阅读说明：本技术 一种多工位带盖板离心机 (Multi-station centrifuge with cover plate ) 是由 张太贵 于 2021-09-17 设计创作，主要内容包括：本申请公开了一种多工位带盖板离心机,通过设置模具分度机构、盖板动力机构以及旋转离心机构,具体的,当批次生产同类型的工件时,在模具分度机构上设置多个相同类型模具,盖板动力机构上设置与所有模具类型均匹配的盖板,在模具盛装了加工原料后,盖板动力机构带动盖板盖合到模具上,旋转离心机构带动模具旋转进行离心加工；当批次生产同不同类型的工件时,在模具分度机构上设置多个不同类型的模具,在盖板动力机构上设置多个与模具一一相互匹配的盖板,在预定类型的模具盛装了加工原料后,盖板动力机构带动类型相匹配的盖板盖合到该模具上,旋转离心机构带动模具旋转进行离心加工,整个离心加工过程全程机械化作业,提高了加工效率。(The application discloses a multi-station centrifuge with a cover plate, which is characterized in that a mold indexing mechanism, a cover plate power mechanism and a rotary centrifugal mechanism are arranged, specifically, when workpieces of the same type are produced in batches, a plurality of molds of the same type are arranged on the mold indexing mechanism, a cover plate matched with all mold types is arranged on the cover plate power mechanism, after the molds contain processing raw materials, the cover plate power mechanism drives the cover plate to cover the molds, and the rotary centrifugal mechanism drives the molds to rotate for centrifugal processing; when workpieces of the same different types are produced in batches, a plurality of molds of different types are arranged on the mold indexing mechanism, a plurality of cover plates matched with the molds one by one are arranged on the cover plate power mechanism, after the molds of the preset types contain processing raw materials, the cover plate power mechanism drives the cover plates of the matched types to cover the molds, the rotary centrifugal mechanism drives the molds to rotate to carry out centrifugal processing, the whole process of the centrifugal processing process is mechanized, and the processing efficiency is improved.)

1. A multi-station centrifuge with a cover plate, comprising:

the die indexing mechanism (1) is arranged in a rotatable manner, a plurality of dies (4) of the same type or different types for containing processing raw materials are circumferentially arranged on the edge of the die indexing mechanism, and the dies (4) of the same type or different types for containing the processing raw materials can be driven to rotate to different processing stations for processing;

the cover plate power mechanism (2) is arranged on the forming station, at least one cover plate (5) matched with all the molds of the same type is arranged on the cover plate power mechanism (2) or a plurality of cover plates (5) matched with the molds (4) of different types are circumferentially arranged on the cover plate power mechanism (2), and the cover plate power mechanism (2) can longitudinally move up and down and/or circumferentially rotate and is used for driving the cover plate (5) of the same type as the mold to move to a position opposite to the mold after the mold (4) contains processing raw materials and driving the cover plate to downwards move and cover the corresponding mold (4);

and the rotary centrifugal mechanism (3) is arranged on the forming station or on the mould indexing mechanism (1), is in driving connection with the mould (4) and is used for driving the mould covered with the cover plate (5) to rotate centrifugally so as to enable the processing raw material to be attached to the inner wall of the mould (4) and form a workpiece matched with the shape of the mould (4).

2. A multi-station cover plate centrifuge according to claim 1, wherein a plurality of said moulds (4) are of the same type of mould (4), said cover plate power mechanism (2) comprising: the first cover plate driving device (201) is arranged on the forming station, the driving end of the first cover plate driving device is connected with cover plates (5) matched with all types of molds (4) in a rotating mode, and the cover plates (5) can be sequentially driven to move downwards to cover the molds (4) which are rotated to the forming station.

3. A multi-station cover plate centrifuge according to claim 1, wherein a plurality of said molds (4) are of different types (4), said cover plate power mechanism (2) comprising: the first cover plate dividing disc is circumferentially provided with a plurality of second cover plate driving devices, a cover plate (5) matched with one mold (4) in type is rotatably arranged at the driving end of each second cover plate driving device and used for driving a predetermined type mold (4) to rotate to the forming station and simultaneously driving the cover plate (5) matched with the mold (4) in type to synchronously rotate to the forming station, and the cover plate (5) is driven to move downwards to cover the mold (4).

4. A multi-station cover plate centrifuge according to claim 1, wherein a plurality of said molds (4) are of different types (4), said cover plate power mechanism (2) comprising:

the second cover plate indexing disc (202) is provided with a plurality of movable mounting rods (206) in a penetrating mode in the circumferential direction, the lower end of each mounting rod (206) is provided with a cover plate (5), the upper end of each mounting rod is sleeved with a resetting piece (207), one end of each resetting piece (207) is connected with the corresponding mounting rod (206), and the other end of each resetting piece (207) is connected with the second cover plate indexing disc (202);

the third cover plate driving device (204) is arranged on the forming station and positioned above the second cover plate dividing disc (202) and is used for downwards abutting against a mounting rod (206) connected with the cover plate (5) when the cover plate (5) rotates to the forming station so as to enable the cover plate to descend and cover the same type of molds (4);

when the processing raw material is centrifugally processed and the third cover plate driving device (204) moves upwards to separate from the mounting rod (206), the reset piece (207) drives the cover plate (5) to lift upwards for resetting.

5. A multi-station belt deck centrifuge according to any of claims 2-4, wherein the mold indexing mechanism (1) comprises: the mould index plate (101) is provided with a plurality of moulds (4) of the same type or different types in the circumferential direction and is used for driving the moulds (4) to rotate one by one on the forming station to cover the cover plate (5).

6. A multi-station covered centrifuge according to any of claims 2-4, wherein the rotary centrifuging mechanism (3) comprises: the connector assembly is arranged on the forming station and can move up and down to be connected with or disconnected from the bottom of the mold (4) which rotates to the forming station, and the first mold driving device (301) which is connected with the connector assembly in a driving mode and is used for driving the connector assembly to rotate so as to enable the mold (4) to rotate.

7. A multi-station covered centrifuge according to any of claims 2-4, wherein the rotary centrifuging mechanism (3) comprises: and the plurality of second die driving devices (306) are arranged on the die indexing mechanism (1), and each second die driving device (306) is in driving connection with the bottom of one die (4) respectively and is used for driving the die (4) to rotate.

Technical Field

The invention belongs to the technical field of glass manufacturing, and particularly relates to a multi-station centrifuge with a cover plate.

Background

In the manufacturing process of the rotary glass appliance, molten glass in a molten state needs to be taken out of a smelting furnace and placed into a corresponding die for centrifugal forming, then formed workpieces are subjected to blanking and annealing, the existing processes all need manual operation, the labor intensity is high, the processing efficiency is low, in addition, multiple workers can only simultaneously process one workpiece within a unit time in the production process, the processing efficiency is also limited, in addition, in the existing processing process, because the die is complex to mount and dismount, only one type of workpiece can be processed independently in the processing process, after the processing of the previous type of workpiece is completed, another die is replaced, the next type of workpiece is processed, two or more different types of workpieces cannot be produced simultaneously in the processing process, and the production requirements cannot be met.

Disclosure of Invention

Objects of the invention

In order to overcome the defects, the invention aims to provide a multi-station centrifuge with a cover plate, which aims to solve the technical problems that manual operation is needed during the manufacturing of the existing glass workpiece, the processing efficiency is low, the labor intensity is high, the labor cost is high, only one type of workpiece can be processed independently during the processing process, and the simultaneous processing of various different types of workpieces cannot be met

(II) technical scheme

In order to achieve the purpose, the technical scheme provided by the application is as follows:

a multi-station covered centrifuge comprising:

the die indexing mechanism is rotatably arranged, a plurality of dies of the same type or a plurality of dies of different types for containing processing raw materials are circumferentially arranged on the edge of the die indexing mechanism, and the dies of the same type or a plurality of dies of different types for containing the processing raw materials can be driven to rotate to different processing stations for processing;

the cover plate power mechanism is arranged on the forming station, is provided with at least one cover plate matched with all the same type of moulds or is connected with a plurality of cover plates respectively matched with different types of moulds and is used for driving the same type of cover plate to move downwards to cover the corresponding mould after the mould is filled with processing raw materials;

and the rotary centrifugal mechanism is arranged on the forming station or on the mould indexing mechanism, is in driving connection with the mould and is used for driving the mould covered with the cover plate to rotate centrifugally so as to enable the processing raw material to be attached to the inner wall of the mould and form a workpiece matched with the shape of the mould.

The die indexing mechanism, the cover plate power mechanism and the rotary centrifugal mechanism are arranged, the mechanisms are matched with one another, specifically, when workpieces of the same type need to be produced in batches, a plurality of dies of the same type are arranged on the die indexing mechanism, then the cover plate matched with all die types is arranged on the cover plate power mechanism, after the dies contain processing raw materials, the cover plate power mechanism drives the cover plate matched with the die types to move downwards to cover the dies, and then the rotary centrifugal mechanism drives the dies to rotate to carry out centrifugal processing, so that the workpieces of the same type are produced in batches; when workpieces of the same different types are required to be produced in batches, a plurality of different types of dies can be arranged on the die indexing mechanism, a plurality of cover plates matched with the dies one by one are arranged on the cover plate power mechanism, after the dies of the preset types contain processing raw materials, the cover plate power mechanism can drive the cover plate matched with the preset die types to cover the dies, then the rotary centrifugal mechanism drives the dies covering the cover plates to rotate for centrifugal processing, so that the workpieces of different types are produced in batches, the whole centrifugal processing process is mechanically operated in the whole process, manual operation is not required, the processing efficiency is improved, and the labor intensity is reduced.

In some embodiments, the plurality of dies are the same type of die, and the cover plate power mechanism comprises: set up a first apron drive arrangement on the shaping station, it is connected with and all mould type assorted apron to rotate on its drive end, can drive this apron lapse in proper order and close to the mould that rotates the shaping station, because the type of mould is all the same, only need set up a first apron drive arrangement on the shaping station, connect an apron that all matches with all mould types on the first apron drive arrangement, add man-hour, when the mould moved the shaping station one by one, first apron drive arrangement drove this apron lapse in proper order, the lid closes to the mould that rotates the shaping station in proper order, the mould that the apron has been closed to the lid can carry out centrifugal forming processing, this embodiment can batch production same kind of work piece.

In some embodiments, the plurality of molds are different types of molds, and the cover plate power mechanism comprises: first apron graduated disk, circumference is provided with a plurality of second apron drive arrangement on it, it is provided with the apron that matches each other with the type of a mould respectively to rotate on every second apron drive arrangement's the drive end, because the type of mould is different, consequently, need set up the apron of a plurality of different grade types and the mould of different grade type to cooperate, add man-hour, the rotational speed and the mould indexing mechanism of first apron graduated disk mutually support, when mould indexing mechanism drives predetermined type mould and rotates the shaping station, first apron graduated disk drives and rotates the shaping station with this mould type assorted apron in step, then, second apron drive arrangement drives this apron and moves down the lid and closes on this mould, can process different kind of work pieces simultaneously, satisfy different production demands.

In some embodiments, the cover plate power mechanism comprises:

the second cover plate indexing disc is circumferentially provided with a plurality of mounting rods in a penetrating manner, each mounting rod is provided with a cover plate, each mounting rod is also sleeved with a resetting piece, one end of each resetting piece is connected with the mounting rod, and the other end of each resetting piece is connected with the second cover plate indexing disc;

the third cover plate driving device is arranged on the forming station, positioned above the second cover plate dividing disc and used for downwards abutting against the mounting rod connected with the cover plate when the corresponding cover plate rotates to the forming station so as to enable the cover plate to downwards move and cover the same type of mould;

because the types of the dies are different, a plurality of cover plates of different types are required to be arranged to be matched with the dies of different types, during processing, the rotating speed of the second cover plate dividing disc is matched with the die dividing mechanism, when the die dividing mechanism drives the die of the preset type to rotate to the forming station, the second cover plate dividing disc drives the cover plate matched with the type of the die to synchronously rotate to the forming station, then the third cover plate driving device is connected with the mounting rod of the cover plate through abutting joint, the reset piece is extruded and shortened to drive the cover plate to descend and cover the preset die, after the centrifugal forming processing of the processing raw materials is completed, the third cover plate driving device moves upwards and is separated from the mounting rod, the reset piece drives the mounting rod to move upwards to reset, the cover plate is opened, and thus, a plurality of cover plates of different types can be driven to move downwards to cover the cover plate by only arranging one driving device, the equipment manufacturing cost can be saved.

In some embodiments, the mold indexing mechanism comprises: the mould graduated disk is provided with a plurality of moulds of the same type or a plurality of different types in circumference on for drive the mould and rotate one by one and supply the apron to cover on the shaping station and close, the position that corresponds every mould on this mould graduated disk is provided with and rotates the rotation seat that is connected with the mould graduated disk and is used for driving the mould rotation and carry out centrifugal processing.

In some embodiments, a rotary centrifuge mechanism comprises: a connector assembly disposed on the molding station and movable up and down to be connected to and disconnected from the mold bottom rotated to the molding station, a first mould driving device which is connected with the connector component in a driving way and is used for driving the connector component to rotate so as to enable the mould to rotate automatically, the connector assembly is connected with the mold which moves to the molding station, and then the mold is driven to rotate by the first mold driving device for centrifugal processing, after the previous workpiece is centrifugally processed, the connector assembly is separated from the mold of the previous workpiece and then connected with the next mold containing processing raw materials, then the processing raw material in the next die is processed centrifugally, thus, all the dies can be driven to rotate only by arranging a first die driving device, the processing raw materials in the die are processed by centrifugal molding, so that the manufacturing cost of the equipment can be saved.

In some embodiments, a rotary centrifuge mechanism comprises: a plurality of second mould drive arrangement, the setting is on mould indexing mechanism and every second mould drive arrangement is connected with a mould bottom drive respectively, be used for driving the mould rotation, through set up a second mould drive arrangement bottom every mould, every second mould drive arrangement can drive the mould that corresponds alone and rotate, the mould splendid attire processing raw materials next station pivoted in-process, the second mould drive arrangement that corresponds can start at once, carry out centrifugal processing to the processing raw materials, when the mould rotates and reachs next station, centrifugal forming processing just accomplishes, just so need not additionally to set up the shaping station and wait for the processing raw materials to carry out centrifugal forming processing on the shaping station, can shorten the time of processing, the lifting efficiency.

Drawings

FIG. 1 is a schematic structural view of a first embodiment of a multi-station covered centrifuge of the present invention;

FIG. 2 is a schematic structural view of a second embodiment of the multi-station covered centrifuge of the present invention;

FIG. 3 is a schematic diagram of the mold indexing mechanism of the multi-station covered centrifuge of the present invention;

FIG. 4 is a schematic structural view of a first embodiment of a rotary centrifuge mechanism of a multi-station covered centrifuge according to the present invention;

FIG. 5 is a schematic diagram of a second embodiment of a rotary centrifuge mechanism of a multi-station covered centrifuge according to the present invention;

fig. 6 is a partially enlarged view of a portion a in fig. 2.

Reference numerals:

1. a mold indexing mechanism; 101. a mold index plate; 102. a mold index plate drive device; 103. a rotating seat; 2. a cover plate power mechanism; 201. a first cover plate driving device; 202. a second cover plate index plate; 203. a second cover plate index plate driving device; 204. a second cover plate driving device; 205. a mounting seat; 206. mounting a rod; 207. a reset member; 3. rotating the centrifugal mechanism; 301. a first mold driving device; 3011. a first mold drive end; 302. a connecting plate; 303. a lift drive; 304. a first connection portion; 3041. a nesting portion; 305. a second connecting portion; 306. a second mold driving device; 4. a mold; 5. and (7) a cover plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

The invention provides a multi-station centrifuge with a cover plate, which comprises:

the die indexing mechanism 1 is rotatably arranged, a plurality of dies 4 of the same type or different types for containing processing raw materials are circumferentially arranged on the edge of the die indexing mechanism, and the dies 4 of the same type or different types for containing the processing raw materials can be driven to rotate to different processing stations for processing;

the cover plate power mechanism 2 is arranged on the forming station, and at least one cover plate matched with all the molds 4 of the same type or a plurality of cover plates 5 respectively matched with the molds 4 of different types are arranged on the cover plate power mechanism 2 and used for driving the cover plates 5 of the same type to move downwards to cover the corresponding molds 4 after the molds 4 are filled with processing raw materials;

and the rotary centrifugal mechanism 3 is arranged on the forming station or on the mould indexing mechanism 1, is in driving connection with the mould 4 and is used for driving the mould covered with the cover plate 5 to rotate centrifugally so as to enable the processing raw material to be attached to the inner wall of the mould 4 and form a workpiece matched with the shape of the mould 4.

Specifically, different processing stations are arranged on the periphery of the mold indexing mechanism 1, corresponding processing equipment is arranged on the different processing stations, for example, a feeding device can be arranged on the first processing station, processing raw materials are conveyed to the corresponding mold 4, the second processing station is a forming station, a rotary centrifugal mechanism 3 is arranged, the processing raw materials are subjected to centrifugal processing, the raw materials are made to be in a shape matched with the mold 4, the third processing station is a cooling station, the formed workpiece is cooled, and the fourth processing station is a discharging station for discharging the workpiece. The mould indexing mechanism 1 drives the moulds 4 to rotate one by one to the corresponding processing stations for feeding, forming, cooling and discharging.

Specifically, the centrifuge of the present application includes two different embodiments:

referring to fig. 1, a first embodiment:

all the dies 4 on the die indexing mechanism 1 are dies 4 of the same type, the cover plate power mechanism 2 is arranged on the forming station and is positioned above the die indexing mechanism 1, the cover plate power mechanism 2 is arranged in a mode of vertically moving, a cover plate 5 is connected onto the cover plate power mechanism 2, and the cover plate 5 can be matched with all the dies 4.

Specifically, during processing, when the mold indexing mechanism 1 drives the mold 4 to enter the molding station, the cover plate power mechanism 2 drives the cover plate 5 to move downwards, the cover plate 5 is covered on the mold 4, then the centrifugal mechanism 3 is rotated to drive the mold 4 to rotate for centrifugal processing, and a plurality of workpieces of the same type can be produced in batches.

Specifically, in the first embodiment, the cover plate power mechanism 2 includes: first apron drive arrangement 201, the rotation is provided with apron 5 on the drive end of first apron drive arrangement 201, and when mould indexing mechanism 1 drove mould 4 and rotated to the shaping station, first apron drive arrangement 201 drove apron 5 and moves down the lid and close on mould 4.

Specifically, in the first embodiment, the mold indexing mechanism 1 includes: the mold dividing disc driving device 102 is arranged on the mold dividing disc 101, and a plurality of molds 4 of the same type are circumferentially arranged on the mold dividing disc 101;

specifically, in the first embodiment, the rotating and centrifugal mechanism 3 may be disposed on the molding station, and the rotating and centrifugal mechanism 3 drives the mold 4 to rotate after the mold 4 rotates to the molding station, or the rotating and centrifugal mechanism 3 may be disposed on the mold indexing mechanism 1 and drivingly connected to the mold 4, and the rotating and centrifugal mechanism 3 may rotate synchronously with the mold indexing mechanism 1, and when the mold 4 covers the cover plate 5, the rotating and centrifugal mechanism 3 may drive the mold 4 to rotate immediately to perform the centrifugal molding process.

Referring to fig. 2, a second embodiment:

the types of a plurality of dies 4 on the die indexing mechanism 1 are different, the cover plate power mechanism 2 can rotate in the circumferential direction and can move up and down longitudinally, a plurality of cover plates 5 are arranged on the cover plate power mechanism 2, each cover plate 5 is matched with the die 4 on the die indexing mechanism 1 one by one, the rotating speed of the cover plate power mechanism 2 is matched with the die indexing mechanism 1, when the die indexing mechanism 1 drives the dies 4 of different types to rotate to a forming station one by one, the cover plate power mechanism 2 drives the cover plate 5 of the same type as the die 4 to rotate to the forming station at the same time, then the cover plate power mechanism 2 drives the cover plate 5 to move downwards to cover the die 4, then the rotating centrifugal mechanism 3 drives the die 4 to rotate and centrifugally process, and a plurality of workpieces of different types can be processed simultaneously in the embodiment;

specifically, in the second embodiment, the mold indexing mechanism 1 includes: a mold index plate 101 and a mold index plate driving device 102 for driving the mold index plate 101 to rotate circumferentially, wherein a plurality of molds 4 of the same type are arranged on the mold index plate 101 circumferentially.

Specifically, in the second embodiment, the cover plate power mechanism 2 has two different structures;

the first structure is as follows:

the cover plate power mechanism 2 comprises: the first cover plate dividing disc is circumferentially provided with second cover plate driving devices with the same number as the cover plates 5, each second cover plate driving device is rotatably provided with one cover plate 5, and the second cover plate driving devices can drive the corresponding cover plates 5 to move downwards to cover the mold 4 or move upwards to separate from the mold 4; specifically, the first cover plate dividing disc is connected with a first cover plate dividing disc driving device, the first cover plate dividing disc driving device drives the first cover plate dividing disc to rotate circumferentially, the second cover plate driving device is an air cylinder, and the driving end of each air cylinder is connected with a cover plate 5 through rotating parts such as bearings. When the centrifugal mechanism is in work, a driving shaft of the air cylinder extends downwards to drive the cover plate 5 to move downwards to cover the mold 4, when the rotary centrifugal mechanism 3 drives the mold 4 to rotate, the cover plate 5 and the mold 4 also rotate synchronously, and after a workpiece is formed and processed, the driving shaft of the air cylinder moves upwards to drive the cover plate 5 to move upwards to be separated from the mold 4.

The second structure is as follows:

the cover plate power mechanism 2 comprises:

referring to fig. 2 and 6, a plurality of mounting rods 206 are circumferentially arranged on the second cover plate indexing disc 202 in a penetrating manner, each mounting rod 206 is provided with a cover plate 5, each mounting rod 206 is further sleeved with a resetting piece 207, one end of each resetting piece 207 is connected with the mounting rod 206, and the other end of each resetting piece 207 is connected with the second cover plate indexing disc 202;

the third cover plate driving device 204 is arranged on the forming station and positioned above the second cover plate dividing disc 202, and is used for downwards abutting against the mounting rod 206 connected with the cover plate 5 when the cover plate 5 rotates to the forming station, so that the cover plate 5 moves downwards to cover the same type of mold 4;

more specifically, the second cover plate indexing disc 202 is connected to the second cover plate indexing disc driving device 203, the second cover plate indexing disc driving device 203 drives the second cover plate indexing disc 202 to rotate circumferentially, the reset member 207 may be a spring, the third cover plate driving device 204 is an air cylinder, a plurality of through holes are formed in the second cover plate indexing disc 202, the spring is arranged above the second cover plate indexing disc 202 and corresponds to each through hole, a mounting rod 206 is sleeved on the middle portion of each spring, and the mounting rod 206 is connected to the cover plate 5 through a rotatable mounting seat 205. Specifically, the cover plate 5 on the cover plate power mechanism 2 is connected and mounted through the mounting seat 205 which is rotatably connected.

When the apron was closed, third apron drive arrangement 204's drive shaft downstream, the extrusion spring, the spring shrink, the high decline of installation pole 206, 5 lids of apron close on mould 4, the drive shaft of third apron drive arrangement 204 lasts the butt and lives installation pole 206, when rotatory centrifugal mechanism 3 drives mould 4 rotatory, apron 5 rotates with mould 4 is synchronous, after the shaping processing is accomplished to the work piece, the drive shaft rebound of third apron drive arrangement 204, the spring expandes, drive installation pole 206 rebound, apron 5 breaks away from with mould 4.

Specifically, in the second embodiment, the mold indexing mechanism 1 includes: the mold dividing disc driving device 102 is arranged on the mold dividing disc 101, and a plurality of molds 4 of the same type are circumferentially arranged on the mold dividing disc 101;

specifically, in the second embodiment, the rotating and centrifugal mechanism 3 may be disposed on the molding station, and drives the mold 4 to rotate after the mold rotates to the molding station, or the rotating and centrifugal mechanism 3 may be disposed on the mold indexing mechanism 1 and drivingly connected to the mold 4, the rotating and centrifugal mechanism 3 may rotate synchronously with the mold indexing mechanism 1, and when the mold 4 covers the cover plate 5, the rotating and centrifugal mechanism 3 may drive the mold 4 to rotate for centrifugal molding.

Referring to fig. 3 and 4, specifically, a plurality of rotating seats 103 are circumferentially arranged on the mold index plate 101, each rotating seat 103 is rotatably connected with the mold index plate 101, a mold 4 is mounted on each rotating seat 103, and when the rotating seats 103 are driven to rotate, the rotating seats 103 drive the mold 4 to rotate;

specifically, the rotary centrifugal mechanism 3 includes two embodiments;

referring to fig. 4, a first embodiment of the rotary centrifugal mechanism 3:

rotatory centrifugal mechanism 3 sets up on the shaping station, and rotatory centrifugal mechanism 3 includes: a connector assembly and a first mold drive 301;

specifically, the connector assembly includes: a first connecting portion 304 and a second connecting portion 305, the first connecting portion 304 is drivingly connected to the first mold driving device 301 and connected to the lifting driving device 303, the second connecting portion 305 is connected to the rotating base 103, more specifically, the first connecting portion 304 and the first mold driving device 301 are mounted on the connecting plate 302, the lifting driving device 303 is connected to the connecting plate 302, the lifting driving device 303 drives the first connecting portion 304 and the first mold driving device 301 to move upward synchronously via the connecting plate 302, the first connecting portion 304 is connected to a nesting portion 3041, the first mold driving device driving end 3011 is connected to the nesting portion 3041 via a belt to drive the nesting portion 3041 to rotate, so as to drive the first connecting portion 304 to rotate, the second connecting portion 305 is connected to the bottom of the rotating base 103, during centrifugal processing, when the mold indexing mechanism 1 drives the mold 4 to rotate to the forming station, the first connecting portion 304 is driven by the lifting driving device 303 to move upward, and then the first mold driving device 301 is activated to drive the first connecting portion 304 to rotate, and the second connecting portion 305 and the mold 4 are driven to rotate by the first connecting portion 304.

Preferably, the connecting surfaces of the first connecting portion 305 and the second connecting portion 305 are respectively provided with a tooth portion capable of meshing with each other, and the two connecting portions are connected by the tooth portions, so that relative sliding in the rotating process of the two connecting portions can be avoided, and the centrifugal effect is ensured.

Referring to fig. 5, a second embodiment of the rotary centrifugal mechanism 3:

rotatory centrifugal mechanism 3 sets up on mould indexing mechanism 1, and is specific, and rotatory centrifugal mechanism 3 includes: the number of the second mold driving devices 306 is the same as that of the molds 4, each second mold driving device 306 is fixedly connected below the mold index plate 101, the driving ends of the second mold driving devices 306 are respectively connected with the corresponding rotating seats 103, and after the molds 4 are covered with the cover plates 5, the corresponding second mold driving devices 306 are started to drive the rotating seats 103 to rotate, so that the molds 4 are driven to rotate.

Specifically, the first mold driving device 301 and the first mold driving device 306 may be various types of motors, such as a servo motor, a three-phase motor, and the like.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.