CN209158844U - A kind of unidirectional suction ball demoulding tooling - Google Patents

Abstract

It includes placing block, control cabinet and crawl drawing mechanism, clamp system, locking mechanism and inflatable body with control cabinet control connection that the application, which discloses a kind of unidirectional suction ball demoulding tooling, when demoulding, tringle is placed in the mounting groove for placing block, control cabinet is started；Control cabinet controls locking mechanism, and tringle is locked；Control cabinet controls clamp system, and the first end of unidirectional suction ball is clamped；Control cabinet control crawl drawing mechanism, grabs mold core；Control cabinet controls inflatable body, blows in Xiang Danxiang suction ball, while control cabinet control crawl drawing mechanism, and mold core is gradually extracted out from the second port of unidirectional suction ball.The unidirectional suction ball demoulding tooling of the utility model is by controlling crawl drawing mechanism, clamp system and inflatable body by control cabinet, it the unidirectional suction ball other end is heaved while extracting mold core out to clamp unidirectional suction ball one end and blow, realize automation stripping operation, structure is simple, production efficiency is improved, the inferior rate of product caused by stripping process is reduced.

Description

A kind of unidirectional suction ball demoulding tooling

Technical field

This application involves demoulding mechanical equipment technical fields, more specifically more particularly to a kind of unidirectional suction ball stripper Dress.

Background technique

Unidirectional suction ball is the small American football shape of the big both ends outer diameter of middle part outer diameter, and its both ends has port.Unidirectional suction ball During the manufacturing, after injecting glue molding, mold core need to be extracted out from the port of unidirectional suction ball, existing stripping means are artificial Mold core is extracted out out of unidirectional suction ball, but since the outer diameter of mold core is greater than the port bore of unidirectional suction ball, by force by mold core from list Extracted out into suction ball relatively difficult, stripping operation is time-consuming and laborious, and is easy to cause the inferior rate for increasing product.And it is such It is manually demolded mode, there is also the low problems of production efficiency.

Summary of the invention

In order to solve the above technical problems, the application provides, a kind of structure is simple, improves the demoulding of the unidirectional suction ball of production efficiency Tooling.

Technical solution provided by the present application is as follows:

A kind of unidirectional suction ball demoulding tooling, including placing block 1, control cabinet 6 and the crawl connected with the control of control cabinet 6 Drawing mechanism 2, clamp system 3, locking mechanism 4 and inflatable body 5, the block 1 of placing is equipped with the placement for placing tringle 102 Slot 11；The locking mechanism 4 is for locking tringle 102；The clamp system 3 is used to press from both sides the first end of unidirectional suction ball 100 Tightly；The inflatable body 5 into unidirectional suction ball 100 for blowing, and tracheae 52 is docked with one end of tringle 102, tringle 102 For the other end in the first port of unidirectional suction ball 100, tringle 102 is equipped with the axially extending bore 103 being connected to unidirectional suction ball 100；Institute Crawl drawing mechanism 2 is stated for grabbing and with moving-mould-core 101.

Preferably, further include workbench 9, the mounting plate 7 being mounted on 9 table top of workbench and be mounted on mounting plate 7 Mounting rack 8, the placement block 1 is fixed on mounting plate 7, and the locking mechanism 4, which is fixed on mounting plate 7 and is located at, places block 1 side, the clamp system 3 are located at the top of the side and locking mechanism 4 of placing block 1, and the crawl drawing mechanism 2 is installed On mounting rack 8 and it is located at the top for placing block 1, the inflatable body 5 is mounted on workbench 9 and is located at and places under block 1 Side, the mounting plate 7 are equipped with first through hole 70 corresponding with mounting groove 11 and tracheae 52.

Preferably, the crawl drawing mechanism 2 further includes the first cylinder 21, the second cylinder 22, left half pawl 23 and right half pawl 24, the control cabinet 6 is connected with the first cylinder 21, the control of the second cylinder 22 respectively, first cylinder 21 and the second cylinder 22 It is drivingly connected, second cylinder 22 is drivingly connected with left half pawl 23, right half pawl 24 respectively, while driving half pawl 23 of a left side and right half Pawl 24 moves backward.

Preferably, the clamp system 3 includes being symmetricly set on two groups of clamp assemblies for placing 1 two sides of block, every group of clamping Component includes the third cylinder 31 and grip block 32 being drivingly connected, and the control cabinet 6 is connected with the control of third cylinder 31, the folder It holds block 32 and is equipped with the clamp port 321 to match with the first end of unidirectional suction ball 100, grip block 32 is additionally provided with for accommodating unidirectional suction The receiving recess 322 of ball 100.

It preferably, further include matching positioned at two linear guides 13 of 31 two sides of third cylinder and with the sliding of linear guide 13 Four sliding blocks 14 closed, the both ends of a grip block 32 are arranged in two of them sliding block 14, and lead respectively with described two straight lines Rail 13 matches, and the both ends of another grip block 32 are arranged in another two sliding block 14, and respectively with described two linear guides 13 It matches.

Preferably, the locking mechanism 4 includes the 4th cylinder 41 and locking level 42 being drivingly connected, the control cabinet 6 with The control connection of 4th cylinder 41, the locking level 42 are matched with the lock slots 104 on 102 outer wall of tringle.

Preferably, the block 1 of placing is equipped with the avoid holes 12 for avoiding locking level 42, the avoid holes 12 and placement Slot 11 is connected to.

Preferably, the inflatable body 5 includes the 5th cylinder 51 and the gas source connecting with tracheae 52, the control cabinet 6 It controls and connects with the 5th cylinder 51, the 5th cylinder 51 is drivingly connected with tracheae 52, and tracheae 52 is driven to dock with tringle 102.

It preferably, further include the testing agency being correspondingly arranged with mold core 101；The inflatable body 5 includes connecting with tracheae 52 The solenoid valve connect, the control cabinet 6 are connect with testing agency, solenoid valve control respectively, and testing agency detects that mold core 101 is complete Control cabinet 6 is sent a signal to when extracting out from unidirectional suction ball 100 to control solenoid valve closing.

Preferably, the testing agency is the electric switch that diffuses, and the check bit for the electric switch that diffuses is setting in demoulding The lower section of the top crawl drawing mechanism 2 of preceding mold core 101.

The unidirectional suction ball demoulding tooling of the utility model is by being controlled crawl drawing mechanism, clamp system by control cabinet and being blown The unidirectional suction ball other end is heaved while being extracted out mold core to clamp unidirectional suction ball one end and blow, realizes automation by mechanism of qi structure Stripping operation, structure is simple, improves production efficiency, and blow heave unidirectional suction ball during demoulding, convenient for the de- of mold core From greatly reducing the inferior rate of product caused by stripping process.

Detailed description of the invention

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, below in conjunction with Fig. 1-9 pairs Drawings that need to be used in the embodiment or the prior art description is briefly described, it should be apparent that, be described below in it is attached Figure is only some embodiments of the present application, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, below in conjunction with Fig. 1-9 pairs Drawings that need to be used in the embodiment or the prior art description is briefly described, it should be apparent that, be described below in it is attached Figure is only some embodiments of the present application, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the perspective view of unidirectional suction ball demoulding tooling provided by the utility model；

Fig. 2 is the perspective view of crawl drawing mechanism provided by the utility model；

Fig. 3 is the installation diagram provided by the utility model for grabbing drawing mechanism, clamp system and locking mechanism；

Fig. 4 is the perspective view of clamp assemblies provided by the utility model；

Fig. 5 is provided by the utility model with the unidirectional suction ball component of mould, grip block, the lateral section for placing block and mounting plate Figure；

Fig. 6 is the side cross-sectional view provided by the utility model for placing block；

Fig. 7 is the positive sectional view provided by the utility model with the unidirectional suction ball component of mould and placement block；

Fig. 8 is the perspective view of locking mechanism provided by the utility model；

Fig. 9 is the perspective view of inflatable body provided by the utility model.

Specific embodiment

In order to make those skilled in the art more fully understand the technical solution in the application, below in conjunction with Fig. 1-9 pairs Technical solution in the embodiment of the present application is clearly and completely described, it is clear that described embodiment is only the application's A part of the embodiment, instead of all the embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not having Every other embodiment obtained under the premise of creative work is made, shall fall in the protection scope of this application.

As shown in Fig. 5, the band unidirectional suction ball component of mould of the utility model includes unidirectional suction ball 100, mold core 101 and tringle 102, one end of tringle 102 outside unidirectional suction ball 100, the other end in the first port of unidirectional suction ball 100, mold core 101 One end matches in unidirectional suction ball 100 and with the shape size of the inner cavity of unidirectional suction ball 100, and the other end of mold core 101 exists Outside unidirectional suction ball 100 and close to the second port of unidirectional suction ball 100.

As shown in Fig. 1-9, the unidirectional suction ball demoulding tooling of the utility model is used to take off the band unidirectional suction ball component of mould Mould is extracted the mold core 101 in unidirectional suction ball 100 from the second port of unidirectional suction ball 100 out.Unidirectional suction ball demoulding tooling Including workbench 9, the mounting plate 7 being mounted on 9 table top of workbench, the mounting rack 8 being mounted on mounting plate 7, place block 1, control Cabinet 6(processed is not shown in the figure), with control cabinet 6 control connection crawl drawing mechanism 2, clamp system 3, locking mechanism 4 and blow Mechanism 5.The placement block 1 is fixed on mounting plate 7, and places block 1 equipped with the mounting groove 11 for placing tringle 102；Institute The top that clamp system 3 is located at the side and locking mechanism 4 of placing block 1 is stated, and corresponding with the first end of unidirectional suction ball 100 is set It sets；The crawl drawing mechanism 2 is mounted in the upper portion side wall of mounting rack 8 and is located at the top for placing block 1, and with mold core 101 It is correspondingly arranged；The locking mechanism 4 is fixed on mounting plate 7 and is located at the side for placing block 1, and corresponding with tringle 102 sets It sets；The inflatable body 5 is mounted on the platen bottom surface of workbench 9 and is located at the lower section for placing block 1, and the mounting plate 7 is equipped with First through hole 70 corresponding with mounting groove 11 and tracheae 52, the platen of the workbench 9 are equipped with corresponding with first through hole 70 the The tracheae 52 of two through-holes, the inflatable body 5 can be docked with one end of tringle 102, and the other end of tringle 102 is unidirectionally being inhaled In the first port of ball 100, tringle 102 is equipped with the axially extending bore 103 that can be connected to unidirectional suction ball 100.

When demoulding, manually tringle 102 is placed in the mounting groove 11 for placing block 1, then manually boots control cabinet 6； Control cabinet 6 controls locking mechanism 4, and tringle 102 is locked；Control cabinet 6 controls clamp system 3, by the of unidirectional suction ball 100 One end clamps；Control cabinet 6 controls inflatable body 5, by the axially extending bore 103 of tracheae 52 and tringle 102 to unidirectional suction ball Blowing in 100 makes unidirectional suction ball 100 bulge, while the control crawl drawing mechanism 2 of control cabinet 6, by mold core 101 gradually from list It is extracted out to the second port of suction ball 100.The unidirectional suction ball demoulding tooling of the utility model is by controlling crawl extraction by control cabinet The unidirectional suction ball other end is heaved while being taken out to clamp unidirectional suction ball one end and blow by mechanism, clamp system and inflatable body Mold core out realizes automation stripping operation, improves production efficiency, and blow heave unidirectional suction ball during demoulding, be convenient for The disengaging of mold core greatly reduces the inferior rate of product caused by stripping process.

As shown in Fig. 2, the crawl drawing mechanism 2 of the utility model includes the first cylinder 21, the second cylinder 22, left half pawl 23 connect with the first cylinder 21, the control of the second cylinder 22 respectively with right half pawl 24, the control cabinet 6, first cylinder 21 Be drivingly connected with the second cylinder 22, second cylinder 22 is drivingly connected with left half pawl 23 and right half pawl 24, can at the same band Dynamic half pawl 23 of a left side and right half pawl 24 reverse movement.The crawl drawing mechanism 2 of the utility model can also use manipulator generation It replaces, comparatively, is combined using two linear type driving mechanism such as cylinders, accurate positioning is technically simple, saves cost.

As shown in Fig. 3-6, the clamp system 3 of the utility model places two groups of folders of 1 two sides of block including being symmetricly set on Component is held, every group of clamp assemblies include the third cylinder 31 and grip block 32 being drivingly connected, wherein the third of one group of clamp assemblies Cylinder 31 is fixed in the bottom sides of mounting rack 8, and the third cylinder 31 of another group of clamp assemblies is then fixed on the perpendicular of L shaped plate 71 On plate, the transverse slat of L shaped plate 71 is fixed on mounting plate 7.The control cabinet 6 is connected with the control of third cylinder 31, the clamping Block 32 is equipped with the clamp port 321 to match with the first end of unidirectional suction ball 100, and grip block 32 is additionally provided with for accommodating unidirectional suction The receiving recess 322 of ball 100.3 pairs of clamp system plays positioning in horizontal direction and limit with the unidirectional suction ball component of mould Effect.

Further, the unidirectional suction ball demoulding tooling of the utility model further includes straight positioned at two of 31 two sides of third cylinder Line guide rail 13 and four sliding blocks 14 being slidably matched with linear guide 13, two of them sliding block 14 are arranged in a grip block 32 Both ends bottom surface on, and matched respectively with described two linear guides 13, another two sliding block 14 is arranged in another grip block On 32 both ends bottom surface, and matched respectively with described two linear guides 13.The setting of linear guide 13 and sliding block 14, it is right Grip block 32 plays the role of stroke guiding, and clipping operation is more accurate.

As shown in Fig. 7-8, the locking mechanism 4 of the utility model, the 4th cylinder 41 and locking level including drive connection 42, the control cabinet 6 and the control of the 4th cylinder 41 connect, the locking level 42 and the lock slots 104 on 102 outer wall of tringle It matches, the block 1 of placing is equipped with the avoid holes 12 for avoiding locking level 42, the avoid holes 12 and mounting groove 11 Connection.4 pairs of the locking mechanism positioning and limit for playing the role of vertical direction with the unidirectional suction ball component of mould, convenient for demoulding.

As shown in Fig. 9, the inflatable body 5 of the utility model, including the 5th cylinder 51 and the gas being connect with tracheae 52 Source (not shown) and the solenoid valve (not shown) being connect with tracheae 52, the control cabinet 6 respectively with the 5th gas Cylinder 51, solenoid valve control connection, the 5th cylinder 51 are drivingly connected with tracheae 52, are able to drive tracheae 52 and tringle 102 docking.

The unidirectional suction ball demoulding tooling of the utility model further includes the testing agency that is correspondingly arranged with mold core 101 (in figure It is not shown)；The control cabinet 6 is connect with testing agency, and testing agency detects mold core 101 completely from unidirectional suction ball 100 Control cabinet 6 is sent a signal to when extraction, control cabinet 6 controls solenoid valve and closes, and stops blowing.Testing agency is added, so that control It is more accurate, safe and orderly.

Specifically, the testing agency is to diffuse electric switch, the electric switch that diffuses be mounted on grip block 32 and Lower section of its check bit setting in the top crawl drawing mechanism 2 of the mold core 101 before demoulding；When demoulding, left half pawl 23 and the right side Half pawl 24 moves down, and the electric switch that diffuses detects that left half pawl 23 or right half pawl 24 pass through, and the electric switch that diffuses starts work Make, until mold core 101 moves up the detection position for crossing the electric switch that diffuses, diffusing reflection with half pawl 23 of a left side and right half pawl 24 Optoelectronic switch is closed, and transmits signals to control cabinet 6, and control solenoid valve is closed.

The course of work of the unidirectional suction ball demoulding tooling of the utility model, firstly, manually will be with the unidirectional suction ball component of mould Tringle 102 is in be inserted in the mounting groove 11 for placing block 1 vertically, then manually boots control cabinet 6.

Then, knockout course starts, and control the 4th cylinder 41 of starting of control cabinet 6 drives the Forward of locking level 42 to realize card In the lock slots 104 of tringle 102；The control two third cylinders 31 of starting of control cabinet 6, drive two grip blocks 32 to do phase The first end of unidirectional suction ball 100 is clamped to mobile realization；Control cabinet 6 control starting the 5th cylinder 51, drive tracheae 52 with Tringle 102 docks；Control the first cylinder 21 of starting of control cabinet 6, drives under the second cylinder 22, left half pawl 23 and right half pawl 24 Move (electric switch that diffuses when the electric switch that diffuses detects left half pawl 23 or right half pawl 24 passes through is started to work), control Cabinet 6 processed controls the second cylinder 22 of starting again, while half pawl 23 of a left side and right half pawl 24 being driven to move towards realization and clamp mold core 101 end；Solenoid valve is opened in the control of control cabinet 6, and gas source is blown into unidirectional suction ball 100, and synchronously, control cabinet 6 is again Control the first cylinder 21 of starting drives the second cylinder 22, left half pawl 23 and right half pawl 24 to move up, to realize extraction mold core 101(is when mold core 101 moves up the detection position for crossing the electric switch that diffuses with half pawl 23 of a left side and right half pawl 24, diffusing reflection Optoelectronic switch is closed, and transmits signals to control cabinet 6, and control solenoid valve is closed, and is stopped to blowing in unidirectional suction ball 100).

It should be noted that control cabinet 6 includes PLC etc., control cabinet 6, cylinder, diffuse electric switch and solenoid valve it is equal For commercial products, the control of control cabinet 6 cylinder, receiving diffusing reflection photoelectric switching signal, then control electromagnetic valve switch etc. is related certainly Dynamicization control technology is that the prior art may be implemented.Certainly, the driving device of the utility model includes but is not limited to cylinder, It can certainly be the driving devices such as electric cylinders, servo motor substitution.

The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The widest scope consistent with features of novelty.

Claims (10)

1. a kind of unidirectional suction ball demoulding tooling, it is characterised in that: including place block (1), control cabinet (6) and with control cabinet (6) Control crawl drawing mechanism (2), clamp system (3), locking mechanism (4) and the inflatable body (5) of connection, the placement block (1) Equipped with the mounting groove (11) for placing tringle (102)；The locking mechanism (4) is used to lock tringle (102)；The clamping Mechanism (3) is used to clamp the first end of unidirectional suction ball (100)；The inflatable body (5) is used into unidirectional suction ball (100) blow Gas, tracheae (52) are docked with one end of tringle (102), the first port of the other end of tringle (102) in unidirectional suction ball (100) Interior, tringle (102) is equipped with the axially extending bore (103) being connected to unidirectional suction ball (100)；The crawl drawing mechanism (2) is for grabbing It takes and with moving-mould-core (101).

2. the unidirectional suction ball demoulding tooling according to claim 1, it is characterised in that: further include workbench (9), be mounted on Mounting plate (7) on workbench (9) table top and the mounting rack (8) being mounted on mounting plate (7), the placement block (1) are fixed On mounting plate (7), the locking mechanism (4) is fixed on mounting plate (7) and is located at the side for placing block (1), the clamping Mechanism (3) is located at the top of the side and locking mechanism (4) of placing block (1), and the crawl drawing mechanism (2) is mounted on mounting rack (8) on and it is located at the top for placing block (1), the inflatable body (5), which is mounted on workbench (9) and is located at, places block (1) Lower section, the mounting plate (7) are equipped with first through hole (70) corresponding with mounting groove (11) and tracheae (52).

3. according to claim 1 or unidirectional suction ball demoulding tooling described in 2, it is characterised in that: the crawl drawing mechanism (2) It further include the first cylinder (21), the second cylinder (22), left half pawl (23) and half pawl of the right side (24), the control cabinet (6) is respectively with the One cylinder (21), the second cylinder (22) control connection, first cylinder (21) and the second cylinder (22) are drivingly connected, and described the Two cylinders (22) are drivingly connected with left half pawl (23), right half pawl (24) respectively, while driving left half pawl (23) and right half pawl (24) Reverse movement.

4. according to claim 1 or unidirectional suction ball demoulding tooling described in 2, it is characterised in that: the clamp system (3) includes Two groups of clamp assemblies for placing block (1) two sides are symmetricly set on, every group of clamp assemblies include the third cylinder (31) being drivingly connected With grip block (32), the control cabinet (6) and third cylinder (31) control are connected, and the grip block (32) is equipped with and unidirectional suction ball (100) clamp port (321) that first end matches, grip block (32) are additionally provided with the receiving for accommodating unidirectional suction ball (100) Recess (322).

5. the unidirectional suction ball demoulding tooling according to claim 4, it is characterised in that: further include being located at third cylinder (31) Two linear guides (13) of two sides and four sliding blocks (14) being slidably matched with linear guide (13), two of them sliding block (14) setting matches at the both ends of a grip block (32), and respectively with described two linear guides (13), another two sliding block (14) setting matches at the both ends of another grip block (32), and respectively with described two linear guides (13).

6. according to claim 1 or unidirectional suction ball demoulding tooling described in 2, it is characterised in that: the locking mechanism (4) includes The 4th cylinder (41) and locking level (42) being drivingly connected, the control cabinet (6) and the control of the 4th cylinder (41) connect, the lock Fixed pole (42) is matched with the lock slots (104) on tringle (102) outer wall.

7. the unidirectional suction ball demoulding tooling according to claim 6, it is characterised in that: the placement block (1) is equipped with and is used for The avoid holes (12) of locking level (42) are avoided, the avoid holes (12) are connected to mounting groove (11).

8. according to claim 1 or unidirectional suction ball demoulding tooling described in 2, it is characterised in that: the inflatable body (5) includes 5th cylinder (51) and the gas source connecting with tracheae (52), the control cabinet (6) and the control of the 5th cylinder (51) connect, described 5th cylinder (51) and tracheae (52) are drivingly connected, and tracheae (52) is driven to dock with tringle (102).

9. according to claim 1 or unidirectional suction ball demoulding tooling described in 2, it is characterised in that: further include right with mold core (101) The testing agency that should be arranged；The inflatable body (5) includes the solenoid valve connecting with tracheae (52), and the control cabinet (6) is respectively It is connect with testing agency, solenoid valve control, testing agency detects mold core (101) completely from unidirectional suction ball (100) when extraction Control cabinet (6) is sent a signal to control solenoid valve closing.

10. the unidirectional suction ball demoulding tooling according to claim 9, it is characterised in that: the testing agency is to diffuse The check bit of electric switch, the electric switch that diffuses grabs under drawing mechanism (2) setting in the top of the mold core (101) before demoulding Side.