CN114734593A

CN114734593A - Injection molding device for remote controller shell

Info

Publication number: CN114734593A
Application number: CN202210357649.3A
Authority: CN
Inventors: 卢艺
Original assignee: Anhui Jinying Electronic Technology Co ltd
Current assignee: Anhui Jinying Electronic Technology Co ltd
Priority date: 2022-04-07
Filing date: 2022-04-07
Publication date: 2022-07-12
Anticipated expiration: 2042-04-07
Also published as: CN114734593B

Abstract

The invention relates to an injection molding device for a remote controller shell, which comprises a rack, an injection molding mechanism and a pickup mechanism, wherein the injection molding mechanism comprises a first injection molding mechanism and a second injection molding mechanism; the injection molding mechanism comprises a lower die assembly and an upper die assembly which is positioned above the lower die assembly and can move along a first direction; the workpiece taking mechanism comprises a first rack arranged on the upper die assembly, a transmission assembly arranged on the rack and in transmission connection with a power input end of the transmission assembly, a second rack capable of moving along a second direction and in connection with a power output end of the transmission assembly, and a sucker assembly arranged on the second rack; wherein, the second rack can move along the second direction along with first rack along the first direction removal to make the sucking disc subassembly move to between cope subassembly and the lower mould subassembly, this a device of moulding plastics for remote controller shell need not manual drain pan and the face-piece after will forming and takes out, and simple structure effectively avoids drain pan and face-piece to be by the extrusion deformation's when taking out the condition, improves the yield of product, improves the reliability of use.

Description

Injection molding device for remote controller shell

Technical Field

The invention relates to the technical field of remote controller shell production, in particular to an injection molding device for a remote controller shell.

Background

The remote controller shell comprises a bottom shell and a face shell, and the bottom shell and the face shell are produced and molded in an injection molding mode in the prior art. Current remote controller shell device of moulding plastics is including going up module and lower module of upper and lower complex, goes up the middle die cavity that forms behind module and the lower module composite mold, injects the plastic raw materials into the die cavity, through cooling in the twinkling of an eye for the plastic raw materials is at the die cavity in shaping, and the die sinking takes out fashioned drain pan and face-piece can. The existing remote controller shell injection molding device generally takes out the bottom shell and the face shell after molding through manual work, and the bottom shell and the face shell after just molding still have higher temperature, so that a worker is easily scalded, and the bottom shell and the face shell are easily extruded and deformed when a workpiece is manually taken, so that the finished product rate of the product is influenced, and the use reliability is low.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the injection molding device for the remote controller shell, which is simple in structure, can effectively avoid the situation that the bottom shell and the face shell are extruded and deformed when being taken out, improves the yield of products and improves the use reliability without manually taking out the formed bottom shell and the formed face shell.

(II) technical scheme

In order to achieve the above object, an embodiment of the present application provides an injection molding device for a remote controller housing, including: a frame; the injection molding mechanism is arranged on the rack and comprises a lower die assembly and an upper die assembly which is positioned above the lower die assembly and can move along a first direction; the workpiece taking mechanism comprises a first rack arranged on the upper die assembly, a transmission assembly arranged on the rack and in transmission connection with a power input end of the transmission assembly, a second rack capable of moving along a second direction and in connection with a power output end of the transmission assembly, and a sucker assembly arranged on the second rack; the second rack can move along the second direction along with the first rack moving along the first direction, so that the sucker assembly moves between the upper die assembly and the lower die assembly.

In one possible implementation, the transmission assembly includes: the supporting frame is fixedly arranged on the rack; the transmission case is arranged at the top of the support frame, a cavity is formed in the transmission case, and a first through hole for the first rack to pass through and a second through hole for the second rack to pass through are formed in the transmission case; and the transmission shaft is rotatably arranged in the cavity of the transmission case, and a first transmission gear meshed with the first rack and a second transmission gear meshed with the second rack are arranged on the transmission shaft.

In a possible implementation manner, a first sliding groove is arranged on one side of the first rack far away from the self tooth-shaped structure, and a second sliding groove is arranged on one side of the second rack far away from the self tooth-shaped structure; and a first sliding block in sliding fit with the first sliding groove and a second sliding block in sliding fit with the second sliding groove are arranged in the cavity of the transmission case.

In a possible implementation manner, an adjusting plate is arranged at one end, adjacent to the sucker component, of the second rack, a strip-shaped groove extending along the second direction is formed in the adjusting plate, and the sucker component is arranged at the strip-shaped groove of the adjusting plate in a sliding mode.

In a possible implementation manner, the sucker assembly comprises a sliding plate in sliding fit with the strip-shaped groove, an air cylinder arranged on the sliding plate, and a vacuum sucker arranged at an output end of the bottom of the air cylinder; the device also comprises a first pressure switch which is arranged on the frame and controls the cylinder, and the first pressure switch is used for extruding the upper die assembly which moves to the limit position.

In a possible implementation manner, the vacuum chuck further comprises a second pressure switch which is arranged on the transmission case and controls the vacuum chuck, and a pressing part for pressing the second pressure switch is arranged on the second rack.

In a possible implementation manner, the automatic feeding device further comprises a feeding chute arranged between the taking mechanism and the lower die assembly, and the feeding chute is used for receiving the dropped bottom shell or surface shell and conveying the bottom shell and the surface shell away.

In a possible implementation manner, a bottom shell male die and a face shell male die are arranged on the lower die assembly, and a bottom shell female die matched with the bottom shell male die and a face shell female die matched with the face shell male die are arranged on the upper die assembly; the two taking mechanisms are respectively positioned on two sides of the lower die assembly and are respectively used for taking out the formed bottom shell and the formed face shell.

(III) advantageous effects

Compared with the prior art, the invention provides an injection molding device for a remote controller shell, which has the following beneficial effects: this a device of moulding plastics for remote controller shell, after drain pan and face-piece injection moulding, along with last mould assembly moves along first direction and drives first rack and remove, first rack gives drive assembly with power transmission, it moves along the second direction to drive the second rack through drive assembly, the second rack removes the sucking disc subassembly to between last mould assembly and the lower mould assembly, absorb fashioned drain pan or face-piece through the sucking disc subassembly, then along with last mould assembly reverse movement, the sucking disc subassembly takes away drain pan or face-piece from between last mould assembly and the lower mould assembly, accomplish and get the piece, need not manually to take out drain pan and face-piece after the shaping, moreover, the steam generator is simple in structure, effectively avoid drain pan and face-piece by the extrusion deformation's when taking out, the yield of product is improved, the use reliability is improved.

Drawings

Fig. 1 is a schematic perspective view illustrating an injection molding device for a remote controller housing according to an embodiment of the present disclosure;

FIG. 2 is a schematic plan view of an injection molding device for a remote controller housing according to an embodiment of the present disclosure;

FIG. 3 shows a schematic perspective view of another angle of FIG. 1;

fig. 4 is a schematic perspective view illustrating a pickup mechanism provided in an embodiment of the present application;

FIG. 5 shows a perspective view of FIG. 4 with the transmission housing removed;

in the drawings, the reference numbers:

x, a first direction; y, a second direction;

1. a frame;

2. an injection molding mechanism; 21. a lower die assembly; 211. a bottom shell terrace die; 212. a face shell male die; 22. an upper die assembly; 221. a bottom shell female die; 222. a face shell female die;

3. a pickup mechanism; 31. a first rack; 311. a first chute; 32. a transmission assembly; 321. a support frame; 322. a transmission case; 323. a drive shaft; 3231. a first transmission gear; 3232. a second transmission gear; 324. a first slider; 325. a second slider; 33. a second rack; 331. a second chute; 332. an adjusting plate; 3321. a strip-shaped groove; 333. a pressing section; 34. a sucker component; 341. a slide plate; 342. a cylinder; 343. a vacuum chuck;

4. a first pressure switch;

5. a second pressure switch;

6. a feeding chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, an embodiment of the present application provides an injection molding apparatus for a remote controller housing, including: the injection molding machine comprises a frame 1, an injection molding mechanism 2 and a pickup mechanism 3.

Mechanism 2 sets up in frame 1, and the mechanism 2 of just moulding plastics includes lower mould subassembly 21, is located lower mould subassembly 21 top and can follow the last mould subassembly 22 that first direction X removed, and first direction X in this application is vertical direction, goes up mould subassembly 22 and can follow vertical direction and remove, realizes the compound die action and the die sinking action.

Get a mechanism 3 including setting up first rack 31 on last mould subassembly 22, set up in frame 1 and the power input end and the transmission subassembly 32 that first rack 31 transmission is connected, can move and the second rack 33 that is connected with the power output end of transmission subassembly 32 along second direction Y and set up sucking disc subassembly 34 on second rack 33, second direction Y is the aspect of level in this application, and second rack 33 can move along the horizontal direction, moves sucking disc subassembly 34 to be used for taking out fashioned drain pan or face-piece between cope match-plate pattern subassembly 22 and the lower mould subassembly 21.

Wherein the second rack 33 can move along the second direction Y along with the first rack 31 moving along the first direction X, so that the suction cup assembly 34 moves between the upper mold assembly 22 and the lower mold assembly 21.

In this application, after drain pan and face-piece injection moulding, along with last mould component 22 removes along first direction X and drives first rack 31 and remove, first rack 31 gives drive assembly 32 with power transmission, it removes along second direction Y to drive second rack 33 through drive assembly 32, second rack 33 removes sucking disc subassembly 34 to between last mould component 22 and the lower mould component 21, absorb fashioned drain pan or face-piece through sucking disc subassembly 34, then along with last mould component 22 reverse movement, sucking disc subassembly 34 takes away drain pan or face-piece from between last mould component 22 and the lower mould component 21, the completion is got the piece, need not manually to take out drain pan and face-piece after the shaping, moreover, the steam generator is simple in structure, effectively avoid drain pan and face-piece to be by the condition of extrusion deformation when taking out, the yield of product is improved, the use reliability is improved.

In the embodiment of the present application, the transmission assembly 32 includes: support frame 321, transmission case 322 and transmission shaft 323.

Support frame 321, fixed the setting in frame 1, it is specific, support frame 321 passes through the bolt fastening on frame 1, can reequip current injection moulding device.

The transmission case 322 is arranged at the top of the support frame 321, a cavity is formed inside the transmission case 322, and a first through hole for the first rack 31 to pass through and a second through hole for the second rack 33 to pass through are formed in the transmission case 322; and

and the transmission shaft 323 is rotatably arranged in the cavity of the transmission case 322, and a first transmission gear 3231 meshed with the first rack 31 and a second transmission gear 3232 meshed with the second rack 33 are arranged on the transmission shaft 323.

Specifically, the diameter of the second transmission gear 3232 is greater than the diameter of the first transmission gear 3231, and the number of teeth of the second transmission gear 3232 is greater than the number of teeth of the first transmission gear 3231, so as to ensure the moving length of the second rack 33 in the second direction Y.

In this application, when the upper mold assembly 22 drives the first rack 31 to move upward, the first rack 31 is meshed with the first transmission gear 3231 to drive the transmission shaft 323 to rotate in the forward direction, the transmission shaft 323 drives the second transmission gear 3232 to rotate, and the second transmission gear 3232 is meshed with the second rack 33 to drive the second rack 33 to move between the upper mold assembly 22 and the lower mold assembly 21 along the second direction Y.

When the upper mold assembly 22 drives the first rack 31 to move downwards, the first rack 31 is meshed with the first transmission gear 3231 to drive the transmission shaft 323 to rotate reversely, the transmission shaft 323 drives the second transmission gear 3232 to rotate, and the second transmission gear 3232 is meshed with the second rack 33 to drive the second rack 33 to move along the second direction Y, so that the suction cup assembly 34 is separated from the space between the upper mold assembly 22 and the lower mold assembly 21.

In the embodiment of the present application, a first sliding slot 311 is disposed on a side of the first rack 31 away from the self-tooth structure, and a second sliding slot 331 is disposed on a side of the second rack 33 away from the self-tooth structure;

a first slide block 324 in sliding fit with the first sliding chute 311 and a second slide block 325 in sliding fit with the second sliding chute 331 are arranged in the cavity of the transmission case 322.

In this application, through the cooperation of first spout 311 and first slider 324, carry on spacingly to first rack 31 for first rack 31 can only slide along first direction X, through the cooperation of second spout 331 and second slider 325, carry on spacingly to second rack 33, makes second rack 33 can only slide along second direction Y.

In this embodiment, an adjusting plate 332 is disposed at one end of the second rack 33 adjacent to the suction cup assembly 34, a strip-shaped groove 3321 extending along the second direction Y is disposed on the adjusting plate 332, and the suction cup assembly 34 is slidably disposed at the strip-shaped groove 3321 of the adjusting plate 332.

In this application, sucking disc subassembly 34 is installed on regulating plate 332, can finely tune sucking disc subassembly 34 according to the realization to adapt to the remote controller shell of different dimensions, so that sucking disc subassembly 34 can effectively absorb the remote controller shell.

In the embodiment of the present application, the suction cup assembly 34 includes a sliding plate 341 slidably engaged with the strip-shaped groove 3321, a cylinder 342 disposed on the sliding plate 341, and a vacuum suction cup 343 disposed at the bottom output end of the cylinder 342;

and a first pressure switch 4 provided on the frame 1 and controlling the cylinder 342 for pressing the upper die assembly 22 moved to the extreme position.

Alternatively, the first pressure switch 4 may be provided as another photoelectric switch, a contact switch, or the like.

In this application, slide 341 slides and sets up in bar groove 3321, can slide along second direction Y to sliding, after adjusting the position of slide 341, through fastening bolt to slide 341 can, after last mould subassembly 22 upwards removed and triggered first pressure switch 4, make cylinder 342 work, cylinder 342 drives vacuum chuck 343 downstream, make vacuum chuck 343 can absorb drain pan or face-piece after the shaping, when last mould subassembly 22 moves down, the contact is to the pressure of first pressure switch 4, make cylinder 342 drive vacuum chuck 343 reset, thereby absorb drain pan or face-piece, follow second rack 33 again and shift out drain pan or face-piece from between last mould subassembly 22 and the lower mould subassembly 21.

In the embodiment of the present application, the second pressure switch 5 is further included, and the second rack 33 is provided with a pressing portion 333 for pressing the second pressure switch 5, wherein the second pressure switch 5 is disposed on the transmission case 322 and controls the vacuum chuck 343.

In this application, the second pressure switch 5 is extruded to the extrusion part 333 on the second rack 33, closes the valve of vacuum chuck 343, and vacuum chuck 343 does not have suction this moment, leaves second pressure switch 5 when extrusion part 333, opens the valve of vacuum chuck 343, and vacuum chuck 343 has suction this moment, can be used for absorbing fashioned drain pan or face-piece.

Alternatively, the second pressure switch 5 may be an optoelectronic switch or a contact switch.

In the embodiment of the application, the device further comprises a feeding chute 6 arranged between the pickup mechanism 3 and the lower die assembly 21, and the feeding chute is used for receiving a dropped bottom shell or surface shell and conveying the bottom shell and the surface shell away.

Specifically, when the pressing portion 333 presses the second pressure switch 5, the bottom shell or the face shell sucked by the vacuum chuck 343 is located just above the feeding chute 6, and at this time, the vacuum chuck 343 is turned off, so that the bottom shell or the face shell falls into the lowered feeding chute 6 and is conveyed away along with the feeding chute 6, and the bottom shell or the face shell taken out can be automatically collected.

In the embodiment of the application, the lower die assembly 21 is provided with a bottom shell male die 211 and a face shell male die 212, and the upper die assembly 22 is provided with a bottom shell female die 221 matched with the bottom shell male die 211 and a face shell female die 222 matched with the face shell male die 212;

the two pickup mechanisms 3 are respectively positioned at two sides of the lower die assembly 21, and the two pickup mechanisms 3 are respectively used for taking out the formed bottom shell and the formed face shell.

In this application, the injection moulding of drain pan is accomplished in drain pan terrace die 211 and the cooperation of drain pan die, and the injection moulding of face-piece is accomplished in face-piece terrace die 212 and the cooperation of face-piece die, and two mechanisms 3 of getting are located the both sides of lower mould subassembly 21 respectively, are used for taking out fashioned drain pan and face-piece respectively.

In another embodiment of the present application, there may be only one pick-up mechanism 3, and two vacuum suction cups 343 are installed on the second rack 33 of the pick-up mechanism 3 for respectively sucking the formed bottom shell and the face shell.

This a device of moulding plastics for remote controller shell is when using, after drain pan and face-piece injection moulding, along with last mould subassembly 22 removes along first direction X and drives first rack 31 and remove, first rack 31 gives drive assembly 32 with power transmission, it removes along second direction Y to drive second rack 33 through drive assembly 32, second rack 33 removes sucking disc subassembly 34 to between last mould subassembly 22 and lower mould subassembly 21, absorb fashioned drain pan or face-piece through sucking disc subassembly 34, then along with last mould subassembly 22 reverse movement, sucking disc subassembly 34 takes away drain pan or face-piece from between last mould subassembly 22 and lower mould subassembly 21, accomplish and get the piece, need not manually to take out the drain pan and the face-piece after the shaping, moreover, the steam generator is simple in structure, effectively avoid drain pan and face-piece by the condition of extrusion deformation when taking out, the yield of product is improved, use reliability is improved.

It should be noted that references in the specification to "one embodiment," "an example embodiment," "some embodiments," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not necessarily referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

It should be readily understood that "on … …", "above … …" and "above … …" in this disclosure should be interpreted in the broadest sense such that "on … …" means not only "directly on something", but also includes the meaning of "on something" with intervening features or layers therebetween, and "above … …" or "above … …" includes not only the meaning of "above something" or "above" but also includes the meaning of "above something" or "above" with no intervening features or layers therebetween (i.e., directly on something).

Furthermore, spatially relative terms, such as "below," "lower," "above," "upper," and the like, may be used herein for ease of description to describe one element or feature's illustrated relationship to another element or feature. Spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. The device may have other orientations (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly as well.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An injection molding apparatus for a remote control housing, comprising:

a frame (1);

the injection molding mechanism (2) is arranged on the rack (1), and the injection molding mechanism (2) comprises a lower die component (21) and an upper die component (22) which is positioned above the lower die component (21) and can move along a first direction; and

the workpiece taking mechanism (3) comprises a first rack (31) arranged on the upper die assembly (22), a transmission assembly (32) arranged on the rack (1) and having a power input end in transmission connection with the first rack (31), a second rack (33) capable of moving along a second direction and connected with a power output end of the transmission assembly (32), and a sucker assembly (34) arranged on the second rack (33);

wherein the second rack (33) is movable in a second direction with the first rack (31) moving in the first direction to move the chuck assembly (34) between the upper die assembly (22) and the lower die assembly (21).

2. An injection-molding device for a remote-control housing according to claim 1, characterized in that said transmission assembly (32) comprises:

the support frame (321) is fixedly arranged on the rack (1);

the transmission case (322) is arranged at the top of the support frame (321), a cavity is formed in the transmission case (322), and a first through hole for the first rack (31) to pass through and a second through hole for the second rack (33) to pass through are formed in the transmission case (322); and

the transmission shaft (323) is rotatably arranged in the cavity of the transmission case (322), and a first transmission gear (3231) meshed with the first rack (31) and a second transmission gear (3232) meshed with the second rack (33) are arranged on the transmission shaft (323).

3. An injection molding device for a remote controller shell according to claim 1, characterized in that a side of the first rack (31) far away from the self-tooth structure is provided with a first sliding slot (311), and a side of the second rack (33) far away from the self-tooth structure is provided with a second sliding slot (331);

a first sliding block (324) in sliding fit with the first sliding groove (311) and a second sliding block (325) in sliding fit with the second sliding groove (331) are arranged in the cavity of the transmission case (322).

4. An injection molding apparatus for a remote controller housing as claimed in claim 1, wherein an adjusting plate (332) is disposed at one end of the second rack (33) adjacent to the suction cup assembly (34), a strip-shaped groove (3321) extending along the second direction is disposed on the adjusting plate (332), and the suction cup assembly (34) is slidably disposed at the strip-shaped groove (3321) of the adjusting plate (332).

5. An injection molding apparatus for a remote controller housing as claimed in any one of claims 1 to 4, wherein said suction cup assembly (34) comprises a sliding plate (341) slidably fitted with said strip-shaped groove (3321), a cylinder (342) provided on said sliding plate (341), and a vacuum suction cup (343) provided at a bottom output end of said cylinder (342);

the device also comprises a first pressure switch (4) which is arranged on the frame (1) and controls the air cylinder (342), and the first pressure switch is used for extruding the upper die assembly (22) which moves to the limit position.

6. An injection molding apparatus for a remote controller housing according to any one of claims 1 to 5, further comprising a second pressure switch (5) provided on the transmission case (322) and controlling the vacuum chuck (343), wherein a pressing portion (333) for pressing the second pressure switch (5) is provided on the second rack gear (33).

7. An injection molding apparatus for a remote controller housing as claimed in claim 1, further comprising a feeding chute (6) disposed between the pickup mechanism (3) and the lower mold assembly (21) for receiving and feeding away a dropped bottom case or a dropped top case.

8. An injection molding device for a remote controller shell according to claim 1, characterized in that the lower mold component (21) is provided with a bottom shell male mold (211) and a face shell male mold (212), the upper mold component (22) is provided with a bottom shell female mold (221) matched with the bottom shell male mold (211) and a face shell female mold (222) matched with the face shell male mold (212);

the two taking mechanisms (3) are respectively positioned at two sides of the lower die assembly (21), and the two taking mechanisms (3) are respectively used for taking out a formed bottom shell and a formed face shell.