CN107934000B - Bottle state transition switching device of full-automatic packaging machine for bottled oral liquid - Google Patents

Abstract

The bottle state transition conversion device comprises a vertical bottle input mechanism and a horizontal bottle output mechanism, wherein the bottle state transition conversion device comprises a bottle vertical-rotation horizontal roller driving mechanism, a bottle vertical-rotation horizontal roller, a vertical bottle channel guide block and a horizontal bottle guiding-out block, the bottle vertical-rotation horizontal roller driving mechanism is arranged at the left side of the rear end of the vertical bottle input mechanism and is connected with the vertical bottle input mechanism, the left end of the bottle vertical-rotation horizontal roller is connected with the bottle vertical-rotation horizontal roller driving mechanism, the right end of the bottle vertical-rotation horizontal roller extends to the left end of the horizontal bottle output mechanism and is supported on the horizontal bottle output mechanism, the vertical bottle channel guide block is connected to the right side of the rear end of the vertical bottle input mechanism, and the horizontal bottle guiding-out block is fixed on the horizontal bottle output mechanism and corresponds to the front middle part of the bottle vertical-rotation horizontal roller. Labor resources are saved, and sanitation is guaranteed; avoiding pollution and resource waste.

Description

Bottle state transition switching device of full-automatic packaging machine for bottled oral liquid

Technical Field

The invention belongs to the technical field of packaging machinery, and particularly relates to a bottle state transition conversion device of a full-automatic packaging machine for bottled oral liquid.

Background

Typical examples of the bottled oral liquid include, but are not limited to, loquat dew, and typical examples of loquat dew include "preparation method of strong loquat dew" published by chinese patent publication No. CN106620452a (the patent application is filed by the present inventors). As known in the art, the full-automatic packaging machine has the advantages of high packaging efficiency, easy control of packaging quality, saving of precious labor resources, and the like, so that the full-automatic packaging machine is widely used in the medicine production industry and other industries such as food, health care products, electronics, light industry, and the like.

The complete automatic packaging machine comprises the following procedures: filling bottles, capping the bottles, labeling the bottles or coding the bottles, and subsequent packaging, wherein the subsequent packaging comprises boxing the bottles, putting instructions into the bottles, sealing the bottles and boxing the bottles. Further, as is known in the art, bottle filling and bottle capping and bottle cap coding are typically performed with the bottles in an upright position, and subsequent packaging requires the bottles to be in a lying position. It follows that the above-described bottle state transition device is intended to change the bottle from the previous upright state to the lying state, and that the bottle is intended to change from the upright state to the lying state because of the structural limitations of the associated machinery at the subsequent packaging station. For example, the bottles can be pushed into the package and conveniently into the package by a cylinder or the like only when they are in a lying position.

The prior art lacks a device for automatically changing the bottle from the vertical state to the horizontal state (namely the bottle state transition switching device), so that a worker manually turns the bottled oral liquid bottle which is filled, capped and coded from the vertical state to the horizontal state by 90 degrees, and one of the self-evident defects of the operation mode is that the bottle is required to be turned over by manpower, so that precious labor resources are not saved; secondly, the worker's fingers need to pinch the bottle during the process of pulling down the bottle, so there is a fear of losing sanitation; thirdly, because the working intensity of workers is high and the workers are highly stressed, loose working environment is not easy to build for the workers; fourthly, once the bottle is broken due to misoperation, on one hand, the resource waste is caused, and on the other hand, the pollution to equipment is caused. The present inventors have made active and beneficial searches and designs for solving the above-mentioned technical problems, which have been found by the literature, but have not found beneficial suggestions in both the middle and outer patents and the non-patent documents disclosed so far, and finally have formed the technical solutions described below, and have proved to be feasible through computer simulation deduction tests under the condition of taking security measures.

Disclosure of Invention

The invention aims to provide the bottle state transition conversion device of the full-automatic bottled oral liquid packaging machine, which is beneficial to automatically changing the bottle in the vertical state into the horizontal state without human participation, thereby saving precious labor resources, guaranteeing sanitation and avoiding the situation of fragmentation of the bottle in the vertical-to-horizontal process, thereby avoiding pollution and waste.

The invention is based on the task of a bottle state transition device of a full-automatic packaging machine for bottled oral liquid, which comprises a vertical bottle input mechanism and a lying bottle output mechanism, wherein the vertical bottle input mechanism and the lying bottle output mechanism are supported on a terrace of a packaging place in a using state, the left end of the lying bottle output mechanism is connected with the right side of the rear end of the vertical bottle input mechanism, the bottle state transition device comprises a bottle vertical rotation lying roller driving mechanism, a bottle vertical rotation lying roller, a vertical bottle channel guide block and a lying bottle guiding-out block, the bottle vertical rotation lying roller driving mechanism is arranged at the left side of the rear end of the vertical bottle input mechanism and is in transmission connection with the vertical bottle input mechanism, the left end of the bottle vertical rotation lying roller corresponds to the rear end of the vertical bottle output mechanism and is in transmission connection with the bottle vertical rotation lying roller driving mechanism, the right end of the bottle vertical rotation lying roller extends to the left end of the lying bottle output mechanism and is rotatably supported on the lying bottle output mechanism, the vertical channel guide block is arranged at the front of the left end of the vertical rotation lying roller corresponding to the vertical bottle output roller, and the bottle guide block is in the front of the vertical bottle guide block is in the vertical bottle guide channel corresponding to the vertical bottle guide block and is in the middle of the lying roller, and is in the vertical bottle guide channel corresponding to the vertical bottle guide block is in the vertical bottle guide channel and in the middle of the vertical bottle guide direction.

In one specific embodiment of the invention, the vertical bottle input mechanism comprises a support frame, a vertical bottle input curtain roller left support beam, a vertical bottle input curtain roller right support beam, a vertical bottle input curtain rear curtain roller, a vertical bottle input curtain front curtain roller, a vertical bottle input curtain, an input curtain platen, an input curtain bracket and a vertical bottle input curtain power drive, wherein the support frame is supported on a terrace of a packaging site, the vertical bottle input curtain roller left support beam and the vertical bottle input curtain roller right support beam are parallel to each other left and right, the vertical bottle input curtain roller left support beam and the vertical bottle input curtain roller right support beam are supported on the support frame, the vertical bottle input curtain rear curtain roller is rotatably supported between the rear ends of the vertical bottle input curtain roller left support beam and the vertical bottle input curtain roller right support beam, the front curtain roller of the vertical bottle input curtain is rotatably supported between the left supporting beam of the vertical bottle input curtain roller and the front end of the right supporting beam of the vertical bottle input curtain roller in a state of being parallel to the front curtain roller of the vertical bottle input curtain, the rear end of the vertical bottle input curtain is sleeved on the rear curtain roller of the vertical bottle input curtain, the front end is sleeved on the front curtain roller of the vertical bottle input curtain, the input curtain bedplate and the input curtain bracket are fixed between the left supporting beam of the vertical bottle input curtain roller and the right supporting beam of the vertical bottle input curtain roller in a state of being parallel to each other up and down, the upper part of the vertical bottle input curtain is supported by the input curtain bedplate, the lower part of the vertical bottle input curtain is supported by the input curtain bracket, and the power driving device of the vertical bottle input curtain is arranged on the supporting frame and is in transmission connection with the right end of the rear curtain roller of the vertical bottle input curtain; the bottle vertical-rotation horizontal roller driving mechanism is in transmission connection with the vertical bottle input curtain power driving device; the left end of the horizontal bottle output mechanism is connected with the right side of the rear end of the right supporting beam of the vertical bottle input curtain roller; the vertical bottle channel guide block is connected to the upper part of the rear end of the right supporting beam of the vertical bottle input curtain roller at a position corresponding to the front of the left end of the bottle vertical-rotating horizontal roller; the horizontal bottle guiding-out block is fixed at the upper part of the left end of the horizontal bottle output mechanism at a position corresponding to the right side of the rear end of the right supporting beam of the vertical bottle input curtain roller.

In another specific embodiment of the present invention, the support frame includes a set of support frame supporting legs, a support seat board, a left wall board, a right wall board and a wall board reinforcing frame, the set of support frame supporting legs is supported on the terrace of the packaging site, the bearing board is fixed on the set of support frame supporting legs, the left wall board is fixed with the left end edge portion of the support seat board in a state of being perpendicular to the upper side of the support seat board, the right wall board is also fixed with the right end edge portion of the support seat board in a state of being perpendicular to the upper side of the support seat board, and the right wall board corresponds to the left wall board, and the wall board reinforcing frame is fixed with one side of the bearing board facing upward at a position corresponding to between the left wall board and the right wall board; the driving device comprises a driving motor, a driving motor fixing seat, a first motor shaft sprocket, a second motor shaft sprocket, a transition driving sprocket shaft, a transition sprocket driving chain, a vertical bottle input roller sprocket and an input curtain roller sprocket driving chain, wherein the driving motor is fixed with the driving motor fixing seat in a horizontal cantilever state, and is fixed on one side of the driving motor fixing seat, which faces the left wall plate, together with the driving motor, of the right wall plate, a driving motor shaft of the driving motor extends to the right side of the right wall plate, the first motor shaft sprocket and the second motor shaft sprocket are mutually formed into double-row sprockets and are fixed on the driving motor shaft, the transition driving sprocket is fixed at the right end of a transition driving sprocket shaft, the right end of the transition sprocket shaft is rotatably supported on a transition driving sprocket shaft supporting bearing seat, the transition driving sprocket shaft supporting seat is fixed on the transition driving sprocket shaft supporting seat, one end of the transition sprocket driving chain is sleeved on the transition driving sprocket, the other end of the bottle is sleeved on the first motor shaft, the vertical input roller is fixed on the right end of the bottle, the right curtain roller is sleeved on the right roller curtain roller, and the right end of the bottle is sleeved on the input roller is rotatably supported on the bottle roller bearing seat; the bottle vertical-rotation horizontal roller driving mechanism is arranged on the left side of the supporting seat plate and is in transmission connection with the left end of the transition transmission chain wheel shaft; the left end of the horizontal bottle output mechanism is connected with the right wallboard; the right supporting beam of the vertical bottle input curtain roller is formed by extending the left wallboard forwards, and the right supporting beam of the vertical bottle input curtain roller is formed by extending the right wallboard forwards; a bottle blocking adjusting mechanism is arranged at a position above the left side edge corresponding to the length direction of the vertical bottle input curtain; a bottle baffle strip is fixed at a position corresponding to the upper part of the right supporting beam of the vertical bottle input curtain roller in the length direction, a vertical bottle channel guide block fixing plate is fixed at the upper part of the rear end of the bottle baffle strip, and the vertical bottle channel guide block is connected to the vertical bottle channel guide block fixing plate at a position corresponding to the front part of the left end of the vertical bottle rotating horizontal roller; the bottle guiding and lying curved surface is formed on the lying bottle guiding block.

In a further specific embodiment of the invention, the bottle vertically-rotating and horizontally-rotating roller driving mechanism comprises a transmission box, a bottle vertically-rotating and horizontally-rotating roller driving sprocket, a power introduction sprocket and a coupling, wherein the bottom of the transmission box is supported at the left end of a transmission box supporting plate, the middle part of the transmission box supporting plate is fixed with the supporting seat plate, the transition transmission sprocket supporting seat supporting plate is fixed with the right end of the transmission box supporting plate, the bottle vertically-rotating and horizontally-rotating roller driving sprocket is arranged in a transmission box cavity of the transmission box and is fixed with the left end of the bottle vertically-rotating and horizontally-rotating roller, the power introduction sprocket is also arranged in the transmission box cavity of the transmission box and is fixed at the left end of a power introduction sprocket shaft of the power introduction sprocket, the middle part of the power introduction sprocket shaft is rotatably supported on the right box wall of the transmission box, the right end of the power introduction sprocket shaft extends to the right side of the right box wall of the transmission box, the upper end of the bottle vertically-rotating and horizontally-rotating roller driving sprocket shaft is sleeved on the bottle vertically-rotating and the right end of the transmission box supporting plate, the lower end of the bottle vertically-rotating and the power introduction sprocket shaft is sleeved on the power introduction sprocket shaft and the transition sprocket shaft is rotatably connected with the right end of the power introduction sprocket shaft; the bottle vertical-rotating horizontal roller support plate is arranged above the bottle vertical-rotating horizontal roller in the length direction, the left end of the bottle vertical-rotating horizontal roller support plate is fixed with the top of the transmission box, the right end of the bottle vertical-rotating horizontal roller support plate is fixedly provided with a bottle vertical-rotating horizontal roller right spindle nose support shaft seat, the bottle vertical-rotating horizontal roller right spindle nose support shaft seat is supported and fixed on the left rear side upper edge of the horizontal bottle output mechanism, a bottle vertical-rotating horizontal roller left spindle nose is formed in the central position of the left end face of the bottle vertical-rotating horizontal roller, the bottle vertical-rotating horizontal roller left spindle nose is rotatably supported on the right box wall of the transmission box through a left spindle nose bearing and extends into the cavity of the transmission box, a bottle vertical-rotating horizontal roller driving sprocket is fixed on the bottle vertical-rotating horizontal roller left spindle nose, and a bottle vertical-rotating horizontal roller right spindle nose is formed in the central position of the right end face of the bottle vertical-rotating horizontal roller and is rotatably supported on the bottle vertical-rotating horizontal roller right spindle nose support through a right spindle nose bearing seat.

In still another specific embodiment of the present invention, the bottle stopper adjustment mechanism includes a bottle stopper adjustment plate and a set of adjustment plate adjustment means, the bottle stopper adjustment plate being in a suspended state above a left side edge portion of the vertical bottle stopper, the set of adjustment plate adjustment means being disposed at a position corresponding to a side of the bottle stopper opposite the bottle stopper bar and spaced apart along the length direction of the bottle stopper adjustment plate, the set of adjustment plate adjustment means each including a push rod seat, a push rod and a push rod locking screw, a lower portion of the push rod seat being fixed to a side of the vertical bottle stopper roller left support beam opposite the vertical bottle stopper roller right support beam, an upper portion of the push rod seat being projected from an upper edge of the vertical bottle stopper roller left support beam, one end of the push rod being fixed to the left side of the bottle stopper adjustment plate, and one end of the push rod being inserted into a push rod hole formed in the upper portion of the push rod seat, the push rod locking screw being disposed on the push rod seat at a top of the push rod seat and communicating with the push rod hole, the push rod screw being moved toward the bottle stopper bar by the push rod screw, the distance between the push rod bar and the bottle stopper bar being increased toward the bottle stopper bar when the distance is decreased toward the bottle stopper bar by pulling the distance between the push rod and the push rod bar and the end bar adjustment means.

In still another specific embodiment of the present invention, a vertical bottle guiding mechanism is provided at the rear end of the bottle barrier, the vertical bottle guiding mechanism including a guiding plate connecting seat, a guiding plate connecting seat fixing block, a guiding plate free end limiting piece, a limiting piece fixing seat and a guiding plate, the guiding plate corresponding to the right side of the rear end of the vertical bottle input curtain in a state of being emptied in the vertical bottle input curtain, the guiding plate being fixed with the guiding plate connecting seat on the right side of the front end, and the rear end of the guiding plate being configured as a free end, the guiding plate connecting seat being fixed with the guiding plate connecting seat fixing block, the guiding plate free end limiting piece being in contact with the right side of the free end of the guiding plate toward one end of the guiding plate, and the guiding plate free end limiting piece being fixed with the limiting piece fixing seat toward one end of the limiting piece fixing seat, and the limiting piece fixing seat being fixed with the vertical bottle guide plate at a position corresponding to the front side of the vertical bottle guide.

In a further specific embodiment of the present invention, a vertical bottle channel guide adjustment screw is provided on the retainer plate mounting base with the distal end of the vertical bottle channel guide adjustment screw in contact with the front side of the vertical bottle channel guide.

In a further specific embodiment of the invention, an electrical control is provided on the right side of the right support beam of the vertical bottle input curtain roller, and the drive motor is in electrical control connection with the electrical control.

In still another specific embodiment of the present invention, the lying bottle discharging mechanism includes a cross beam supporting frame, a front cross beam, a rear cross beam, a drum front chain, a drum rear chain, a pair of drum chain front sprockets, a pair of drum chain rear sprockets and a drum, the cross beam supporting frame being supported on the floor of the packaging site and the left end of the cross beam supporting frame being connected to the right side of the rear end of the right supporting beam of the vertical bottle feeding curtain roller, the front cross beam and the rear cross beam being parallel to each other and the left ends of the front cross beam and the rear cross beam being fixed to the upper portion of the cross beam supporting frame, while the right end being supported on the floor by cross beam supporting legs, a pair of drum chain front sprockets being rotatably supported at the ends of the front cross beam toward the rear cross beam, the positions of the pair of drum chain rear sprockets corresponding to the positions of the pair of drum chain front sprockets and being rotatably supported at the ends of the rear cross beam toward the front cross beam, the front chain is sleeved between a pair of front chain wheels, the rear chain is sleeved between a pair of rear chain wheels, the plurality of rollers are connected between the front chain and the rear chain in a mutually spaced state, the space between each two adjacent rollers is formed into a lying bottle bearing cavity for bearing a lying bottle, the front chain wheel shaft of one of the front chain wheels of the pair of front chain wheels or the rear chain wheel shaft of one of the rear chain wheels of the pair of rear chain wheels is driven by a chain wheel shaft driving device, wherein a guide-out block fixing platform is formed at the upper part of the left end between the front cross beam and the rear cross beam, and the lying bottle guide-out block corresponding to the front part of the middle part of the bottle vertical-rotating lying roller is fixed on the guide-out block fixing platform.

In yet another specific embodiment of the present invention, a lying bottle anti-tamper plate is fixed to the upper portion of the front cross member and at a position corresponding to the front of the right end of the bottle vertically rotating and lying roller.

The technical scheme provided by the invention has the technical effects that: because the vertical bottles are conveyed to the vertical-rotating horizontal rollers by the vertical bottle input mechanism, under the rotation of the vertical-rotating horizontal rollers, the vertical bottles travel in the direction of the horizontal bottle guiding-out block through the vertical bottle travelling channel between the vertical bottle channel guide block and the vertical-rotating horizontal rollers, when the vertical bottles reach the horizontal bottle guiding-out block, the horizontal bottles are supplied to the horizontal bottle output mechanism by the vertical bottle guiding-out mechanism, and the horizontal bottles are boxed and boxed at the backward station by the horizontal bottle output mechanism, so that the bottles can automatically evolve from the vertical state to the horizontal state without human participation, thereby saving precious labor resources and guaranteeing sanitation; due to the reasonable structure of the horizontally arranged bottle guiding-out block, the situation of fragmentation can not occur in the process of supplying the horizontally arranged bottle output mechanism, thereby avoiding pollution and resource waste.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is a left side schematic view of fig. 1.

Detailed Description

In order to make the technical spirit and advantages of the present invention more clearly understood, the applicant will now make a detailed description by way of example, but the description of the examples is not intended to limit the scope of the invention, and any equivalent transformation made merely in form, not essentially, according to the inventive concept should be regarded as the scope of the technical solution of the present invention.

In the following description, all concepts related to the directions or azimuths of up, down, left, right, front and rear are in terms of the position state of fig. 1, for example, the position state of fig. 2 is different from that of fig. 1, but is also subject to the position state of fig. 1, and thus cannot be understood as a specific limitation on the technical solution provided by the present invention.

Referring to fig. 1, there are shown a vertical bottle input mechanism 1 and a horizontal bottle output mechanism 2 of a structural system of a full-automatic packaging machine for bottled oral liquid, which are supported on a floor of a packaging site in a use state, and a left end of the horizontal bottle output mechanism 2 is connected to a right side of a rear end of the vertical bottle input mechanism 1. The bottle state transition switching device comprises a bottle vertical-rotation horizontal roller driving mechanism 3, a bottle vertical-rotation horizontal roller 4, a vertical bottle channel guide block 5 and a horizontal bottle guiding block 6, wherein the bottle vertical-rotation horizontal roller driving mechanism 3 is arranged at the left side of the rear end of the vertical bottle input mechanism 1 and is in transmission connection with the vertical bottle input mechanism 1, the left end of the bottle vertical-rotation horizontal roller 4 corresponds to the rear end of the vertical bottle output mechanism 1 and is in transmission connection with the bottle vertical-rotation horizontal roller driving mechanism 3, the right end of the bottle vertical-rotation horizontal roller 4 extends to the left end of the horizontal bottle output mechanism 2 and is rotatably supported on the horizontal bottle output mechanism 2, the vertical bottle channel guide block 5 is connected at the right side of the rear end of the vertical bottle input mechanism 1 at a position corresponding to the front end of the bottle vertical-rotation horizontal roller 4, a space between the vertical bottle channel 5 and the vertical bottle vertical-rotation horizontal roller 4 is formed into a vertical bottle travelling channel 7, and the horizontal bottle guiding block 6 is fixedly arranged at the rear end of the vertical bottle output mechanism 2 corresponding to the front end of the vertical-rotation horizontal bottle output mechanism 1 and is also rotatably supported on the horizontal bottle output block 2 corresponding to the front end of the vertical-rotation horizontal bottle output mechanism 4.

The aforementioned vertical bottle travel path 7 is required to meet the requirements for passing through the bottle in the vertical state, i.e., the vertical bottle 10a, according to the common general knowledge.

Referring to fig. 2 in combination with fig. 1, the aforementioned vertical bottle feeding mechanism 1 includes a support frame 11, a vertical bottle feeding curtain roller left support beam 12, a vertical bottle feeding curtain roller right support beam 13, a vertical bottle feeding curtain rear curtain roller 14, a vertical bottle feeding curtain front curtain roller 15, a vertical bottle feeding curtain 16, a feeding curtain platen 17, a feeding curtain bracket 18, and a vertical bottle feeding curtain power drive device 19, the support frame 11 is supported on the floor of the packaging site, the vertical bottle feeding curtain roller left support beam 12 and the vertical bottle feeding curtain roller right support beam 13 are parallel to each other (may also be referred to as left-right correspondence) and the vertical bottle feeding curtain roller left support beam 12 and the vertical bottle feeding curtain roller right support beam 13 are supported on the support frame 11, the vertical bottle feeding curtain rear curtain roller 14 is rotatably supported between the vertical bottle feeding curtain roller left support beam 12 and the rear end of the vertical bottle feeding curtain roller right support beam 13, the vertical bottle input curtain front curtain roller 15 is rotatably supported between the vertical bottle input curtain roller left support beam 12 and the front end of the vertical bottle input curtain roller right support beam 13 in parallel with the vertical bottle input curtain rear curtain roller 14, the rear end of the vertical bottle input curtain 16 is sleeved on the vertical bottle input curtain rear curtain roller 14, and the front end is sleeved on the vertical bottle input curtain front curtain roller 15, the input curtain platen 17 and the input curtain bracket 18 are fixed between the vertical bottle input curtain roller left support beam 12 and the vertical bottle input curtain roller right support beam 13 in parallel with each other, the upper part of the vertical bottle input curtain 16 is supported by the input curtain platen 17, the lower part of the vertical bottle input curtain 16 is supported by the input curtain bracket 18, the power driving device 19 of the vertical bottle input curtain is arranged on the supporting frame 11 and is connected with the right end of the rear curtain roller 14 of the vertical bottle input curtain in a transmission way; the bottle vertical-rotation horizontal roller driving mechanism 3 is in transmission connection with the vertical bottle input curtain power driving device 19;

From the schematic of fig. 2, it can be determined that: when the vertical bottle input curtain 16 moves to the upper part, the vertical bottle input curtain is placed on the input curtain table plate 17, namely, the vertical bottle input curtain is supported by the input curtain table plate 17, and when the vertical bottle input curtain 16 moves to the lower part, the vertical bottle input curtain is placed on the input curtain bracket 18, namely, the vertical bottle input curtain is supported by the input curtain bracket 18, and the function of the support is to avoid deflection of the vertical bottle input curtain 16 and influence on stable erection of the vertical bottle 10 a. As can be seen from fig. 2, the following is true: the vertical bottle input curtain rear curtain roller 14 and the vertical bottle input curtain front curtain roller 15 may be referred to as hexagonal shafts because they have an equal hexagonal cross-sectional shape.

As shown in fig. 1 and 2, the left end of the horizontal bottle output mechanism 2 is connected to the right side of the rear end of the right support beam 13 of the vertical bottle input curtain roller; the vertical bottle channel guide block 5 is connected to the upper part of the rear end of the right support beam 13 of the vertical bottle input curtain roller at a position corresponding to the front of the left end of the bottle vertical-rotating horizontal roller 4; the above-mentioned lying bottle guide-out block 6 is fixed to the upper left end of the above-mentioned lying bottle output mechanism 2 at a position corresponding to the right side of the rear end of the right support beam 13 of the above-mentioned vertical bottle input curtain roller.

With continued reference to fig. 1 and 2, the aforementioned support frame 11 includes a set of support frame support legs 111, a support seat plate 112, a left wall plate 113, a right wall plate 114, and a wall plate reinforcing frame 115, the set of support frame support legs 111 is supported on the floor of the packaging site, the support seat plate 112 is fixed to the set of support frame support legs 111, the left wall plate 113 is fixed to the left end edge portion of the support seat plate 112 in a state perpendicular to the upper side of the support seat plate 112, the right wall plate 114 is fixed to the right end edge portion of the support seat plate 112 in a state perpendicular to the upper side of the support seat plate 112 as well, and the right wall plate 114 corresponds to the left wall plate 113, the wall plate reinforcing frame 115 is fixed to the side of the support seat plate 112 facing upward at a position corresponding to between the left and right wall plates 113, 114 using wall plate reinforcing frame fixing screws 1151 and the wall plate reinforcing frame fixing screws 1151 are fixed to the top of the aforementioned support frame support leg 111 after passing through the support seat plate 112.

Referring to fig. 2, the aforementioned vertical bottle input curtain power driving device 19 includes a driving motor 191, a driving motor fixing base 192, a motor shaft first sprocket 193, a motor shaft second sprocket 194, a transition driving sprocket 195, a transition driving sprocket shaft 196, a transition sprocket driving chain 197, a vertical bottle input curtain roller sprocket 198 and an input curtain roller sprocket driving chain 199, the driving motor 191 is fixed to the driving motor fixing base 192 in a horizontally cantilever state, and is fixed to the side of the aforementioned left wall plate 113 by the driving motor fixing base 192 together with the driving motor 191 and the aforementioned right wall plate 114, a driving motor shaft 1911 of the driving motor 191 extends to the right side of the right wall plate 114, the motor shaft first sprocket 193 and the motor shaft second sprocket 194 are constituted as double-row sprockets with each other and are fixed to the driving motor shaft 1911, the transition drive sprocket 195 is fixed to the right end of the transition drive sprocket shaft 196, the right end of the transition sprocket shaft 196 is rotatably supported on the transition drive sprocket shaft support bearing block 1961, the transition drive sprocket shaft support bearing block 1961 is fixed on the transition drive sprocket shaft support bearing block 19611, the transition drive sprocket shaft support bearing block 19611 is fixed to the right side of the aforementioned support base plate 112, one end of the transition sprocket drive chain 197 is sleeved on the transition drive sprocket 195, the other end is sleeved on the motor shaft first sprocket 193, the vertical bottle input curtain roller sprocket 198 is fixed to the right end of the aforementioned vertical bottle input curtain rear curtain roller 14, the upper end of the input curtain roller sprocket drive chain 199 is sleeved on the vertical bottle input curtain roller sprocket 198, and the lower end is sleeved on the motor shaft second sprocket 194.

As can be seen from the schematic views of fig. 1 and 2, the bottle vertically rotating and horizontally rotating roller driving mechanism 3 is disposed on the left side of the support base plate 112 and is in driving connection with the left end of the transition transmission sprocket shaft 196; the left end of the horizontal bottle output mechanism 2 is connected with the right side of the right wall plate 114; the right support beam 12 of the vertical bottle feeding curtain roller is formed by extending the left wall plate 113 forward, and the right support beam 13 of the vertical bottle feeding curtain roller is formed by extending the right wall plate 114 forward; a bottle blocking adjusting mechanism 8 is arranged at a position corresponding to the upper part of the left side edge of the vertical bottle input curtain 16 in the length direction; a bottle stopper 131 is fixed at a position corresponding to the upper part of the right supporting beam 13 of the vertical bottle input curtain roller in the length direction, a vertical bottle channel guide block fixing plate 1311 is fixed at the upper part of the rear end of the bottle stopper 131, and the vertical bottle channel guide block 5 is connected to the vertical bottle channel guide block fixing plate 1311 at a position corresponding to the front of the left end of the bottle vertical-to-horizontal roller 4; the above-described lying bottle guide block 6 is provided with a bottle guide curved surface 61 (also referred to as a "bottle falling guide curved surface", hereinafter).

With continued reference to fig. 1 and 2, the bottle vertically-rotating and horizontally-rotating roller driving mechanism 3 includes a transmission case 31, a bottle vertically-rotating and horizontally-rotating roller driving sprocket 32, a bottle vertically-rotating and horizontally-rotating roller driving sprocket 33, a power-introducing sprocket 34, and a coupling 35, the bottom of the transmission case 31 is supported at the left end of a transmission case supporting plate 311, the middle of the transmission case supporting plate 311 is fixed to the aforementioned supporting seat plate 112, the aforementioned transitional transmission sprocket bearing seat supporting plate 19611 is fixed to the right end of the transmission case supporting plate 311, the bottle vertically-rotating and horizontally-rotating roller driving sprocket 32 is disposed in a transmission case cavity 312 of the transmission case 31 and fixed to the left end of the aforementioned bottle vertically-rotating and horizontally-rotating roller 4, the power-introducing sprocket 34 is also disposed in a transmission case cavity 312 of the transmission case 31 and fixed to the left end of a power-introducing sprocket 341 of the power-introducing sprocket 34, the middle of the power-introducing sprocket 341 is rotatably supported on the transmission case right case wall of the transmission case 31, the right end of the power-introducing sprocket 341 is stretched to the right side of the transmission case wall, the upper end of the bottle vertically-rotating and horizontally-rotating roller driving sprocket 33 is fitted over the power-rotating and the power-introducing sprocket 32 is connected to the transitional sprocket 196 at the front end of the power-introducing sprocket 35.

As shown in fig. 1 and 2, a bottle vertically rotating and lying roller support plate 41 is provided above the longitudinal direction of the bottle vertically rotating and lying roller 4, the left end of the bottle vertically rotating and lying roller support plate 41 is fixed to the top of the transmission case 31 by a left fixing screw, a bottle vertically rotating and lying roller right-shaft head support pedestal 411 is fixed to the right end of the bottle vertically rotating and lying roller support plate 41, the bottle vertically rotating and lying roller right-shaft head support pedestal 411 is supported and fixed to the left end rear upper edge of the lying bottle output mechanism 2, a bottle vertically rotating and lying roller left-shaft head 42 is formed at the center position of the left end face of the bottle vertically rotating and lying roller 4, the bottle vertically rotating and lying roller left-shaft head 42 is rotatably supported on the right case wall of the transmission case 31 by the left-shaft head bearing 421 and extends into the transmission case cavity 312, the bottle vertically rotating and lying roller driving sprocket 32 is fixed to the bottle vertically rotating and lying roller left-shaft head 42, a bottle vertically rotating and lying roller right-shaft head support shaft head 43 is formed at the center position of the right end face of the bottle vertically rotating and lying roller support plate 411, and the bottle vertically rotating and lying roller support plate 4 is fixed to the right shaft head support 43 by the right vertical rotating and lying roller support shaft head 43.

When the driving motor 191 works, the driving motor shaft 1911 drives the motor shaft first sprocket 193 and the motor shaft second sprocket 194, the transition sprocket drive chain 197 is sleeved between the transition drive sprocket 195 and the motor shaft first sprocket 193, and the input curtain roller sprocket drive chain 199 is sleeved between the vertical bottle input curtain roller sprocket 198 and the motor shaft second sprocket 194, so that when the driving motor shaft 1911 drives the motor shaft first sprocket 193 and the motor shaft second sprocket 193 and 194 to move, the transition drive sprocket 197 drives the transition drive sprocket 195, the transition drive sprocket shaft 196 is driven by the transition drive sprocket 195, the power input sprocket shaft 341 is driven by the coupling 35, the power input sprocket 34 is driven by the power input sprocket shaft 341, the bottle vertical-rotating horizontal roller drive sprocket 32 is driven by the bottle vertical-rotating horizontal roller drive sprocket 32, and the bottle vertical-rotating horizontal roller 4 is driven by the bottle vertical-rotating horizontal roller drive sprocket 32. At the same time, the motor shaft second sprocket 194 drives the vertical bottle feeding roller sprocket 198 via the feeding roller sprocket drive chain 199, the vertical bottle feeding roller sprocket 198 drives the vertical bottle feeding rear curtain roller 14, and the vertical bottle feeding rear curtain roller 14 drives the vertical bottle feeding curtain 16 to move around the vertical bottle feeding front and rear curtain rollers 15, 14 repeatedly to form a conveying plane for carrying the vertical bottle 10a, that is, conveying the vertical bottle 10a in the direction of the bottle vertical-rotation horizontal roller 4.

With continued reference to fig. 1 and 2, the aforementioned bottle stopper adjusting mechanism 8 includes a bottle stopper adjusting plate 81 and a set of adjusting plate adjusting devices 82, the bottle stopper adjusting plate 81 is suspended above the left side edge portion of the aforementioned vertical bottle stopper 16, the set of adjusting plate adjusting devices 82 are spaced apart along the length direction of the bottle stopper adjusting plate 81 at positions corresponding to the sides of the bottle stopper adjusting plate 81 facing away from the aforementioned bottle stopper 131, the set of adjusting plate adjusting devices 82 each include a push rod seat 821, a push rod 822 and a push rod locking screw 823, the lower portion of the push rod seat 821 is fixed to the side of the aforementioned vertical bottle stopper roller left support beam 12 facing away from the aforementioned vertical bottle stopper roller right support beam 13 through push rod seat fixing screws 8213, the upper portion of the push rod seat 821 is projected (i.e., is raised from the upper edge (upper plane) of the vertical bottle stopper roller left support beam 12), one end of the push rod 822 facing the bottle stopper adjusting plate 81 is fixed to the left side of the bottle stopper adjusting plate 81, one end of the push rod 822 facing the push rod seat 821 is inserted into the upper portion 823 of the push rod seat 823 by means of the push rod seat locking screws 823, and the push rod seat 821 is locked to the push rod seat 821 is opened to the push rod seat 823 by the push rod seat 11 by the push rod seat locking screws 823.

When the push rod 822 pushes the bottle baffle 81 toward the bottle baffle 131, the distance between the bottle baffle 81 and the bottle baffle 131 is reduced, and when the push rod 822 pulls the bottle baffle 81 away from the bottle baffle 131, the distance between the bottle baffle 81 and the bottle baffle 131 is increased to meet the requirement of less or more conveying amount of the vertical bottles 10 a.

Referring to fig. 1, a vertical bottle guiding mechanism 9 is disposed at the rear end of the bottle barrier 131, the vertical bottle guiding mechanism 9 includes a guiding plate connecting seat 91, a guiding plate connecting seat fixing block 92, a guiding plate free end limiting piece 93, a limiting piece fixing seat 94 and a guiding plate 95, the guiding plate 95 corresponds to the right side of the rear end of the vertical bottle input curtain 16 in a state of being emptied into the vertical bottle input curtain 16 (i.e. a gap is kept between the guiding plate and the vertical bottle input curtain 16), the right side of the front end of the guiding plate 95 is fixed with the guiding plate connecting seat 91, the rear end of the guiding plate 95 is formed as a free end, the guiding plate connecting seat 91 is fixed with the guiding plate connecting seat fixing block 92 through a guiding plate connecting seat screw 911, the guiding plate connecting seat fixing block 92 is fixed with the upper portion of the bottle barrier 131, one end of the guiding plate free end limiting piece 93 faces the right side of the free end of the guiding plate 95, and the limiting piece 93 faces the right side of the free end of the vertical bottle input curtain 16, and the guiding plate 93 faces the limiting piece 94 and is fixed with the guiding plate fixing seat 942 at the front end of the fixing seat 942 by adopting a limiting piece 94 and the fixing seat 942 at the front end of the fixing seat 942 1.

As shown in fig. 1, a vertical bottle channel guide adjusting screw 941 is provided on the stopper fixing base 94, and the tip of the vertical bottle channel guide adjusting screw 941 is in contact with the front side of the vertical bottle channel guide 5. The position of the vertical bottle channel guide 5 relative to the bottle vertically rotating horizontal roller 4 can be changed as needed by adjusting the vertical bottle channel guide adjusting screw 941, that is, the width of the vertical bottle traveling channel 7 (according to the diameter of the bottle) can be changed as needed. Also shown in fig. 1 is a screw shaft 51 for connecting (preferably pivotally connecting) the vertical bottle channel guide 5 to the aforementioned vertical bottle channel guide retainer plate 1311.

As shown in fig. 1, an electric controller 132 is provided on the right side of the right support beam 13 of the vertical bottle feeding roller, and the driving motor 191 is electrically and controllably connected to the electric controller 132.

With particular reference to fig. 1 and in combination with fig. 2, the aforesaid lying bottle delivery mechanism 2 comprises a cross beam support frame 21, a front cross beam 22, a rear cross beam 23, a roller front chain 24, a roller rear chain 25, a pair of roller chain front sprockets 26, a pair of roller chain rear sprockets 27 and a roller 28, the cross beam support frame 21 being supported on the floor of the packaging site by means of cross beam support frame legs 211 and the left end of the cross beam support frame 21 being connected to the right side of the rear end of the aforesaid vertical bottle input curtain roller right support beam 13, the front cross beam 22 and the rear cross beam 23 being parallel to each other and the left end of the front cross beam 22 and the rear cross beam 23 being fixed to the upper portion of the cross beam support frame 21, while the right end being supported on the floor by cross beam support legs (not shown in the drawings), a pair of roller chain front sprockets 26 being rotatably supported at the ends (i.e. left and right ends) of the front cross beam 22 toward the rear cross beam 23, a pair of roller chain rear sprockets 27 being positioned corresponding to the positions of the roller chain front sprockets 26 and rotatably supported at the ends (left and right ends) of the rear cross beam 23 toward the front cross beam 22, the roller sprockets 24 being rotatably supported at the ends (left ends and 24) of the rear cross beam 23 toward the front cross beam 22, the front sprocket 25 being placed between the roller chain sprockets 25 and the roller chain rear sprocket pair being placed between the roller chain front sprocket 25 and the roller chain sprocket pair being placed between the roller chain sprocket pair and roller chain sprocket 25 and the roller chain space therebetween, and the bottle carrier space is placed between the roller carrier space between the roller chain and roller chain 25.

According to common knowledge, the front sprocket shaft of one of the pair of roller chain front sprockets 26 or the rear sprocket shaft of one of the pair of roller chain rear sprockets 27 is driven by the sprocket shaft driving device. A guide block fixing platform 29 is formed at the upper left end between the front cross member 22 and the rear cross member 23, and the horizontally placed bottle guide block 6 corresponding to the front of the middle of the bottle vertically rotating horizontal roller 4 is fixed to the guide block fixing platform 29 by a guide block fixing screw 62. The right side of the lying bottle guide block 6 is configured as a lying bottle outlet 63.

Preferably, a lying bottle anti-tamper plate 221 is fixed to the upper portion of the front cross member 22 and at a position corresponding to the front of the right end of the bottle erecting/rotating lying roller 4.

Also shown in fig. 1 is a bearing housing adjustment box 222 provided on the front cross member 22 and corresponding to the front sprocket shaft 261 of the left one of the aforementioned pair of roller chain front sprockets 26, a front sprocket shaft support housing 2611 supported by the aforementioned front sprocket shaft 261 of the roller chain front sprocket 26 being provided in a box cavity of the bearing housing adjustment box 222 so as to be moved left and right, and a bearing housing adjustment screw 2221 being provided on each of left and right sides of the bearing housing adjustment box 222 and in positions corresponding to the left and right sides of the front sprocket shaft support housing 2611, the left or right adjustment of the front sprocket shaft support housing 2611 being made as needed by the two bearing housing adjustment screws 2221. A bearing housing adjustment box is also provided on the rear cross member 23 and at a position corresponding to a rear sprocket shaft (not shown in the drawings) of the left one of the pair of roller chain rear sprockets 27, and since the bearing housing adjustment box functions exactly the same as the aforementioned bearing housing adjustment box 222, even though the applicant is not shown in the drawings, it does not give any confusion to the understanding of those skilled in the art.

Under the operation of the sprocket shaft driving device, the front roller chain 24 and the rear roller chain 25 are repeatedly moved by the pair of front roller chain sprockets 26 and the pair of rear roller chain sprockets 27 to drive the roller 28 to move, so that bottles in a lying state, such as the lying bottles 10b (150 mL per bottle) filled with the loquat dew, introduced into the lying bottle bearing cavity 281 through the lying bottle outlet 63, are conveyed to the subsequent boxing and boxing station.

The vertical bottles 10a which have been filled, sealed and labeled (or labeled) by the previous process and are in the vertical state are conveyed by the applicant to the left end of the bottle vertical-turning horizontal roller 4 through the vertical bottle input curtain 16, in the state of rotation of the bottle vertical-turning horizontal roller 4, the vertical bottles 10a enter the vertical bottle traveling channel 7 by the spiral groove 44 on the bottle vertical-turning horizontal roller 4, the vertical bottles 10a continue to move rightward, when reaching the bottle guide horizontal curved surface 61 of the horizontal bottle guiding block 6, the vertical bottles 10a which are in the vertical state previously are changed into the horizontal state along the bottle guide horizontal curved surface 61, namely into the horizontal bottles 10b from the horizontal bottle outlet 63 and enter the horizontal bottle bearing cavity 281, and in the applicant's description, the horizontal bottle output mechanism 2 is used for subsequent boxing (pushing bottles into boxes) and boxing (packing boxes into boxes) stations.

In summary, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the task of the invention, and faithfully honors the technical effects carried by the applicant in the technical effect column above.

Claims (8)

1. The bottle state transition conversion device of the full-automatic bottled oral liquid packaging machine comprises a vertical bottle input mechanism (1) and a horizontal bottle output mechanism (2) which are supported on a terrace of a packaging place in a using state, wherein the left end of the horizontal bottle output mechanism (2) is connected with the right side of the rear end of the vertical bottle input mechanism (1), the bottle state transition conversion device is characterized by comprising a bottle vertical rotating horizontal roller driving mechanism (3), a bottle vertical rotating horizontal roller (4), a vertical bottle channel guide block (5) and a horizontal bottle guiding block (6), the bottle vertical rotating horizontal roller driving mechanism (3) is arranged at the left side of the rear end of the vertical bottle input mechanism (1) and is in transmission connection with the vertical bottle input mechanism (1), the left end of the bottle vertical rotating horizontal roller (4) corresponds to the rear end of the vertical bottle output mechanism (1) and is in transmission connection with the right side of the bottle vertical rotating horizontal roller driving mechanism (3), the right end of the bottle vertical rotating horizontal roller (4) is connected to the left end of the vertical bottle guide block (2) which is in front of the vertical bottle output mechanism (2) which is in the vertical bottle output position (2), the space between the vertical bottle channel guide block (5) and the bottle vertical-rotating horizontal roller (4) is formed into a vertical bottle travelling channel (7), a horizontal bottle guiding-out block (6) is fixed on the horizontal bottle output mechanism (2) at a position corresponding to the right side of the rear end of the vertical bottle input mechanism (1), and the horizontal bottle guiding-out block (6) also corresponds to the front middle part of the bottle vertical-rotating horizontal roller (4); the vertical bottle input mechanism (1) comprises a supporting frame (11), a vertical bottle input curtain roller left supporting beam (12), a vertical bottle input curtain roller right supporting beam (13), a vertical bottle input curtain rear curtain roller (14), a vertical bottle input curtain front curtain roller (15), a vertical bottle input curtain (16), an input curtain platen (17), an input curtain bracket (18) and a vertical bottle input curtain power driving device (19), wherein the supporting frame (11) is supported on a terrace of a packaging place, the vertical bottle input curtain roller left supporting beam (12) and the vertical bottle input curtain roller right supporting beam (13) are parallel to each other left and right, the vertical bottle input curtain roller left supporting beam (12) and the vertical bottle input curtain roller right supporting beam (13) are supported on the supporting frame (11), the vertical bottle input curtain rear curtain roller (14) is rotatably supported between the vertical bottle input curtain roller left supporting beam (12) and the rear end of the vertical bottle input curtain roller right supporting beam (13), the vertical bottle input curtain front curtain roller (15) is rotatably supported on the vertical bottle input curtain roller front curtain roller (12) and the vertical bottle input curtain roller rear curtain roller (13) in a state of being parallel to the vertical bottle input rear curtain roller (14), the vertical bottle input curtain roller front curtain roller (13) is sleeved on the vertical bottle input curtain roller front curtain roller (13) and the vertical bottle input curtain roller front curtain roller (13, the input curtain platen (17) and the input curtain bracket (18) are fixed between the left supporting beam (12) of the vertical bottle input curtain roller and the right supporting beam (13) of the vertical bottle input curtain roller in a state of being parallel to each other up and down, the upper part of the vertical bottle input curtain (16) is supported by the input curtain platen (17), the lower part of the vertical bottle input curtain (16) is supported by the input curtain bracket (18), and the vertical bottle input curtain power driving device (19) is arranged on the supporting frame (11) and is in transmission connection with the right end of the rear curtain roller (14) of the vertical bottle input curtain; the bottle vertical-rotation horizontal roller driving mechanism (3) is in transmission connection with the vertical bottle input curtain power driving device (19); the left end of the horizontal bottle output mechanism (2) is connected with the right side of the rear end of the right supporting beam (13) of the vertical bottle input curtain roller; the vertical bottle channel guide block (5) is connected to the upper part of the rear end of the right supporting beam (13) of the vertical bottle input curtain roller at a position corresponding to the front of the left end of the bottle vertical-rotating horizontal roller (4); the horizontal bottle guiding-out block (6) is fixed at the upper part of the left end of the horizontal bottle output mechanism (2) at a position corresponding to the right side of the rear end of the right supporting beam (13) of the vertical bottle input curtain roller; the bottle vertical-rotation horizontal roller driving mechanism (3) comprises a transmission box (31), a bottle vertical-rotation horizontal roller driving chain wheel (32), a bottle vertical-rotation horizontal roller driving chain wheel driving chain (33), a power introducing chain wheel (34) and a coupling (35), wherein the bottom of the transmission box (31) is supported at the left end of a transmission box supporting plate (311), the middle part of the transmission box supporting plate (311) is fixed with the supporting seat plate (112), the transition transmission chain wheel supporting plate (19611) is fixed with the right end of the transmission box supporting plate (311), the bottle vertical-rotation horizontal roller driving chain wheel (32) is arranged in a transmission box cavity (312) of the transmission box (31) and fixed with the left end of the bottle vertical-rotation horizontal roller (4), the power introducing chain wheel (34) is also arranged in the transmission box cavity (312) of the transmission box (31) and fixed at the left end of a power introducing chain wheel axle (341) of the power introducing chain wheel (34), the middle part of the power introducing chain axle (341) is rotatably supported on the right box wall of the transmission box (31), the bottle vertical-rotation horizontal roller driving chain wheel (32) is arranged on the right end of the transmission box (33) and the bottle vertical-rotation horizontal roller driving chain wheel (34) is arranged on the right end of the transmission box vertical-rotation horizontal roller driving chain wheel (33), the coupling (35) is connected between the right end of the power introduction chain wheel shaft (341) and the left end of the transition transmission chain wheel shaft (196); a bottle vertical and horizontal roller support plate (41) is arranged above the bottle vertical and horizontal roller (4) in the length direction, the left end of the bottle vertical and horizontal roller support plate (41) is fixed with the top of the transmission box (31), a bottle vertical and horizontal roller right shaft head supporting bearing seat (411) is fixed at the right end of the bottle vertical and horizontal roller support plate (41), the bottle vertical and horizontal roller right shaft head supporting seat (411) is supported and fixed on the upper edge of the left end rear side of the horizontal bottle output mechanism (2), a bottle vertical and horizontal roller left shaft head (42) is formed at the central position of the left end face of the bottle vertical and horizontal roller (4), the bottle vertical and horizontal roller left shaft head (42) is rotatably supported on the right box wall of the transmission box (31) through the left shaft head bearing (421), the bottle vertical and horizontal roller driving sprocket (32) is fixed on the bottle vertical and horizontal roller left shaft head (42), and the bottle vertical and horizontal roller right shaft head (43) is rotatably supported on the right shaft head bearing seat (43) through the right vertical and horizontal roller right shaft head bearing seat (43).

2. The bottle state transition switching device of the full-automatic packaging machine for bottled oral liquid according to claim 1, wherein the supporting frame (11) comprises a group of supporting frame supporting legs (111), a supporting seat plate (112), a left wallboard (113), a right wallboard (114) and a wallboard reinforcing frame (115), the group of supporting frame supporting legs (111) are supported on the terrace of the packaging place, the supporting seat plate (112) is fixed on the group of supporting frame supporting legs (111), the left wallboard (113) is fixed with the left end edge part of the supporting seat plate (112) in a state of being vertical to the upper part of the supporting seat plate (112), the right wallboard (114) is fixed with the right end edge part of the supporting seat plate (112) in a state of being vertical to the upper part of the supporting seat plate (112), and the right wallboard (114) corresponds to the left wallboard (113), and the wallboard reinforcing frame (115) is fixed with one side of the supporting seat plate (112) facing upwards at a position corresponding to between the left wallboard (113, the right wallboard (114); the vertical bottle input curtain power driving device (19) comprises a driving motor (191), a driving motor fixing seat (192), a motor shaft first sprocket (193), a motor shaft second sprocket (194), a transition transmission sprocket (195), a transition transmission sprocket shaft (196), a transition sprocket transmission chain (197), a vertical bottle input curtain roller sprocket (198) and an input curtain roller sprocket transmission chain (199), wherein the driving motor (191) is fixed with the driving motor fixing seat (192) in a horizontal cantilever state, and is fixed by the driving motor fixing seat (192) together with the driving motor (191) and the right wall plate (114) towards one side of the left wall plate (113), a driving motor shaft (1911) of the driving motor (191) extends to the right side of the right wall plate (114), the motor shaft first sprocket (193) and the motor shaft second sprocket (194) are mutually formed into double-row sprockets and are fixed on the driving motor shaft (1911), the transition transmission sprocket shaft (195) is fixed at the right end of the transition transmission sprocket shaft (196), the right end of the transition sprocket shaft (196) is rotatably supported on the transition transmission sprocket shaft (1961), the supporting shaft (1961) is supported on the transition transmission sprocket shaft (1961), the supporting shaft (62) is supported on the transition transmission bearing plate (1961), the transition transmission chain wheel bearing seat support plate (19611) is fixed with the right side of the support seat plate (112), one end of a transition chain wheel transmission chain (197) is sleeved on the transition transmission chain wheel (195), the other end of the transition chain wheel transmission chain is sleeved on the first motor shaft chain wheel (193), the vertical bottle input curtain roller chain wheel (198) is fixed at the right end of the vertical bottle input curtain rear curtain roller (14), the upper end of the input curtain roller chain wheel transmission chain (199) is sleeved on the vertical bottle input curtain roller chain wheel (198), and the lower end of the input curtain roller chain wheel transmission chain is sleeved on the second motor shaft chain wheel (194); the bottle vertical-rotation horizontal roller driving mechanism (3) is arranged at the left side of the supporting seat plate (112) and is in transmission connection with the left end of the transition transmission chain wheel shaft (196); the left end of the horizontal bottle output mechanism (2) is connected with the right wallboard (114); the right supporting beam (12) of the vertical bottle input curtain roller is formed by extending the left wallboard (113) forwards, and the right supporting beam (13) of the vertical bottle input curtain roller is formed by extending the right wallboard (114) forwards; a bottle blocking adjusting mechanism (8) is arranged at a position corresponding to the upper part of the left side edge of the vertical bottle input curtain (16) in the length direction; a bottle baffle (131) is fixed at a position corresponding to the upper part of the right supporting beam (13) of the vertical bottle input curtain roller in the length direction, a vertical bottle channel guide block fixing plate (1311) is fixed at the upper part of the rear end of the bottle baffle (131), and the vertical bottle channel guide block (5) is connected to the vertical bottle channel guide block fixing plate (1311) at a position corresponding to the front part of the left end of the bottle vertical rotating horizontal roller (4); a bottle guiding curved surface (61) is formed on the lying bottle guiding block (6).

3. The bottle state transition switching device of full-automatic packaging machine for bottled oral liquid according to claim 2, wherein the bottle blocking adjusting mechanism (8) comprises a bottle blocking adjusting plate (81) and a group of adjusting plate adjusting devices (82), the bottle blocking adjusting plate (81) is fixed at a position above a left side edge part of the vertical bottle input curtain (16) in a suspended state, the group of adjusting plate adjusting devices (82) are arranged at a position corresponding to one side of the bottle blocking adjusting plate (81) opposite to the bottle blocking bar (131) and are distributed at intervals along the length direction of the bottle blocking adjusting plate (81), the group of adjusting plate adjusting devices (82) respectively comprise a push rod seat (821), a push rod (821) and a push rod locking screw (823), the lower part of the push rod seat (821) and one side of the left supporting beam (12) of the vertical bottle input curtain roller opposite to the right supporting beam (13) of the vertical bottle input curtain roller are fixed, the upper part of the push rod seat (821) is protruded out of the upper part of the left beam (12) of the vertical bottle input curtain roller opposite to the left side of the left supporting beam (12), the push rod seat (822) is inserted into one end (81) of the push rod seat (81) facing to the push rod seat (81) of the push rod (81) and is fixed at one end of the push rod seat (81), the push rod locking screw (823) is screwed on a push rod seat screw hole (8212) which is formed in the top of the push rod seat (821) and is communicated with the push rod hole (8211), one end of the push rod (822) towards the push rod seat (821) is locked by the push rod locking screw (823), when the push rod (822) pushes the bottle blocking adjusting plate (81) towards the bottle blocking strip (131), the interval distance between the bottle blocking adjusting plate (81) and the bottle blocking strip (131) is reduced, and when the push rod (822) pulls the bottle blocking adjusting plate (81) towards the direction away from the bottle blocking strip (131), the interval distance between the bottle blocking adjusting plate (81) and the bottle blocking strip (131) is increased.

4. The bottle state transition switching device of full-automatic packaging machine for bottled oral liquid according to claim 2, wherein a vertical bottle guiding mechanism (9) is provided at the rear end of the bottle barrier (131), the vertical bottle guiding mechanism (9) comprises a guiding plate connecting seat (91), a guiding plate connecting seat fixing block (92), a guiding plate free end limiting plate (93), a limiting plate fixing seat (94) and a guiding plate (95), the guiding plate (95) corresponds to the right side of the rear end of the vertical bottle input curtain (16) in a state of being emptied in the vertical bottle input curtain (16), the right side of the front end of the guiding plate (95) is fixed with the guiding plate connecting seat (91), the rear end of the guiding plate (95) is formed into a free end, the guiding plate connecting seat (91) is fixed with the guiding plate connecting seat fixing block (92), the guiding plate fixing block (92) is fixed with the upper part of the bottle barrier (131), the guiding plate free end limiting plate (93) faces the guiding plate fixing seat (94) towards one end of the guiding plate (95) and contacts with the limiting plate fixing seat (94), and the stopper fixing base (94) is fixed with the vertical bottle channel guide block fixing plate (1311) at a position corresponding to the front side of the vertical bottle channel guide block (5).

5. The bottle state transition switching device of a full-automatic packaging machine for bottled oral liquids according to claim 4, wherein a vertical bottle channel guide block adjusting screw (941) is arranged on the limit plate fixing seat (94), and the tail end of the vertical bottle channel guide block adjusting screw (941) is contacted with the front side of the vertical bottle channel guide block (5).

6. The bottle state transition switching device of the full-automatic bottled oral liquid packaging machine according to claim 2, wherein an electric controller (132) is arranged on the right side of the right supporting beam (13) of the vertical bottle input curtain roller, and the driving motor (191) is electrically and controllably connected with the electric controller (132).

7. The bottle state transition switching device of full automatic packaging machine for bottled oral liquid according to claim 2, characterized in that the horizontally placed bottle output mechanism (2) comprises a beam supporting frame (21), a front beam (22), a rear beam (23), a roller front chain (24), a roller rear chain (25), a pair of roller chain front sprockets (26), a pair of roller chain rear sprockets (27) and a roller (28), the beam supporting frame (21) is supported on the terrace of the packaging site and the left end of the beam supporting frame (21) is connected with the right side of the rear end of the right supporting beam (13) of the vertical bottle input curtain roller, the front beam (22) and the rear beam (23) are parallel to each other and the left end of the front beam (22) and the rear beam (23) are fixed with the upper part of the beam supporting frame (21), the right end is supported on the terrace by a beam supporting leg, a pair of chain front sprockets (26) are rotatably supported at both ends of the front beam (22) toward the rear beam (23), the position of the pair of roller chain rear sprockets (27) is correspondingly connected with the rear sprocket (26) at the front end of the roller chain (23) toward the rear beam (23), the pair of chain sprockets (26) are rotatably supported between the front sprocket (24) and the roller chain sprocket (26) at the front end and the front end (24) is rotatably supported between the front end of the front beam (24), the rollers (28) are plural and connected between the front and rear rollers (24, 25) at intervals, the space between each two adjacent rollers (28) is configured as a lying bottle carrying chamber (281) for carrying a lying bottle, the front sprocket shaft of one of the pair of front roller chain sprockets (26) or the rear sprocket shaft of one of the pair of rear roller chain sprockets (27) is driven by a sprocket shaft driving device, wherein a guide-out block fixing platform (29) is formed at the upper part of the left end between the front cross beam (22) and the rear cross beam (23), and the lying bottle guide-out block (6) corresponding to the front of the middle part of the bottle vertical-rotating lying roller (4) is fixed on the guide-out block fixing platform (29).

8. The bottle state transition switching device of the full-automatic packaging machine for bottled oral liquid according to claim 7, wherein a lying bottle anti-tamper plate (221) is fixed at the upper part of the front cross beam (22) and at a position corresponding to the front of the right end of the bottle vertical-rotation lying roller (4).