CN115385289A

CN115385289A - Rotary filling machine

Info

Publication number: CN115385289A
Application number: CN202211022693.5A
Authority: CN
Inventors: 杨家勇; 黄开尧; 黄开蒜; 呼桂萍; 廖颂伟
Original assignee: Puling Xingyun Intelligent Technology Guangzhou Co ltd
Current assignee: Puling Xingyun Intelligent Technology Guangzhou Co ltd
Priority date: 2022-08-25
Filing date: 2022-08-25
Publication date: 2022-11-25

Abstract

The invention relates to a rotary filling machine, which adopts the technical scheme that: the method comprises the following steps: the bottle filling machine comprises a rack, a conveying mechanism for conveying bottles, a bottle feeding mechanism for conveying the bottles on the conveying mechanism to a rotary filling mechanism, a rotary filling mechanism for filling the bottles, a feeding mechanism for feeding the rotary filling mechanism and a bottle discharging mechanism for conveying the bottles on the rotary filling mechanism to the conveying mechanism; the conveying mechanism is arranged on the rack; the bottle feeding mechanism, the rotary filling mechanism and the bottle discharging mechanism are all rotatably arranged on the rack; the feeding mechanism is arranged on the rotary filling mechanism; this application has the effect that improves filling efficiency, and the transport bottle security is higher.

Description

Rotary filling machine

Technical Field

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

Background

The rotary filling machine utilizes the upper and lower turntables to match with the filling assembly at the top end to form the effect of filling quantitative materials for the bottle body, so that the whole filling process is orderly carried out on a large batch continuous supply assembly line.

Before the bottle carries out the filling, still need carry the carousel of rotation type liquid filling machine with the bottle on the conveyer belt usually, after the completion to the filling of bottle, still need carry the conveyer belt for the bottle after the completion filling, but, all adopt the mode of anchor clamps such as manipulators clamp the tight bottleneck at present, realize the transportation to the bottle, easily cause the bottle to break or cracked, have the potential safety hazard.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a rotary filling machine which has the functional advantages of improving the filling efficiency and higher safety of bottle conveying.

The technical purpose of the invention is realized by the following technical scheme:

a rotary filling machine comprising: the bottle filling machine comprises a rack, a conveying mechanism for conveying bottles, a bottle feeding mechanism for conveying the bottles on the conveying mechanism to a rotary filling mechanism, a rotary filling mechanism for filling the bottles, a feeding mechanism for feeding the rotary filling mechanism, and a bottle discharging mechanism for conveying the bottles on the rotary filling mechanism to the conveying mechanism; the conveying mechanism is arranged on the rack; the bottle feeding mechanism, the rotary filling mechanism and the bottle discharging mechanism are all rotatably arranged on the rack; the feeding mechanism is arranged on the rotary filling mechanism.

Optionally, the bottle feeding mechanism comprises: the bottle feeding driving assembly is used for driving the first connecting column to rotate; the bottle feeding driving assembly is arranged in the rack; the first connecting column is rotatably arranged on the rack; one end of the first connecting column is fixedly connected with an output shaft of the bottle feeding driving assembly, and the other end of the first connecting column is fixedly connected with the bottle feeding star wheel; the rack is also provided with a bottle feeding guide rail for preventing the bottle body from deviating from the bottle feeding star wheel.

Optionally, the method further includes: the bottle feeding screw is used for conveying the bottle bodies to the bottle feeding star wheel independently, and the bottle feeding star wheel is connected with the bottle feeding star wheel; the screw fixing seat is arranged on the conveying mechanism; the screw driving assembly is arranged on the screw fixing seat; the bottle feeding screw is rotationally arranged on the fixed seat; and an output shaft of the screw driving component is fixedly connected with the bottle feeding screw.

Optionally, the bottle discharging mechanism comprises: the bottle discharging driving assembly is used for driving the second connecting column to rotate; the bottle discharging driving assembly is arranged in the rack; the second connecting column is rotatably arranged on the rack; one end of the second connecting column is fixedly connected with an output shaft of the bottle discharging driving assembly, and the other end of the second connecting column is fixedly connected with the bottle discharging star wheel; the rack is also provided with a bottle outlet guide rail for preventing the bottle body from deviating from the bottle outlet star wheel.

Optionally, the rotary filling mechanism comprises: the bottle feeding mechanism comprises a main star wheel for receiving the bottle bodies conveyed by the bottle feeding mechanism, a first rotary table for supporting the bottle bodies, a second rotary table for rotating along with the first rotary table and a lifting assembly for driving the second rotary table to lift; the first rotating disc is rotatably arranged on the rack; a third connecting column is arranged on the first rotary table; the main star wheel and the lifting assembly are both arranged on the third connecting column; an output shaft of the lifting assembly is fixedly connected with the second rotary table; a plurality of blanking hoppers which correspond to the notches of the main star wheel one by one are arranged on the second rotary disc; a third turntable is arranged on the third connecting column; the third turntable is provided with a plurality of filling assemblies which correspond to the plurality of blanking hoppers one by one; and the feeding mechanism is respectively connected with the filling assembly and the third connecting column.

Optionally, the rack is further provided with an anti-deviation guide rail for preventing the bottle body from deviating from the main star wheel; the deviation-preventing guide rail is arranged around the main star wheel.

Optionally, the filling assembly comprises: the filling tube corresponds to the blanking hopper, and the closing plate is used for closing the output end of the filling tube; the input end of the filling tube is arranged on the feeding mechanism, and the output end of the filling tube penetrates through the third rotary disc; the closing plate is arranged on the third rotating disc in a sliding mode.

Optionally, a blanking driving assembly for driving the sealing plate to slide is further arranged on the frame.

Optionally, the feeding driving assembly includes: the blanking guide rail is used for pushing the blanking plate, the blanking cylinder is used for driving the blanking guide rail to lift so as to enable the blanking guide rail to be abutted to or separated from the blanking plate, and the plurality of fourth connecting columns are arranged; the fourth connecting column is arranged on the rack; any one of the fourth connecting columns is fixedly connected with the blanking cylinder; the blanking guide rail is arranged on the fourth connecting column in a sliding manner; the output end of the blanking air cylinder is abutted to the blanking guide rail.

Optionally, the feeding mechanism includes: the fourth rotating disc, the fixed plate and the bin; the fourth rotating disc is arranged on the third connecting column; the input end of the filling pipe penetrates through the fourth rotary disc; the fixing plate is rotatably arranged on the third connecting column; the bin is arranged on the fixing plate; the output end of the storage bin can be communicated with the input end of the filling pipe.

In conclusion, the invention has the following beneficial effects: the rotary filling mechanism fills the bottle body in the process of driving the bottle body to rotate so as to improve the filling efficiency; through the arrangement of the bottle feeding mechanism and the bottle discharging mechanism, the bottles are conveniently conveyed to the rotary filling mechanism from the conveying mechanism, and the bottles on the rotary filling mechanism are conveniently conveyed to the conveying mechanism; through the cooperation of advancing the bottle star gear and advancing the bottle guide rail, go out the bottle star gear and go out the cooperation of bottle guide rail, can carry the bottle for rotatory filling mechanism, also can carry the bottle on the rotatory filling mechanism and give conveying mechanism, and can not press from both sides the bits of broken glass, press from both sides and hinder the glass bottleneck, the security is higher.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged partial schematic view at A of FIG. 1;

fig. 3 is a top view of the present invention.

In the figure: 1. a frame; 11. a bottle feeding guide rail; 12. a bottle outlet guide rail; 13. a deviation prevention guide rail; 2. a conveying mechanism; 21. a screw fixing seat; 22. a screw drive assembly; 23. a bottle feeding screw rod; 3. a bottle feeding mechanism; 31. a bottle feeding star wheel; 32. a first connecting column; 4. rotating the filling mechanism; 41. a main star wheel; 42. a first turntable; 43. a second turntable; 44. a third connecting column; 45. feeding a hopper; 46. a third turntable; 47. a filling assembly; 471. filling tubes; 472. closing the plate; 5. a feeding mechanism; 51. a fourth turntable; 52. a fixing plate; 53. a storage bin; 6. a bottle discharging mechanism; 61. a bottle discharging star wheel; 62. a second connecting column; 7. a blanking guide rail component; 71. blanking guide rails; 72. a blanking cylinder; 73. and a fourth connecting column.

Detailed Description

In order to make the objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. Several embodiments of the invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

The invention is described in detail below with reference to the figures and examples.

The present invention provides a rotary filling machine, as shown in fig. 1, comprising: the automatic bottle filling machine comprises a rack 1, a conveying mechanism 2 for conveying bottles, a bottle feeding mechanism 3 for conveying the bottles on the conveying mechanism 2 to a rotary filling mechanism 4, the rotary filling mechanism 4 for filling the bottles, a feeding mechanism 5 for feeding the rotary filling mechanism 4 and a bottle discharging mechanism 6 for conveying the bottles on the rotary filling mechanism 4 to the conveying mechanism 2; the conveying mechanism 2 is arranged on the rack 1; the bottle feeding mechanism 3, the rotary filling mechanism 4 and the bottle discharging mechanism 6 are all rotationally arranged on the rack 1; the feeding mechanism 5 is arranged on the rotary filling mechanism 4.

In practical application, the bottle bodies can be glass bottles, plastic bottles and the like, the conveying mechanism 2 can be a conveying belt, the bottle bodies enter the input end of the conveying mechanism 2 firstly, the conveying mechanism 2 drives the bottle bodies to move towards the bottle feeding mechanism 3 until the bottle bodies enter the bottle feeding mechanism 3, the bottle feeding mechanism 3 conveys the bottle bodies to the rotary filling mechanism 4, the rotary filling mechanism 4 fills the bottle bodies in the process of driving the bottle bodies to rotate so as to improve filling efficiency, materials are stored in the feeding mechanism 5 so that the rotary filling mechanism 4 can fill the materials into the bottle bodies, the rotary filling mechanism 4 conveys the filled bottle bodies to the bottle discharging mechanism 6, the bottle discharging mechanism 6 conveys the filled bottle bodies to the conveying mechanism 2 again so that the conveying mechanism 2 conveys the filled bottle bodies to the next process, such as to a cap screwing machine, so as to screw cap the filled bottle bodies; through the setting of advancing bottle mechanism 3 and play bottle mechanism 6, be convenient for carry the bottle for rotatory filling mechanism 4 from conveying mechanism 2 to and be convenient for carry the bottle on the rotatory filling mechanism 4 for conveying mechanism 2.

Further, as shown in fig. 2 and 3, the bottle feeding mechanism 3 includes: the bottle feeding star wheel 31 is used for conveying the bottles on the conveying mechanism 2 to the rotary filling mechanism 4, the first connecting column 32 is used for driving the bottle feeding star wheel 31 to rotate, and the bottle feeding driving assembly is used for driving the first connecting column 32 to rotate; the bottle feeding driving assembly is arranged in the rack 1; the first connecting column 32 is rotatably arranged on the frame 1; one end of the first connecting column 32 is fixedly connected with an output shaft of the bottle feeding driving assembly, and the other end of the first connecting column is fixedly connected with the bottle feeding star wheel 31; the rack 1 is also provided with a bottle feeding guide rail 11 for preventing the bottles from deviating from the bottle feeding star wheel 31.

Specifically, a plurality of bottle feeding notches matched with bottle bodies of the bottles are formed in the bottle feeding star wheel 31, the bottle feeding star wheel 31 and the bottle feeding guide rails 11 are located above the conveying mechanism 2, the bottle feeding star wheel 31 and the bottle feeding guide rails 11 are sequentially arranged along the conveying direction of the conveying mechanism 2, when the conveying mechanism 2 conveys the bottles to the bottle feeding star wheel 31, the bottles enter the bottle feeding notches, the bottle feeding driving assembly drives the first connecting column 32 and the bottle feeding star wheel 31 to rotate anticlockwise, in the process, one side of the bottles abuts against the inner wall of the bottle feeding notches, the other side of the bottles abuts against the bottle feeding guide rails 11 until the bottles completely enter the rotary filling assembly 47, and through the arrangement of the bottle feeding guide rails 11, the bottles in the bottle feeding notches can be prevented from shifting and sliding out, so that the bottle feeding mechanism 3 can convey the bottles to the rotary filling mechanism 4, compared with a mode that a bottle mouth is clamped by a clamp (such as a mechanical arm) in the prior art, the bottle feeding star wheel 31 and the bottle feeding guide rails 11 are matched, glass cannot be crushed and damaged, and the safety is higher; wherein, the bottle feeding driving component can be a first motor, the first motor is arranged in the frame 1, not shown in the figure, and an output shaft of the first motor is fixedly connected with the first connecting column 32.

Further, as shown in fig. 1 and 3, the method further includes: the bottle feeding screw 23 is used for independently conveying the bottles to the bottle feeding star wheel 31, the screw driving assembly 22 is used for driving the bottle feeding screw 23 to rotate, and the screw fixing seat 21 is used for fixing the bottles; the screw fixing seat 21 is arranged on the conveying mechanism 2; the screw driving component 22 is arranged on the screw fixing seat 21; the bottle feeding screw 23 is rotatably arranged on the fixed seat; the output shaft of the screw driving component 22 is fixedly connected with a bottle feeding screw 23.

Specifically, screw drive assembly 22 is the second motor, the output shaft of second motor with advance a bottle screw 23 fixed connection, advance a bottle screw 23 and be located conveying mechanism 2's top, and advance a bottle screw 23 and be located one side of conveying mechanism 2, advance a bottle star gear 31 and be located conveying mechanism 2's opposite side, so that advance a bottle screw 23 and send the bottle on conveying mechanism 2 into the bottle notch that advances a bottle star gear 31 one by one, advance a bottle screw 23 and adopt the not equidistance spiral, the pitch of advancing a bottle screw 23 increases along conveying mechanism 2's direction of delivery, make the process of advancing a bottle notch is sent into the bottle through advancing a bottle screw 23 more smooth and easy.

Further, as shown in fig. 3, the bottle discharging mechanism 6 includes: the bottle discharging star wheel 61 is used for conveying the bottles on the rotary filling mechanism 4 to the conveying mechanism 2, the second connecting column 62 is used for driving the bottle discharging star wheel 61 to rotate, and the bottle discharging driving assembly is used for driving the second connecting column 62 to rotate; the bottle discharging driving assembly is arranged in the rack 1; the second connecting column 62 is rotatably arranged on the frame 1; one end of the second connecting column 62 is fixedly connected with an output shaft of the bottle discharging driving assembly, and the other end of the second connecting column is fixedly connected with the bottle discharging star wheel 61; the frame 1 is also provided with a bottle outlet guide rail 12 for preventing the bottles from shifting from the bottle outlet star wheel 61.

Specifically, a plurality of bottle outlet notches matched with bottle bodies of the bottles are formed in the bottle outlet star wheel 61, the bottle outlet star wheel 61 and the bottle outlet guide rails 12 are located above the conveying mechanism 2, the bottle outlet guide rails 12 and the bottle outlet star wheels 61 are sequentially arranged along the conveying direction of the conveying mechanism 2, when the rotary filling mechanism 4 conveys the bottles to the bottle outlet star wheels 61, the bottles enter the bottle outlet notches, the bottle outlet driving assembly drives the second connecting column 62 and the bottle outlet star wheels 61 to rotate anticlockwise, in the process, one side of the bottles is abutted to the inner walls of the bottle outlet notches, the other side of the bottles is abutted to the bottle outlet guide rails 12 until the bottles completely enter the conveying mechanism 2, and through the arrangement of the bottle outlet guide rails 12, the bottles in the bottle outlet notches can be prevented from shifting and sliding out, so that the bottle outlet mechanism 6 can convey the bottles to the conveying mechanism 2, compared with a mode that a bottle opening is clamped by a clamp (such as a mechanical arm) in the prior art, the bottle outlet star wheels 61 and the bottle outlet guide rails 12 are matched, so that glass cannot be crushed and damaged by clamping, and the safety is higher; wherein, it can be the third motor to go out a bottle drive assembly, and the third motor setting is in frame 1, and not shown in the figure, the output shaft and the second spliced pole 62 fixed connection of third motor.

Further, as shown in fig. 1 and 2, the rotary filling mechanism 4 comprises: a main star wheel 41 for receiving the bottles conveyed by the bottle feeding mechanism 3, a first turntable 42 for supporting the bottles, a second turntable 43 for rotating with the first turntable 42, and a lifting assembly for driving the second turntable 43 to lift; the first rotating disc 42 is rotatably arranged on the frame 1; a third connecting column 44 is arranged on the first rotary disc 42; the main star wheel 41 and the lifting assembly are both arranged on a third connecting column 44; the output shaft of the lifting assembly is fixedly connected with the second turntable 43; a plurality of discharging hoppers 45 which correspond to the plurality of notches of the main star wheel 41 one by one are arranged on the second rotating disc 43; a third turntable 46 is arranged on the third connecting column 44; the third turntable 46 is provided with a plurality of filling assemblies 47 which correspond to the plurality of discharging hoppers 45 one by one; the feeding mechanism 5 is respectively connected with the filling assembly 47 and the third connecting column 44.

Specifically, the feeding mechanism 5, the third turntable 46, the second turntable 43, the main star wheel 41 and the first turntable 42 are arranged in sequence from top to bottom, the lifting assembly can be an air cylinder or a lifting structure consisting of a screw rod and a screw nut, an output shaft of the air cylinder is fixedly connected with the second turntable 43 under the condition that the lifting assembly is the air cylinder, the screw nut is fixedly connected with the second turntable 43 under the condition that the lifting assembly is the lifting structure consisting of the screw rod and the screw nut, the screw rod is rotated to realize the lifting of the screw nut and the second turntable 43, the lifting assembly drives the second turntable 43 to lift, so as to drive the blanking hopper 45 to lift, so that the distance between the lower end of the blanking hopper 45 and the first turntable 42 is adjustable, and the blanking hopper is suitable for bottles with different heights; under the condition that the bottle feeding mechanism 3 conveys the bottles to the rotary filling mechanism 4, the bottles enter the notches of the main star wheel 41, the first rotary disc 42 supports the bottles, the bottles pass through the discharging hoppers 45 which are in one-to-one correspondence with the notches so as to convey materials in the discharging hoppers 45 to the bottles in the corresponding notches, and the filling assemblies 47 which are in one-to-one correspondence with the discharging hoppers 45 so as to convey the materials of the feeding mechanism 5 to the corresponding discharging hoppers 45 by the filling assemblies 47, so that the bottles are filled simultaneously, and the filling efficiency is further improved; through the arrangement of the blanking hopper 45, the rotary filling machine is particularly suitable for filling small-caliber bottles; in addition, a rotary vibrator is arranged in the machine frame 1, an output shaft of the rotary vibrator is fixedly connected with the first rotary disc 42, and the first rotary disc 42 is driven to rotate and simultaneously vibrate, so that the material in the bottle body can be filled more fully.

Further, as shown in fig. 1 and 2, the frame 1 is further provided with a deviation preventing guide rail 13 for preventing the bottles from deviating from the main star wheel 41; the deviation preventing guide 13 is disposed around the main star wheel 41.

Specifically, prevent that inclined to one side guide rail 13 is the major arc form, and the one end of preventing inclined to one side guide rail 13 is close to into bottle star gear 31, and the other end is close to out bottle star gear 61, and at first carousel 42 and main star gear 41 drive bottle pivoted in-process, one side of bottle and the notch butt of main star gear 41, the opposite side with prevent inclined to one side guide rail 13 butt to prevent that the bottle from because of the effect of centrifugal force roll-off main star gear 41's notch and first carousel 42, guaranteed that the bottleneck of bottle is aimed at hopper 45 down.

Further, as shown in fig. 2, the filling assembly 47 includes: filling tubes 471 corresponding to the discharge hopper 45, and a sealing plate 472 for sealing the output ends of the filling tubes 471; the input end of the filling tube 471 is arranged on the feeding mechanism 5, and the output end of the filling tube 471 penetrates through the third turntable 46; the cover plate 472 is slidably disposed on the third rotating disk 46.

Specifically, the input that filling tube 471 was moved to feed mechanism 5's material gets into in the filling tube 471, shrouding 472 slides and sets up on third carousel 46, the output that filling tube 471 can be opened or its shutoff to pulling shrouding 472, there is not the bottle in the notch or under the circumstances to the bottle completion filling, the output of shrouding 472 shutoff filling tube 471, make the material in the filling tube 471 can not fall into hopper 45 down, prevent that the material from dropping or spilling over, under the circumstances that has not the bottle of filling in the notch, pulling shrouding 472, make its output that does not block filling tube 471, just also open the output of filling tube 471, make the material in the filling tube 471 get into in hopper 45 down, hopper 45 down carries the material for the bottle, accomplish the filling to the bottle.

Further, as shown in fig. 1 and fig. 2, a blanking driving assembly for driving the sealing plate 472 to slide is further disposed on the frame 1.

Further, as shown in fig. 2, the feeding driving assembly includes: a blanking guide rail 71 used for pushing the sealing plate 472, a blanking cylinder 72 used for driving the blanking guide rail 71 to lift so as to enable the blanking guide rail 71 to be abutted or separated with the sealing plate 472, and a plurality of fourth connecting columns 73; the fourth connecting column 73 is arranged on the frame 1; any one of the fourth connecting columns 73 is fixedly connected with the blanking cylinder 72; the blanking guide rail 71 is arranged on the fourth connecting column 73 in a sliding manner; the output end of the blanking air cylinder 72 is abutted with the blanking guide rail 71.

Specifically, in the present application, one side of the blanking guide rail 71 close to the filling assembly 47 gradually approaches the filling assembly 47 along the rotation direction of the rotary filling assembly 47, and under the condition that a bottle is in the notch of the main star wheel 41, the blanking cylinder 72 drives the blanking guide rail 71 to ascend, so that the blanking guide rail 71 ascends to abut against the sealing plate 472, and in the rotation process of the rotary filling mechanism 4, the blanking guide rail 71 can gradually push the sealing plate 472 inwards, the sealing plate 472 is provided with a through hole, and in the rotation process of the sealing plate 472, the blanking guide rail 71 can push the sealing plate 472 to enable the through hole on the sealing plate 472 to communicate with the output end of the filling tube 471, so that the material in the filling tube 471 enters the blanking hopper 45; in addition, the filling assembly 47 further includes an elastic member, one end of the elastic member abuts against the sealing plate 472, and the other end is detachably disposed on the third rotating disc 46; after the sealing plate 472 is rotated away from the feeding guide rail 71, the elastic element drives the sealing plate 472 to move outwards, so that the sealing plate 472 blocks the output end of the filling tube 471 again, and the feeding mechanism 5 can feed the material into the filling tube 471 again; under the condition that does not have the bottle in main star wheel 41's the recess, the material loading cylinder drives the material loading guide rail and descends for material loading guide rail and shrouding 472 separation, shrouding 472 keep shutoff filling tube 471's state, prevent that the material in the filling tube 471 from spilling.

Further, as shown in fig. 1 and 3, the feeding mechanism 5 includes: a fourth rotating disk 51, a fixed plate 52 and a bin 53; the fourth rotary disc 51 is arranged on the third connecting column 44; the input end of the filling tube 471 penetrates through the fourth rotating disc 51; the fixed plate 52 is rotatably arranged on the third connecting column 44; the bin 53 is arranged on the fixing plate 52; the output end of the silo 53 may be in communication with the input end of the filling tube 471.

Specifically, under the condition that the first turntable 42 rotates, the first turntable 42 drives the third connecting column 44, the main star wheel 41, the second turntable 43, the third turntable 46, the fourth turntable 51 and the filling assembly 47 to rotate, and in the rotating process, all the filling tubes 471 on the fourth turntable 51 sequentially pass through the feeding bin 53, so that the output ends of the feeding bin 53 are sequentially communicated with the input ends of all the filling tubes 471, and the feeding bin 53 can sequentially convey materials to all the filling tubes 471; in practical applications, the feeding bin 53 is further provided with a screw metering machine to facilitate accurate control of the amount of material delivered to the filling tube 471.

Optionally, the connection between the bottle inlet star wheel 31 and the first connecting column 32, the connection between the bottle outlet star wheel 61 and the second connecting column 62, and the connection between the main star wheel 41 and the third connecting column 44 can adopt detachable connection modes such as bolts and clamping, so that the bottle inlet star wheel 31, the bottle outlet star wheel 61 and/or the main star wheel 41 can be replaced properly according to the size (such as the thickness of the bottle body) of the bottle body.

According to the rotary filling machine, the rotary filling mechanism 4 is used for filling the bottle body in the process of driving the bottle body to rotate, so that the filling efficiency is improved; through the arrangement of the bottle feeding mechanism 3 and the bottle discharging mechanism 6, the bottles are conveniently conveyed from the conveying mechanism 2 to the rotary filling mechanism 4, and the bottles on the rotary filling mechanism 4 are conveniently conveyed to the conveying mechanism 2; through the cooperation of advancing bottle star gear 31 and advancing bottle guide rail 11, go out bottle star gear 61 and the cooperation of going out bottle guide rail 12, can carry the bottle for rotatory filling mechanism 4, also can carry the bottle on the rotatory filling mechanism 4 for conveying mechanism 2, and can not press from both sides the bits of broken glass, press from both sides and hinder the glass bottleneck, the security is higher.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. A rotary filling machine, comprising: the bottle filling machine comprises a rack, a conveying mechanism for conveying bottles, a bottle feeding mechanism for conveying the bottles on the conveying mechanism to a rotary filling mechanism, a rotary filling mechanism for filling the bottles, a feeding mechanism for feeding the rotary filling mechanism, and a bottle discharging mechanism for conveying the bottles on the rotary filling mechanism to the conveying mechanism; the conveying mechanism is arranged on the rack; the bottle feeding mechanism, the rotary filling mechanism and the bottle discharging mechanism are all rotatably arranged on the rack; the feeding mechanism is arranged on the rotary filling mechanism.

2. The rotary filler as set forth in claim 1, wherein the bottle feeding mechanism comprises: the bottle feeding driving assembly is used for driving the first connecting column to rotate; the bottle feeding driving assembly is arranged in the rack; the first connecting column is rotatably arranged on the rack; one end of the first connecting column is fixedly connected with an output shaft of the bottle feeding driving assembly, and the other end of the first connecting column is fixedly connected with the bottle feeding star wheel; the rack is also provided with a bottle feeding guide rail for preventing the bottle body from deviating from the bottle feeding star wheel.

3. The rotary filler as set forth in claim 2, further comprising: the bottle feeding screw is used for conveying the bottle bodies to the bottle feeding star wheel independently, and the bottle feeding star wheel is connected with the bottle feeding star wheel; the screw fixing seat is arranged on the conveying mechanism; the screw driving assembly is arranged on the screw fixing seat; the bottle feeding screw is rotationally arranged on the fixed seat; and an output shaft of the screw driving component is fixedly connected with the bottle feeding screw.

4. The rotary filler as set forth in claim 1, wherein the out-bottle mechanism comprises: the bottle discharging driving assembly is used for driving the second connecting column to rotate; the bottle discharging driving assembly is arranged in the rack; the second connecting column is rotatably arranged on the rack; one end of the second connecting column is fixedly connected with an output shaft of the bottle discharging driving assembly, and the other end of the second connecting column is fixedly connected with the bottle discharging star wheel; the rack is also provided with a bottle outlet guide rail for preventing the bottle body from deviating from the bottle outlet star wheel.

5. The rotary filler machine as claimed in any one of claims 1-4, wherein the rotary filler mechanism comprises: the bottle feeding mechanism comprises a main star wheel for receiving the bottle bodies conveyed by the bottle feeding mechanism, a first rotary table for supporting the bottle bodies, a second rotary table for rotating along with the first rotary table and a lifting assembly for driving the second rotary table to lift; the first rotating disc is rotatably arranged on the rack; a third connecting column is arranged on the first rotary table; the main star wheel and the lifting assembly are both arranged on the third connecting column; an output shaft of the lifting assembly is fixedly connected with the second rotary table; a plurality of blanking hoppers which correspond to the notches of the main star wheel one by one are arranged on the second rotary disc; a third turntable is arranged on the third connecting column; the third turntable is provided with a plurality of filling assemblies which correspond to the plurality of blanking hoppers one by one; and the feeding mechanism is respectively connected with the filling assembly and the third connecting column.

6. The rotary filling machine as recited in claim 5, wherein the frame is further provided with anti-deflection guide rails for preventing deflection of the bottles from the main star wheel; the deviation-preventing guide rail is arranged around the main star wheel.

7. The rotary filler as set forth in claim 5, wherein the filling assembly comprises: the filling tube corresponds to the blanking hopper, and the closing plate is used for closing the output end of the filling tube; the input end of the filling tube is arranged on the feeding mechanism, and the output end of the filling tube penetrates through the third turntable; the closing plate is arranged on the third rotating disc in a sliding mode.

8. The rotary filling machine as claimed in claim 7, wherein a blanking drive assembly is further provided on the frame for sliding the closure plate.

9. The rotary filler as set forth in claim 8, wherein the feed drive assembly comprises: the blanking guide rail is used for pushing the blanking plate, the blanking cylinder is used for driving the blanking guide rail to lift so as to enable the blanking guide rail to be abutted to or separated from the blanking plate, and the plurality of fourth connecting columns are arranged; the fourth connecting column is arranged on the rack; any one of the fourth connecting columns is fixedly connected with the blanking cylinder; the blanking guide rail is arranged on the fourth connecting column in a sliding manner; the output end of the blanking cylinder is abutted to the blanking guide rail.

10. The rotary filler as set forth in claim 7, wherein the feed mechanism comprises: the fourth rotating disc, the fixed plate and the bin; the fourth turntable is arranged on the third connecting column; the input end of the filling tube penetrates through the fourth turntable; the fixing plate is rotatably arranged on the third connecting column; the bin is arranged on the fixing plate; the output end of the storage bin can be communicated with the input end of the filling pipe.