CN205905402U - Vacuum sizing seat - Google Patents
Vacuum sizing seat Download PDFInfo
- Publication number
- CN205905402U CN205905402U CN201620857226.8U CN201620857226U CN205905402U CN 205905402 U CN205905402 U CN 205905402U CN 201620857226 U CN201620857226 U CN 201620857226U CN 205905402 U CN205905402 U CN 205905402U
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- CN
- China
- Prior art keywords
- water
- adpting flange
- cooling
- flange
- vacuum sizing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
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Abstract
The utility model discloses a vacuum sizing seat, belong to sizing technical field, its technical essential includes a flange who is connected with outside vacuum sizing mill, wherein a flange side is equipped with the 2nd flange, is equipped with transparent sleeve between first, the 2nd flange, be equipped with the copper sheathing in the middle part of a flange, be equipped with the sizing cover relative with the copper sheathing on the 2nd flange, sizing cover entry end passes through the water ring cover to be fixed in the 2nd flange outside, and sizing cover end lies in transparent sleeve, be equipped with the guide ring between water ring cover and sizing cover, a water -cooling mechanism and the 2nd water -cooling mechanism are all through guide ring and the inside turn -on connection of sizing cover, be equipped with the inlet tube on the 2nd flange, be equipped with the apopore on a flange, the utility model aims at providing a convenient to use, respond well vacuum sizing seat, be used for cooling off sizing tubular product.
Description
Technical field
This utility model is related to a kind of sizing seat, more specifically, more particularly, to a kind of vacuum sizing seat.
Background technology
In the prior art, adopt the mode such as stacked sizing under vacuum sizing apparatus more.Tubing to be cooled is in a device
Cooling not uniformly, not fully, has a strong impact on the quality of tubing, also has complex structure simultaneously, and equipment cost is high, work effect
Rate is relatively low, the shortcomings of inconvenient operation.
Utility model content
The purpose of this utility model is for above-mentioned the deficiencies in the prior art, provides a kind of easy to use, respond well
Vacuum sizing seat.
The technical solution of the utility model is achieved in that a kind of vacuum sizing seat, including with external vacuum sizing mill
The first adpting flange connecting, wherein said first adpting flange side is provided with the second adpting flange, in first, second connection method
It is provided with transparent sleeve between orchid;It is provided with copper sheathing in the middle part of the first adpting flange, the second adpting flange is provided with relative with copper sheathing
Calibration sleeve;Described calibration sleeve arrival end is fixed on outside the second adpting flange by water ring set, and calibration sleeve end is located at transparent
In sleeve;It is provided with guide ring between water ring set and calibration sleeve, the first magnetism servo-electric motor water-cooling and the second magnetism servo-electric motor water-cooling are all by guide ring
It is connected with conducting inside calibration sleeve;Second adpting flange is provided with water inlet pipe, the first adpting flange is provided with apopore.
In a kind of above-mentioned vacuum sizing seat, described guide ring mainly by annulus, be circumferentially distributed in round ring-side wall and with
First pod apertures of the first magnetism servo-electric motor water-cooling cooperation and be circumferentially distributed in round ring-side wall and with the second magnetism servo-electric motor water-cooling cooperation the
Two pod apertures compositions;First pod apertures are circumferentially distributed in guide ring away from the first adpting flange side, and the second pod apertures are along week
To being distributed in the close first adpting flange side of guide ring.
In a kind of above-mentioned vacuum sizing seat, described first magnetism servo-electric motor water-cooling is covered on the wall of side and is led with first by being distributed in water ring
The first cold water pipe that one-to-one first internal thread hole of discharge orifice is threadeded with the first internal thread hole, circumferentially it is located at sizing
The first annular groove putting and conducting connect first annular groove and some first hole for water spraying compositions within calibration sleeve;Cold
When but, cold water sequentially passes through the first cold water pipe, the first pod apertures, first annular groove and the first hole for water spraying.
In a kind of above-mentioned vacuum sizing seat, each first water spray centerline hole is 50-70 ° with the angle a of horizontal direction.
In a kind of above-mentioned vacuum sizing seat, described second magnetism servo-electric motor water-cooling is covered on the wall of side and is led with second by being distributed in water ring
The second cold water pipe that one-to-one second internal thread hole of discharge orifice is threadeded with the second internal thread hole, circumferentially it is located at sizing
The second annular groove putting, the serpentine pipe being located in calibration sleeve and conducting connect some of the second annular groove and serpentine pipe
Inlet opening forms;The described serpentine pipe end face relative with shaping pipe to be cooled is distributed with some second hole for water sprayings;During cooling, cold
Water sequentially passes through the second cold water pipe, the second pod apertures, the second annular groove, inlet opening, serpentine pipe and the second hole for water spraying.
In a kind of above-mentioned vacuum sizing seat, described guide ring is circumferentially distributed some counterbores, described first pod apertures
It is interspersed in corresponding counterbore with the second pod apertures.
In a kind of above-mentioned vacuum sizing seat, at the first adpting flange and the second adpting flange end relative with transparent sleeve
The first annular mounting groove being adapted with transparent sleeve is equipped with face, is provided with the second annular in first annular mounting groove and installs
Groove, is provided with the first sealing ring in the second annular mounting groove.
In a kind of above-mentioned vacuum sizing seat, described water ring set is fixed on the second adpting flange by pressing plate, in water ring
It is provided with seal gasket between set and pressing plate.
In a kind of above-mentioned vacuum sizing seat, the water ring set end face relative with the second adpting flange is provided with the 3rd annular
Groove, is provided with the second sealing ring in the 3rd annular groove.
In a kind of above-mentioned vacuum sizing seat, it is provided with some connections between the first adpting flange and the second adpting flange
Bar, nut check is passed through after being each passed through first, second adpting flange in each connecting rod two ends.
After this utility model adopts said structure, the first magnetism servo-electric motor water-cooling adopts fountain cooling, the second magnetism servo-electric motor water-cooling to adopt
Spiral cooling, then coordinate the immersion type that transparent sleeve, water inlet pipe and outlet pipe cooperatively form to cool down, big using three-stage cooling
Big shorten tubing cool time, improve production efficiency;First water spray centerline hole makes the first hole for water spraying with the angle of horizontal direction
The water energy spraying and air contact, quickly cool down tubing, so that the water that the first hole for water spraying sprays circumferentially uniformly is sprayed in pipe simultaneously
On material, make tube forming process more stable;Setting guide ring makes the first magnetism servo-electric motor water-cooling and the second magnetism servo-electric motor water-cooling work independently, mutually
Do not affect, cold water enters into corresponding water spray in the hole along first annular groove or the second annular groove, enables cold water equably
It is ejected on tubing to be cooled;This utility model has that cost performance is high, structure is simple, good stability, easy to operate, adaptability
Extensively, shaping speed is fast, low cost, safe and reliable, and the sizing realizing formed pipe in conditional space requires.
Brief description
The utility model is described in further detail for embodiment in below in conjunction with the accompanying drawings, but does not constitute to this reality
With new any restriction.
Fig. 1 is cross section structure diagram of the present utility model;
Fig. 2 is one of perspective view of the present utility model;
Fig. 3 is the structural representation of guide ring;
Fig. 4 is the two of perspective view of the present utility model;
Fig. 5 is the structural representation of calibration sleeve.
In figure: the first adpting flange 1, apopore 1a, the second adpting flange 2, water inlet pipe 2a, transparent sleeve 3, copper sheathing 4, fixed
Footpath set 5, water ring set 6, guide ring 7, annulus 7a, the first pod apertures 7b, the second pod apertures 7c, counterbore 7d, the first magnetism servo-electric motor water-cooling 8,
First cold water pipe 8a, first annular groove 8b, the first hole for water spraying 8c, the second magnetism servo-electric motor water-cooling 9, the second cold water pipe 9a, the second annular
Groove 9b, serpentine pipe 9c, inlet opening 9d, the second hole for water spraying 9e, first annular mounting groove 10, the second annular mounting groove 11, first
Sealing ring 12, pressing plate 13, seal gasket 14, the 3rd annular groove 15, the second sealing ring 16, connecting rod 17.
Specific embodiment
Refering to shown in Fig. 1 to Fig. 5, a kind of vacuum sizing seat of the present utility model, it is connected including with external vacuum sizing mill
The first adpting flange 1, wherein said first adpting flange 1 side is provided with the second adpting flange 2, in first, second connection method
Blue 1, it is provided with transparent sleeve 3 between 2, the first adpting flange 1, transparent sleeve 3 and the second adpting flange 2 cooperatively form water storage cylinder,
Tubing sizing situation in cylinder is observed that by transparent sleeve 3.It is provided with copper sheathing 4 in the middle part of the first adpting flange 1, second
Adpting flange 2 is provided with the calibration sleeve 5 relative with copper sheathing 4, and good guide effect is played in copper sheathing 4 and calibration sleeve 5 cooperation.Described
Calibration sleeve 5 arrival end is fixed on outside the second adpting flange 2 by water ring set 6, and calibration sleeve 5 end is located in transparent sleeve 3,
Calibration sleeve 5 rear portion is uniformly in staggered distribution some square notches, makes the water energy in transparent sleeve 3 and the formed pipe in calibration sleeve 5
Material uniform contact, plays good cooling effect.
It is provided with guide ring 7 between water ring set 6 and calibration sleeve 5, the first magnetism servo-electric motor water-cooling 8 and the second magnetism servo-electric motor water-cooling 9 all pass through
Guide ring 7 conducting internal with calibration sleeve 5 is connected;Described guide ring 7 main by annulus 7a, be circumferentially distributed in annulus 7a side wall and
With the first magnetism servo-electric motor water-cooling 8 cooperation the first pod apertures 7b and be circumferentially distributed in annulus 7a side wall and with the second magnetism servo-electric motor water-cooling 9
Second pod apertures 7c composition of cooperation;First pod apertures 7b are circumferentially distributed in guide ring 7 away from the first adpting flange 1 side,
Second pod apertures 7c are circumferentially distributed in guide ring 7 near the first adpting flange 1 side.Described guide ring 7 is circumferentially distributed to be had
Some counterbore 7d, described first pod apertures 7b and the second pod apertures 7c are interspersed in corresponding counterbore 7d.First pod apertures 7b
It is located in counterbore 7d away from the first adpting flange 1 side, the second pod apertures 7c are located in counterbore 7d near the first adpting flange 1 one
Side, adjacent first, second pod apertures 7b, 7c is interspersed.Using this structure, guide ring 7 can make first, second water-cooled
Mechanism 8,9 works independently.
Preferably, described first magnetism servo-electric motor water-cooling 8 by be distributed in water ring cover 6 side walls on and with first pod apertures 7b correspond
The first internal thread hole threaded with the first internal thread hole the first cold water pipe 8a, be circumferentially located on calibration sleeve 5 first
Annular groove 8b and conducting connect first annular groove 8b and some first hole for water spraying 8c compositions within calibration sleeve 5;Cooling
When, cold water sequentially passes through the first cold water pipe 8a, the first pod apertures 7b, first annular groove 8b and the first hole for water spraying 8c.Each first
Hole for water spraying 8c centrage is 50-70 ° with the angle a of horizontal direction.The water spraying along the first hole for water spraying 8c and formed pipe to be cooled
Material contact, plays the effect of quick cooling, and the water simultaneously spraying is big with air contact area, and water energy is enough lowered the temperature rapidly, conveniently again
Secondary utilization.
Preferably, described second magnetism servo-electric motor water-cooling 9 by be distributed in water ring cover 6 side walls on and with second pod apertures 7c correspond
The second internal thread hole threaded with the second internal thread hole the second cold water pipe 9a, be circumferentially located on calibration sleeve 5 second
Annular groove 9b, the serpentine pipe 9c being located in calibration sleeve 5 and conducting connect some of the second annular groove 9b and serpentine pipe 9c
Inlet opening 9d forms;The described serpentine pipe 9c end face relative with shaping pipe to be cooled is distributed with some second hole for water spraying 9e;Cold
When but, cold water sequentially pass through the second cold water pipe 9a, the second pod apertures 7c, the second annular groove 9b, inlet opening 9d, serpentine pipe 9c and
Second hole for water spraying 9e.Using this structure, cold water is sprayed on formed pipe to be cooled by the second hole for water spraying 9e after entering serpentine pipe 9c
On material, further enhance the cooling effect of equipment.Guide ring 7 and the first magnetism servo-electric motor water-cooling 8 and the second magnetism servo-electric motor water-cooling 9 cooperation make cold
Water energy is circumferentially even into in calibration sleeve 5, making sizing tubing reach good cooling effect.
Second adpting flange 2 is provided with water inlet pipe 2a, apopore 1a, water inlet pipe 2a are provided with the first adpting flange 1
Cooperatively form the 3rd magnetism servo-electric motor water-cooling with apopore 1a, control by water inlet pipe 2a and apopore 1a the water level in transparent sleeve 3 high
Degree, makes equipment reach good cooling effect.
In order to strengthen sealing effectiveness, in the first adpting flange 1 end face relative with transparent sleeve 3 with the second adpting flange 2
On be equipped with transparent sleeve 3 be adapted first annular mounting groove 10, be provided with first annular mounting groove 10 second annular
Mounting groove 11, is provided with the first sealing ring 12 in the second annular mounting groove 11.
Preferably, described water ring set 6 is fixed on the second adpting flange 2 by pressing plate 13, water ring cover 6 and pressing plate 13 it
Between be provided with seal gasket 14.
Preferably, cover in water ring and be provided with the 3rd annular groove 15 on 6 end faces relative with the second adpting flange 2, the 3rd
It is provided with the second sealing ring 16 in annular groove 15.
Preferably, it is provided with some connecting rods 17, each connecting rod 17 between the first adpting flange 1 and the second adpting flange 2
Two ends are each passed through first, second adpting flange 1, pass through nut check after 2.It is of course also possible to it is fixed on using connecting rod
In on an adpting flange, the fixed form that the other end is connected with nut after passing through another adpting flange.
During use, shaping pipe to be cooled the first magnetism servo-electric motor water-cooling fountain cool down, the second magnetism servo-electric motor water-cooling spiral
Under the immersion type cooling effect of cooling and transparent sleeve, reach good cooling effect, improve the stability of tube forming process.
Embodiment provided above is better embodiment of the present utility model, is only used for convenient explanation this utility model, and
Non- this utility model is made with any pro forma restriction, any those of ordinary skill in the art, if without departing from
In the range of the carried technical characteristic of this utility model, using locally changing done by this utility model disclosed technology content or repair
The Equivalent embodiments of decorations, and without departing from technical characteristic content of the present utility model, all still fall within this utility model technical characteristic
In the range of.
Claims (10)
1. a kind of vacuum sizing seat, including the first adpting flange (1) being connected with external vacuum sizing mill it is characterised in that institute
State the first adpting flange (1) side and be provided with the second adpting flange (2), be provided with transparent between first, second adpting flange (1,2)
Sleeve (3);It is provided with copper sheathing (4) in the middle part of the first adpting flange (1), the second adpting flange (2) is provided with relative with copper sheathing (4)
Calibration sleeve (5);Described calibration sleeve (5) arrival end is fixed on outside the second adpting flange (2) by water ring set (6), calibration sleeve
(5) end is located in transparent sleeve (3);It is provided with guide ring (7), the first magnetism servo-electric motor water-cooling between water ring set (6) and calibration sleeve (5)
(8) and the second magnetism servo-electric motor water-cooling (9) is all connected with conducting inside calibration sleeve (5) by guide ring (7);In the second adpting flange (2)
It is provided with water inlet pipe (2a), apopore (1a) is provided with the first adpting flange (1).
2. a kind of vacuum sizing seat according to claim 1 is it is characterised in that described guide ring (7) is mainly by annulus
(7a), it is circumferentially distributed in annulus (7a) side wall and the first pod apertures (7b) of coordinating with the first magnetism servo-electric motor water-cooling (8) and along week
To being distributed in annulus (7a) side wall and the second pod apertures (7c) composition coordinating with the second magnetism servo-electric motor water-cooling (9);First pod apertures
(7b) it is circumferentially distributed in guide ring (7) away from the first adpting flange (1) side, the second pod apertures (7c) are circumferentially distributed in be led
Stream ring (7) is near the first adpting flange (1) side.
3. a kind of vacuum sizing seat according to claim 2 is it is characterised in that described first magnetism servo-electric motor water-cooling (8) is by being distributed
One-to-one first internal thread hole and the first internal thread hole screw thread on the wall of water ring set (6) side and with the first pod apertures (7b)
The first cold water pipe (8a) connecting, the first annular groove (8b) being circumferentially located on calibration sleeve (5) and conducting connection first
Annular groove (8b) some first hole for water spraying (8c) compositions internal with calibration sleeve (5);During cooling, cold water is sequentially cold through first
Water pipe (8a), the first pod apertures (7b), first annular groove (8b) and the first hole for water spraying (8c).
4. a kind of vacuum sizing seat according to claim 3 is it is characterised in that each first hole for water spraying (8c) centrage and water
Square to angle a be 50-70 °.
5. a kind of vacuum sizing seat according to claim 2 is it is characterised in that described second magnetism servo-electric motor water-cooling (9) is by being distributed
One-to-one second internal thread hole and the second internal thread hole screw thread on the wall of water ring set (6) side and with the second pod apertures (7c)
The second cold water pipe (9a) connecting, the second annular groove (9b) being circumferentially located on calibration sleeve (5), it is located in calibration sleeve (5)
Serpentine pipe (9c) and conducting connect the second annular groove (9b) and some inlet openings (9d) of serpentine pipe (9c) composition;Described
Serpentine pipe (9c) end face relative with shaping pipe to be cooled is distributed with some second hole for water sprayings (9e);During cooling, cold water is sequentially
Through the second cold water pipe (9a), the second pod apertures (7c), the second annular groove (9b), inlet opening (9d), serpentine pipe (9c) and
Two hole for water sprayings (9e).
6. a kind of vacuum sizing seat according to claim 2 is it is characterised in that described guide ring (7) is circumferentially distributed has
Some counterbores (7d), described first pod apertures (7b) and the second pod apertures (7c) are interspersed in corresponding counterbore (7d).
7. a kind of vacuum sizing seat according to claim 1 is it is characterised in that connect in the first adpting flange (1) and second
The first annular mounting groove being adapted with transparent sleeve (3) is equipped with acting flange (2) end face relative with transparent sleeve (3)
(10), it is provided with the second annular mounting groove (11) in first annular mounting groove (10), be provided with the second annular mounting groove (11)
First sealing ring (12).
8. a kind of vacuum sizing seat according to claim 1 is it is characterised in that described water ring set (6) passes through pressing plate (13)
It is fixed on the second adpting flange (2), be provided with seal gasket (14) between water ring set (6) and pressing plate (13).
9. a kind of vacuum sizing seat according to claim 1 is it is characterised in that in water ring set (6) and the second adpting flange
(2) relative end face is provided with the 3rd annular groove (15), is provided with the second sealing ring (16) in the 3rd annular groove (15).
10. a kind of vacuum sizing seat according to claim 1 is it is characterised in that connect in the first adpting flange (1) and second
Be provided with some connecting rods (17) between acting flange (2), each connecting rod (17) two ends be each passed through first, second adpting flange (1,
2) pass through nut check afterwards.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620857226.8U CN205905402U (en) | 2016-08-09 | 2016-08-09 | Vacuum sizing seat |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620857226.8U CN205905402U (en) | 2016-08-09 | 2016-08-09 | Vacuum sizing seat |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205905402U true CN205905402U (en) | 2017-01-25 |
Family
ID=57800835
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620857226.8U Withdrawn - After Issue CN205905402U (en) | 2016-08-09 | 2016-08-09 | Vacuum sizing seat |
Country Status (1)
Country | Link |
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CN (1) | CN205905402U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106426873A (en) * | 2016-08-09 | 2017-02-22 | 德科摩橡塑科技(东莞)有限公司 | Vacuum sizing base |
-
2016
- 2016-08-09 CN CN201620857226.8U patent/CN205905402U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106426873A (en) * | 2016-08-09 | 2017-02-22 | 德科摩橡塑科技(东莞)有限公司 | Vacuum sizing base |
CN106426873B (en) * | 2016-08-09 | 2019-04-16 | 德科摩橡塑科技(东莞)有限公司 | Vacuum sizing seat |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170125 Effective date of abandoning: 20190416 |