CN213440909U - Intelligent portable dust collector mold - Google Patents

Abstract

The utility model belongs to the technical field of the mould, especially, relate to a portable dust catcher mould of intelligence. The utility model discloses, including lower mould and last mould, last mould top be equipped with the injection molding board, injection molding board bottom be equipped with the flow distribution plate, flow distribution plate and last mould hug closely the cooperation mutually, last mould on be equipped with dust catcher head casting die and dust catcher afterbody casting die, the level of dust catcher head casting die be higher than the level of dust catcher afterbody casting die. The utility model discloses a set up dust catcher head casting die and dust catcher afterbody casting die, at the in-process of moulding plastics, dust catcher head casting die and dust catcher afterbody casting die and fashioned dust catcher head and afterbody are fixed, have improved the accuracy of moulding the piece, transversely loose core the subassembly through setting up the lateral part simultaneously, after the completion of moulding plastics, through transversely loosing core the subassembly with the lateral part and remove to keeping away from die cavity one end, accomplish two sides and loose core in step, it is higher with degree of automation to loose core efficiency, the space of mould has been practiced thrift simultaneously.

Description

Intelligent portable dust collector mold

Technical Field

The utility model belongs to the technical field of the mould, a portable dust catcher mould of intelligence is related to.

Background

A plastic mould for injection moulding is composed of mould cavity, mould core, pouring system, cooling system and demoulding-ejecting system. Can process series plastic parts with different shapes and sizes. Because of the variety and processing method of plastic, and the structure of plastic molding machines and plastic products are various, the variety and structure of plastic molds are also various. The existing portable dust collector is generally produced in batches quickly through a plastic mould, and in the existing dust collector mould, a core pulling mechanism is generally arranged at the rear part of the mould when core pulling is carried out, so that the occupied space of the mould is larger, and the core pulling efficiency and precision are lower.

Disclosure of Invention

The utility model aims at the above-mentioned problem, a portable dust catcher mould of intelligence is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a portable dust catcher mould of intelligence, includes the lower mould and goes up the mould, last mould top be equipped with the injection molding board, injection molding board bottom be equipped with the flow distribution plate, the flow distribution plate with go up the mould and hug closely the cooperation mutually, last mould on be equipped with dust catcher head casting die and dust catcher afterbody casting die, the level of dust catcher head casting die be higher than the level of dust catcher afterbody casting die, the lower mould on be equipped with a plurality of lateral parts of following lower mould central line symmetry and transversely loose core the subassembly, dust catcher head casting die and dust catcher afterbody casting die respectively with the lateral part transversely loose core the position of subassembly corresponding.

In foretell portable dust catcher mould of intelligence, the horizontal subassembly of loosing core of lateral part include a plurality of lateral part levels that set up on the lower mould core pulling block, the lower mould on be equipped with a plurality of drive mounting panels along lower mould central line symmetry, drive mounting panel on be equipped with the core pulling block driving piece, core pulling block driving piece and lateral part level loose core the piece and link to each other.

In the above mould for the intelligent portable dust collector, a sliding groove is arranged between the driving mounting plate and the lower mould, and the side horizontal core-pulling block is positioned in the sliding groove.

In the portable dust catcher mould of foretell intelligence, the piece driving piece of loosing core including set up the first linear actuator on the drive mounting panel, the power shaft of first linear actuator link to each other with the horizontal piece of loosing core of lateral part.

In the intelligent portable dust collector die, the driving mounting plate is provided with a limiting anti-deviation sliding strip, one end of the limiting anti-deviation sliding strip is connected with the driving mounting plate, the other end of the limiting anti-deviation sliding strip penetrates through the lateral horizontal core-pulling block, and the lateral horizontal core-pulling block is in sliding fit with the limiting anti-deviation sliding strip.

In the above mentioned intelligent portable vacuum cleaner mold, the vacuum cleaner head pressing part includes a transverse driving installation block arranged on the upper mold, the transverse driving installation block is provided with a vacuum cleaner transverse head pressing plate capable of reciprocating linear motion along the horizontal direction, the transverse driving installation block is further provided with a head pressing plate driving part, and the head pressing plate driving part is connected with the vacuum cleaner transverse head pressing plate.

In the above mentioned mold for an intelligent handheld vacuum cleaner, the head press plate driving member includes a second linear driver disposed on the transverse driving mounting block, and a power shaft of the second linear driver is connected to the transverse head press plate of the vacuum cleaner.

In the above mentioned intelligent portable vacuum cleaner mold, the vacuum cleaner tail pressing piece includes a longitudinal driving mounting block arranged on the upper mold, the longitudinal driving mounting block is provided with a vacuum cleaner longitudinal tail pressing plate capable of linearly moving in a reciprocating manner along a vertical direction, the longitudinal driving mounting block is further provided with a tail pressing plate driving piece, and the tail pressing plate driving piece is connected with the vacuum cleaner longitudinal tail pressing plate.

In the above mentioned intelligent portable vacuum cleaner mold, the tail pressing plate driving part includes a third linear driver arranged on the longitudinal driving mounting block, and a power shaft of the third linear driver is connected with the longitudinal tail pressing plate of the vacuum cleaner.

In the intelligent portable dust collector mould, the bottom of the lower mould is provided with the ejector plate, and the top of the ejector plate is provided with a plurality of ejector rods.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a set up dust catcher head casting die and dust catcher afterbody casting die, at the in-process of moulding plastics, dust catcher head casting die and dust catcher afterbody casting die and fashioned dust catcher head and afterbody are fixed, have improved the accuracy of moulding the piece, transversely loose core the subassembly through setting up the lateral part simultaneously, after the completion of moulding plastics, through transversely loosing core the subassembly with the lateral part and remove to keeping away from die cavity one end, accomplish two sides and loose core in step, it is higher with degree of automation to loose core efficiency, the space of mould has been practiced thrift simultaneously.

2. The utility model discloses a set up spacing anti-slide bar, at the lateral part level piece removal in-process of loosing core, through the sliding fit between lateral part level core-pulling piece and the spacing anti-slide bar, can avoid lateral part level core-pulling piece to take place angle and offset at the removal in-process, improved the displacement precision that the lateral part level core-pulling piece was loosed core.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view in another direction of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Fig. 4 is a partial structural schematic diagram in another direction of the present invention.

In the figure: the device comprises a lower die 1, an upper die 2, an injection molding plate 3, a flow distribution plate 4, a dust collector head pressing part 5, a dust collector tail pressing part 6, a lateral core pulling assembly 7, a lateral horizontal core pulling block 8, a driving installation plate 9, a core pulling block driving part 10, a sliding groove 11, a first linear driver 12, a limiting anti-deviation sliding strip 13, a lateral driving installation block 14, a dust collector lateral head pressing plate 15, a head pressing plate driving part 16, a second linear driver 17, a longitudinal driving installation block 18, a dust collector longitudinal tail pressing plate 19, a tail pressing plate driving part 20, a third linear driver 21, an ejector plate 22 and an ejector rod 23.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1-4, a portable dust catcher mould of intelligence, includes lower mould 1 and last mould 2, last mould 2 top be equipped with injection moulding plate 3, 3 bottoms of injection moulding plate be equipped with flow distribution plate 4, flow distribution plate 4 with go up mould 2 and hug closely the cooperation mutually, last mould 2 on be equipped with dust catcher head casting die 5 and dust catcher afterbody casting die 6, dust catcher head casting die 5 the level be higher than the level of dust catcher afterbody casting die 6, lower mould 1 on be equipped with a plurality of lateral part of following lower mould 1 central line symmetry and transversely loose core subassembly 7, dust catcher head casting die 5 and dust catcher afterbody casting die 6 respectively with the lateral part transversely loose core the position of subassembly 7 corresponding.

In this embodiment, when need mould plastics and be portable dust catcher, be close to lower mould 1 and last mould 2 each other, the melting material pours into through injection moulding plate 3, the rethread shunt board 4 shunts the melting material and gets into to the die cavity, at the in-process of moulding plastics, dust catcher head casting die 5 and dust catcher afterbody casting die 6 are fixed with fashioned dust catcher head and afterbody, the accuracy of moulding the piece has been improved, after the completion of moulding plastics, move to keeping away from die cavity one end through 7 lateral part horizontal loose core subassemblies, accomplish two sides and loose core in step, it is higher to loose core efficiency and degree of automation, the space of mould has been practiced thrift simultaneously.

Referring to fig. 3 and 4, the lateral transverse core pulling assembly 7 includes a plurality of lateral horizontal core pulling blocks 8 arranged on the lower die 1, the lower die 1 is provided with a plurality of driving mounting plates 9 symmetrical along the center line of the lower die 1, the driving mounting plates 9 are provided with core pulling block driving members 10, and the core pulling block driving members 10 are connected with the lateral horizontal core pulling blocks 8.

Specifically, the driving mounting plate 9 is used for mounting and fixing the core-pulling block driving part 10, after the injection molding is completed, the core-pulling block driving part 10 is started, the core-pulling block driving part 10 drives the horizontal core-pulling block 8 at the side part to move towards the end far away from the cavity, the synchronous core pulling at the two sides is completed, and the core-pulling efficiency is high.

Referring to fig. 3, a sliding groove 11 is arranged between the driving mounting plate 9 and the lower die 1, and the lateral horizontal core-pulling block 8 is positioned in the sliding groove 11.

In this embodiment, the side horizontal core-pulling block 8 can move along the track of the sliding groove 11.

The core-pulling block driving part 10 comprises a first linear driver 12 arranged on the driving mounting plate 9, and a power shaft of the first linear driver 12 is connected with the lateral horizontal core-pulling block 8.

In this embodiment, when the lateral horizontal core-pulling block 8 needs to be moved, the first linear actuator 12 is started, and the power shaft of the first linear actuator 12 drives the lateral horizontal core-pulling block 8 to move, and it should be understood by those skilled in the art that the first linear actuator 12 may be an oil cylinder.

Referring to fig. 3 and 4, the driving mounting plate 9 is provided with a limiting anti-deviation sliding strip 13, one end of the limiting anti-deviation sliding strip 13 is connected with the driving mounting plate 9, the other end of the limiting anti-deviation sliding strip 13 penetrates through the lateral horizontal core-pulling block 8, and the lateral horizontal core-pulling block 8 is in sliding fit with the limiting anti-deviation sliding strip 13.

In this embodiment, in the moving process of the lateral horizontal core-pulling block 8, by the sliding fit between the lateral horizontal core-pulling block 8 and the limiting anti-deviation sliding strip 13, the lateral horizontal core-pulling block 8 can be prevented from generating angle and position deviation in the moving process, and the core-pulling displacement precision of the lateral horizontal core-pulling block 8 is improved.

The dust collector head pressing part 5 comprises a transverse driving mounting block 14 arranged on the upper die 2, a dust collector transverse head pressing plate 15 capable of linearly reciprocating along the horizontal direction is arranged on the transverse driving mounting block 14, a head pressing plate driving part 16 is further arranged on the transverse driving mounting block 14, and the head pressing plate driving part 16 is connected with the dust collector transverse head pressing plate 15.

In this embodiment, the transverse driving mounting block 14 is used to mount and fix the head pressing plate driving member 16, the dust collector transverse head pressing plate 15 can compress and fix the head of the dust collector plastic part, when the plastic part needs to be taken out, the head pressing plate driving member 16 is started, and the dust collector transverse head pressing plate 15 is driven to move through the head pressing plate driving member 16, so that the dust collector transverse head pressing plate 15 is separated from the plastic part.

Referring to fig. 1 and 4, the head press plate driving member 16 includes a second linear actuator 17 disposed on the transverse driving mounting block 14, and a power shaft of the second linear actuator 17 is connected to the transverse head press plate 15 of the vacuum cleaner.

In this embodiment, when the horizontal head pressing plate 15 of the vacuum cleaner needs to be moved, the second linear actuator 17 is started, and the power shaft of the second linear actuator 17 drives the horizontal head pressing plate 15 of the vacuum cleaner to move.

Referring to fig. 2 and 4, the rear pressing member 6 of the vacuum cleaner includes a longitudinal driving mounting block 18 disposed on the upper die 2, a rear pressing plate 19 capable of moving linearly in a reciprocating manner in a vertical direction is disposed on the longitudinal driving mounting block 18, a rear pressing plate driving member 20 is further disposed on the longitudinal driving mounting block 18, and the rear pressing plate driving member 20 is connected to the rear pressing plate 19.

In this embodiment, the vacuum cleaner longitudinal tail pressing plate 19 can compress and fix the tail of the vacuum cleaner plastic part, and when the plastic part needs to be taken out, the tail pressing plate driving part 20 is started, and the vacuum cleaner longitudinal tail pressing plate 19 is driven to move through the tail pressing plate driving part 20, so that the vacuum cleaner longitudinal tail pressing plate 19 is separated from the plastic part.

Referring to fig. 2, the rear pressing plate driving member 20 includes a third linear actuator 21 disposed on the longitudinal driving mounting block 18, and a power shaft of the third linear actuator 21 is connected to the longitudinal rear pressing plate 19 of the vacuum cleaner.

In this embodiment, when the longitudinal tail pressing plate 19 of the vacuum cleaner needs to be moved, the third linear actuator 21 is started, and the power shaft of the third linear actuator 21 drives the longitudinal tail pressing plate 19 of the vacuum cleaner to move.

Referring to fig. 1 and 2, an ejector plate 22 is disposed at the bottom of the lower mold 1, and a plurality of ejector rods 23 are disposed at the top of the ejector plate 22.

In this embodiment, when the molded plastic part needs to be ejected, the ejector plate 22 is moved to synchronously drive the ejector rod 23 to move, and the plastic part is automatically ejected through the ejector rod 23.

The utility model discloses a theory of operation is:

when the portable dust collector needs to be injection-molded, the lower die 1 and the upper die 2 are close to each other, the molten material is injected through the injection molding plate 3 and then is divided by the flow dividing plate 4 to enter the cavity, the transverse head pressing plate 15 and the longitudinal tail pressing plate 19 of the dust collector are fixed with the head and the tail of the formed dust collector in the injection molding process, the precision of a plastic part is improved,

after the injection molding is finished, the first linear driver 12 is started, the power shaft of the first linear driver 12 drives the lateral horizontal core pulling block 8 to move towards one end far away from the cavity, the synchronous core pulling at two sides is finished, the core pulling efficiency and the automation degree are high, and the space of the mold is saved.

In the moving process of the lateral horizontal core-pulling block 8, the lateral horizontal core-pulling block 8 is in sliding fit with the limiting anti-deviation sliding strip 13, so that the lateral horizontal core-pulling block 8 can be prevented from generating angle and position deviation in the moving process, and the core-pulling displacement precision of the lateral horizontal core-pulling block 8 is improved.

When the plastic part needs to be taken out, the second linear driver 17 is started, the power shaft of the second linear driver 17 drives the dust collector transverse head pressing plate 15 to move, the tail pressing plate driving part 20 is started, the third linear driver 21 is started, and the power shaft of the third linear driver 21 drives the dust collector longitudinal tail pressing plate 19 to move, so that the dust collector longitudinal tail pressing plate 19 and the dust collector transverse head pressing plate 15 are separated from the plastic part.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the spirit of the invention.

Although terms such as lower die 1, upper die 2, injection molded plate 3, diverter plate 4, cleaner head press 5, cleaner tail press 6, lateral transverse core pulling assembly 7, lateral horizontal core pulling block 8, drive mounting plate 9, core pulling block drive 10, sliding groove 11, first linear drive 12, limit anti-deviation slide 13, transverse drive mounting block 14, cleaner transverse head press 15, head press drive 16, second linear drive 17, longitudinal drive mounting block 18, cleaner longitudinal tail press 19, tail press drive 20, third linear drive 21, ejector plate 22, ejector rod 23, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a portable dust catcher mould of intelligence, includes lower mould (1) and last mould (2), its characterized in that, last mould (2) top be equipped with injection moulding plate (3), injection moulding plate (3) bottom be equipped with flow distribution plate (4), flow distribution plate (4) with last mould (2) hug closely the cooperation mutually, last mould (2) on be equipped with dust catcher head casting die (5) and dust catcher afterbody casting die (6), the level of dust catcher head casting die (5) be higher than the level of dust catcher afterbody casting die (6), lower mould (1) on be equipped with a plurality of lateral parts of following lower mould (1) central line symmetry and transversely loose core subassembly (7), dust catcher head casting die (5) and dust catcher afterbody casting die (6) corresponding with the position of lateral part subassembly (7) of loosing core respectively.

2. The portable dust collector mould of intelligence of claim 1, characterized in that, the subassembly (7) of loosing core transversely of lateral part include a plurality of lateral part horizontal core pulling block (8) that set up on lower mould (1), lower mould (1) on be equipped with a plurality of drive mounting panel (9) along lower mould (1) central line symmetry, drive mounting panel (9) on be equipped with loose core piece driving piece (10), loose core piece driving piece (10) link to each other with lateral part horizontal core pulling block (8).

3. An intelligent hand-held cleaner mould according to claim 2, wherein a sliding groove (11) is arranged between the driving mounting plate (9) and the lower mould (1), and the side horizontal core-pulling block (8) is positioned in the sliding groove (11).

4. An intelligent hand-held cleaner mould according to claim 3, characterized in that the loose core block driving member (10) comprises a first linear driver (12) arranged on the driving mounting plate (9), and a power shaft of the first linear driver (12) is connected with the side horizontal loose core block (8).

5. An intelligent hand-held vacuum cleaner mould according to claim 4, characterized in that the driving mounting plate (9) is provided with a limiting and deviation-preventing slide bar (13), one end of the limiting and deviation-preventing slide bar (13) is connected with the driving mounting plate (9), the other end of the limiting and deviation-preventing slide bar (13) penetrates through the side horizontal core-pulling block (8), and the side horizontal core-pulling block (8) is in sliding fit with the limiting and deviation-preventing slide bar (13).

6. An intelligent hand-held cleaner mould according to claim 1, wherein the cleaner head pressing part (5) comprises a transverse driving mounting block (14) arranged on the upper mould (2), a cleaner transverse head pressing plate (15) capable of reciprocating linearly along the horizontal direction is arranged on the transverse driving mounting block (14), a head pressing plate driving part (16) is further arranged on the transverse driving mounting block (14), and the head pressing plate driving part (16) is connected with the cleaner transverse head pressing plate (15).

7. An intelligent hand-held cleaner mould according to claim 6, wherein the head press plate drive (16) comprises a second linear actuator (17) arranged on the transverse drive mounting block (14), the power shaft of the second linear actuator (17) being connected to the cleaner transverse head press plate (15).

8. The portable cleaner module according to claim 7, wherein the cleaner tail pressing member (6) comprises a longitudinal driving mounting block (18) arranged on the upper mold (2), a cleaner longitudinal tail pressing plate (19) capable of reciprocating linearly in the vertical direction is arranged on the longitudinal driving mounting block (18), a tail pressing plate driving member (20) is further arranged on the longitudinal driving mounting block (18), and the tail pressing plate driving member (20) is connected with the cleaner longitudinal tail pressing plate (19).

9. An intelligent hand-held cleaner module according to claim 8, wherein the rear platen drive (20) comprises a third linear actuator (21) arranged on the longitudinal drive mounting block (18), the power shaft of the third linear actuator (21) being connected to the longitudinal rear platen (19) of the cleaner.

10. The intelligent hand-held dust collector mold according to claim 9, wherein an ejector plate (22) is arranged at the bottom of the lower mold (1), and a plurality of ejector rods (23) are arranged at the top of the ejector plate (22).

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