under the driving of the conveyer belt 1, the sealing caps in the cap discharging head 45 can be obliquely covered on the filling bottles, and then the sealing caps are pressed on the filling bottles under the action of the cap pressing plate 46.

When the sealing caps on the filling bottles need to be screwed, the filling bottles which are completely covered with the sealing caps are firstly clamped and driven to move by the clamping conveyor belt 47;

when the filling bottle covered with the sealing cap moves to the position of the cap adjusting plate 50 under the driving of the clamping conveyor belt 47, the sealing cap on the filling bottle is screwed back through the cap adjusting plate 50, so that the sealing cap is flatly placed on the filling bottle;

the clamping conveyor 47 drives the filled bottle with the sealed cap to move continuously, and when the filled bottle moves to the position below the cap screwing roller 48, the driving motor 49 drives the cap screwing roller 48 to rotate, so that the sealed cap is screwed on the filled bottle.

The above structure is adopted in the utility model, think about ingeniously, rational in infrastructure, can transport to the direct arrangement of empty filling bottle and accomplish the filling on the conveyer belt, the block, twist the cap action, whole realization is automatic, production efficiency is improved, can save the labour, reduction in production cost can directly filter the closing cap through block mechanism, accomplish more accurately fast and send the lid, the block action, can press from both sides tightly and drive the removal to the filling bottle through pressing from both sides tight conveyer belt, realize quick cap regulation and twist the cap action, the accuracy of twisting the cap has been improved.

Claims

1. The utility model provides a full-automatic liquid feed filling line, includes conveyer belt (1) that is used for carrying the filling bottle, its characterized in that: one side of conveyer belt (1) is provided with and is used for adding lid mechanism (4) of lid sealing cap to the filling bottle that the filling is good, adds lid mechanism (4) including being used for saving storage cap case (39) of sealing cap, is provided with in the storage cap case (39) and is used for transporting the conveyor on the liquid feed filling bottle with the sealing cap.

2. The full-automatic liquid feed filling production line according to claim 1, characterized in that: the conveying device comprises a conveying belt (40) arranged in a cover storage box (39), and blocking plates (41) used for blocking the sealing covers on the conveying belt (40) to drive the sealing covers to move together are uniformly arranged on the conveying belt (40) at intervals.

3. The full-automatic liquid feed filling production line according to claim 2, characterized in that: the conveying belt (40) is obliquely arranged and used for screening the sealing covers.

4. The full-automatic liquid feed filling production line of claim 3, characterized in that: the cap blowing device is characterized in that a cap blowing head (42) is fixedly arranged at a position, close to the upper end, of one side of the conveying belt (40), a cap discharging box (43) is arranged at one side, opposite to the cap blowing head (42), of the conveying belt (40), the cap discharging box (43) is connected with a cap discharging slide way (44), the cap discharging head (45) is fixedly connected to the lower end of the cap discharging slide way (44), and the cap discharging head (45) is located right above the conveying belt (1).

5. The full-automatic liquid feed filling production line of claim 4, characterized in that: the capping device (5) for screwing the sealing cap is arranged above the conveying belt (1), the capping device (5) comprises two clamping conveying belts (47) which are symmetrically arranged on two sides of the conveying belt (1), a plurality of capping rollers (48) are respectively arranged above the two clamping conveying belts (47), and a driving motor (49) is arranged above the capping rollers (48).

6. The full-automatic liquid feed filling production line of claim 5, characterized in that: two symmetrically-arranged cap adjusting plates (50) are fixedly mounted above one side, close to the cap outlet head (45), of the clamping conveyor belt (47) respectively.

7. The full-automatic liquid feed filling production line of claim 6, characterized in that: the one end of conveyer belt (1) is provided with and is used for making even empty bottle loading attachment (2) of arranging on conveyer belt (1) of filling bottle, and one side of conveyer belt (1) is provided with filling device (3) that are used for filling liquid feed.

8. The full-automatic liquid feed filling production line of claim 7, characterized in that: the filling device (3) comprises a filling rack (32), a plurality of filling heads (20) used for filling are arranged above the filling rack (32), and a liquid storage tank (24) is fixedly arranged behind the filling heads (20).

9. The full-automatic liquid feed filling production line of claim 8, characterized in that: a plurality of liquid suction pipes (25) are arranged below the liquid storage tank (24) on the filling rack (32), pistons (26) are movably arranged in the liquid suction pipes (25), piston rods (27) are fixedly arranged below the pistons (26), and a liquid suction driving device for driving the piston rods (27) to move is arranged in the filling rack (32).

10. The full-automatic liquid feed filling production line of claim 9, characterized in that: the empty bottle feeding device (2) comprises a rack (6), a rotary table (7) is rotatably arranged above the rack (6), a guardrail plate (8) is arranged outside the rotary table (7), and an opening is formed in one side, close to the conveying belt (1), of the guardrail plate (8) and communicated with the conveying belt (1).