CN206154628U - High -efficient high -precision high -quality injection mold - Google Patents
High -efficient high -precision high -quality injection mold Download PDFInfo
- Publication number
- CN206154628U CN206154628U CN201621216655.3U CN201621216655U CN206154628U CN 206154628 U CN206154628 U CN 206154628U CN 201621216655 U CN201621216655 U CN 201621216655U CN 206154628 U CN206154628 U CN 206154628U
- Authority
- CN
- China
- Prior art keywords
- plates
- side mold
- cavity
- injection
- rear cavity
- 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- Withdrawn - After Issue
Links
Landscapes
- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
The utility model relates to an injection mold especially relates to a high -efficient high -precision high -quality injection mold and operating method, is used for the mould. Including movable side die and fixed side die, movable side die's upper portion and fixed side die's bottom be to join in marriage and connect the form location. A method of high -efficient high -precision high -quality injection mold and operation compact structure, it is high to promote machining efficiency, improves the product quality.
Description
Technical field
This utility model is related to a kind of injection mold, more particularly to a kind of efficiently high-precision high-quality injection mold, for mould
Tool.
Background technology
It is consistent with ejection direction that injection mold structure traditional in the market is before and after mould die sinking direction.If should
Mould adopts traditional mould structure, and when being molded first time, A faces are inserted through angle not enough to this product, product quality and mould
Quality will can not meet Production requirement.If using the scheme for being inserted through angle of change product, product design personnel will occur
Very big workload, product appearance and function will be reduced.Therefore in die design stage, we are by using a kind of new mould
Lamps structure is meeting requirement.
Traditional structure will solve this problem using oil cylinder, and the shortcoming that he produces is will to increase 3-5 seconds, mould in the cycle
Tool will be increased, and purchase cost will be of equal value;Due to the use of oil cylinder, the greasy dirt that oil cylinder is produced would is that conforming product rate drops
Low, the prestige like that in customers' place will be deteriorated, it will reduce the market competitiveness.
Utility model content
This utility model mainly solves the deficiencies in the prior art, there is provided a kind of compact conformation, solves slide block and exists
Injection for the first time completes rear slider and will not produce motion, and after mould die sinking rotation, matched moulds carries out second injection, notes at second
After the completion of modeling, slide block will produce a kind of efficiently high-precision high-quality injection mold of motion.
What above-mentioned technical problem of the present utility model was mainly addressed by following technical proposals:
A kind of efficiently high-precision high-quality injection mold, including movable side mold and fixed side mold, described movable side form
The top of tool positions with the bottom of fixed side mold in shape is connected;
Described movable side mold is provided with least one adapted to injection system, institute with the one end in the cavity of fixed side mold
The movable side mold stated is provided with least one quadric injection mould system with the other end in the cavity of fixed side mold;
A hot flow path component being connected with adapted to injection system, described fixation are provided with described fixed side mold
The second heat flow channel component being connected with quadric injection mould system is provided with side mold;
Described movable side mold includes base plate and B plates, and the top of described base plate is provided with B plates;Described fixed side form
Tool includes panel and A plates, and the bottom of described panel is provided with the A plate matched with B plates;
A described adapted to injection system is equal with quadric injection mould system structure;
A described adapted to injection system includes upper rear cavity, slide block, take-up housing and lower rear cavity, and described take-up housing is located at
In B plates, the outer wall of described sliding seat is provided with the slide block being mutually slidably connected with sliding seat, and the outer wall of described upper end of slide block is provided with
Upper rear cavity, the outer wall of described slide block lower end is provided with lower rear cavity, and cylinder ejector component, institute are provided with described lower rear cavity
The bottom of the take-up housing stated is provided with pressing plate, and the positioning bead with sliding seat phase activity orientation is provided with described pressing plate;Described A
Shovel is provided with plate, the top of described shovel is provided with the Angle Pin being inserted in sliding seat;
A front cavity is provided with a described adapted to injection system, in described quadric injection mould system secondary front mould is provided with
Core, a described front cavity respectively with upper rear cavity, lower rear cavity in connecting shape distribution, described secondary front cavity respectively with
Upper rear cavity, lower rear cavity are respectively provided in A plates in shape distribution, a described front cavity is connected with secondary front cavity;
Described cylinder ejector component includes the Ejector Retainer Plate being located in B plates, and the top of described Ejector Retainer Plate is provided with top
Dial plate, the outer wall of described B plates is provided with external oil cylinder, and described external oil cylinder drives Ejector Retainer Plate and thimble panel to carry out
Bottom offset, is provided with back stitching in described B plates, the bottom of described back stitching is fixed with Ejector Retainer Plate and thimble panel, and described returns
The upper end of pin is stretched in lower rear cavity, and the top of described back stitching is provided with the jacking block being embedded in lower rear cavity, described top
Block is touched with a front cavity in movable, and described jacking block is touched with secondary front cavity in movable, described external oil cylinder
Back stitching is driven to carry out upper and lower displacement;
A described hot flow path component includes being located at the primary side hot flow path of A plate outer walls and is located at A plates top once
Upper hot flow path, described primary side hot flow path and once goes up hot flow path and is connected with an adapted to injection system respectively;
Described second heat flow channel component includes being located at the secondary upper hot flow path on A plates top.
Preferably, described back stitching is in 10 degree of skewed distributions with B plates, the bottom of described back stitching is inserted into thimble face
In plate, the bolt being fastened with back stitching bottom is provided with described Ejector Retainer Plate, described Ejector Retainer Plate and thimble panel is in incline
Ramp-like distribution;Support department is provided with described Ejector Retainer Plate and thimble panel, described support department is fixed in B plates.
Preferably, being provided with Angle Pin insertion breach in described take-up housing, described Angle Pin inserts the both sides of breach
Wall is respectively equipped with the block with Angle Pin phase elastic connection, and between described block and take-up housing spring is provided with;
The width of Angle Pin is less than between block under naturalness in an adapted to injection system in a described adapted to injection system
Spacing, between the width of Angle Pin is more than in an adapted to injection system under naturalness between block in described quadric injection mould system
Away from.
Preferably, described sliding seat and the inclined slip of slide block, are provided with T-slot in described sliding seat, it is described
The slip guide pillar being mutually slidably connected with T-slot is provided with slide block.
Preferably, the one end in the cavity of described described movable side mold and fixed side mold be provided with two be between
Every an adapted to injection system of shape distribution, described movable side mold is provided with two with the other end in the cavity of fixed side mold
The quadric injection mould system of individual interruption-like distribution.
Therefore, a kind of efficiently high-precision high-quality injection mold of the present utility model, compact conformation, lifting is high in machining efficiency,
Improve product quality.
Description of the drawings
Fig. 1 is product first time injection structure schematic diagram in this utility model;
Fig. 2 is second injection structure schematic diagram of product in this utility model;
Fig. 3 is the structural representation in this utility model after the completion of product injection;
Fig. 4 is cross section structure diagram of the present utility model;
Fig. 5 is the structural representation of movable side mold in Fig. 4;
Fig. 6 is the structural representation of fixed side mold in Fig. 4;
Fig. 7 is the structural representation of Angle Pin and take-up housing in this utility model;
Fig. 8 is the structural representation of slide block and take-up housing in this utility model;
Fig. 9 is dimensional structure diagram of the present utility model.
Specific embodiment
Below by embodiment, and accompanying drawing is combined, the technical solution of the utility model is described in further detail.
Embodiment 1:As shown in Figure 1, Figure 2, it is a kind of efficiently high-precision high-quality shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8 and Fig. 9
Injection mold, including movable side mold 1 and fixed side mold 2, top and the fixed side mold 2 of described movable side mold 1
Bottom positions in shape is connected;
Described movable side mold 1 is provided with least one adapted to injection system with the one end in the cavity of fixed side mold 2
3, described movable side mold 1 is provided with least one quadric injection mould system 4 with the other end in the cavity of fixed side mold 2;
A hot flow path component being connected with adapted to injection system 3 is provided with described fixed side mold 2, described consolidates
Determine to be provided with side mold 2 the second heat flow channel component being connected with quadric injection mould system 4;
Described movable side mold 1 includes base plate 5 and B plates 6, and the top of described base plate 5 is provided with B plates 6;Described fixation
Side mold 2 includes panel 7 and A plates 8, and the bottom of described panel 7 is provided with the A plate 8 matched with B plates 6;
A described adapted to injection system 3 is equal with the structure of quadric injection mould system 4;
A described adapted to injection system 3 includes upper rear cavity 9, slide block 10, take-up housing 11 and lower rear cavity 12, described cunning
Block 11 is located in B plates 6, and the outer wall of described sliding seat 11 is provided with the slide block 10 being mutually slidably connected with sliding seat 11, described
The outer wall of the upper end of slide block 10 is provided with rear cavity 9, and the outer wall of the described lower end of slide block 10 is provided with lower rear cavity 12, it is described it is lower after
Cylinder ejector component is provided with die 12, the bottom of described take-up housing 11 is provided with pressing plate 13, be provided with described pressing plate 13 with
The positioning bead 14 of the phase activity orientation of sliding seat 11;Shovel 15 is provided with described A plates 8, the top of described shovel 15 is provided with
The Angle Pin 16 being inserted in sliding seat 11;
A front cavity 17 is provided with a described adapted to injection system 3, be provided with described quadric injection mould system 4 it is secondary before
Die 18, a described front cavity 17 respectively with upper rear cavity 9, lower rear cavity 12 in connecting shape distribution, it is described it is secondary before
Die 18 is respectively with upper rear cavity 9, lower rear cavity 12 in connecting shape distribution, a described front cavity 17 and secondary front cavity 18
In being respectively provided at A plates 8;
Described cylinder ejector component includes the Ejector Retainer Plate 19 being located in B plates 6, and the top of described Ejector Retainer Plate 19 sets
The outer wall for having thimble panel 20, described B plates 6 is provided with external oil cylinder 21, and described external oil cylinder 21 drives the He of Ejector Retainer Plate 19
Thimble panel 20 carries out upper and lower displacement, is provided with back stitching 22 in described B plates 6, the bottom of described back stitching 22 and Ejector Retainer Plate 19
Fix with thimble panel 20, the upper end of described back stitching 22 is stretched in lower rear cavity 12, and the top of described back stitching 22 is provided with
The jacking block 23 being embedded in lower rear cavity 12, described jacking block 23 is touched with a front cavity 17 in movable, described jacking block
23 touch with secondary front cavity 18 in movable, and described external oil cylinder 21 drives back stitching 22 to carry out upper and lower displacement;
A described hot flow path component includes being located at the primary side hot flow path 24 of the outer wall of A plates 8 and is located at the top of A plates 8
Once go up hot flow path 25, described primary side hot flow path 24 and once go up hot flow path 25 and be connected with an adapted to injection system 3 respectively;
Described second heat flow channel component includes being located at the secondary upper hot flow path 26 on the top of A plates 8.
Described back stitching 22 is in 10 degree of skewed distributions with B plates 6, and the bottom of described back stitching 22 is inserted into thimble panel 20
In, it is provided with the bolt being fastened with the bottom of back stitching 22 in described Ejector Retainer Plate 19, described Ejector Retainer Plate 19 and thimble panel
20 oblique distributions;Support department 27 is provided with described Ejector Retainer Plate 19 and thimble panel 20, described support department 27 is fixed on B plates
In 6.
Angle Pin insertion breach 28 is provided with described take-up housing 11, the two side of described Angle Pin insertion breach 28 is divided
It is not provided with the block 29 with the phase elastic connection of Angle Pin 16, between described block 29 and take-up housing 11 spring 30 is provided with;
The width of Angle Pin 16 is less than block under naturalness in an adapted to injection system 3 in a described adapted to injection system 3
Spacing between 29, the width of Angle Pin 16 is more than naturalness lower block in an adapted to injection system 3 in described quadric injection mould system 4
Spacing between block 29.
Described sliding seat 11 and the inclined slip of slide block 10, are provided with T-slot 31, described cunning in described sliding seat 11
The slip guide pillar 32 being mutually slidably connected with T-slot 31 is provided with block 10.
Described described movable side mold 1 is provided with two interruption-like point with the one end in the cavity of fixed side mold 2
Adapted to injection system 3 of cloth, described movable side mold 1 is provided with two with the other end in the cavity of fixed side mold 2
The quadric injection mould system 4 of interruption-like distribution.
Claims (5)
1. a kind of efficiently high-precision high-quality injection mold, it is characterised in that:Including movable side mold(1)And fixed side mold(2),
Described movable side mold(1)Top and fixed side mold(2)Bottom in connect shape positioning;
Described movable side mold(1)With fixed side mold(2)Cavity in one end be provided with least one adapted to injection system
(3), described movable side mold(1)With fixed side mold(2)Cavity in the other end be provided with least one quadric injection mould system
System(4);
Described fixed side mold(2)In be provided with and an adapted to injection system(3)A hot flow path component being connected, described consolidates
Determine side mold(2)In be provided with and quadric injection mould system(4)The second heat flow channel component being connected;
Described movable side mold(1)Including base plate(5)With B plates(6), described base plate(5)Top be provided with B plates(6);It is described
Fixed side mold(2)Including panel(7)With A plates(8), described panel(7)Bottom be provided with and B plates(6)Matched A plates
(8);
A described adapted to injection system(3)With quadric injection mould system(4)Structure is equal;
A described adapted to injection system(3)Including upper rear cavity(9), slide block(10), take-up housing(11)With lower rear cavity(12), institute
The take-up housing stated(11)It is located at B plates(6)In, described sliding seat(11)Outer wall be provided with and sliding seat(11)Mutually it is slidably connected
Slide block(10), described slide block(10)The outer wall of upper end is provided with rear cavity(9), described slide block(10)The outer wall of lower end is provided with
Lower rear cavity(12), described lower rear cavity(12)In be provided with cylinder ejector component, described take-up housing(11)Bottom be provided with
Pressing plate(13), described pressing plate(13)In be provided with and sliding seat(11)The positioning bead of phase activity orientation(14);Described A plates
(8)In be provided with shovel(15), described shovel(15)Top be provided with and be inserted into sliding seat(11)In Angle Pin(16);
A described adapted to injection system(3)In be provided with a front cavity(17), described quadric injection mould system(4)In be provided with secondary
Front cavity(18), a described front cavity(17)Respectively with upper rear cavity(9), lower rear cavity(12)It is distributed in shape is connected, institute
The secondary front cavity stated(18)Respectively with upper rear cavity(9), lower rear cavity(12)It is distributed in shape is connected, a described front cavity
(17)With secondary front cavity(18)It is respectively provided at A plates(8)In;
Described cylinder ejector component includes being located at B plates(6)In Ejector Retainer Plate(19), described Ejector Retainer Plate(19)Top
It is provided with thimble panel(20), described B plates(6)Outer wall be provided with external oil cylinder(21), described external oil cylinder(21)Drive top
Pin base plate(19)With thimble panel(20)Carry out upper and lower displacement, described B plates(6)In be provided with back stitching(22), described back stitching
(22)Bottom and Ejector Retainer Plate(19)With thimble panel(20)Fixed, described back stitching(22)Upper end stretch to lower rear cavity
(12)In, described back stitching(22)Top be provided with and be embedded in lower rear cavity(12)In jacking block(23), described jacking block(23)
With a front cavity(17)Touch in movable, described jacking block(23)With secondary front cavity(18)Touch in movable, it is described
External oil cylinder(21)Drive back stitching(22)Carry out upper and lower displacement;
A described hot flow path component includes being located at A plates(8)The primary side hot flow path of outer wall(24)Be located at A plates(8)Top
Once go up hot flow path(25), described primary side hot flow path(24)Once go up hot flow path(25)Respectively with an adapted to injection system
(3)It is connected;
Described second heat flow channel component includes being located at A plates(8)The secondary upper hot flow path on top(26).
2. a kind of efficiently high-precision high-quality injection mold according to claim 1, it is characterised in that:Described back stitching(22)
With B plates(6)In 10 degree of skewed distributions, described back stitching(22)Bottom be inserted into thimble panel(20)In, described thimble
Base plate(19)In be provided with and back stitching(22)The bolt that bottom is fastened, described Ejector Retainer Plate(19)With thimble panel(20)In inclining
Ramp-like distribution;Described Ejector Retainer Plate(19)With thimble panel(20)In be provided with support department(27), described support department(27)It is fixed on B
Plate(6)In.
3. a kind of efficiently high-precision high-quality injection mold according to claim 1, it is characterised in that:Described take-up housing
(11)In be provided with Angle Pin insertion breach(28), described Angle Pin insertion breach(28)Two side be respectively equipped with and Angle Pin
(16)The block of phase elastic connection(29), described block(29)With take-up housing(11)Between be provided with spring(30);
A described adapted to injection system(3)Middle Angle Pin(16)Width be less than an adapted to injection system(3)Middle naturalness lower block
Block(29)Between spacing, described quadric injection mould system(4)Middle Angle Pin(16)Width be more than an adapted to injection system(3)In from
Block under right state(29)Between spacing.
4. a kind of efficiently high-precision high-quality injection mold according to claim 1 or 2 or 3, it is characterised in that:Described cunning
Dynamic seat(11)With slide block(10)Inclined slip, described sliding seat(11)In be provided with T-slot(31), described slide block(10)In
It is provided with and T-slot(31)The slip guide pillar being mutually slidably connected(32).
5. a kind of efficiently high-precision high-quality injection mold according to claim 1 or 2 or 3, it is characterised in that:Described institute
The movable side mold stated(1)With fixed side mold(2)Cavity in one end be provided with the once injection of two interruption-like distributions
System(3), described movable side mold(1)With fixed side mold(2)Cavity in the other end be provided with two in interval
The quadric injection mould system of shape distribution(4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621216655.3U CN206154628U (en) | 2016-11-11 | 2016-11-11 | High -efficient high -precision high -quality injection mold |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621216655.3U CN206154628U (en) | 2016-11-11 | 2016-11-11 | High -efficient high -precision high -quality injection mold |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206154628U true CN206154628U (en) | 2017-05-10 |
Family
ID=58658674
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621216655.3U Withdrawn - After Issue CN206154628U (en) | 2016-11-11 | 2016-11-11 | High -efficient high -precision high -quality injection mold |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206154628U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106378905A (en) * | 2016-11-11 | 2017-02-08 | 广州友成机工有限公司 | High-efficiency, high-precision and high-quality injection mold and operating method thereof |
-
2016
- 2016-11-11 CN CN201621216655.3U patent/CN206154628U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106378905A (en) * | 2016-11-11 | 2017-02-08 | 广州友成机工有限公司 | High-efficiency, high-precision and high-quality injection mold and operating method thereof |
CN106378905B (en) * | 2016-11-11 | 2019-05-31 | 广州友成机工有限公司 | A kind of injection mold and its operating method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106378905A (en) | High-efficiency, high-precision and high-quality injection mold and operating method thereof | |
CN206154628U (en) | High -efficient high -precision high -quality injection mold | |
CN103252876A (en) | Slot sliding key type simple self-locking inclined slide block pair device | |
CN203031733U (en) | In-bulk forming mould of acoustic screen | |
CN205767289U (en) | A kind of line thimble demolding structure | |
CN206154651U (en) | A slider structure for injection mold | |
CN105195620B (en) | Side surface bonding double-side burring die | |
CN202702506U (en) | Vertical type efficient 45-degree elbow pipe fitting injection mold | |
CN203583129U (en) | Composite triangular braiding apparatus in front of computer glove machine | |
CN202438620U (en) | S-type bending die | |
CN204076684U (en) | A kind of injection mold time-lapse core pulling mechanism | |
CN209955209U (en) | Special mold for manufacturing cosmetic packaging bottle body | |
CN203221618U (en) | High-cavity precise single-interface die with separated large sliding block and half block | |
CN208428523U (en) | A kind of injection molding machine charging filter device facilitating installation | |
CN209255484U (en) | One kind can quick-adjustsing fashioned iron mould for cold milling device | |
CN202011129U (en) | Fixed flipping die oblique core pulling mechanism capable of converting angles | |
CN206446047U (en) | Rubber strip casting mould is arranged a kind of longitudinal direction more | |
CN206798478U (en) | A kind of stable Combined slide-board system of synchronism | |
CN202129902U (en) | Inclined core drawing structure for front mould and back mould | |
CN206186271U (en) | Injection mould indexing mechanism of loosing core | |
CN211467303U (en) | Positioning sleeve for injection mold | |
CN202764148U (en) | Core-pulling delaying structure of sliding block | |
CN205571155U (en) | Car seat torque tube cold extruding die | |
CN214774226U (en) | Simple concave punching die | |
CN206186274U (en) | A oblique overhead play structure for injection mold |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170510 Effective date of abandoning: 20190531 |