CN109159359A - A kind of middle rotating tooling for injection molding machine - Google Patents

Abstract

The invention discloses a kind of middle rotating tooling for injection molding machine comprising: it rack and is arranged on the rack, screen cloth upper flitch, for positioning the screen cloth to feeding；Divide chamber material-receiving device, for receiving the finished product of injection formed；Injection molding mechanical arm, including the first grabbing device, the second grabbing device, third grabbing device for integrating and moving synchronously；First grabbing device is configurable for crawl screen cloth feeding, and second grabbing device is configurable for taking out finished product from injection molding machine, and the third grabbing device is configurable for taking out useless stick from injection molding machine；First grabbing device, the second grabbing device are configured as: while injection molding mechanical arm is moved to, and the second grabbing device is made to place products into point chamber material-receiving device, the first grabbing device is grabbed the screen cloth in screen cloth upper flitch is located at.

Description

A kind of middle rotating tooling for injection molding machine

Technical field

The present invention relates to screen cloth injection molding apparatus fields, more particularly, to a kind of middle rotating tooling for injection molding machine.

Background technique

In the injecting products of electroacoustic component, there is a big chunk product to require injection molding screen cloth.In the prior art, exist When carrying out injection molding screen cloth, it usually needs have dedicated charging equipment that screen cloth to be molded is placed on injection molding machine, then by infusing Molding machine is molded screen cloth, to obtain injection molding screen cloth finished product.

Currently, screen cloth generallys use into the form of coiled tape, can be cut out on material strip by screen cloth cutting mechanism is needed The screen cloth of size is wanted, then is placed into the screen cloth to get off is cut on the suction nozzle of screen cloth feed mechanism, is then grabbed by injection molding mechanical arm Screen cloth is taken to be placed on injection molding machine.After the completion of injection moulding process, the product and injection molding that will form injection formed on injection molding machine are generated Useless stick, the product of injection formed is put into product collecting bag by injection molding mechanical arm again at this time, then by injection molding mechanical arm will be molded The useless stick generated is transferred in waste material collection device.After the completion of the above process, then screen cloth feeding next time is carried out, and repeated The above process.It can be seen that existing screen cloth feed mechanism and injection-molded finished material receiving mechanism are separately positioned, so that injection molding machine Tool hand need to be shifted repeatedly, and beat is caused to waste, and influence working efficiency.

Therefore, it is highly desirable the new rotating tooling suitable for injection molding machine of research, it is existing in the prior art to solve Problem.

Summary of the invention

It is an object of the present invention to provide a kind of new solutions of middle rotating tooling for injection molding machine.

According to the first aspect of the invention, a kind of middle rotating tooling for injection molding machine, including rack and setting are provided On the rack, screen cloth upper flitch, for positioning the screen cloth to feeding；

Divide chamber material-receiving device, for receiving the finished product of injection formed；

Injection molding mechanical arm, the first grabbing device, the second grabbing device, third including integrating and moving synchronously are grabbed Take device；First grabbing device is configurable for crawl screen cloth feeding, and second grabbing device is configurable for Finished product is taken out from injection molding machine, the third grabbing device is configurable for taking out useless stick from injection molding machine；

First grabbing device, the second grabbing device are configured as: filling the second crawl when injection molding mechanical arm is moved to It sets while place products into point chamber material-receiving device, the first grabbing device is grabbed the screen cloth in screen cloth upper flitch is located at.

Optionally, described that chamber material-receiving device is divided to include multiple mutually independent material receiving tubes.

Optionally, the material receiving tube is made of antistatic material.

Optionally, it is described divide chamber material-receiving device further include pulp-collecting box and it is parallel and it is corresponding be arranged in the pulp-collecting box The splicing plate of top；Multiple material receiving ports corresponding with the multiple material receiving tube are provided on the splicing plate；The multiple splicing Pipe is removeably positioned in the pulp-collecting box, and the upper port of the multiple material receiving tube is opened wide and corresponding extend into In the multiple material receiving port.

Optionally, on the splicing plate, the side of each material receiving port be at least arranged one for blowing giving for ion wind Air port.

Optionally, the pulp-collecting box is slidably matched on the rack, to be configured as moving out middle rotating tooling.

Optionally, the pulp-collecting box includes top plate and bottom plate, the first side plate and the second side plate, the height of first side plate Greater than the height of second side plate, the top plate and bottom plate, the first side plate and the second side plate surround an accommodating chamber；The bottom plate On be provided with multiple embedded grooves, on the top plate corresponding to the multiple embedded groove position at be provided with multiple through holes, The lower port of the multiple material receiving tube is closed and is inserted into multiple embedded grooves respectively, and the multiple material receiving tube is passed through from the multiple It is stretched out in through-hole.

Optionally, the pulp-collecting box is arranged on guide plate, and the pulp-collecting box, guide plate are configured as: pulp-collecting box can It reciprocatingly slides on guide plate.

Optionally, sliding slot is provided on the upper surface of the guide plate, the bottom plate of the pulp-collecting box protrudes into the sliding slot And it is slidably connected with it.

Optionally, the baffle that is magnetic is arranged in the end of the guide plate, is provided at least one on the side wall of the bottom plate For adsorbing the magnetic-suction buckle of magnetic baffle.

According to one embodiment of the disclosure, splicing is combined with screen cloth feeding, there are three grab for injection molding mechanical arm arranging Device is taken, may be implemented while injection molding mechanical arm, which is moved to, makes the second grabbing device place products into point chamber material-receiving device, First grabbing device is grabbed the screen cloth in screen cloth upper flitch is located at.The beat of injection molding mechanical arm can effectively be improved.

By referring to the drawings to the detailed description of exemplary embodiment of the present invention, other feature of the invention and its Advantage will become apparent.

By referring to the drawings to the detailed description of exemplary embodiment of the present invention, other feature of the invention and its Advantage will become apparent.

Detailed description of the invention

It is combined in the description and the attached drawing for constituting part of specification shows the embodiment of the present invention, and even With its explanation together principle for explaining the present invention.

Fig. 1 is the structural schematic diagram of middle rotating tooling provided in an embodiment of the present invention.

Fig. 2 is the side view of Fig. 1.

Fig. 3 is the side view of provided in an embodiment of the present invention point of chamber material-receiving device.

Fig. 4 is the rearview of provided in an embodiment of the present invention point of chamber material-receiving device.

Fig. 5 is the top view of provided in an embodiment of the present invention point of chamber material-receiving device.

Fig. 6 is the perspective view of provided in an embodiment of the present invention point of chamber material-receiving device.

Fig. 7 is the side view of Fig. 6.

Fig. 8 is the top view that middle rotating tooling provided in an embodiment of the present invention is applied to that screen cloth cuts feeder.

Fig. 9 is the outer partial structural representation that middle rotating tooling provided in an embodiment of the present invention is applied to that screen cloth cuts feeder Figure.

Description of symbols:

1- divides chamber material-receiving device, 2- material taking mouth, 3- injection molding mechanical arm, 4- shell, 5- screen cloth upper flitch, 101- air outlet, 102- handle, 103- magnetism baffle, 104- substrate, 105- rack, 106- splicing plate, 107- guide plate, 108- magnetic-suction buckle, 109- Material receiving tube, 110- top plate, 111- bottom plate, the first side plate of 112-, the second side plate of 113-, 114- material receiving port, 115- sliding slot, 116- are passed through Through-hole, 117- embedded groove, 118- accommodating chamber.

Specific embodiment

Carry out the various exemplary embodiments of detailed description of the present invention now with reference to attached drawing.It should also be noted that unless in addition having Body explanation, the unlimited system of component and the positioned opposite of step, numerical expression and the numerical value otherwise illustrated in these embodiments is originally The range of invention.

Be to the description only actually of at least one exemplary embodiment below it is illustrative, never as to the present invention And its application or any restrictions used.

Technology, method and apparatus known to person of ordinary skill in the relevant may be not discussed in detail, but suitable In the case of, the technology, method and apparatus should be considered as part of specification.

It is shown here and discuss all examples in, any occurrence should be construed as merely illustratively, without It is as limitation.Therefore, other examples of exemplary embodiment can have different values.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, then in subsequent attached drawing does not need that it is further discussed.

Usually, it is molded the process flow of screen cloth are as follows: it is cut by the screen cloth that screen cloth cutting mechanism treats injection molding, with Obtain the screen cloth for being suitble to size.The screen cloth cut is placed on screen cloth feed mechanism and carries out the processes such as feeding, fine positioning.So Afterwards by the screen cloth on injection molding mechanical arm crawl screen cloth feed mechanism, and the screen cloth of crawl is transferred to progress product note in injection molding machine Modeling obtains the useless stick generated in injection-molded finished and injection molding.Continue to grab being molded on injection molding machine by injection molding mechanical arm later The useless stick that generates in product and injection molding, and being transferred in finished product collecting bag by injection molding mechanical arm by injection-molded finished, then by injection moulding process The useless stick of middle generation discards.Last injection molding mechanical arm is transferred in screen cloth feed mechanism takes screen cloth again, into next injection molding Process.It can be seen that in existing screen cloth injection moulding process: screen cloth feed mechanism, injection-molded finished material receiving mechanism, injection molding mechanical arm It is completely separate and comes, in injection molding, to execute operation respectively on all parts by injection molding mechanical arm.

In fact, there is following defect problem in the application in above-mentioned process flow: (1) injection molding mechanical arm needs multiple Transfer will lead to the waste of injection molding beat in this course, cause the lengthening of injection cycle, be unfavorable for producing and processing.(2) it infuses Modeling manipulator can have the electrostatic of about 10wKV by being molded when screen cloth takes out from injection molding machine, at this time be transferred into injection molding screen cloth Since static reason is easy to cause mixed chamber and places difficult when in product collecting bag.(3) since injection molding screen cloth finished-product volume is general It is smaller and softer, after collecting using collecting bag, when operator takes injection molding screen cloth finished product from finished product collecting bag, it is easy to make The damage of injection molding screen cloth finished product in pairs, or even damage injection molding screen cloth finished product.

The embodiment of the invention provides a kind of middle rotating toolings for injection molding machine, divide chamber to connect for splicing wherein devising Expect device, and by this divide chamber material-receiving device in screen cloth feed mechanism screen cloth upper flitch and injection molding mechanical arm reasonably tie It closes.Wherein, injection molding mechanical arm is equipped with the first grabbing device, the second grabbing device and third grabbing device, works as injection machine Hand is moved to while so that the second grabbing device is placed products into point chamber material-receiving device, and the first grabbing device will be located at screen cloth feeding Screen cloth crawl on plate.Middle rotating tooling of the invention is applied in Shooting Technique process, is conducive to improve injection molding mechanical arm Beat, so as to effectively overcome the problems, such as drawbacks described above present in Shooting Technique.

With reference to Fig. 1 and Fig. 2, the embodiment of the invention provides a kind of middle rotating tooling for injection molding machine, structure can be with Are as follows: including rack 105 and the screen cloth upper flitch 5 being arranged in rack 105, which is configured as: for positioning Screen cloth to feeding.It further include a point chamber material-receiving device 1, this divides chamber material-receiving device 1 for receiving the finished product of injection formed.It further include note Mould manipulator 3, wherein the injection molding mechanical arm may include integrate and move synchronously the first grabbing device, second grab Take device, third grabbing device；First grabbing device is configurable for crawl screen cloth feeding, second grabbing device Be configurable for taking out finished product from the injection molding machine (not identifying in figure), the third grabbing device be configurable for by Useless stick takes out from injection molding machine.

Wherein, first grabbing device, the second grabbing device are configured as: making second when injection molding mechanical arm 3 is moved to While grabbing device places products into point chamber material-receiving device 1, the first grabbing device grabs the screen cloth being located in screen cloth upper flitch 5 It takes.The design is conducive to improve the beat of injection molding mechanical arm, to be conducive to promote the production efficiency of injection molding production.

Wherein, the screen cloth to be molded that provides in screen cloth upper flitch 5 can be have been cut through screen cloth cutting mechanism in advance, The suitable screen cloth of size.Also, screen cloth upper flitch 5 can carry out fine positioning to screen cloth, in order to which injection molding mechanical arm 3 turns screen cloth It is directly molded after moving to injection molding machine.

With reference to Fig. 3 and Fig. 4, the present invention divides chamber material-receiving device 1, can include at least multiple material receiving tubes 109, and multiple connect It is independent from each other between expects pipe 109.That is, being collected in the present invention using material receiving tube, with existing use The collection mode of finished product collecting bag is compared: the setting that injection molding screen cloth product can stack prevents injection molding screen cloth in material receiving tube 109 Finished product mutually collides, and can play a good protective effect to injection molding screen cloth finished product.Also, operator take out injection molding screen cloth at When product, easy damaged or damage injection molding screen cloth finished product, do not improve injection-molded finished rate.

The present invention divides in chamber material-receiving device 1, and material receiving tube 109 is made of antistatic material.Such as bakelite material can be used Bakelite pipe made of expecting.The bakelite pipe made of bakelite material has cheap, the good feature of anti-static effect, and simultaneous Have light, heat-resisting, the corrosion-resistant and mechanical strength various features such as preferably, a point service life for chamber material-receiving device can be extended, It is highly suitable to be applied in industrial production.Certainly, material receiving tube 109 can also be used other antistatic materials and be made, as long as can be real Existing good anti-static effect, this is not restricted by the present invention.

In a specific embodiment of the invention, the quantity of material receiving tube 109 can be set to 8,8 material receiving tubes 109 point of two row distribution, wherein material receiving tube 109 is the bakelite pipe of antistatic.Certainly, the quantity of material receiving tube 109 and arrangement form can With flexible setting as needed, this is not restricted by the present invention.

The present invention divides chamber material-receiving device 1 to further include pulp-collecting box, which can be used for accommodating or supporting all splicings Pipe 109.

With reference to Fig. 6 and Fig. 7, above-mentioned pulp-collecting box, structure are as follows: including top plate 110, bottom plate 111, the first side plate 112 With the second side plate 113, and the height of the first side plate 112 be greater than second side plate 113 height.Wherein, top plate 110 and bottom Plate 111 is parallel to each other and in being oppositely arranged, and the first side plate 112 and the second side plate 113 are parallel to each other and are in be oppositely arranged, so that top Plate 110, bottom plate 111, the first side plate 112 and the second side plate 113 define an accommodating chamber 118 jointly.In the accommodating chamber 118 Multiple material receiving tubes 109 can be accommodated.

Also, it is provided with multiple embedded grooves 117 on above-mentioned bottom plate 111, multiple embedded grooves are corresponded on top plate 110 Multiple through holes 116 are provided at 117 position, the lower port of multiple material receiving tubes 109 is closed and is inserted into multiple embedded grooves respectively In 117, and the top of multiple material receiving tubes 109 is stretched out from multiple through holes 116 on top plate 110.

Wherein, the upper port of material receiving tube 109 is unlimited.Injection molding mechanical arm 3 can be by the injection molding of injection formed on injection molding machine The useless stick that screen cloth finished product and injection molding generate, puts into different material receiving tubes 109 from the open upper port of material receiving tube 109.

With reference to Fig. 3, handle 102 is provided on the outer surface of the first side plate 112.Handle 102 can be using the side of welding Formula or other connection types familiar to those skilled in the art are fixed on the outer surface of the first side plate 112.

Also, pulp-collecting box is arranged on guide plate 107, and pulp-collecting box, guide plate 107 are configured as: pulp-collecting box can led Reciprocal linear slide is done on plate 107.

Further, with reference to Fig. 1, the upper surface of guide plate 107 is provided with sliding slot 115, the bottom plate 111 of the pulp-collecting box It protrudes into sliding slot 115 and is slidably connected with it, which is configured to do reciprocal straight line cunning in the sliding slot 115 It is dynamic, that is, the pulp-collecting box integrally can carry out reciprocal linear slide in the sliding slot 115 on guide plate 107.It can by handle 102 With very easily pull pulp-collecting box, facilitate taking-up pulp-collecting box, takes injection molding screen cloth finished product to realize not shutting down.

With reference to Fig. 3 and Fig. 4, be magnetic baffle 103 on guide plate 107, positioned at the setting of the end of sliding slot 115.With reference to Fig. 6 is provided at least one magnetic-suction buckle 108 on the side wall of bottom plate 111.The magnetism baffle 103, magnetic-suction buckle 108 are configured Are as follows: when pulp-collecting box slides into the end of sliding slot 115 in sliding slot 115, magnetic baffle 103 can prevent pulp-collecting box from sliding slot 115 end skids off, also, after the magnetic-suction buckle 108 on 111 side wall of bottom plate is contacted with magnetic baffle 103, due to magnetic attraction Effect, magnetic-suction buckle 108 can be such that bottom plate 111 is attracted on magnetic baffle 103, so that pulp-collecting box is fixed on guide plate 107, Pulp-collecting box can be fixed at this time.When needing to take out pulp-collecting box, pull handle 102 can be by pulp-collecting box from sliding slot 115 In taken out in a manner of pull, use very convenient.

In the specific embodiment of the present invention, there are two magnetic-suction buckles for setting on a side wall of bottom plate 111 108 so that bottom plate 111 can with magnetic baffle 103 is stable is attached together, to enable pulp-collecting box to consolidate in splicing Be fixed on guide plate 107 without moving, can effectively avoid the occurrence of the inaccurate phenomenon of splicing.

With reference to Fig. 3 and Fig. 4, above-mentioned guide plate 107 is fixedly installed on the substrate 104, so that guide plate 107 being capable of phase On the substrate 104 to fixation.Specifically, it is provided with the mounting hole for assembly on the substrate 104.

With reference to Fig. 3, the present invention divides chamber material-receiving device 1, further includes a splicing plate 106.The splicing plate 106 is parallel and corresponding The top that the pulp-collecting box is set, splicing plate 106 can be matched with pulp-collecting box, for fixing multiple material receiving tubes 109.

With reference to Fig. 5, multiple material receiving ports 114 corresponding with multiple material receiving tubes 109 are provided on the splicing plate 106；When more When a material receiving tube 109 is removeably positioned in pulp-collecting box, the upper ports of these material receiving tubes 109 is opened wide and corresponding is stretched Enter into multiple material receiving ports 114.

It, can be by the upper port and material receiving port of material receiving tube 109 in order to keep material receiving tube 109 and splicing plate 106 relatively fixed firmly 114 are fixedly connected, such as can be bonded with material receiving port 114 by material receiving tube 109 using dedicated glue.

Also, Fig. 5 is referred to, on above-mentioned splicing plate 106, the side of each material receiving port 114 is at least arranged one and is used for Blow the air outlet 101 of ion wind.When the injection molding screen cloth finished product of crawl is transferred at material receiving port 114 by injection molding mechanical arm 3, send Air port 101 can be directed at injection molding screen cloth finished product and blow ion wind, to eliminate the electrostatic carried on injection molding screen cloth finished product, it is also possible that Injection molding screen cloth finished product easier can be fallen in point material receiving tube of chamber material-receiving device 1 109.

Wherein, the pulp-collecting box is slidably fitted in rack 105, to be configured as moving out middle rotating tooling.In addition, rack Purpose of 105 setting also to play protection pulp-collecting box to a certain extent.

Specifically, splicing plate 106 is arranged in rack 105.

In a specific embodiment of the invention, pilot hole is additionally provided in rack 105, splicing plate 106 assembles In the pilot hole, to realize the firm installation of splicing plate 106.

On the other hand, with reference to Fig. 8 and Fig. 9, the embodiment of the invention also provides a kind of screen cloths to cut feeder comprising Shell 4 is provided with screen cloth cutting apparatus (not marking in figure) in the shell 4, and injection molding machine (does not mark) in figure, Yi Jishang The middle rotating tooling stated.In production, it can effectively improve injection molding beat.

The situation in feeder is cut for the ease of observation screen cloth, is provided with observation window on shell 4.

Also, also there are the pick-and-place mouths 2 of pulp-collecting box on shell 4.When 109 splicing of each material receiving tube in pulp-collecting box is completed Afterwards, pulp-collecting box is taken out in a manner of pull from pick-and-place mouth 2.

Although some specific embodiments of the invention are described in detail by example, the skill of this field Art personnel it should be understood that example above merely to being illustrated, the range being not intended to be limiting of the invention.The skill of this field Art personnel are it should be understood that can without departing from the scope and spirit of the present invention modify to above embodiments.This hair Bright range is defined by the following claims.

Claims (10)

1. a kind of middle rotating tooling for injection molding machine, it is characterised in that: including rack and it is arranged on the rack,

Screen cloth upper flitch, for positioning the screen cloth to feeding；

Divide chamber material-receiving device, for receiving the finished product of injection formed；

Injection molding mechanical arm, including the first grabbing device, the second grabbing device, third the crawl dress for integrating and moving synchronously It sets；First grabbing device be configurable for crawl screen cloth feeding, second grabbing device be configurable for by Product take out from injection molding machine, and the third grabbing device is configurable for taking out useless stick from injection molding machine；

First grabbing device, the second grabbing device are configured as: making the second grabbing device will when injection molding mechanical arm is moved to While finished product is put into point chamber material-receiving device, the first grabbing device is grabbed the screen cloth in screen cloth upper flitch is located at.

2. middle rotating tooling according to claim 1, wherein described that chamber material-receiving device is divided to include multiple mutually independent splicings Pipe.

3. middle rotating tooling according to claim 2, wherein the material receiving tube is made of antistatic material.

4. middle rotating tooling according to claim 2, wherein described that chamber material-receiving device is divided to further include pulp-collecting box and parallel And the corresponding splicing plate being arranged in above the pulp-collecting box；

Multiple material receiving ports corresponding with the multiple material receiving tube are provided on the splicing plate；

The multiple material receiving tube is removeably positioned in the pulp-collecting box, and the upper port of the multiple material receiving tube is spacious It opens and corresponding extend into the multiple material receiving port.

5. middle rotating tooling according to claim 4, wherein on the splicing plate, the side of each material receiving port at least sets One is set for blowing the air outlet of ion wind.

6. middle rotating tooling according to claim 4, wherein the pulp-collecting box is slidably matched on the rack, to be configured as Move out middle rotating tooling.

7. middle rotating tooling according to claim 4, wherein the pulp-collecting box includes top plate and bottom plate, the first side plate and second Side plate, the height of first side plate are greater than the height of second side plate, the top plate and bottom plate, the first side plate and second side Plate surrounds an accommodating chamber；

It is provided with multiple embedded grooves on the bottom plate, corresponds at the position of the multiple embedded groove on the top plate and is provided with The lower port of multiple through holes, the multiple material receiving tube is closed and is inserted into multiple embedded grooves respectively, and the multiple material receiving tube It is stretched out from the multiple through hole.

8. middle rotating tooling according to claim 7, wherein the pulp-collecting box is arranged on guide plate, and the pulp-collecting box is led Be configured as to plate: pulp-collecting box can reciprocatingly slide on guide plate.

9. middle rotating tooling according to claim 8, wherein sliding slot is provided on the upper surface of the guide plate, it is described to connect The bottom plate of magazine is protruded into the sliding slot and is slidably connected with it.

10. middle rotating tooling according to claim 8, wherein the baffle that is magnetic, the bottom is arranged in the end of the guide plate At least one is provided on the side wall of plate for adsorbing the magnetic-suction buckle of magnetic baffle.