CN219566516U - Conveying path sealing and isolating system - Google Patents

Abstract

The utility model discloses a conveying path sealing and isolating system, which abandons the space required by taking a bearing part in the horizontal direction to participate in work, namely translational movement; in order to avoid interference between the bearing parts and the sealing and isolating parts during the isolation of the two chambers, at least the structural characteristics of the adjacent bearing turntables distributed up and down in the alternating areas of the conveying paths are utilized to guide the two bearing turntables to expand the space in the vertical direction and make room for the sealing and isolating parts to enter a sealing operation state. The conveying path sealing and isolating system can effectively reduce the size of the space required by the bearing part to participate in the work in the horizontal direction, so that the system can be put into use with smaller occupied area, the space arrangement condition of other parts is avoided, and convenience is brought to the design of the other parts.

Description

Conveying path sealing and isolating system

Technical Field

The utility model relates to the technical field of container conveying, in particular to a technology for isolating adjacent working spaces through which a conveying path passes.

Background

The blowing, filling and spinning integrated technology is provided with two chambers, wherein a rotary bottle blowing component is arranged in one chamber, and a filling component is arranged in the other chamber. The two chambers are communicated or isolated only through a sealing isolation part arranged on the frame, the sealing isolation part is provided with a through hole, and the two chambers can be communicated directly through the through hole; the sealing door comprises a movable door plate, the movable door plate is horizontally and transversely pushed and pulled by a linear driving unit, the linear driving unit adopts a linear cylinder or an electric cylinder, and the movable door plate can cover the through hole in the horizontal direction after transversely and linearly moving; the sealing structure distributes inflatable sealing rings around the through holes, the distance between the movable door plate and the through holes is kept unchanged after the movable door plate is aligned with the through holes, compressed gas is introduced into the inflatable sealing rings, the inflatable sealing rings expand to enable the movable door plate and the sealing rings to establish a sealing connection relationship, and then the two side areas of the sealing isolation part, namely the cavities, cannot establish a communication relationship through the through holes, and the two areas are isolated at the through holes.

The sealing operation is carried out in the prior art on the premise that the receiving member positioned in the chamber provided with the rotary bottle blowing member is horizontally moved to a position away from the through hole, so that interference between the receiving member and the sealing and isolating member during isolation of the two chambers is avoided. The bearing part is provided with a bearing rotary disc, and the bottle is conveyed by means of bottle clamps on the rotary disc or a structure for clamping the bottle at a bayonet at the edge part by being matched with a guard plate. The horizontal translation mode of the bearing part comprises horizontal linear displacement or horizontal arc position, the former at least needs to bear the rotary table to do horizontal linear motion, the latter needs to bear the rotary table to do swinging motion around a swinging fulcrum, and then needs to provide a space area with larger dimension in the horizontal direction for the horizontal translation motion of the bearing part. The space condition in the horizontal direction is actually the occupied area of the whole machine, the upper limit of the occupied area of the whole machine is limited, the field arrangement condition of the whole machine is limited, the space required by the bearing part to participate in the work is large in the horizontal direction, the space arrangement condition of other parts is reduced, and the design of other parts is difficult.

Disclosure of Invention

The utility model aims to solve the technical problem of reducing the size of a space required by a bearing part to participate in work in the horizontal direction, thereby obtaining a conveying path sealing and isolating system with small size in the horizontal direction.

In order to solve the technical problems, the utility model adopts the following design concept, namely the utility model concept, firstly, the horizontal translational movement of the bearing part is avoided, so that the space required by taking the bearing part in the horizontal direction to participate in the work, namely the translational movement, is abandoned; then, in order to avoid interference between the receiving members and the sealing and isolating members during isolation of the two chambers, at least by utilizing the structural features of the adjacent receiving turntables distributed up and down in the alternating areas of the conveying paths, the two receiving turntables are guided to expand the space in the vertical direction, and space is made for the sealing and isolating members to enter the sealing and isolating state. Because the sufficiency of the inner space of the factory in the vertical direction is larger than the sufficiency of the inner space of the factory in the horizontal direction, the space in the vertical direction is enough to meet the space requirement for expanding the space between the two bearing turntables.

On the basis of the inventive concept, the utility model provides two technical schemes, one of which is based on a non-inflatable sealing ring, after the space between the bearing turntables is enlarged, the relative position between the movable door plate and the sealing ring is controlled in a limiting mode, the extrusion degree between the movable door plate and the sealing ring is also controlled, and the movable door plate and the sealing ring are promoted to construct a final sealing connection relation. The other is based on the technical scheme of the inflatable sealing ring, and after the space between the bearing turntables is enlarged, a final sealing connection relationship is constructed through the gas-inflated inflatable sealing ring.

The first technical scheme of the utility model.

The conveying path sealing and isolating system comprises a bearing part, a guiding part and a sealing and isolating part, wherein two sides of the sealing and isolating part are respectively provided with a cavity, the cavities are connected and disconnected through the sealing and isolating part, bearing parts are distributed in the cavities, conveying paths are arranged on the bearing part, the bearing part comprises a bearing rotary table, the conveying paths are positioned at the edge of the bearing rotary table, the conveying paths of the bearing rotary table are connected and communicated to form an integral conveying path of the conveying path sealing and isolating system, the integral conveying path penetrates through the sealing and isolating part, the guiding part is positioned at the joint of the conveying paths, the sealing and isolating part comprises a fixed door, a movable door and a driving part, the fixed door comprises a fixed door plate and a sealing ring, the fixed door plate is provided with a through hole, the sealing ring is arranged on the fixed door plate and distributed around the through hole, the driving piece drives the movable door to linearly move in the direction parallel to the fixed door plate, the movable door is positioned on two sides of the fixed door plate and adjacent carrying turnplates, part of edge parts of one carrying turnplate penetrates through the through hole and protrudes out of one side of the fixed door plate, the other carrying turnplate is integrally positioned on one side of the fixed door plate, part of edge parts of one carrying turnplate protruding out of one side of the fixed door plate and part of edge parts of the other carrying turnplate are overlapped in the vertical direction, the conveying path sealing isolation system further comprises a lifting component, the lifting component is movably connected with the carrying turnplate of the other carrying turnplate, the lifting component drives the carrying turnplates to linearly move in the vertical direction so as to adjust the distance between the carrying turnplates positioned on two sides of the fixed door plate and adjacent carrying turnplates in the vertical direction, and the movable door comprises the movable door plate, portal, foling the piece, movable door plant movable mounting is on the portal, the driving piece is connected with the portal, driving piece drive portal drives movable door plant and is in the direction that is on a parallel with fixed door plant upward rectilinear motion, foling piece drive movable door plant is in the direction of perpendicular fixed door plant upward rectilinear motion, the direction perpendicular to fixed door plant of movable door plant relative portal rectilinear motion, the movable door plant is equipped with the first groove of dodging that holds one of them and accept carousel protrusion at the partial edge position of one side of fixed door plant, the movable door plant is equipped with the second of holding another and dodges the groove that holds partial edge position of accepting the carousel, the orientation in first groove of dodging is opposite with the orientation in second dodging the groove, one of them accepts the partial edge position of carousel protrusion in the direction of first groove of dodging that dodging of one side of fixed door plant, another accepts the partial edge position of carousel and is in the direction of extension in the second dodging the groove when being located fixed door plant both sides and adjacent and the interval in the vertical direction is the biggest, be equipped with on the fixed door plant and be used for embedding the first and dodge the groove, protruding surface distribution has, sealing washer and movable door plant sealing connection.

Bottle clamps and bayonets can be arranged at the edge parts of the bearing turntables, and the two types of bearing turntables can be combined for use.

The first type of combination scheme of the bearing turntables.

The bottle clamp is arranged at the edge part of the supporting rotary table, which penetrates through the through hole and protrudes out of one side of the fixed door plate, the bayonet is arranged at the edge part of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, the guide part comprises an outer guard plate I and an inner guard plate I, the outer guard plate I is positioned on the outer side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, one end of the outer guard plate I stretches into the inner side of the adjacent supporting rotary table, the inner guard plate I is positioned on the inner side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, and the integral conveying paths are distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

The outer guard plate I and the inner guard plate I are both arranged on the swinging mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

The second type of combination scheme of the bearing turntables.

The edge parts of the adjacent carrying turntables are provided with bayonets, the guide parts comprise guard plates, the guard plates are positioned on the outer sides of the carrying turntables, one ends of the guard plates extend into the inner sides of the adjacent carrying turntables, and the whole conveying path is positioned between the carrying turntables and the guard plates.

The backplate that corresponds to part edge position and pass the through-hole and bulge and accept the carousel in one side of fixed door plant includes limiting plate I and guide board I, limiting plate I is located the outside of accepting the carousel, guide board I's one end is located the whole inboard that is located the carousel of accepting of one side of fixed door plant the other end of guide board I pass the through-hole of fixed door plant and with limiting plate I continuous distribution, install on swing mechanism corresponding to the backplate that is located the carousel of accepting of one side of fixed door plant wholly, guide board I also installs on swing mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

And the third bearing turntable combination scheme.

The bottle clamp is arranged at the edge parts of the adjacent bearing turntables and positioned at the two sides of the fixed door plate, the guide part comprises a guard plate, the guard plate is positioned at the inner side of the bearing turntables, and the whole conveying path is positioned in the movement range of the bottle clamp.

The guard plate is mounted on the swing mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

And a fourth bearing rotary table combination scheme.

The edge part of the part edge part passes through the through hole and protrudes at the edge part of the supporting rotary table on one side of the fixed door plate, a bottle clamp is arranged at the edge part of the supporting rotary table on one side of the fixed door plate, the guide part comprises an outer guard plate II and an inner guard plate II, the outer guard plate II is positioned at the outer side of the supporting rotary table on one side of the fixed door plate, the part edge part passes through the through hole and protrudes at the outer side of the supporting rotary table on one side of the fixed door plate, one end of the outer guard plate II stretches into the inner side of the adjacent supporting rotary table, the inner guard plate II is positioned at the inner side of the supporting rotary table on one side of the fixed door plate, and the whole conveying path is distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

The outer guard plate II comprises a limiting plate II and a guide plate II, the limiting plate II is located on the outer side of the bearing rotary table, one end of the guide plate II is located on the inner side of the bearing rotary table, which is located on one side of the fixed door plate integrally, the other end of the guide plate II penetrates through the through hole of the fixed door plate and is continuously distributed with the limiting plate II, and the guide plate II and the inner guard plate II are mounted on the swing mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

The lifting part comprises two technical schemes, one is a local lifting technical scheme for lifting and bearing the turntable, and the other is an integral lifting technical scheme for lifting and bearing the turntable and the transmission assembly.

The first type is a lifting member of a local lifting system.

The lifting component comprises a transmission component and a telescopic component, the transmission component is provided with a transmission shaft with a fixed position, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is mounted on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly mounted on the carrying plate, the bearing rotary table is fixedly mounted at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is mounted in the mounting shaft sleeve through a bearing, and the transmission shaft is connected with the supporting seat through a flat key and is in sliding connection with the transmission shaft.

The second type is a lifting component in an integral lifting mode.

The lifting component comprises a transmission component and a telescopic component, wherein the transmission component is arranged on the telescopic component, the transmission component is provided with a transmission shaft and a shaft sleeve, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is arranged on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly arranged on the carrying plate, the carrying turntable is fixedly arranged at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is arranged in the mounting shaft sleeve through a bearing, the transmission shaft is fixedly connected with the supporting seat, the shaft sleeve is fixedly connected with the carrying plate, and the transmission shaft is positioned in the shaft sleeve and is movably connected with the shaft sleeve through the bearing.

The folding members are used for promoting the movable door plate to be tightly pressed on the sealing ring, and three folding members exist in the utility model.

First, the piece that folds is the cylinder, cylinder and fixed door plant fixed connection, movable door plant is located between cylinder and the fixed door plant.

In order to enable the movable door plate to have a fixed initial state so as to ensure that the movable door plate is separated from the sealing ring in the initial state, a reset spring I used for enabling the movable door plate to move away from the fixed door plate is arranged between the movable door plate and the door frame.

Second, the piece of folding includes deflector, guide post, deflector and fixed door plant fixed connection, be equipped with the guiding groove on the deflector, the guiding groove extends and the distance of one end of guiding groove to fixed door plant is less than the distance of the other end of guiding groove to fixed door plant in the direction of parallel fixed door plant, guide post and movable door plant fixed connection, the guide post is embedded into the guiding groove.

In order to enable the movable door plate to have a fixed initial state, so that the connection degree between the movable door plate and the sealing ring is higher after the distance between the movable door plate and the fixed door plate is shortened, and a reset spring II used for enabling the movable door plate to move towards the fixed door plate is arranged between the movable door plate and the door frame.

Third, the piece of folding includes electromagnetic lock and pulling plate, pulling plate and movable door plant fixed connection, electromagnetic lock and fixed door plant fixed connection.

The second technical scheme of the utility model.

The conveying path sealing and isolating system comprises a bearing part, a guiding part and a sealing and isolating part, wherein two sides of the sealing and isolating part are respectively provided with a cavity, the cavities are connected and disconnected through the sealing and isolating part, bearing parts are distributed in the cavities, conveying paths are arranged on the bearing part, the bearing part comprises a bearing rotary disc, the conveying paths are positioned at the edge of the bearing rotary disc, the conveying paths of the bearing rotary disc are connected and communicated to form an integral conveying path of the conveying path sealing and isolating system, the integral conveying path penetrates through the sealing and isolating part, the guiding part is positioned at the joint of the conveying paths, the sealing and isolating part comprises a fixed door, a movable door and a driving part, the fixed door comprises a fixed door plate and an inflatable sealing ring, the fixed door plate is provided with a through hole, the inflatable sealing ring is arranged on the fixed door plate and distributed around the through hole, the driving piece drives the movable door to linearly move in the direction parallel to the fixed door plate, part of the edge part of one of the bearing turnplates passes through the through hole and protrudes out of one side of the fixed door plate, the other bearing turnplate is integrally positioned on one side of the fixed door plate, part of the edge part of one bearing turnplate protruding out of one side of the fixed door plate is overlapped with part of the edge part of the other bearing turnplate in the vertical direction, the conveying path sealing isolation system further comprises a lifting part, the lifting part is movably connected with the other bearing turnplate, the lifting part drives the bearing turnplate to linearly move in the vertical direction so as to adjust the distance between the two sides of the fixed door plate and the adjacent bearing turnplate in the vertical direction, the movable door comprises a movable door plate, the driving piece drives the movable door plate to linearly move in the direction parallel to the fixed door plate, the movable door plate is provided with a first avoidance groove for accommodating one of the part edge parts of one side of the fixed door plate, which is protruded from the rotary table, the movable door plate is provided with a second avoidance groove for accommodating the other part edge part of the rotary table, the direction of the first avoidance groove is opposite to that of the second avoidance groove, the part edge part of one side of the fixed door plate, which is protruded from the rotary table, is positioned in the extending direction of the first avoidance groove, the part edge part of the other bearing rotary table is positioned in the extending direction of the second avoidance groove when the distance between the two sides of the fixed door plate and the adjacent bearing rotary table in the vertical direction is the largest, the fixed door plate is provided with a protrusion for embedding the first avoidance groove, and inflatable sealing rings are distributed on the surface of the fixed door plate, and the fixed door plate is in sealing connection with the movable door plate.

Bottle clamps and bayonets can be arranged at the edge parts of the bearing turntables, and the two types of bearing turntables can be combined for use.

The first type of combination scheme of the bearing turntables.

The bottle clamp is arranged at the edge part of the supporting rotary table, which penetrates through the through hole and protrudes out of one side of the fixed door plate, the bayonet is arranged at the edge part of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, the guide part comprises an outer guard plate I and an inner guard plate I, the outer guard plate I is positioned on the outer side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, one end of the outer guard plate I stretches into the inner side of the adjacent supporting rotary table, the inner guard plate I is positioned on the inner side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, and the integral conveying paths are distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

The outer guard plate I and the inner guard plate I are both arranged on the swinging mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

The second type of combination scheme of the bearing turntables.

The edge parts of the adjacent carrying turntables are provided with bayonets, the guide parts comprise guard plates, the guard plates are positioned on the outer sides of the carrying turntables, one ends of the guard plates extend into the inner sides of the adjacent carrying turntables, and the whole conveying path is positioned between the carrying turntables and the guard plates.

The backplate that corresponds to part edge position and pass the through-hole and bulge and accept the carousel in one side of fixed door plant includes limiting plate I and guide board I, limiting plate I is located the outside of accepting the carousel, guide board I's one end is located the whole inboard that is located the carousel of accepting of one side of fixed door plant the other end of guide board I pass the through-hole of fixed door plant and with limiting plate I continuous distribution, install on swing mechanism corresponding to the backplate that is located the carousel of accepting of one side of fixed door plant wholly, guide board I also installs on swing mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

And the third bearing turntable combination scheme.

The bottle clamp is arranged at the edge parts of the adjacent bearing turntables and positioned at the two sides of the fixed door plate, the guide part comprises a guard plate, the guard plate is positioned at the inner side of the bearing turntables, and the whole conveying path is positioned in the movement range of the bottle clamp.

The guard plate is mounted on the swing mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

And a fourth bearing rotary table combination scheme.

The edge part of the part edge part passes through the through hole and protrudes at the edge part of the supporting rotary table on one side of the fixed door plate, a bottle clamp is arranged at the edge part of the supporting rotary table on one side of the fixed door plate, the guide part comprises an outer guard plate II and an inner guard plate II, the outer guard plate II is positioned at the outer side of the supporting rotary table on one side of the fixed door plate, the part edge part passes through the through hole and protrudes at the outer side of the supporting rotary table on one side of the fixed door plate, one end of the outer guard plate II stretches into the inner side of the adjacent supporting rotary table, the inner guard plate II is positioned at the inner side of the supporting rotary table on one side of the fixed door plate, and the whole conveying path is distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

The outer guard plate II comprises a limiting plate II and a guide plate II, the limiting plate II is located on the outer side of the bearing rotary table, one end of the guide plate II is located on the inner side of the bearing rotary table, which is located on one side of the fixed door plate integrally, the other end of the guide plate II penetrates through the through hole of the fixed door plate and is continuously distributed with the limiting plate II, and the guide plate II and the inner guard plate II are mounted on the swing mechanism. The guide member may be automatically disengaged from a position that may interfere with the movable door panel when it is desired to isolate the chamber.

The lifting part comprises two technical schemes, one is a local lifting technical scheme for lifting and bearing the turntable, and the other is an integral lifting technical scheme for lifting and bearing the turntable and the transmission assembly.

The first type is a lifting member of a local lifting system.

The lifting component comprises a transmission component and a telescopic component, the transmission component is provided with a transmission shaft with a fixed position, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is mounted on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly mounted on the carrying plate, the bearing rotary table is fixedly mounted at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is mounted in the mounting shaft sleeve through a bearing, and the transmission shaft is connected with the supporting seat through a flat key and is in sliding connection with the transmission shaft.

The second type is a lifting component in an integral lifting mode.

The lifting component comprises a transmission component and a telescopic component, wherein the transmission component is arranged on the telescopic component, the transmission component is provided with a transmission shaft and a shaft sleeve, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is arranged on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly arranged on the carrying plate, the carrying turntable is fixedly arranged at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is arranged in the mounting shaft sleeve through a bearing, the transmission shaft is fixedly connected with the supporting seat, the shaft sleeve is fixedly connected with the carrying plate, and the transmission shaft is positioned in the shaft sleeve and is movably connected with the shaft sleeve through the bearing.

The utility model adopts the technical scheme that: the conveying path sealing and isolating system completely abandons the space reservation condition required by establishing an isolated cavity in the horizontal direction, only occupies the space required by the installation of the system in the horizontal direction, so that the size of the space required by the bearing part in the horizontal direction can be effectively reduced, the system can be put into use with smaller occupied area, the space arrangement condition of other parts is avoided, and convenience is brought to the design of other parts.

Drawings

The utility model is described in further detail below with reference to the drawings and the detailed description.

Fig. 1 is a front view of a first embodiment of the present utility model in a chamber communication state;

fig. 2 is a perspective view i of a first embodiment of the present utility model in a state where the chambers are connected;

fig. 3 is a perspective view ii of a first embodiment of the present utility model in a chamber communicating state;

FIG. 4 is a schematic view showing the distribution of the outer and inner shields I, I in the state of communicating the chambers according to the first embodiment of the present utility model;

FIG. 5 is a schematic view showing the distribution of the outer and inner shields I, I in the isolated state of the chamber according to the first embodiment of the present utility model;

Fig. 6 is a perspective view of a seal spacer member in a chamber communication state according to a first embodiment of the present utility model;

FIG. 7 is a schematic view showing the use of the sealing and isolating member in combination with the receiving turntable I and the receiving turntable II in a chamber isolated state according to the first embodiment of the present utility model;

fig. 8 is a schematic view showing the structure of the lifting member in the chamber communicating state according to the first embodiment of the present utility model;

FIG. 9 is a diagram illustrating the mounting of a fender according to a third embodiment of the utility model;

FIG. 10 is a diagram illustrating the mounting of a fender according to a fourth embodiment of the utility model;

FIG. 11 is a schematic view of a fender assembly according to a fifth embodiment of the utility model;

fig. 12 is a schematic view illustrating a closure member according to an eleventh embodiment of the present utility model.

Detailed Description

A first embodiment of the utility model is shown in figures 1, 2, 3, 4, 5, 6, 7, 8.

The conveyance path sealing and isolating system includes a receiving member, a guide member, a sealing and isolating member 1, and a lifting member 14. The conveying path sealing and isolating system is combined on a rack of the whole machine equipment such as a blowing, filling and spinning integrated machine after being put into use; the whole machine equipment is internally divided into chambers, and the sealing and isolating component 1 is combined on a partition plate structure for separating the chambers. The conveying path sealing and isolating system is provided with a chamber at two sides of the sealing and isolating component 1 respectively, namely, a sealing and isolating component 1 is arranged between the two chambers. The chambers are communicated and isolated by the sealing isolation part 1. The receiving members are disposed within the chamber, and each receiving member is provided with a conveying path. Each of the receiving members includes a receiving turntable, and the conveying path is located at an edge of the receiving turntable. The conveying paths of the receiving turntables are connected and communicated to form an integral conveying path of the conveying path sealing and isolating system, the integral conveying path passes through the sealing and isolating component 1, and the guiding component is positioned at the connecting position of the conveying paths. The sealing and isolating part 1 comprises a fixed door, a movable door and a driving piece 2. The fixed door comprises a fixed door plate 3 and a sealing ring 11, wherein the fixed door plate 3 is arranged on a partition board of the whole equipment and is in sealing connection with the partition board. The fixed door plate 3 is provided with through holes, the sealing rings 11 are arranged on the fixed door plate 3 and distributed around the through holes, and the driving piece 2 drives the movable door to linearly move in a direction parallel to the fixed door plate 3. The driving element 2 provides a force in a linear direction, which can be one of a linear cylinder, an oil cylinder, an electric cylinder and a power assembly based on a crank connecting rod, a movable part of the driving element 2, such as a piston rod and a rocker arm, is connected with the movable door, and a fixed part of the driving element 2, such as a cylinder body and a motor, can be arranged on a frame or a fixed door, so that the movable door and the fixed door plate 3 can move relatively.

In the adjacent bearing turntables positioned on both sides of the fixed door plate 3, part of the edge part of one bearing turntable passes through the through hole and protrudes out of one side of the fixed door plate 3, and the other bearing turntable is wholly positioned on one side of the fixed door plate 3. The receiving turntable of which part of the edge part passes through the through hole and protrudes out of one side of the fixed door plate 3 is marked as receiving turntable I12, and the receiving turntable of which the whole part is positioned on one side of the fixed door plate 3 is marked as receiving turntable II 13. The partial edge of the receiving turntable I12 is vertically arranged relative to the partial edge of the receiving turntable II 13, which results from the structural design of the receiving turntable I12 being higher than the receiving turntable II 13. The receiving turntable I12 is directly arranged on the frame through a transmission structure and is connected into the transmission structure of the whole machine, and the receiving turntable II 13 is arranged on the frame through a lifting part 14. The lifting part 14 drives the receiving turntable II 13 to linearly move in the vertical direction so as to adjust the distance between the receiving turntable I12 and the receiving turntable II 13, which are positioned on two sides of the fixed door plate 3 and are adjacent to each other, in the vertical direction, in the initial state, the lifting part 14 places the receiving turntable II 13 at the highest position, and the distance between the receiving turntable I12 and the receiving turntable II 13 is the smallest.

The lifting member 14 includes a drive assembly and a telescoping assembly. The transmission assembly comprises a transmission shaft 15 and a shaft sleeve. The axle sleeve is installed in the frame, and transmission shaft 15 is located the axle sleeve, and transmission shaft 15 passes through the bearing and is connected with the axle sleeve. The centerline of the drive shaft 15 is in the vertical direction after installation. The transmission shaft 15 is connected into the transmission structure of the whole machine. The telescopic assembly comprises a carrying plate 16, a mounting shaft sleeve 17, a supporting seat 18 and an electric push rod 19. The electric push rod 19 is arranged on the frame, and the carrying plate 16 is arranged on the electric push rod 19.

The electric putter 19 includes a telescopic unit 20 and a motor. The telescopic unit 20 comprises a support sleeve 21, a screw 22 and a screw sleeve 23. The screw rod sleeve 23 is externally provided with a sliding sleeve, the screw rod sleeve 23 is movably arranged in the screw rod sleeve 23 through the sliding sleeve, and the screw rod sleeve 23 can slide in the supporting sleeve 21 along the central line of the screw rod sleeve 23. The screw rod 22 and the screw rod sleeve 23 are matched together through threads, when the screw rod 22 rotates, the supporting sleeve 21 can move linearly relative to the supporting sleeve 21, and the whole telescopic unit 20 can further obtain a telescopic effect at the screw rod sleeve 23. The outside of the screw 22 is provided with a gear.

The telescopic assembly has three telescopic units 20, all of which are not in the same straight line, i.e. are distributed in a triangle. The support sleeve 21 is fixedly connected with the frame during installation, and the three telescopic units 20 are connected through a chain. In the motor installation frame, the motor is connected with the lead screw 22 of only one of the telescopic units 20, and then three telescopic units 20 can be synchronously driven. The screw rod 22 is fixedly connected with the carrying plate 16, so that the electric push rod 19 can lift or lower the height of the carrying plate 16 after working, namely, the carrying plate 16 is driven to move in the vertical direction. The installation axle sleeve 17 fixed mounting is on carrying the thing board 16, and accept carousel II 13 fixed mounting is at the top of supporting seat 18, and the bottom of supporting seat 18 is cylindric and the bottom of supporting seat 18 passes through the bearing and installs in the installation axle sleeve 17 for accept carousel II 13 can rotate on carrying the thing board 16. The support seat 18 is internally provided with a hollow channel structure for accommodating the transmission shaft 15, and the central line of the channel in the support seat 18 coincides with the central line of the cylindrical part at the bottom of the support seat 18. The transmission shaft 15 is connected with the supporting seat 18 through a flat key, the supporting seat 18 is in sliding connection with the transmission shaft 15, specifically, a key groove is further formed in the supporting seat 18, the key groove is located at the edge of the channel and is communicated with the channel, the flat key is arranged on the transmission shaft 15, the end, provided with the flat key, of the transmission shaft 15 stretches into the channel of the supporting seat 18, and the flat key is embedded into the key groove. When the transmission shaft 15 rotates, the supporting seat 18 rotates along with the rotation, namely, the supporting turntable II 13 rotates; when the carrying turntable II 13 is lifted, namely the supporting seat 18 is lifted, the flat key can slide in the key groove, the transmission shaft 15 can slide in the channel of the supporting seat 18, and then the carrying turntable II 13 can move linearly in the vertical direction relative to the transmission shaft 15.

The movable door comprises a movable door plate 5, a door frame 6 and a folding piece 7. The movable door plate 5 is movably arranged on the door frame 6, the door frame 6 is arranged on the fixed door plate 3 through a linear guide rail, and the movable door plate 5 is in an upright state. The movable door plate 5 is provided with a support column, the door frame 6 is provided with a sliding sleeve, and the support column is inserted into the sliding sleeve and is in sliding connection with the sliding sleeve. One end of the support column is provided with a flange structure, a reset spring I8 is arranged outside the sliding sleeve, the reset spring I8 is positioned between the flange and the door frame 6, and the reset spring I8 is in a compressed state in an initial state so as to drive the movable door plate 5 to tightly press on the door frame 6. In the initial state, the driving piece 2 is contracted, the door frame 6 is positioned at one end of the fixed door plate 3, and after the driving piece 2 stretches out, the door frame 6 moves towards the other end of the fixed door plate 3 until the movable door plate 5 is positioned at the through hole of the fixed door plate 3.

The driving piece 2 pushes and pulls the door frame 6 and the movable door plate 5 to move together, and the movable door plate 5 is perpendicular to the fixed door plate 3 based on the linear movement direction of the driving piece 2 relative to the fixed door plate 3 and the linear movement direction of the movable door plate 5 relative to the door frame 6, so that the linear movement direction of the movable door plate 5 relative to the door frame 6 is perpendicular to the fixed door plate 3.

The movable door plate 5 is provided with a first avoiding groove 9 for accommodating and supporting part of the edge part of the rotary table I12 protruding on one side of the fixed door plate 3, and the movable door plate 5 is provided with a second avoiding groove 10 for accommodating and supporting part of the edge part of the rotary table II 13. The direction of the first avoiding groove 9 and the direction of the second avoiding groove 10 are both in the horizontal direction and opposite to each other, and the first avoiding groove 9 is not directly communicated with the second avoiding groove 10; in order to adapt to the difference in height between the bearing turntable I12 and the bearing turntable II 13, the heights of the first avoidance groove 9 and the second avoidance groove 10 in the vertical direction are also different. In the initial state, the movable door plate 5 is far away from the through hole of the fixed door plate 3, and the part edge part of the bearing turntable I12 protruding out of one side of the fixed door plate 3 is positioned in the extending direction of the first avoidance groove 9; when the space between the part edge part of the receiving turntable II 13 and the part edge part of the receiving turntable I12 protruding out of one side of the fixed door plate 3 in the vertical direction reaches the maximum after the receiving turntable II 13 descends along with the lifting part 14, the part edge part of the receiving turntable II 13 is positioned in the extending direction of the second avoidance groove 10.

The first avoidance groove 9 is an open structure, and part of the edge part of the bearing rotary disc I12 protruding out of one side of the fixed door plate 3 is embedded into the first avoidance groove 9 after the driving piece 2 drives the movable door plate 5 to move; in order to enable the fixed door plate 3 and the movable door plate 5 to be tightly connected, the fixed door plate 3 is provided with a protrusion 4 for being embedded into the first avoiding groove 9, and the sealing ring 11 is distributed on the surface of the protrusion 4. When the carrying rotary table II 13 descends and the driving piece 2 pushes the movable door plate 5 to move towards the other end of the fixed door plate 3, part of the edge part of the carrying rotary table II 13 just can be embedded into the second avoidance groove 10, part of the edge part of the carrying rotary table I12 protruding out of one side of the fixed door plate 3 is embedded into the first avoidance groove 9, the sealing ring 11 is located between the fixed door plate 3 and the movable door plate 5, and the bulge 4 on the fixed door plate 3 is embedded into the first avoidance groove 9.

In this embodiment, the fixed door panel 3 can be connected with the movable door panel 5 in a sealing manner by the sealing ring 11, which requires the folding member 7 to participate in the work. The folding piece 7 is a cylinder, the cylinder is arranged on the fixed plate through the mounting frame, and the cylinder body is fixedly connected with the fixed door plate 3. The folding piece 7 is the other side of the fixed door plate 3, namely the side provided with the through hole, and the folding piece 7 is contracted in the initial state; when the movable door plate 5 is positioned at the through hole of the fixed door plate 3, the telescopic rod of the folding piece 7 stretches out to push the movable door plate 5, so that the movable door plate 5 moves towards the position of the fixed door plate 3, the movable door plate 5 is tightly pressed on the fixed door plate 3, and the fixed door is in sealing connection with the movable door plate 5 through the sealing ring 11. The chambers of the fixed door panels 3 cannot communicate through the through holes.

Bottle clamps are arranged at the edge of the receiving rotary disc I12, and bayonets are arranged at the edge of the receiving rotary disc II 13. The guide member in this embodiment includes an outer shield I24 and an inner shield I25. The outer guard plate I24 and the inner guard plate I25 are both arranged on the swinging mechanism, the swinging mechanism is provided with an air cylinder, the outer guard plate I24 and the inner guard plate I25 are movably arranged on the frame in a swinging mode, the swinging direction is in a horizontal plane, and the cylinder body of the air cylinder is arranged on the frame, and the piston rod of the air cylinder is connected with the outer guard plate I24 or the inner guard plate I25. The swing mechanism is provided with two air cylinders, one air cylinder corresponds to the outer guard plate I24, and the other air cylinder corresponds to the inner guard plate I25. In the initial state, the outer guard plate I24 is positioned on the outer side of the receiving rotary table II 13, one end of the outer guard plate I24 penetrates through the through hole of the fixed door plate 3 and stretches into the inner side of the receiving rotary table I12, and the inner guard plate I25 is positioned on the inner side of the receiving rotary table II 13; after the swing mechanism drives the outer guard plate I24 and the inner guard plate I25 to move, the outer guard plate I24 can be completely separated from the supporting rotary table I12 and positioned on the outer side of the supporting rotary table I12, the outer guard plate I24 can extend into the inner side of the supporting rotary table II 13, and the inner guard plate I25 can be closer to the central position of the supporting rotary table II 13. In the initial state, the whole conveying path is distributed between the bearing turntable and the guard plate and in the movement range of the bottle clamp.

When the fixed door plate is used for conveying, the chambers at two sides of the fixed door plate 3 are communicated through the through holes. The bottles are fed from the receiving carousel II 13, the necks of the bottles are inserted into the bayonets and one side of the necks is limited by the outer skirt I24. When the bottle is pushed to the through hole of the fixed door plate 3, the bottleneck part of the bottle is guided by the inner guard plate I25 to push out the bayonet of the receiving turntable II 13, and simultaneously the bottleneck of the bottle is smoothly clamped by the bottle clamp of the receiving turntable I12. The direction of the bottles can also be the direction from the receiving carousel i 12 to the receiving carousel ii 13, according to the actual need, except that the bottles are guided by the end of the outer cover i 24 when they are handed over, so that they are pushed out of the bottle holders of the receiving carousel i 12 and are simultaneously inserted into the bayonets of the receiving carousel ii 13.

When the movable door plate is used for isolating the chambers, the fixed door plate 3 is in sealing connection with the movable door plate 5, and the chambers on two sides of the fixed door plate 3 cannot be communicated through the through holes. Firstly, driving the bearing rotary table II 13 to descend; then, the outer guard plate I24 and the inner guard plate I25 are driven to move towards the bearing turntable II 13, so that the end part of the outer guard plate I24 is separated from the through hole of the fixed door plate 3, and the inner guard plate I25 is positioned at the inner side of the bearing turntable II 13; then, the movable door plate 5 moves to the front of the through hole of the fixed door plate 3, namely, at the position between the bearing rotary disk I12 and the bearing rotary disk II 13, part of the edge part of the bearing rotary disk I12 is embedded into the first avoidance groove 9, part of the edge part of the bearing rotary disk II 13 is embedded into the second avoidance groove 10, the bulge 4 on the fixed door plate 3 is embedded into the first avoidance groove 9, the folding piece 7 presses the movable door plate 5 towards the position of the fixed door plate 3, the movable door plate 5 is pressed tightly on the sealing ring 11, finally, the fixed door plate 3 is in sealing connection with the movable door plate 5, and the through hole of the fixed door plate 3 is closed by the movable door plate 5.

The second embodiment is different from the first embodiment in that the outer guard plate I and the inner guard plate I are directly fixed on the frame, and the outer guard plate I and the inner guard plate I are disassembled and assembled to participate in the operation of isolating the two chambers.

The third embodiment, as shown in fig. 9, is different from the first embodiment in that both the edge portion of the receiving turntable i 12 and the edge portion of the receiving turntable ii 13 are provided with bayonets. The guide means comprise two shields 26, one corresponding to the receiving carousel i 12 and the other corresponding to the receiving carousel ii 13. Both shields 26 are fixedly mounted to the frame. One guard 26 is located on the outer side of the receiving turntable I12 and one end of the guard 26 extends into the inner side of the adjacent receiving turntable II 13, and the other guard 26 is located on the outer side of the receiving turntable II 13 and one end of the guard 26 extends into the inner side of the adjacent receiving turntable I12. Both shields 26 pass through the through holes of the stationary door panel. The overall transport path is located between the receiving carousel and the apron 26. The operation of isolating the two chambers is participated in by means of the dismounting of the outer guard 26.

A fourth embodiment, as shown in fig. 10, is different from the third embodiment in that one guard plate 26 is of an integral structure, and the other guard plate is changed from the integral structure to a split structure, specifically, the split guard plate includes a limiting plate i 27 and a guide plate i 28, and the split guard plate corresponds to the receiving turntable i 12. The limiting plate I27 of the split guard plate is positioned on the outer side of the bearing rotary table I12, one end of the guide plate I28 is positioned on the inner side of the bearing rotary table II 13, and the other end of the guide plate I28 penetrates through the through hole of the fixed door plate and is continuously distributed with the limiting plate I27. The guide plate I28 is arranged on the swinging mechanism; the guard 26 on the outer side of the receiving turntable II 13 is also mounted on the swing mechanism. The limiting plate I27 is integrally positioned on the other side of the fixed door plate, does not pass through a through hole of the fixed door plate, and the guide plate I28 is used for participating in the operation of isolating the two chambers by swinging towards the inner side of the bearing turntable II 13 and separating from the through hole of the fixed door plate. The guard 26 also swings inwardly of the receiving turntable ii 13 to engage in a space-saving operation of the two chambers.

The fifth embodiment, as shown in fig. 11, is different from the first embodiment in that both the edge portion of the receiving turntable i 12 and the edge portion of the receiving turntable ii 13 are provided with bottle holders. The guide means comprise two shields 26, both shields 26 being located on the inner side of the receiving carousel i 12, i.e. one shield 26 being located on the inner side of the receiving carousel i 12 and the other shield 26 being located on the inner side of the receiving carousel ii 13. Both shields 26 are fixedly mounted to the frame. The overall conveying path is located within the range of motion of the bottle clamp. The operation of isolating the two chambers is participated in by means of the dismounting guard 26.

The sixth embodiment is different from the fifth embodiment in that a shield plate is mounted on a swing mechanism. The guard board is arranged on the inner side in a swinging way to isolate the two chambers.

The seventh embodiment is different from the first embodiment in that a bayonet is provided at the edge of the receiving turntable i, and a bottle clip is provided at the edge of the receiving turntable ii. In comparison with the first embodiment, the distribution positions of the bayonet and the bottle clamp are exchanged. The guide part comprises an outer guard plate II and an inner guard plate II, and the outer guard plate II and the inner guard plate II are directly fixed on the frame. The outer guard plate II is located the outside of accepting carousel I and the one end of outer guard plate II stretches into the inboard of accepting carousel II, and the inner guard plate II is located the inboard of accepting carousel I. The whole conveying path is distributed between the bearing turntable and the guard plate and in the movement range of the bottle clamp. The operation of isolating two chambers is participated in through the mode of disassembling and assembling the outer guard plate II and the inner guard plate II.

An eighth embodiment is different from the seventh embodiment in that the outer shield plate ii includes a limiting plate ii and a guide plate ii. Limiting plate II is located the outside of accepting the carousel, and the one end of guide board II is located the inboard of accepting carousel II, the other end of guide board II passes the through-hole of fixed door plant and with limiting plate II continuous distribution. The guide plate II and the inner guard plate II are both arranged on the swinging mechanism. The guide plate II and the inner guard plate II are rotated, and the operation of the two isolated chambers is participated in through the mode that the inner guard plate II is placed on the inner side and the guide plate II is separated from the through hole of the fixed door plate.

The ninth embodiment is different from the first embodiment in a lifting member. In this embodiment, the lifting component includes a transmission assembly and a telescopic assembly. The transmission component is arranged on the telescopic component, and is driven by the telescopic component to lift and lower together with the bearing turntable II. The transmission assembly is provided with a transmission shaft and a shaft sleeve; the telescopic component comprises a carrying plate, an installation shaft sleeve, a supporting seat and an electric push rod. The carrying plate is arranged on the electric push rod, and the electric push rod drives the carrying plate to move in the vertical direction. The mounting shaft sleeve is fixedly arranged on the carrying plate; the bearing turntable II is fixedly arranged at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is arranged in the mounting shaft sleeve through a bearing, the transmission shaft is fixedly connected with the supporting seat, the shaft sleeve is fixedly connected with the carrying plate, and the transmission shaft is positioned in the shaft sleeve and is movably connected with the shaft sleeve through the bearing.

The tenth embodiment is different from the first embodiment in that there is no return spring i between the movable door panel and the door frame, and in the initial state, the relative positions between the movable door panel and the door frame are random.

An eleventh embodiment, as shown in fig. 12, is different from the first embodiment in that the folding member includes a guide plate 29 and a guide post 30, the guide plate 29 is fixedly connected with the fixed door panel 3, a guide groove 31 is provided on the guide plate 29, the guide groove 31 extends in a direction parallel to the fixed door panel 3, a distance from one end of the guide groove 31 to the fixed door panel 3 is smaller than a distance from the other end of the guide groove 31 to the fixed door panel 3, the guide post 30 is fixedly connected with the movable door panel 5, and the guide post 30 is embedded into the guide groove 31. When the movable door plate 5 moves linearly, the guide post 30 on the movable door plate 5 moves towards the position of the fixed door plate 3 under the guide action of the guide groove 31, and at the moment, the movable door plate 5 moves in two vertical directions, the movable door plate 5 compresses the sealing ring 11, and finally the movable door plate 5 and the fixed door plate 3 are connected together in a sealing way through the sealing ring 11.

The twelfth embodiment is different from the eleventh embodiment in that a return spring ii for moving the movable door panel toward the fixed door panel is provided between the movable door panel and the door frame.

A thirteenth embodiment of the present utility model. The difference from the first embodiment is that the moving structure of the movable door panel in the direction perpendicular to the fixed door panel is eliminated.

The conveying path sealing and isolating system comprises a bearing part, a guiding part, a sealing and isolating part and a lifting part. The conveying path sealing and isolating system is combined on a rack of the whole machine equipment such as a blowing, filling and spinning integrated machine after being put into use; the whole machine equipment is internally divided into chambers, and the sealing and isolating component is combined on a partition plate structure for separating the chambers. The conveying path sealing and isolating system is provided with a chamber at two sides of the sealing and isolating component respectively, namely a sealing and isolating component is arranged between the two chambers. The chambers are communicated and isolated by the on-off of the sealing isolation parts. The receiving members are disposed within the chamber, and each receiving member is provided with a conveying path. Each of the receiving members includes a receiving turntable, and the conveying path is located at an edge of the receiving turntable. The conveying paths of the bearing turntables are connected and communicated to form an integral conveying path of the conveying path sealing and isolating system, the integral conveying path passes through the sealing and isolating component, and the guiding component is positioned at the connecting position of the conveying paths. The sealing and isolating part comprises a fixed door, a movable door and a driving piece. The fixed door comprises a fixed door plate and an inflatable sealing ring, wherein the fixed door plate is arranged on a partition board of the whole equipment and is in sealing connection with the partition board. The fixed door plate is provided with through holes, the inflatable sealing rings are arranged on the fixed door plate and distributed around the through holes, and the driving piece drives the movable door to linearly move in a direction parallel to the fixed door plate. The inflatable sealing ring can bulge after being inflated, and is not inflated or bulged in an initial state. The driving member provides a force in a linear direction, and the force can be one of a linear cylinder, an oil cylinder, an electric cylinder and a power assembly based on a crank connecting rod, a movable part of the driving member, such as a piston rod and a rocker arm, is connected with the movable door, and a fixed part of the driving member, such as a cylinder body and a motor, can be arranged on the frame or the fixed door, so that the relative movement between the movable door and the fixed door plate is generated.

The two adjacent bearing turntables are positioned on two sides of the fixed door plate, part of the edge part of one bearing turntable passes through the through hole and protrudes out of one side of the fixed door plate, and the other bearing turntable is integrally positioned on one side of the fixed door plate. The bearing turnplate of which part of the edge part passes through the through hole and protrudes out of one side of the fixed door plate is marked as a bearing turnplate I, and the bearing turnplate integrally positioned on one side of the fixed door plate is marked as a bearing turnplate II. The partial edge part of the bearing rotary disk I and the partial edge part of the bearing rotary disk II are vertically distributed, and the bearing rotary disk I is higher than the bearing rotary disk II in structural design as a whole. The bearing rotary disk I is directly arranged on the frame through a transmission structure and is connected into the transmission structure of the whole machine, and the bearing rotary disk II is arranged on the frame through a lifting part. The lifting part drives the bearing rotary table II to linearly move in the vertical direction so as to adjust the distance between the bearing rotary table I and the bearing rotary table II, which are positioned on two sides of the fixed door plate and are adjacent to each other, in the vertical direction, the lifting part is arranged at the highest position of the bearing rotary table II in the initial state, and the distance between the bearing rotary table I and the bearing rotary table II is the smallest.

The lifting component comprises a transmission component and a telescopic component. The transmission assembly comprises a transmission shaft and a shaft sleeve. The axle sleeve is installed in the frame, and the transmission shaft is located the axle sleeve, and the transmission shaft passes through the bearing and is connected with the axle sleeve. The center line of the transmission shaft is in the vertical direction after installation. The transmission shaft is connected into the transmission structure of the whole machine. The telescopic component comprises a carrying plate, an installation shaft sleeve, a supporting seat and an electric push rod. The electric push rod is arranged on the frame, and the carrying plate is arranged on the electric push rod.

The electric putter includes flexible unit and motor. The telescopic unit comprises a supporting sleeve, a screw rod and a screw rod sleeve. The screw rod sleeve is externally provided with a sliding sleeve, the screw rod sleeve is movably arranged in the screw rod sleeve through the sliding sleeve, and the screw rod sleeve can slide along the central line of the screw rod sleeve in the supporting sleeve. The screw rod is matched with the screw rod sleeve through threads, and when the screw rod rotates, the supporting sleeve can move linearly relative to the supporting sleeve, so that the whole telescopic unit can obtain a telescopic effect at the screw rod sleeve. The outside of the screw rod is provided with a gear.

The telescopic assembly is provided with three telescopic units, and all the three telescopic units are not distributed on the same straight line, namely, are distributed in a triangular shape. The support sleeve is fixedly connected with the frame during installation, and the three telescopic units are connected through a chain. On the motor installation frame, the motor is connected with the lead screw of one of them flexible unit only, and then can realize three flexible units of synchronous drive. The screw rod is fixedly connected with the carrying plate, so that the electric push rod can lift or lower the height of the carrying plate after working, and the carrying plate is driven to move in the vertical direction. The installation axle sleeve fixed mounting is on carrying the thing board, accepts carousel II fixed mounting at the top of supporting seat, and the bottom of supporting seat is cylindric and the bottom of supporting seat passes through the bearing and installs in the installation axle sleeve for accept carousel II and can rotate on carrying the thing board. The inside hollow channel structure that is used for holding the transmission shaft of supporting seat, the inside central line of passageway of supporting seat is the coincidence of central line at cylindric position with the bottom of supporting seat. The transmission shaft is connected with the supporting seat through a flat key, the supporting seat is in sliding connection with the transmission shaft, in particular, a key groove is further formed in the supporting seat, the key groove is located at the edge of the channel and is communicated with the channel, the flat key is arranged on the transmission shaft, the end, provided with the flat key, of the transmission shaft stretches into the channel of the supporting seat, and the flat key is embedded into the key groove. When the transmission shaft rotates, the supporting seat rotates along with the transmission shaft, namely, the supporting seat receives the rotation of the turntable II; when the supporting seat is lifted when the rotary table II is supported, the flat key can slide in the key groove, the transmission shaft can slide in the channel of the supporting seat, and the rotary table II can move linearly in the vertical direction relative to the transmission shaft.

The movable door comprises a movable door plate. The movable door plate is movably arranged on the fixed door plate through the linear guide rail, and is in an upright state. In the initial state, the driving piece contracts, the movable door plate is located at one end of the fixed door plate, and after the driving piece stretches out, the movable door plate moves towards the other end of the fixed door plate until the movable door plate is located at the through hole of the fixed door plate. The driving piece pushes and pulls the movable door plate to move together, and the distance between the movable door plate and the fixed door plate is fixed and unchanged in the direction perpendicular to the fixed door plate.

The movable door plate is provided with a first avoiding groove for accommodating and supporting the part edge part of the rotary table I protruding out of one side of the fixed door plate, and the movable door plate is provided with a second avoiding groove for accommodating and supporting the part edge part of the rotary table II. The direction of the first avoidance groove and the direction of the second avoidance groove are both in the horizontal direction and opposite to each other, and the first avoidance groove is not directly communicated with the second avoidance groove; in addition, in order to adapt to the difference in height between the bearing turntable I and the bearing turntable II, the heights of the first avoidance groove and the second avoidance groove in the vertical direction are also different. In the initial state, the movable door plate is far away from the through hole of the fixed door plate, and the part edge part of the bearing turntable I protruding out of one side of the fixed door plate is positioned in the extending direction of the first avoidance groove; when the space between the part edge part of the bearing rotary disk II and the part edge part of the bearing rotary disk I protruding out of one side of the fixed door plate in the vertical direction reaches the maximum, the part edge part of the bearing rotary disk II is positioned in the extending direction of the second avoidance groove.

The first avoidance groove is embedded into the first avoidance groove in order to enable a part of the edge part of the bearing turntable I protruding out of one side of the fixed door plate after the driving piece drives the movable door plate to move, and one end of the first avoidance groove is of an open structure; in order to enable the fixed door plate to be tightly connected with the movable door plate, the fixed door plate is provided with a protrusion for being embedded into the first avoiding groove, and the inflatable sealing ring is distributed on the surface of the protrusion. When the bearing rotary table II descends and the driving piece pushes the movable door plate to move towards the other end of the fixed door plate, part of the edge part of the bearing rotary table II just can be embedded into the second avoidance groove, part of the edge part of the bearing rotary table I protruding out of one side of the fixed door plate is embedded into the first avoidance groove, the inflatable sealing ring is positioned between the fixed door plate and the movable door plate, and a gap is reserved between the inflatable sealing ring and the movable door plate; the protrusion on the fixed door plate is embedded in the first avoiding groove.

In this embodiment, the fixed door plate may be connected with the movable door plate through an inflatable sealing ring in a sealing manner, and this needs to inflate the inflatable sealing ring, so that after the inflatable sealing ring is inflated, the inflatable sealing ring may be connected with the movable door plate in a sealing manner, and the two chambers of the fixed door plate may not be connected through the through hole.

The edge of the receiving rotary disk I is provided with a bottle clamp, and the edge of the receiving rotary disk II is provided with a bayonet. The guide member in this embodiment includes an outer shield I and an inner shield I. The outer guard plate I and the inner guard plate I are both arranged on the swing mechanism, the swing mechanism is provided with an air cylinder, the outer guard plate I and the inner guard plate I are movably arranged on the frame in a swing mode, the swing direction is in the horizontal plane, and the cylinder body of the air cylinder is arranged on the frame, and the piston rod of the air cylinder is connected with the outer guard plate I or the inner guard plate I. The swing mechanism is provided with two air cylinders, one air cylinder corresponds to the outer guard plate I, and the other air cylinder corresponds to the inner guard plate I. In the initial state, the outer guard plate I is positioned at the outer side of the bearing turntable II, one end of the outer guard plate I penetrates through the through hole of the fixed door plate and stretches into the inner side of the bearing turntable I, and the inner guard plate I is positioned at the inner side of the bearing turntable II; after the swing mechanism drives the outer guard plate I and the inner guard plate I to move, the outer guard plate I can be completely separated from the bearing rotary plate I and positioned on the outer side of the bearing rotary plate I, the outer guard plate I can extend into the inner side of the bearing rotary plate II, and the inner guard plate I can be closer to the central position of the bearing rotary plate II. In the initial state, the whole conveying path is distributed between the bearing turntable and the guard plate and in the movement range of the bottle clamp.

When the door is used for conveying, the chambers at the two sides of the fixed door plate are communicated through the through holes. The bottles are fed from the receiving carousel II, the necks of the bottles are inserted into the bayonets, and one side of the necks is limited by the outer shield I. The bearing rotary disk I and the bearing rotary disk II rotate in opposite rotation directions, and when the bottle is pushed to the through hole of the fixed door plate, the bottleneck part of the bottle is guided by the inner guard plate I to push out the bayonet of the bearing rotary disk II, and simultaneously the bottleneck of the bottle is smoothly clamped by the bottle clamp of the bearing rotary disk I. According to the actual need, the direction of conveying the bottles can also be the direction from the receiving turntable I to the receiving turntable II, except that the bottles are guided by the end part of the outer guard plate I when the bottles are in handover, so that the bottles are pushed out of the bottle clamp of the receiving turntable I and are embedded into the bayonet of the receiving turntable II.

When the movable door plate is used for isolating the cavities, the fixed door plate is in sealing connection with the movable door plate, and the cavities on two sides of the fixed door plate cannot be communicated through the through holes. Firstly, driving the bearing turntable II to descend; then, the outer guard plate I and the inner guard plate I are driven to move towards the bearing turntable II, so that the end part of the outer guard plate I is separated from the through hole for fixing the door plate, and the inner guard plate I is located at the inner side of the bearing turntable II; then, the movable door plate moves to the front of the through hole of the fixed door plate, namely, the position between the bearing rotary disk I and the bearing rotary disk II is embedded into the first avoidance groove at the part edge part of the bearing rotary disk I, the part edge part of the bearing rotary disk II is embedded into the second avoidance groove, the bulge on the fixed door plate is embedded into the first avoidance groove, the inflatable sealing ring is inflated, the inflatable sealing ring is tightly pressed on the movable door plate, and finally, the fixed door plate is in sealing connection with the movable door plate, and the through hole of the fixed door plate is sealed by the movable door plate.

The fourteenth embodiment is different from the thirteenth embodiment in that the outer guard plate i and the inner guard plate i are directly fixed on the frame, and the outer guard plate i and the inner guard plate i are disassembled and assembled to participate in the operation of isolating the two chambers.

The fifteenth embodiment is different from the thirteenth embodiment in that both the edge portion of the receiving turntable i and the edge portion of the receiving turntable ii are provided with bayonet. The guiding part comprises two guard plates, one guard plate corresponds to the receiving rotary table I, and the other guard plate corresponds to the receiving rotary table II. Both guard plates are fixedly arranged on the frame. One guard plate is located the outside of accepting carousel I and the one end of guard plate stretches into adjacent inboard of accepting carousel II, and another guard plate is located the outside of accepting carousel II and the one end of guard plate stretches into adjacent inboard of accepting carousel I. Both guard plates pass through the through holes of the fixed door plate. The integral conveying path is positioned between the bearing turntable and the guard plate. The operation of isolating the two chambers is participated in by disassembling and assembling the guard plates.

The sixteenth embodiment is different from the fifteenth embodiment in that one guard plate is of an integral structure, the other guard plate is changed from the integral structure to a split structure, and specifically, the split guard plate comprises a limiting plate i and a guide plate i, and the split guard plate corresponds to the receiving turntable i. The limiting plate I of the split guard plate is positioned on the outer side of the bearing rotary table I, one end of the guide plate I is positioned on the inner side of the bearing rotary table II, and the other end of the guide plate I penetrates through the through hole of the fixed door plate and is continuously distributed with the limiting plate I. The guide plate I is arranged on the swing mechanism; the guard board on the outer side of the bearing turntable II is also arranged on the swinging mechanism. The limiting plate I is integrally positioned on the other side of the fixed door plate, does not pass through a through hole of the fixed door plate, and participates in the operation of isolating the two chambers by swinging towards the inner side of the bearing turntable II and separating from the through hole of the fixed door plate.

The seventeenth embodiment is different from the thirteenth embodiment in that bottle holders are provided at both the edge portion of the receiving turntable i and the edge portion of the receiving turntable ii. The guiding part comprises two guard plates, wherein the guard plates are positioned on the inner side of the receiving turntable, namely one guard plate is positioned on the inner side of the receiving turntable I, and the other guard plate is positioned on the inner side of the receiving turntable II. Both guard plates are fixedly arranged on the frame. The overall conveying path is located within the range of motion of the bottle clamp. The operation of isolating the two chambers is participated in by disassembling and assembling the guard plates.

An eighteenth embodiment is different from the seventeenth embodiment in that a shield plate is mounted on a swing mechanism. The guard board is arranged on the inner side in a swinging way to isolate the two chambers.

The nineteenth embodiment is different from the thirteenth embodiment in that a bayonet is provided at an edge portion of the receiving turntable i, and a bottle holder is provided at an edge portion of the receiving turntable ii. In comparison with the thirteenth embodiment, the distribution positions of the bayonet and the bottle holder are reversed. The guide part comprises an outer guard plate II and an inner guard plate II, and the outer guard plate II and the inner guard plate II are directly fixed on the frame. The outer guard plate II is located the outside of accepting carousel I and the one end of outer guard plate II stretches into the inboard of accepting carousel II, and the inner guard plate II is located the inboard of accepting carousel I. The whole conveying path is distributed between the bearing turntable and the guard plate and in the movement range of the bottle clamp. The operation of isolating two chambers is participated in through the mode of disassembling and assembling the outer guard plate II and the inner guard plate II.

The twentieth embodiment is different from the nineteenth embodiment in that the outer shield plate ii includes a stopper plate ii and a guide plate ii. Limiting plate II is located the outside of accepting the carousel, and the one end of guide board II is located the inboard of accepting carousel II, the other end of guide board II passes the through-hole of fixed door plant and with limiting plate II continuous distribution. The guide plate II and the inner guard plate II are both arranged on the swinging mechanism. The guide plate II and the inner guard plate II are rotated, and the operation of the two isolated chambers is participated in through the mode that the inner guard plate II is placed on the inner side and the guide plate II is separated from the through hole of the fixed door plate.

A twenty-first embodiment is different from the thirteenth embodiment in a lifting member. In this embodiment, the lifting component includes a transmission assembly and a telescopic assembly. The transmission component is arranged on the telescopic component, and is driven by the telescopic component to lift and lower together with the bearing turntable II. The transmission assembly is provided with a transmission shaft and a shaft sleeve; the telescopic component comprises a carrying plate, an installation shaft sleeve, a supporting seat and an electric push rod. The carrying plate is arranged on the electric push rod, and the electric push rod drives the carrying plate to move in the vertical direction. The mounting shaft sleeve is fixedly arranged on the carrying plate; the bearing turntable II is fixedly arranged at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is arranged in the mounting shaft sleeve through a bearing, the transmission shaft is fixedly connected with the supporting seat, the shaft sleeve is fixedly connected with the carrying plate, and the transmission shaft is positioned in the shaft sleeve and is movably connected with the shaft sleeve through the bearing.

Claims (27)

1. The utility model provides a conveying path seals isolation system, this conveying path seals isolation system includes adapting unit, guide part, seals isolation part, conveying path seals isolation system is equipped with a cavity in sealing isolation part both sides respectively, through seals isolation part break-make between the cavity, all distribute adapting unit in the cavity, be equipped with the conveying path on the adapting unit, adapting unit includes adapting rotary table, conveying path is located the edge of adapting rotary table, adapting the whole conveying path of communicating and forming conveying path seals isolation system between the conveying path of rotary table, whole conveying path passes seals isolation part, guide part is located conveying path junction, seals isolation part includes fixed door, dodge gate, driving piece, fixed door includes fixed door plant and sealing washer, be equipped with the through-hole on the fixed door plant, the sealing washer is installed on the fixed door plant and is distributed around the through-hole, driving piece drives the dodge gate and is in the direction that is on a parallel with fixed door plant rectilinear motion, its characterized in that: the conveying path sealing and isolating system further comprises a lifting component, the lifting component is movably connected with the supporting turnplates of the other supporting turnplates, the lifting component drives the supporting turnplates to move linearly in the vertical direction so as to adjust the spacing between the supporting turnplates on two sides of the fixed door plate in the vertical direction, the movable door comprises a movable door plate, a door frame and a folding piece, the movable door plate is movably mounted on the door frame, the driving piece is connected with the door frame, the door frame is driven by the driving piece to move linearly in the direction parallel to the fixed door plate, the folding piece drives the movable door plate to move linearly in the direction vertical to the fixed door plate, a first avoidance groove for accommodating the part of the supporting turnplates on one side of the fixed door plate is arranged on the movable door plate, a second avoidance groove for accommodating the part of the movable door plate is arranged on the opposite side of the supporting turnplate, the avoidance groove is formed in the position of the opposite side of the first avoidance groove of the movable door plate, the other part of edge part of the bearing rotary table is positioned on the extending direction of the second avoidance groove when the two sides of the fixed door plate are positioned and the adjacent bearing rotary tables are positioned at the maximum distance in the vertical direction, the fixed door plate is provided with a bulge which is used for being embedded into the first avoidance groove, the surface of the bulge is distributed with a sealing ring, and the fixed door plate is in sealing connection with the movable door plate through the sealing ring.

2. The conveyance path sealing and isolation system according to claim 1, wherein: the bottle clamp is arranged at the edge part of the supporting rotary table, which penetrates through the through hole and protrudes out of one side of the fixed door plate, the bayonet is arranged at the edge part of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, the guide part comprises an outer guard plate I and an inner guard plate I, the outer guard plate I is positioned on the outer side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, one end of the outer guard plate I stretches into the inner side of the adjacent supporting rotary table, the inner guard plate I is positioned on the inner side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, and the integral conveying paths are distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

3. The conveyance path sealing and isolation system according to claim 2, wherein: the outer guard plate I and the inner guard plate I are both arranged on the swinging mechanism.

4. The conveyance path sealing and isolation system according to claim 1, wherein: the edge parts of the adjacent carrying turntables are provided with bayonets, the guide parts comprise guard plates, the guard plates are positioned on the outer sides of the carrying turntables, one ends of the guard plates extend into the inner sides of the adjacent carrying turntables, and the whole conveying path is positioned between the carrying turntables and the guard plates.

5. The conveyance path sealing and isolation system according to claim 4, wherein: the backplate that corresponds to part edge position and pass the through-hole and bulge and accept the carousel in one side of fixed door plant includes limiting plate I and guide board I, limiting plate I is located the outside of accepting the carousel, guide board I's one end is located the whole inboard that is located the carousel of accepting of one side of fixed door plant the other end of guide board I pass the through-hole of fixed door plant and with limiting plate I continuous distribution, install on swing mechanism corresponding to the backplate that is located the carousel of accepting of one side of fixed door plant wholly, guide board I also installs on swing mechanism.

6. The conveyance path sealing and isolation system according to claim 1, wherein: the bottle clamp is arranged at the edge parts of the adjacent bearing turntables and positioned at the two sides of the fixed door plate, the guide part comprises a guard plate, the guard plate is positioned at the inner side of the bearing turntables, and the whole conveying path is positioned in the movement range of the bottle clamp.

7. The conveyance path sealing and isolation system of claim 6 wherein: the guard plate is mounted on the swing mechanism.

8. The conveyance path sealing and isolation system according to claim 1, wherein: the edge part of the part edge part passes through the through hole and protrudes at the edge part of the supporting rotary table on one side of the fixed door plate, a bottle clamp is arranged at the edge part of the supporting rotary table on one side of the fixed door plate, the guide part comprises an outer guard plate II and an inner guard plate II, the outer guard plate II is positioned at the outer side of the supporting rotary table on one side of the fixed door plate, the part edge part passes through the through hole and protrudes at the outer side of the supporting rotary table on one side of the fixed door plate, one end of the outer guard plate II stretches into the inner side of the adjacent supporting rotary table, the inner guard plate II is positioned at the inner side of the supporting rotary table on one side of the fixed door plate, and the whole conveying path is distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

9. The conveyance path sealing isolation system of claim 8, wherein: the outer guard plate II comprises a limiting plate II and a guide plate II, the limiting plate II is located on the outer side of the bearing rotary table, one end of the guide plate II is located on the inner side of the bearing rotary table, which is located on one side of the fixed door plate integrally, the other end of the guide plate II penetrates through the through hole of the fixed door plate and is continuously distributed with the limiting plate II, and the guide plate II and the inner guard plate II are mounted on the swing mechanism.

10. The conveyance path sealing and isolation system according to claim 1, wherein: the lifting component comprises a transmission component and a telescopic component, the transmission component is provided with a transmission shaft with a fixed position, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is mounted on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly mounted on the carrying plate, the bearing rotary table is fixedly mounted at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is mounted in the mounting shaft sleeve through a bearing, and the transmission shaft is connected with the supporting seat through a flat key and is in sliding connection with the transmission shaft.

11. The conveyance path sealing and isolation system according to claim 1, wherein: the lifting component comprises a transmission component and a telescopic component, wherein the transmission component is arranged on the telescopic component, the transmission component is provided with a transmission shaft and a shaft sleeve, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is arranged on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly arranged on the carrying plate, the carrying turntable is fixedly arranged at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is arranged in the mounting shaft sleeve through a bearing, the transmission shaft is fixedly connected with the supporting seat, the shaft sleeve is fixedly connected with the carrying plate, and the transmission shaft is positioned in the shaft sleeve and is movably connected with the shaft sleeve through the bearing.

12. The conveyance path sealing and isolation system according to claim 1, wherein: the folding piece is an air cylinder, the air cylinder is fixedly connected with the fixed door plate, and the movable door plate is positioned between the air cylinder and the fixed door plate.

13. The conveyance path sealing isolation system of claim 12 wherein: and a reset spring I used for the movable door plate to move away from the fixed door plate is arranged between the movable door plate and the door frame.

14. The conveyance path sealing and isolation system according to claim 1, wherein: the folding piece comprises a guide plate and a guide column, wherein the guide plate is fixedly connected with a fixed door plate, a guide groove is formed in the guide plate, the guide groove extends in the direction parallel to the fixed door plate, the distance from one end of the guide groove to the fixed door plate is smaller than the distance from the other end of the guide groove to the fixed door plate, the guide column is fixedly connected with a movable door plate, and the guide column is embedded into the guide groove.

15. The conveyance path sealing isolation system of claim 14, wherein: and a reset spring II used for the movable door plate to move towards the fixed door plate is arranged between the movable door plate and the door frame.

16. The conveyance path sealing and isolation system according to claim 1, wherein: the folding piece comprises an electromagnetic lock and a traction plate, wherein the traction plate is fixedly connected with the movable door plate, and the electromagnetic lock is fixedly connected with the fixed door plate.

17. The utility model provides a conveying path seals isolation system, this conveying path seals isolation system includes adapting unit, guide part, seals isolation part, conveying path seals isolation system is equipped with a cavity in sealing isolation part both sides respectively, through seals isolation part break-make between the cavity, all distribute adapting unit in the cavity, be equipped with the conveying path on the adapting unit, adapting unit includes adapting rotary table, conveying path is located the edge of adapting rotary table, adapting the whole conveying path that links up the intercommunication and form conveying path seals isolation system between the conveying path of rotary table, whole conveying path passes seals isolation part, guide part is located conveying path junction, seals isolation part includes fixed door, dodge gate, driving piece, the fixed door includes fixed door plant and inflatable sealing washer, be equipped with the through-hole on the fixed door plant, inflatable sealing washer installs on the fixed door plant and distributes around the through-hole, driving piece drives the dodge gate and moves its characterized in that in a straight line in the direction that is on a parallel with the fixed door plant. The conveying path sealing and isolating system also comprises a lifting component which is movably connected with the other bearing turnplate, the lifting component drives the bearing turnplate to move in a straight line in the vertical direction so as to adjust the spacing between the two adjacent bearing turnplates in the vertical direction, the movable door comprises a movable door plate, the driving piece drives the movable door plate to move in a straight line in the direction parallel to the fixed door plate, the movable door plate is provided with a first avoidance groove for accommodating one part of edge parts of one side of the fixed door plate, the movable door plate is provided with a second avoidance groove for accommodating the other part of edge parts of the rotary plate, the direction of the first avoidance groove is opposite to that of the second avoidance groove, the part of edge parts of one side of the fixed door plate, which are protruded by one part of the rotary plate, is positioned in the extending direction of the first avoidance groove, the other part of edge parts of the rotary plate is positioned in the extending direction of the second avoidance groove when the spacing between two sides of the fixed door plate and the adjacent rotary plate in the vertical direction is maximum, the fixed door plate is provided with a bulge for embedding the first avoidance groove, inflatable sealing rings are distributed on the surface of the bulge, and the fixed door plate is in sealing connection with the movable door plate through the inflatable sealing rings.

18. The conveyance path sealing isolation system of claim 17, wherein: the bottle clamp is arranged at the edge part of the supporting rotary table, which penetrates through the through hole and protrudes out of one side of the fixed door plate, the bayonet is arranged at the edge part of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, the guide part comprises an outer guard plate I and an inner guard plate I, the outer guard plate I is positioned on the outer side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, one end of the outer guard plate I stretches into the inner side of the adjacent supporting rotary table, the inner guard plate I is positioned on the inner side of the supporting rotary table, which is integrally positioned on one side of the fixed door plate, and the integral conveying paths are distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

19. The conveyance path sealing isolation system of claim 18 wherein: the outer guard plate I and the inner guard plate I are both arranged on the swinging mechanism.

20. The conveyance path sealing isolation system of claim 17, wherein: the edge parts of the adjacent carrying turntables are provided with bayonets, the guide parts comprise guard plates, the guard plates are positioned on the outer sides of the carrying turntables, one ends of the guard plates extend into the inner sides of the adjacent carrying turntables, and the whole conveying path is positioned between the carrying turntables and the guard plates.

21. The conveyance path sealing isolation system of claim 20 wherein: the backplate that corresponds to part edge position and pass the through-hole and bulge and accept the carousel in one side of fixed door plant includes limiting plate I and guide board I, limiting plate I is located the outside of accepting the carousel, guide board I's one end is located the whole inboard that is located the carousel of accepting of one side of fixed door plant the other end of guide board I pass the through-hole of fixed door plant and with limiting plate I continuous distribution, install on swing mechanism corresponding to the backplate that is located the carousel of accepting of one side of fixed door plant wholly, guide board I also installs on swing mechanism.

22. The conveyance path sealing isolation system of claim 17, wherein: the bottle clamp is arranged at the edge parts of the adjacent bearing turntables and positioned at the two sides of the fixed door plate, the guide part comprises a guard plate, the guard plate is positioned at the inner side of the bearing turntables, and the whole conveying path is positioned in the movement range of the bottle clamp.

23. The conveyance path sealing isolation system of claim 22 wherein: the guard plate is mounted on the swing mechanism.

24. The conveyance path sealing isolation system of claim 17, wherein: the edge part of the part edge part passes through the through hole and protrudes at the edge part of the supporting rotary table on one side of the fixed door plate, a bottle clamp is arranged at the edge part of the supporting rotary table on one side of the fixed door plate, the guide part comprises an outer guard plate II and an inner guard plate II, the outer guard plate II is positioned at the outer side of the supporting rotary table on one side of the fixed door plate, the part edge part passes through the through hole and protrudes at the outer side of the supporting rotary table on one side of the fixed door plate, one end of the outer guard plate II stretches into the inner side of the adjacent supporting rotary table, the inner guard plate II is positioned at the inner side of the supporting rotary table on one side of the fixed door plate, and the whole conveying path is distributed between the supporting rotary table and the guard plate and in the movement range of the bottle clamp.

25. The conveyance path sealing isolation system of claim 24 wherein: the outer guard plate II comprises a limiting plate II and a guide plate II, the limiting plate II is located on the outer side of the bearing rotary table, one end of the guide plate II is located on the inner side of the bearing rotary table, which is located on one side of the fixed door plate integrally, the other end of the guide plate II penetrates through the through hole of the fixed door plate and is continuously distributed with the limiting plate II, and the guide plate II and the inner guard plate II are mounted on the swing mechanism.

26. The conveyance path sealing isolation system of claim 17, wherein: the lifting component comprises a transmission component and a telescopic component, the transmission component is provided with a transmission shaft with a fixed position, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is mounted on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly mounted on the carrying plate, the bearing rotary table is fixedly mounted at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is mounted in the mounting shaft sleeve through a bearing, and the transmission shaft is connected with the supporting seat through a flat key and is in sliding connection with the transmission shaft.

27. The conveyance path sealing isolation system of claim 17, wherein: the lifting component comprises a transmission component and a telescopic component, wherein the transmission component is arranged on the telescopic component, the transmission component is provided with a transmission shaft and a shaft sleeve, the telescopic component comprises a carrying plate, a mounting shaft sleeve, a supporting seat and an electric push rod, the carrying plate is arranged on the electric push rod, the electric push rod drives the carrying plate to move in the vertical direction, the mounting shaft sleeve is fixedly arranged on the carrying plate, the carrying turntable is fixedly arranged at the top of the supporting seat, the bottom of the supporting seat is cylindrical, the bottom of the supporting seat is arranged in the mounting shaft sleeve through a bearing, the transmission shaft is fixedly connected with the supporting seat, the shaft sleeve is fixedly connected with the carrying plate, and the transmission shaft is positioned in the shaft sleeve and is movably connected with the shaft sleeve through the bearing.