CN206383486U - A kind of device for separating bottle embryo with cooling cylinder - Google Patents
A kind of device for separating bottle embryo with cooling cylinder Download PDFInfo
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- CN206383486U CN206383486U CN201621342126.8U CN201621342126U CN206383486U CN 206383486 U CN206383486 U CN 206383486U CN 201621342126 U CN201621342126 U CN 201621342126U CN 206383486 U CN206383486 U CN 206383486U
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- cooling cylinder
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- bottle embryo
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Abstract
The utility model discloses a kind of device for separating bottle embryo with cooling cylinder, cooling cylinder, which is fixed on, takes embryonic plate, embryonic plate is taken to be located between cooling cylinder and aqueous vapor plate and be fixedly connected with aqueous vapor plate, cooling cylinder has first chamber, take embryonic plate that there is second chamber, air blowing screw has the 3rd chamber of both ends open, air blowing screw is connected to first chamber and second chamber, air blowing screw is sealedly attached to cooling cylinder and takes embryonic plate, piston includes piston main body and is fixedly connected on the push rod of piston main body, piston main body is hermetically connected to second chamber, push rod is connected to the 3rd chamber and coordinated with air blowing screw clearances, piston main body is fixed in one end of spring, the other end, which is fixed on, to be taken in embryonic plate, embryonic plate is taken to be provided with the first passage connected with second chamber, aqueous vapor plate is provided with the second passage connected with air cushion block, aerating device is respectively communicated with the first passage and the second passage, air cushion block is located in aqueous vapor plate and abutted with piston main body, bottle embryo is ejected by compressed air.
Description
Technical field
The utility model is related to a kind of separator, more particularly to a kind of device for separating bottle embryo with cooling cylinder.
Background technology
Traditional bottle embryo separator is to promote one block of supporting plate by 2 to 3 cylinders, promotes bottle embryo to depart from by supporting plate and cools down
Cylinder, but be due to be difficult to ensure that each cylinder is synchronous when promoting, so the embryo body of bottle embryo is easily caused when promoting spiral shell
Shape or other scratches are revolved, for many industries especially medical treatment and daily use chemicals industry, it is unacceptable to have abrasive bottle embryo.
Utility model content
In order to overcome the deficiencies in the prior art, the purpose of this utility model is that providing one kind separates bottle embryo with cooling cylinder
Device, in the presence of compressed air promote piston bottle embryo is ejected from cooling cylinder.
The purpose of this utility model is realized using following technical scheme:
A kind of device for separating bottle embryo with cooling cylinder, including cooling cylinder, take embryonic plate, aqueous vapor plate, air cushion block, piston, bullet
Spring, air blowing screw, the first passage, the second passage and aerating device, cooling cylinder, which is fixed on, takes embryonic plate, takes embryonic plate to be located in cold
But it is fixedly connected between cylinder and aqueous vapor plate and with aqueous vapor plate, cooling cylinder has first chamber, takes embryonic plate to have second chamber, blows
Screw has the 3rd chamber of both ends open, and air blowing screw is connected to first chamber and second chamber, and air blowing screw is tightly connected
In cooling cylinder and take embryonic plate, piston includes piston main body and is fixedly connected on the push rod of piston main body, and piston main body is hermetically worn
Second chamber is connected to, push rod is connected to the 3rd chamber and coordinated with air blowing screw clearances, and piston main body is fixed in one end of spring,
The other end, which is fixed on, to be taken in embryonic plate, takes embryonic plate to be provided with the first passage connected with second chamber, and aqueous vapor plate is provided with and air cushion block
Second passage of connection, aerating device is respectively communicated with the first passage and the second passage, and air cushion block is located in aqueous vapor plate
And abutted with piston main body.
It is preferred that, the air blowing screw is respectively with cooling cylinder and taking embryonic plate thread seal to be connected.
It is preferred that, the aqueous vapor plate and take the first sealing ring is provided between embryonic plate, aqueous vapor plate is fixed by pin and screw
It is connected to and takes embryonic plate.
It is preferred that, first sealing ring is rubber ring.
It is preferred that, the piston main body and take the second sealing ring is provided between embryonic plate, second sealing ring is by the first ventilation
Hole and the second passage are separated.
It is preferred that, second sealing ring is rubber ring.
It is preferred that, in addition to fixture, the fixture is located in aqueous vapor plate and abutted with the one end of air cushion block away from piston.
It is preferred that, the fixture is taper pipe thread hexagonal socket head plug.
It is preferred that, the device that bottle embryo is separated with cooling cylinder integrally can be clockwise or counterclockwise.
It is preferred that, integrally rotatable angle is 0~90 degree to the device that bottle embryo is separated with cooling cylinder.
Compared with prior art, the beneficial effects of the utility model are:
Cooling cylinder is entered by using gap of the compressed air by first through hole and between push rod and air blowing screw,
Make cooling cylinder recover normal barometric pressure, while by using compressed air promote piston, it is only necessary to the power of very little can by bottle embryo from
Cooling cylinder is ejected, therefore will not produce scratch on the surface of bottle embryo.
Brief description of the drawings
Fig. 1 is a kind of schematic diagram for the device for separating bottle embryo with cooling cylinder of the utility model;
Fig. 2 is schematic diagram when a kind of device dextrorotation for separating bottle embryo with cooling cylinder of the utility model is turn 90 degrees;
In figure:1st, cooling cylinder;2nd, embryonic plate is taken;3rd, aqueous vapor plate;4th, air cushion block;5th, piston;6th, spring;7th, air blowing screw;8、
First passage;9th, the second passage;10th, piston main body;11st, push rod;12nd, fixture;13rd, the first sealing ring;14th, second is close
Seal;15th, bottle embryo.
Embodiment
Below, with reference to accompanying drawing and embodiment, the utility model is described further:
As depicted in figs. 1 and 2, a kind of device for separating bottle embryo 15 with cooling cylinder 1, including cooling cylinder 1, take embryonic plate 2, water
Gas plate 3, air cushion block 4, piston 5, spring 6, air blowing screw 7, the first passage 8, the second passage 9 and aerating device (do not show
Go out), cooling cylinder 1, which is fixed on, takes embryonic plate 2, takes embryonic plate 2 to be located between cooling cylinder 1 and aqueous vapor plate 3 and fixed with aqueous vapor plate 3 and connects
Connect, cooling cylinder 1 has first chamber (not shown), take embryonic plate 2 that there is second chamber (not shown), air blowing screw 7 has two ends
3rd chamber (not shown) of opening, air blowing screw 7 is connected to first chamber and second chamber, and air blowing screw 7 is sealedly attached to
Cooling cylinder 1 and take embryonic plate 2, piston 5 includes piston main body 10 and is fixedly connected on the push rod 11 of piston main body 10, piston main body 10
Second chamber is hermetically connected to, push rod 11 is connected to the 3rd chamber and coordinated with the gap of air blowing screw 7, and one end of spring 6 is consolidated
Due to piston main body 10, the other end, which is fixed on, to be taken in embryonic plate 2, takes embryonic plate 2 to be provided with the first passage 8 connected with second chamber,
Aqueous vapor plate 3 is provided with the second passage 9 connected with air cushion block 4, and aerating device is respectively communicated with the first passage 8 and the second ventilation
Hole 9, air cushion block 4 is located in aqueous vapor plate 3 and abutted with piston main body 10.
First, when taking bottle embryo 15 into mould, the first passage 8 and the second passage 9 are in negative pressure state, due to bullet
The effect of spring 6, piston main body 10 is close to aqueous vapor plate 3;Simultaneously because push rod 11 and air blowing screw 7 coordinate for gap, therefore the
Two chambers are connected via the gap with first chamber, therefore negative pressure same purpose is in the first chamber of cooling cylinder 1;Work as mould ejection
During bottle embryo 15, due to the effect of negative pressure, bottle embryo 15 is close to the inwall of cooling cylinder 1, now takes embryo to complete and cooled down, now institute
State the device for separating bottle embryo with cooling cylinder and be in horizontality.The device that bottle embryo is separated with cooling cylinder can clockwise or
0~90 degree of rotate counterclockwise.As shown in Fig. 2 after the completion of cooling, taking embryonic plate 2 to exit mould arrival and putting embryo position, and several stations
Cooling cylinder 1 on when filling bottle embryo 15, the device that bottle embryo is separated with cooling cylinder is integrally turned over along clockwise direction to be turn 90 degrees,
After the completion of upset, bottle embryo 15 it is opening down, the aerating device being now connected with the first passage 8 reverts to normal atmosphere (An)
State, while the aerating device being connected with the second passage 9 is filled with compressed air to the second passage 9, due to the first ventilation
Hole 8 is connected with second chamber, and second chamber is connected by the gap between push rod 11 and air blowing screw 7 with first chamber, therefore
First chamber where bottle embryo 15 reverts to normal atmosphere (An) by negative pressure;Simultaneously because the second passage 9 is connected with air cushion block 4,
Compressed air enters air cushion block 4 by the second passage 9, so as to promote piston main body 10 to overcome the active force of spring 6 to transport forward
It is dynamic, and piston main body 10 drives push rod 11 to travel forward, due to the contact bottle of push rod 11 embryo 15, and bottle embryo 15 and cooling cylinder 1 it
Between be in normal atmospheric pressure state, therefore bottle embryo 15 can eject by push rod 11 from cooling cylinder 1, and single push rod 11 is correspondingly single
Bottle embryo 15, and the outer surface of bottle embryo 15 will not be abraded.After ejection, embryonic plate 2 is taken to turn 90 degrees counterclockwise, it is described by bottle embryo and cooling cylinder
The device of separation returns to original state, so circulation.
It is preferred that, the air blowing screw 7, both can be by cooling cylinder respectively with cooling cylinder 1 and taking the thread seal of embryonic plate 2 to be connected
1 with take embryonic plate 2 to be fixedly connected, can also avoid the gas leakage when vacuumizing, influence the effect of negative pressure.
It is preferred that, aqueous vapor plate 3 and take the first sealing ring 13, to prevent gas leakage, first sealing ring 13 are provided between embryonic plate 2
For rubber ring;Aqueous vapor plate 3 is fixedly connected on by pin (not shown) and takes embryonic plate 2.
It is preferred that, piston main body 10 and take the second sealing ring 14 is provided between embryonic plate 2, second sealing ring 14 is rubber
Circle, and the first passage 8 and the second passage 9 are separated.
It is preferred that, the device also includes fixture 12, and the fixture 12 is taper pipe thread hexagonal socket head plug, the taper pipe thread
Hexagonal socket head plug is abutted with the one end of air cushion block 4 away from piston 5;Because the other end of air cushion block 4 is abutted with piston main body 10, from
And limit piston main body 10 and be always positioned at air cushion block 4 and take between embryonic plate 2.
It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various
It is corresponding to change and deformation, and all these change and deformation should all belong to the protection of the utility model claim
Within the scope of.
Claims (10)
1. a kind of device for separating bottle embryo with cooling cylinder, it is characterised in that:Including cooling cylinder, take embryonic plate, aqueous vapor plate, air cushion
Block, piston, spring, air blowing screw, the first passage, the second passage and aerating device, cooling cylinder, which is fixed on, takes embryonic plate, takes embryo
Plate is located between cooling cylinder and aqueous vapor plate and is fixedly connected with aqueous vapor plate, and cooling cylinder has first chamber, takes embryonic plate to have the
Two chambers, air blowing screw has the 3rd chamber of both ends open, and air blowing screw is connected to first chamber and second chamber, air blowing spiral shell
Nail is sealedly attached to cooling cylinder and takes embryonic plate, and piston includes piston main body and is fixedly connected on the push rod of piston main body, piston master
Body is hermetically connected to second chamber, and push rod is connected to the 3rd chamber and coordinated with air blowing screw clearances, and one end of spring is fixed
In piston main body, the other end, which is fixed on, to be taken in embryonic plate, takes embryonic plate to be provided with the first passage connected with second chamber, and aqueous vapor plate is set
There is the second passage connected with air cushion block, aerating device is respectively communicated with the first passage and the second passage, air cushion block position
Abutted in aqueous vapor plate and with piston main body.
2. a kind of device for separating bottle embryo with cooling cylinder according to claim 1, it is characterised in that:The air blowing screw
Respectively with cooling cylinder and taking embryonic plate thread seal to be connected.
3. a kind of device for separating bottle embryo with cooling cylinder according to claim 1, it is characterised in that:The aqueous vapor plate and
Take and the first sealing ring is provided between embryonic plate, aqueous vapor plate is fixedly connected on by pin and screw and takes embryonic plate.
4. a kind of device for separating bottle embryo with cooling cylinder according to claim 3, it is characterised in that:First sealing
Enclose as rubber ring.
5. a kind of device for separating bottle embryo with cooling cylinder according to claim 1, it is characterised in that:The piston main body
The second sealing ring is provided between embryonic plate with taking, second sealing ring separates the first passage and the second passage.
6. a kind of device for separating bottle embryo with cooling cylinder according to claim 5, it is characterised in that:Second sealing
Enclose as rubber ring.
7. a kind of device for separating bottle embryo with cooling cylinder according to claim 1, it is characterised in that:Also include fixing
Part, the fixture is located in aqueous vapor plate and abutted with the one end of air cushion block away from piston.
8. a kind of device for separating bottle embryo with cooling cylinder according to claim 7, it is characterised in that:The fixture is
Taper pipe thread hexagonal socket head plug.
9. a kind of device for separating bottle embryo with cooling cylinder according to claim 1, it is characterised in that:It is described by bottle embryo with
The device of cooling cylinder separation integrally can be clockwise or counterclockwise.
10. a kind of device for separating bottle embryo with cooling cylinder according to claim 9, it is characterised in that:It is described by bottle embryo
Integrally rotatable angle is 0~90 degree to the device separated with cooling cylinder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621342126.8U CN206383486U (en) | 2016-12-08 | 2016-12-08 | A kind of device for separating bottle embryo with cooling cylinder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621342126.8U CN206383486U (en) | 2016-12-08 | 2016-12-08 | A kind of device for separating bottle embryo with cooling cylinder |
Publications (1)
Publication Number | Publication Date |
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CN206383486U true CN206383486U (en) | 2017-08-08 |
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ID=59489329
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621342126.8U Active CN206383486U (en) | 2016-12-08 | 2016-12-08 | A kind of device for separating bottle embryo with cooling cylinder |
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CN (1) | CN206383486U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110181779A (en) * | 2019-06-28 | 2019-08-30 | 广东星联精密机械有限公司 | A kind of bottle base mould external cooling device |
-
2016
- 2016-12-08 CN CN201621342126.8U patent/CN206383486U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110181779A (en) * | 2019-06-28 | 2019-08-30 | 广东星联精密机械有限公司 | A kind of bottle base mould external cooling device |
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CP03 | Change of name, title or address |
Address after: 511300 Xintang Town, Zengcheng, Guangzhou, Guangdong Province, No. 6 Patentee after: Guangzhou Hua Yan precision machinery Limited by Share Ltd Address before: 510000 Guangzhou, Guangdong, Zengcheng, Xintang Town Road, No. 6 Patentee before: Guangzhou Huayan Precision Machinery Co., Ltd. |