CN206170581U - Motormeter coils mould - Google Patents

Motormeter coils mould Download PDF

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Publication number
CN206170581U
CN206170581U CN201621262789.9U CN201621262789U CN206170581U CN 206170581 U CN206170581 U CN 206170581U CN 201621262789 U CN201621262789 U CN 201621262789U CN 206170581 U CN206170581 U CN 206170581U
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CN
China
Prior art keywords
self
fixture block
gangbar
spacing groove
block
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.)
Expired - Fee Related
Application number
CN201621262789.9U
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Chinese (zh)
Inventor
许剑挺
陈斌
许剑明
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huangyan Taizhou Special Fine Workmanship Mould Co Ltd
Original Assignee
Huangyan Taizhou Special Fine Workmanship Mould Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Huangyan Taizhou Special Fine Workmanship Mould Co Ltd filed Critical Huangyan Taizhou Special Fine Workmanship Mould Co Ltd
Priority to CN201621262789.9U priority Critical patent/CN206170581U/en
Application granted granted Critical
Publication of CN206170581U publication Critical patent/CN206170581U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a motormeter coils mould, its technical scheme main points are: including movable mould frame and cover half frame, be equipped with vertical spacing groove on the movable mould frame, vertical spacing groove has horizontal spacing groove towards the outside extension of movable mould frame, be equipped with the stopper that is used for inserting vertical spacing groove on the cover half frame, the upper end of stopper is equipped with the first horizontal spout that aligns mutually with horizontal spacing groove, the lower extreme of stopper is equipped with the horizontal spout of second, the side of cover half frame is equipped with the screw thread through -hole that is used for with the horizontal spout of second intercommunication, the fixture block in the horizontal spacing groove of insertible is inserted to first horizontal spout inside slip, be equipped with the gangbar that can drive the outside roll -off of fixture block in the spacing cavity, threaded connection has that can stretch into in the horizontal spout of second and the drive linkage pole drives the tie member that supports of fixture block motion in the screw thread through -hole. It is through horizontal and vertical spacing, and the closure of messenger's movable mould frame and cover half frame is more stable to mode locking easy operation, work efficiency is high.

Description

Automobile instrument panel die
Technical field
The utility model is related to manufactruing equipment of automobile field, more particularly to a kind of automobile instrument panel die.
Background technology
Automobile instrument panel is the device for reflecting each system health of vehicle.In production, automobile instrument disk casing is using note Mould is molded.
It is well known that when mould production after the completion of, mould during transport or carrying and installation, due to vibrations or Other reasonses, mould upper and lower mould is easily opened, and mould easily because rock and caused by guide pillar or die abrasion, in order to prevent Mould is opened accidentally during carrying, and notification number is that the Chinese patent of CN202922812U discloses a kind of with lock module Mould.The junction of its upper die plate and lower template for mainly including interconnection, upper die plate and lower template is respectively provided on two sides with spiral shell Pit, also including lock module, one end of lock module is fixed on upper die plate by screwed hole, and the other end is fixed on by screwed hole In lower template, so as to realize the lock of bolster and prevent it to be opened accidentally.But, its upper die plate of above-mentioned mould and lower template After matched moulds, it is necessary to first the screwed hole on the fixing hole and mould on lock module aligns during using lock module, then again by spiral shell Nail is fixed on one by one fixes lock module on screwed hole, so as to realize locked mode, during screw is tightened one by one, and each spiral shell The degree that nail is screwed into can be not quite similar, so as to upper die plate and lower template can be caused to produce certain transversion malposition, and above-mentioned lock The use process of module is cumbersome.
Utility model content
In view of the shortcomings of the prior art, the purpose of this utility model is to provide a kind of convenient automobile instrument of locked mode Disk mould.
Above-mentioned technical purpose of the present utility model technical scheme is that:A kind of automobile instrument panel mould Tool, including dynamic model frame and model frame, dynamic model frame is provided with vertical spacing groove towards the one side of model frame, and vertical spacing groove is towards dynamic model Outer frame side is extended with cross spacing groove, and model frame is provided with to insert the limited block of vertical spacing groove towards the one side of dynamic model frame, The upper end of limited block is provided with the first horizontal concrete chute aligned with cross spacing groove, and the lower end of limited block is provided with second and laterally slides Groove, the side of model frame is provided with the tapped through hole for being connected with the second horizontal concrete chute, connection first is additionally provided with limited block horizontal To chute and the spacing cavity of the second horizontal concrete chute, cunning is inserted with the fixture block that can be embedded in cross spacing groove in the first horizontal concrete chute, The gangbar that fixture block can be driven outwards to skid off is provided with spacing cavity, being threaded with tapped through hole can stretch into the second transverse direction cunning In groove and drive gangbar drive fixture block motion abutting part.
It is vertical on limited block insertion dynamic model frame when dynamic model frame and the mutual matched moulds of model frame by above-mentioned technical proposal In stopper slot, here, vertical spacing groove and limited block cooperation can to a certain extent reduce dynamic model frame and model frame generation laterally Dislocation, have certain role of correcting when guide pillar weares and teares;
When dynamic model frame and model frame fully come together, need to only take abutting part makes it be threaded into through hole, now, pushes against part End stretch into the second horizontal concrete chute, and promote gangbar, gangbar is moved and promotes fixture block to stretch out the first horizontal concrete chute again, Here, during cross spacing groove is stretched into one end of fixture block, the other end is located in the first horizontal concrete chute of limited block, realizes dynamic model frame It is sealed with model frame;
When unblock is needed, only then it need to be made to exit transverse direction to promotion fixture block in cross spacing groove to abutting part is removed Stopper slot can complete unblock;
In above-mentioned locking mode, by horizontal and vertical spacing, dynamic model frame and the sealed of model frame is set more to stablize, more Importantly, only need to can just complete locked mode to an abutting part is turned in tapped through hole, mode-lock operation is simple.
Preferably, one end that fixture block is inserted in the first horizontal concrete chute is provided with the first guiding surface, and the upper end of gangbar is provided with Connection mutually being slid with the first guiding surface and can upwards sliding guide end to drive fixture block to stretch out, the lower end of gangbar is provided with the Two guiding surfaces, push against part and stretch into and can be contradicted in the second horizontal concrete chute the second guiding surface and gangbar is moved upwards.
By above-mentioned technical proposal, fixture block can only slide laterally in the presence of the first horizontal concrete chute, and the first of fixture block leads To inclined-plane towards gangbar, the second guiding surface in gangbar is towards the second horizontal concrete chute near its notch one end;Push against part During to being moved in the second horizontal concrete chute, the end for pushing against part contradicts the second guiding surface, in the presence of the second guiding surface, connection Lever is moved upwards, and now, the guide end of gangbar acts on the first guiding surface, so that the gangbar for rising promotes fixture block to stretch In going out the first horizontal concrete chute and inserting cross spacing groove.
Preferably, one end that fixture block is inserted in the first horizontal concrete chute is provided with vertical chute, and sliding is connected with vertical chute Mobile bar, gangbar is articulated with mobile bar near one end of fixture block, is articulated with the middle part of gangbar in spacing cavity, pushes against part and stretches Enter to contradict in the second horizontal concrete chute gangbar away from one end of fixture block so that jointed shaft of the gangbar in spacing cavity is rotated.
By above-mentioned technical proposal, gangbar can be rotated relative to the end of fixture block, while again can be vertical with respect to fixture block end Slide, when gangbar is promoted to inner side in pushing against part and stretching into the second horizontal concrete chute, jointed shaft of the gangbar in the middle of it turns Dynamic, now, one end that gangbar is connected to fixture block rotates towards cross spacing groove, so that gangbar promotes fixture block to stretch out first laterally Chute simultaneously inserts cross spacing groove.
Preferably, gangbar is provided with to order about the gangbar end towards supporting away from fixture block one end, away from the side for pushing against part First elastic component of tight part motion.
By above-mentioned technical proposal, the resilient force of the first elastic component is in gangbar, making gangbar away from fixture block One end retains towards the trend for pushing against part motion, namely keeps fixture block to exit the trend of cross spacing groove;When the practical mould of needs When, part will be pushed against and removed from tapped through hole, now, fixture block automatically exits from cross spacing groove in the presence of elastic force, is not required to Fixture block is inwardly promoted in addition.
Preferably, push against part and be rotatably connected to hoisting ring away from one end of gangbar.
By above-mentioned technical proposal, generally move moulds and be required to use hoisting ring, mould is first carried out into locked mode, Ran Houzai Hoisting ring is arranged on mould and is lifted, herein, hoisting ring and abutting part are connected as a single entity, so when needs move moulds When, when hoisting ring is arranged on mould, the synchronous locked mode for being achieved that mould of part is pushed against, it is easy to operate, step is saved, Improve operating efficiency;Herein, hoisting ring is rotationally connected with abutting part, on the one hand on hoisting ring during stationary rope, hoisting ring Arbitrarily rotation direction rope can be adapted to, on the other hand, pushing against part will not be influenceed in the practical process of hoisting ring by hoisting ring, Abutting part is caused to loosen and deviate from tapped through hole.
Preferably, push against part and be rotatably connected to connecting rod away from one end of gangbar, hoisting ring be articulated with connecting rod away from Push against one end of part.
By above-mentioned technical proposal, hoisting ring is rotationally connected with abutting part by connecting rod, when mould is deposited, lifting Rotate and can be affixed on die surface with sagging with the jointed shaft of connecting rod around it, reduction takes up room, convenient storage, therefore storage mould Can be removed without by hoisting ring during tool.
Preferably, the one end side of fixture block insertion cross spacing groove is provided with self-locking grooves, and dynamic model frame is provided with and cross spacing Groove is connected, and the sliding slot aligned with self-locking grooves when in fixture block insertion cross spacing groove, is slid in sliding slot and is connected with Self-locking block, self-locking block is provided with away from one end of self-locking grooves and orders about the second elastic component that self-locking block pushes against self-locking grooves, and self-locking block is close to One end of self-locking grooves is provided with the 3rd guiding surface that can be ordered about under the promotion of fixture block in the sliding slot of self-locking block retraction, and self-locking block is leaned on One end of nearly self-locking grooves, it is provided with when can firmly be ordered about to when promoting fixture block in cross spacing groove away from the side of the 3rd guiding surface The 4th guiding surface in the sliding slot of self-locking block retraction.
By above-mentioned technical proposal, when pushing against in part driving fixture block insertion cross spacing groove, the fixture block end stretched into is supported The 3rd guiding surface and urged forward of self-locking block are touched, in the presence of the 3rd guiding surface, self-locking block overcomes the second elastic component Elastic force, in sliding slot of retracting;In fixture block continues to stretch into cross spacing groove, it is fully-inserted in place when, the self-locking on fixture block Groove and sliding slot just align, and now, self-locking block realizes fixture block in inserting self-locking grooves under the resilient force of the second elastic component Self-locking, prevent fixture block surprisingly exited from cross spacing groove;
Herein, when unblock is needed, firmly to fixture block is promoted in cross spacing groove, the cell wall of self-locking grooves contradicts the 4th and is oriented to Inclined-plane, so as in the presence of the 4th guiding surface, self-locking block overcomes the elastic force of the second elastic component, in sliding slot of retracting, from And be unlocked.
Preferably, the translot of the sliding slot of side connection and the direction of motion setting along self-locking block is additionally provided with model frame, from Closing piece is provided with the poke rod in translot and for driving self-locking block to be moved along sliding slot.
By above-mentioned technical proposal, catch poke rod to be stirred towards the direction away from self-locking grooves, order about self-locking block and depart from self-locking Groove, so as in the presence of the first elastic component elastic force, fixture block automatically exits from cross spacing groove, so as to realize Rapid reversal mould It is sealed, make unblock more laborsaving, it is convenient.
Preferably, model frame is provided with recessed groove towards the one side of dynamic model frame, and limited block is located in recessed groove, outside model frame Side is additionally provided with to fix the fixing threaded hole of limited block.
By above-mentioned technical proposal, limited block and model frame split are set, and are easy to the replacing of limited block, while reducing mould Difficulty of processing.
Brief description of the drawings
Fig. 1 is the structural representation of embodiment one;
Fig. 2 is A portions enlarged drawing in Fig. 1;
Fig. 3 is the partial sectional view under the side-looking visual angle of embodiment one, it is intended to represent that fixture block is in inserting cross spacing groove The structure of mode-lock status;
Fig. 4 is the partial sectional view under the side-looking visual angle of embodiment one, it is intended to represent that fixture block is not inserted into cross spacing groove Structure;
Fig. 5 is the partial sectional view that embodiment one is overlooked under visual angle, it is intended to represent that fixture block is in the structure of self-locking state;
Fig. 6 is B portions enlarged drawing in Fig. 5;
Fig. 7 is the structural representation of limited block in embodiment one;
Fig. 8 is the structural representation of limited block in embodiment two.
Reference:1st, dynamic model frame;3rd, model frame;5th, vertical spacing groove;6th, cross spacing groove;7th, limited block;8th, first Horizontal concrete chute;9th, the second horizontal concrete chute;10th, tapped through hole;11st, spacing cavity;12nd, fixture block;13rd, gangbar;14th, part is pushed against; 15th, the first guiding surface;16th, guide end;17th, the second guiding surface;18th, vertical chute;19th, mobile bar;20th, the first elasticity Part;21st, hoisting ring;22nd, connecting rod;23rd, self-locking grooves;24th, sliding slot;25th, self-locking block;26th, the second elastic component;27th, the 3rd lead To inclined-plane;28th, the 4th guiding surface;29th, translot;30th, poke rod;31st, recessed groove;32nd, fixing threaded hole;33rd, fixing hole.
Specific embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
Embodiment one, a kind of automobile instrument panel die:
Mavable module core is provided with automobile instrument panel die as shown in Figure 1, including dynamic model frame 1 and model frame 3, dynamic model frame 1, Fixed mold core is provided with model frame 3.Referring to accompanying drawing 2, accompanying drawing 3 and accompanying drawing 7, dynamic model frame 1 is provided with vertical limit towards the one side of model frame 3 Position groove 5, vertical spacing groove 5 is extended with cross spacing groove 6 towards the outside of dynamic model frame 1, and cross spacing groove 6 is through the side of dynamic model frame 1 Wall;Model frame 3 is provided with recessed groove 31 towards the one side of dynamic model frame 1, and limited location block 7, the outside of model frame 3 are assigned in recessed groove 31 Face is additionally provided with to fix the fixing threaded hole 32 of limited block 7, and limited block 7 is provided with the fixing hole corresponding with fixing threaded hole 32 33。
See accompanying drawing 3 and accompanying drawing 4, the upper end of limited block 7 is provided with the first horizontal concrete chute 8 aligned with cross spacing groove 6, limit The lower end of position block 7 is provided with the second horizontal concrete chute 9, and the screw thread that the side of model frame 3 is provided with for being connected with the second horizontal concrete chute 9 leads to The spacing cavity 11 of the first horizontal concrete chute 8 of connection and the second horizontal concrete chute 9, the first horizontal concrete chute are additionally provided with hole 10, limited block 7 Cunning is inserted with the fixture block 12 that can be embedded in cross spacing groove 6 in 8, and gangbar 13, spiral shell in tapped through hole 10 are provided with spacing cavity 11 Line is connected with abutting part 14;Wherein, one end that fixture block 12 is inserted in the first horizontal concrete chute 8 is provided with vertical chute 18, vertical chute Sliding is connected with mobile bar 19 in 18, and gangbar 13 is articulated with mobile bar 19, the middle part of gangbar 13 near one end of fixture block 12 It is articulated with spacing cavity 11, pushing against part 14 can stretch into the second horizontal concrete chute 9 and promote gangbar 13 away from the one of fixture block 12 End, gangbar 13 is provided with to order about end of gangbar 13 towards abutting part away from the one end of fixture block 12, away from the side for pushing against part 14 First elastic component 20 of 14 motions, the first elastic component 20 herein is compression spring.
Referring to accompanying drawing 3 is seen, push against part 14 and be rotatably connected to connecting rod 22 away from one end of gangbar 13, hoisting ring 21 is hinged In connecting rod 22 away from the one end for pushing against part 14, hoisting ring 21 is rotated around it with the jointed shaft of connecting rod 22 under gravity can Die surface is affixed on sagging.
Referring to accompanying drawing 5 and accompanying drawing 6, the one end side of the insertion cross spacing of fixture block 12 groove 6 is provided with self-locking grooves 23, dynamic model frame 1 It is provided with and is connected with cross spacing groove 6, and is inserted with the cunning that self-locking grooves 23 align when in the insertion cross spacing of fixture block 12 groove 6 Groove 24, sliding is connected with self-locking block 25 in sliding slot 24, and self-locking block 25 is provided with away from one end of self-locking grooves 23 and orders about self-locking block 25 The second elastic component 26 of self-locking grooves 23 is pushed against, the second elastic component 26 is compression spring herein;Self-locking block 25 is near self-locking grooves 23 One end is provided with the 3rd guiding surface 27 and the 4th guiding surface 28, the 3rd guiding surface 27 towards fixture block 12, the 4th guiding surface 28 deviate from fixture block 12;Wherein, side connection sliding slot 24 is additionally provided with model frame 3 and the direction of motion along self-locking block 25 is set Translot 29, self-locking block 25 is provided with the poke rod 30 in translot 29 and for driving self-locking block 25 to be moved along sliding slot 24.
The locked mode process of limited block 7 is as follows in embodiment one:
When 3 mutual matched moulds of dynamic model frame 1 and model frame, in the vertical spacing groove 5 on the insertion dynamic model of limited block 7 frame 1;When dynamic Framed 1 and model frame 3 when fully coming together, hoisting ring 21 is taken, the abutting part 14 of the front end of hoisting ring 21 is threaded into through hole 10, The end of abutting part 14 is stretched into the second horizontal concrete chute 9, pushes against part 14 and overcomes the active force of compression spring and promote gangbar 13 Lower end inwardly move, the jointed shaft of gangbar 13 in the middle of it is rotated, and now, gangbar 13 is connected to one end court of fixture block 12 Cross spacing groove 6 is rotated, so that in promoting fixture block 12 to stretch out the first horizontal concrete chute 8 and inserting cross spacing groove 6;When fixture block 12 is inserted When entering in cross spacing groove 6, the end of fixture block 12 stretched into contradicts the 3rd guiding surface 27 and urged forward of self-locking block 25, the In the presence of three guiding surfaces 27, self-locking block 25 overcomes the elastic force of the second elastic component 26, in sliding slot 24 of retracting, when fixture block 12 In continuing to stretch into cross spacing groove 6, it is fully-inserted in place when, self-locking grooves 23 and sliding slot 24 on fixture block 12 are just alignd, this When, during self-locking block 25 inserts self-locking grooves 23 under the resilient force of the second elastic component 26.
When unblock is needed, catch poke rod 30 to be stirred towards the direction away from self-locking grooves 23, order about self-locking block 25 and depart from certainly Locked groove 23, so as in the presence of the elastic force of the first elastic component 20, fixture block 12 automatically exits from cross spacing groove 6, so as to realize fast Speed releases the sealed of mould;May be otherwise and fixture block 12 is directly inwardly promoted from cross spacing groove 6, in the 4th guiding surface 28 In the presence of self-locking block 25 is departed from self-locking grooves 23, and fixture block 12 is pushed away into cross spacing groove 6.
Embodiment two, a kind of automobile instrument panel die:
The difference of embodiment two and embodiment one is the difference of the structure of limited block 7.
As shown in Figure 8, one end that fixture block 12 is inserted in the first horizontal concrete chute 8 is provided with the first guiding surface 15, gangbar 13 upper end is provided with the guide end 16 for mutually being slid with the first guiding surface 15 and connecting and can slide upwards to drive fixture block 12 to stretch out, First guiding surface 15 is provided with gathering sill, and guide end 16 is slid by gathering sill and is connected to the first guiding surface 15, gangbar 13 lower end is provided with the second guiding surface 17;First guiding surface 15 of fixture block 12 is towards gangbar 13, in gangbar 13 Two guiding surfaces 17 are towards the second horizontal concrete chute 9 near its notch one end.
The locked mode process of limited block 7 is as follows in embodiment two:
When 3 mutual matched moulds of dynamic model frame 1 and model frame, in the vertical spacing groove 5 on the insertion dynamic model of limited block 7 frame 1;When dynamic Framed 1 and model frame 3 when fully coming together, hoisting ring 21 is taken, the abutting part 14 of the front end of hoisting ring 21 is threaded into through hole 10, The end of abutting part 14 is stretched into the second horizontal concrete chute 9, and the end for pushing against part 14 contradicts the second guiding surface 17, is oriented to second In the presence of inclined-plane 17, gangbar 13 is moved upwards, and now, the guide end 16 of gangbar 13 acts on the first guiding surface 15, In promoting fixture block 12 to stretch out the first horizontal concrete chute 8 and insert cross spacing groove 6 so as to the gangbar 13 for rising.
Herein, the auto-lock process of fixture block 12 is as in embodiment one.
When unblock is needed, catch poke rod 30 to be stirred towards the direction away from self-locking grooves 23, order about self-locking block 25 and depart from certainly Locked groove 23, then another hand is inside from cross spacing groove 6 promotes fixture block 12, and fixture block 12 is pushed away into cross spacing groove 6, so that Realize the sealed of Rapid reversal mould;May be otherwise and fixture block 12 is directly inwardly promoted from cross spacing groove 6, be oriented to the 4th Self-locking block 25 is departed from self-locking grooves 23 in the presence of inclined-plane 28, and fixture block 12 is pushed away into cross spacing groove 6.
The above is only exemplary embodiment of the present utility model, not for limitation protection model of the present utility model Enclose, protection domain of the present utility model is determined by appended claim.

Claims (9)

1. a kind of automobile instrument panel die, including dynamic model frame (1) and model frame (3), it is characterized in that:Dynamic model frame (1) is towards cover half The one side of frame (3) is provided with vertical spacing groove (5), and vertical spacing groove (5) is extended with cross spacing groove towards dynamic model frame (1) outside (6), model frame (3) is provided with to insert the limited block (7) of vertical spacing groove (5), limited block towards the one side of dynamic model frame (1) (7) upper end is provided with the first horizontal concrete chute (8) aligned with cross spacing groove (6), and the lower end of limited block (7) is provided with the second horizontal stroke To chute (9), the side of model frame (3) is provided with the tapped through hole (10) for being connected with the second horizontal concrete chute (9), limited block (7) the spacing cavity (11) of the first horizontal concrete chute of connection (8) and the second horizontal concrete chute (9), the first horizontal concrete chute (8) are additionally provided with Interior cunning is inserted with the fixture block (12) that can be embedded in cross spacing groove (6), and being provided with spacing cavity (11) can drive fixture block (12) outwards The gangbar (13) for skidding off, being threaded with tapped through hole (10) can stretch into the second horizontal concrete chute (9) and drive gangbar (13) the abutting part (14) of fixture block (12) motion is driven.
2. automobile instrument panel die according to claim 1, it is characterized in that:Fixture block (12) inserts the first horizontal concrete chute (8) In one end be provided with the first guiding surface (15), the upper end of gangbar (13) is provided with and mutually slides connection with the first guiding surface (15) And guide end (16) to drive fixture block (12) to stretch out can be upwards slid, the lower end of gangbar (13) is provided with the second guiding surface (17), interior the second guiding surface (17) that can contradict of the second horizontal concrete chute (9) is stretched into abutting part (14) makes gangbar (13) transport upwards It is dynamic.
3. automobile instrument panel die according to claim 1, it is characterized in that:Fixture block (12) inserts the first horizontal concrete chute (8) In one end be provided with vertical chute (18), sliding is connected with mobile bar (19) in vertical chute (18), and gangbar (13) is near card One end of block (12) is articulated with mobile bar (19), is articulated with the middle part of gangbar (13) in spacing cavity (11), pushes against part (14) Stretch into and can contradict gangbar (13) away from one end of fixture block (12) so that gangbar (13) is around spacing sky in the second horizontal concrete chute (9) Jointed shaft in chamber (11) is rotated.
4. automobile instrument panel die according to claim 3, it is characterized in that:Gangbar (13) away from fixture block (12) one end, It is provided with to order about gangbar (13) end towards the first elastic component for pushing against part (14) motion away from the side for pushing against part (14) (20)。
5. automobile instrument panel die according to claim 1, it is characterized in that:Part (14) is pushed against away from the one of gangbar (13) End is rotatably connected to hoisting ring (21).
6. automobile instrument panel die according to claim 5, it is characterized in that:Part (14) is pushed against away from the one of gangbar (13) End is rotatably connected to connecting rod (22), and hoisting ring (21) is articulated with connecting rod (22) away from the one end for pushing against part (14).
7. automobile instrument panel die according to claim 1, it is characterized in that:Fixture block (12) insertion cross spacing groove (6) One end side is provided with self-locking grooves (23), and dynamic model frame (1) is provided with and is connected with cross spacing groove (6), and in fixture block (12) insertion The sliding slot (24) aligned with self-locking grooves (23) when in cross spacing groove (6), sliding is connected with self-locking block in sliding slot (24) (25), self-locking block (25) is provided with away from one end of self-locking grooves (23) and orders about the second elasticity that self-locking block (25) pushes against self-locking grooves (23) Part (26), self-locking block (25) is provided near one end of self-locking grooves (23) can order about self-locking block (25) contracting under the promotion of fixture block (12) The 3rd guiding surface (27) returned in sliding slot (24), self-locking block (25) is oriented near one end of self-locking grooves (23), away from the 3rd The side on inclined-plane (27) is provided with can order about self-locking block (25) retraction cunning when firmly to promotion fixture block (12) in cross spacing groove (6) The 4th guiding surface (28) in slot (24).
8. automobile instrument panel die according to claim 7, it is characterized in that:Side connection is additionally provided with model frame (3) to slide Slot (24) and the translot (29) of the direction of motion setting along self-locking block (25), self-locking block (25) are provided with translot (29) And the poke rod (30) for driving self-locking block (25) to be moved along sliding slot (24).
9. automobile instrument panel die according to claim 1, it is characterized in that:One side of the model frame (3) towards dynamic model frame (1) Recessed groove (31) is provided with, in recessed groove (31), the lateral surface of model frame (3) is additionally provided with to fix spacing limited block (7) The fixing threaded hole (32) of block (7).
CN201621262789.9U 2016-11-23 2016-11-23 Motormeter coils mould Expired - Fee Related CN206170581U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201621262789.9U CN206170581U (en) 2016-11-23 2016-11-23 Motormeter coils mould

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201621262789.9U CN206170581U (en) 2016-11-23 2016-11-23 Motormeter coils mould

Publications (1)

Publication Number Publication Date
CN206170581U true CN206170581U (en) 2017-05-17

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Application Number Title Priority Date Filing Date
CN201621262789.9U Expired - Fee Related CN206170581U (en) 2016-11-23 2016-11-23 Motormeter coils mould

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Country Link
CN (1) CN206170581U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108162322A (en) * 2017-12-25 2018-06-15 欧唐科技(深圳)有限公司 Prevent the self-locking mechanism and its self-locking and unlocking method that line position retreats
CN112031398A (en) * 2020-09-07 2020-12-04 湖南三湘和高新科技有限公司 Arc aluminum formwork and arc plate transportation tool

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108162322A (en) * 2017-12-25 2018-06-15 欧唐科技(深圳)有限公司 Prevent the self-locking mechanism and its self-locking and unlocking method that line position retreats
CN108162322B (en) * 2017-12-25 2023-10-10 欧唐科技(深圳)有限公司 Self-locking mechanism for preventing line position from retreating and self-locking and unlocking method thereof
CN112031398A (en) * 2020-09-07 2020-12-04 湖南三湘和高新科技有限公司 Arc aluminum formwork and arc plate transportation tool

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Denomination of utility model: Core-pulling mechanism for automobile instrument panel die

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