CN112691804A - Fluid injection mold system - Google Patents

Abstract

The liquid injection mould system comprises a fluid conveying mechanism and a workpiece rotating mechanism, wherein the fluid conveying system comprises a supporting leg member, a retaining ring member and a power member, the retaining ring member is connected with a fluid ejection member, the power member is communicated with a fluid distribution member through a conveying pipeline member, and the fluid distribution member is communicated with the fluid ejection member through a pipeline; the workpiece rotating mechanism comprises a motor bracket and a driving motor, a rotating disc is assembled on the driving motor, a slot is formed in the rotating disc, a clamping component is assembled in the slot and used for clamping a workpiece, and the fluid conveying mechanism is used for conveying working fluid and spraying the working fluid to the surface of the workpiece; the workpiece rotating mechanism is used for clamping and positioning a workpiece and driving the workpiece to rotate so as to receive uniform spraying, and has the characteristics of convenience in operation, simple structure, controllable cost and capability of effectively realizing stable positioning of the workpiece during working.

Description

Fluid injection mold system

Technical Field

The present invention relates to the field of fixture devices, and more particularly, to a fluid ejection die system and a method of using the same.

Background

As is well known, in many fields such as manufacturing, chemical engineering, printing and dyeing, printing, testing and the like, a fluid spraying/jetting/spraying device is required, and the main function of the device is to enable working fluid to be jetted to a workpiece through negative pressure so as to complete corresponding processes. The fluid injection mold system is inevitably needed to finish the injection process, the existing fluid injection/spraying device has relatively complex structure, complex operation and high use cost, and in the use process, a workpiece needing to be acted cannot be effectively positioned, so that the injection process cannot be effectively finished. Therefore, a new fluid injection mold system which is convenient to operate, simple in structure, controllable in cost and capable of effectively realizing stable positioning of a workpiece during working is urgently needed to solve the problem.

Disclosure of Invention

Accordingly, in view of the disadvantages in the related art, examples of the present invention are provided to substantially solve one or more problems due to limitations and disadvantages of the related art, to substantially improve safety and reliability, and to effectively protect equipment.

According to the technical scheme provided by the invention, the liquid injection mold system disclosed by the invention comprises a fluid conveying mechanism and a workpiece rotating mechanism, wherein the fluid conveying system comprises a plurality of supporting leg members, retaining ring members are connected to the supporting leg members, a plurality of fluid ejection members are connected to the retaining ring members, the fluid conveying system also comprises a power member, the power member is communicated with a fluid distribution member through a conveying pipeline member, the fluid distribution member is arranged on the retaining ring members, and the fluid distribution member is communicated with the fluid ejection members through a pipeline; the workpiece rotating mechanism is located in a space formed by the supporting leg members and comprises a motor support, a driving motor is assembled on the motor support, a rotating disc is assembled on a driving shaft of the driving motor, a plurality of slots are formed in the rotating disc, a clamping member is assembled in each slot, and the clamping members are used for clamping workpieces.

Further, the fluid delivery mechanism further comprises a fluid storage member and a stabilizing ring member, wherein the stabilizing ring member is connected to the support leg member.

Further, the supporting leg member includes the stand, the stand is connected with the spreader through the adapter, the spreader is connected with solid axle through the adapter, solid axle and support seat assembly, wherein, the support seat includes the dish seat, be equipped with the sleeve pipe on the dish seat, solid axle assembly is in the sleeve pipe, the dish seat is connected on keeping the ring member, the middle part of stand still is equipped with the midbody, the midbody includes the vertical pipe, the welding has violently the pipe on the vertical pipe, wherein, vertical pipe and stand assembly, violently the pipe assembles with firm ring member, the bottom assembly of stand is in the base.

Further, the retaining ring member includes a plurality of arc-shaped bodies and locking pieces, wherein heads of the arc-shaped bodies contact each other and are connected by the locking pieces.

Further, the fluid blowout component includes the bracket body, the bracket body includes flat plate part and arc part, the flat plate part is connected with the dress carrier, it includes the pier stud to load the body, screw member on the pier stud is connected with the below of retaining ring component, be equipped with the fluid pipe on the arc part, the below of fluid pipe is equipped with out the liquid hole, it is equipped with fluid ejection mechanism to go out the liquid hole, the one end of fluid pipe is equipped with the feed liquor body, the other end of fluid pipe is equipped with sealed stifled cover, fluid ejection mechanism includes the blowout main part, removable shower nozzle that is equipped with in the blowout main part, the tip of feed liquor body is equipped with the feeding tube head, still be equipped with the hoop on the.

Furthermore, the fluid distribution component comprises a peristaltic pump, one side of the peristaltic pump is communicated with a suction pipeline, the suction pipeline is used for sucking the working liquid stored in the liquid storage tank, the other side of the peristaltic pump is communicated with a conveying pipeline component, a plurality of pipeline branches are formed at the far end of the conveying pipeline component, and each pipeline branch is respectively communicated with the fluid distribution component.

Further, the fluid distribution component comprises a distribution chamber, a main passage is arranged on the upper portion of the distribution chamber, the main passage is communicated with the pipeline branches through a pipeline, a plurality of side passages are arranged on the side wall of the distribution chamber, and each side passage is communicated with the feeding pipe head of the liquid inlet pipe body through a pipeline.

Further, the clamping member is provided with a clamping groove, the workpiece can be tightly inserted into the clamping groove, a plurality of groups of first locking holes are formed in the rotary disk and located right above the slot, second locking holes are formed in the clamping member and located right above the clamping groove, the first locking holes and the second locking holes correspond to each other, and the locking member assembly penetrates through the first locking holes and the second locking holes to lock the workpiece in the clamping groove.

Further, the fluid storage component comprises an external storage body and an internal storage body, a stabilizing block is further arranged on the edge of the external storage body, and the bottom plate of the motor support is located in the space of the internal storage body.

The invention provides a liquid injection mould system, which comprises a fluid conveying mechanism and a workpiece rotating mechanism, wherein the fluid conveying system comprises a plurality of supporting leg members, the supporting leg members are connected with retaining ring members, the retaining ring members are connected with a plurality of fluid ejection members, the fluid conveying system also comprises a power member, the power member is communicated with a fluid distribution member through a conveying pipeline member, the fluid distribution member is arranged on the retaining ring members, and the fluid distribution member is communicated with the fluid ejection members through a pipeline; the workpiece rotating mechanism is positioned in a space formed by the supporting leg members and comprises a motor support, a driving motor is assembled on the motor support, a rotating disc is assembled on a driving shaft of the driving motor, a plurality of slots are formed in the rotating disc, a clamping member is assembled in each slot and used for clamping the workpiece, and the fluid conveying mechanism is used for conveying working fluid and spraying/jetting/sprinkling the working fluid to the surface of the workpiece; the workpiece rotating mechanism is used for clamping and positioning a workpiece and driving the workpiece to rotate so as to receive uniform spraying/jetting/spraying, and has the characteristics of convenience in operation, simple structure, controllable cost and capability of effectively realizing stable positioning of the workpiece during working.

Drawings

FIG. 1 is a schematic overview of a liquid injection molding system of the present invention.

Fig. 2 is a schematic view of the fluid delivery mechanism of the present invention.

FIG. 3 is a schematic view of the support leg member of the present invention.

FIG. 4 is a schematic view of a retaining ring member of the present invention.

FIG. 5 is a schematic view of a fluid ejection member of the present invention.

FIG. 6 is a schematic view of a fluid tube of the present invention.

Fig. 7 is a schematic view of a bracket body of the present invention.

FIG. 8 is a schematic view of a power component of the present invention.

Fig. 9 is a partial schematic view of a fluid dispensing member of the present invention.

FIG. 10 is a schematic view of a fluid storage member of the present invention.

Fig. 11 is a schematic view of a base of the present invention.

Fig. 12 is an overall schematic view of the workpiece rotating mechanism of the present invention.

Fig. 13 is an assembly view of a workpiece rotating mechanism of the present invention.

Fig. 14 is a schematic view of a motor mount of the present invention.

Detailed Description

The present invention will be further described with reference to the following specific examples.

The present invention will be described in detail below with reference to specific embodiments shown in the drawings. These embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to these embodiments are included in the scope of the present invention. The application of the principles of the present invention will be further described with reference to the accompanying drawings and specific embodiments.

The liquid injection mould system comprises a fluid conveying mechanism and a workpiece rotating mechanism; the fluid conveying mechanism is used for conveying the working liquid and spraying/jetting/sprinkling the working liquid to the surface of the workpiece; the workpiece rotating mechanism is used for clamping and positioning the workpiece and driving the workpiece to rotate so as to receive uniform spraying/jetting/sprinkling.

For the fluid delivery mechanism of the present invention, the fluid delivery system comprises a plurality of support leg members 1, the support leg members 1 serve to support other components, and are base members, the number of the support leg members 1 is preferably six, the six support leg members 1 surround at equal intervals, and a working space of the whole liquid injection mold system is formed,

specifically, the supporting leg member 1 comprises an upright post 1-1, the upright post 1-1 can be a solid cylinder and plays a role of backbone, the upright post 1-1 is connected with a transverse post 1-2 through an adapter, the transverse post 1-2 is connected with a solid shaft 1-3 through the adapter, the solid shaft 1-3 is assembled with a supporting seat 1-4, and the adapter is of a structure similar to a two-way joint; the supporting seat 1-4 comprises a disc seat, the disc seat is connected to the retaining ring member 2 and aims to be stably connected with the retaining ring member 2, a sleeve is arranged on the disc seat, and the solid shaft 1-3 is assembled in the sleeve; the middle part of the upright post 1-1 is also provided with an intermediate body 1-5, the intermediate body 1-5 is used for providing a stable connecting carrier for the stable ring member 12, specifically, the intermediate body comprises a longitudinal pipe, a transverse pipe is welded on the longitudinal pipe, the longitudinal pipe is assembled with the upright post 1-1, the transverse pipe is assembled with the stable ring member 12, the assembling forms can be various, such as sleeving, fixing and the like, the stable ring member 12 is used for further improving the stability of the supporting leg members 1, so that the six supporting leg members 1 form an organic whole, and the whole has a good force gathering effect; the bottom of the upright 1-1 is fitted into the base 1-6, and the base 1-6 can provide stable support for the entire support leg member 1.

The supporting leg member 1 is connected with a retaining ring member 2, the retaining ring member 2 has a very prominent function in the whole fluid delivery mechanism, the retaining ring member 2 provides a carrier for assembling the fluid ejecting member 3, the fluid distributing member 6 and the like, the retaining ring member 2 comprises a plurality of arc-shaped bodies 2-1 and locking members 2-2, wherein, the number of the arc-shaped bodies 2-1 is preferably four, the heads of the arc-shaped bodies 2-1 are contacted with each other and connected through the locking members 2-2, the surface of the arc-shaped body 2-1 is also provided with connecting holes which are connected with the tray seats of the supporting seats 1-4 through connecting members, the locking members 2-2 comprise locking sheets and a plurality of locking bolts, and the arc-shaped bodies 2-1 are connected with each other through the combined action of the locking sheets and the locking bolts.

The holding ring member 2 is connected to a plurality of fluid ejection members 3, and the fluid ejection members 3 serve as core components of the entire fluid transport mechanism. The fluid spraying component 3 comprises a bracket body 3-1, the bracket body 3-1 plays a role in starting and stopping, specifically, the bracket body 3-1 comprises a flat plate part and an arc plate part, the flat plate part is connected with a loading body 3-2, the loading body 3-2 comprises a pier stud, a thread piece on the pier stud is connected with the lower part of the retaining ring component 2, so that the retaining ring component 2 is connected, in order to further improve the stability of connection, a nut piece is also arranged on the pier stud, and a stud of the pier stud penetrates through the nut piece to be connected with the retaining ring component 2; the arc-shaped plate part is provided with a fluid pipe 3-3, the fluid pipe 3-3 is in a pipeline form, a plurality of liquid outlet holes are arranged below the fluid pipe 3-3, each liquid outlet hole is provided with a fluid ejecting mechanism 3-4, one end of the fluid pipe 3-3 is provided with a liquid inlet pipe body 3-5, the other end of the fluid pipe 3-3 is provided with a sealing plug sleeve 3-6, the fluid ejecting mechanism 3-4 comprises an ejecting main body, a nozzle is arranged on the ejecting main body in a replaceable way, different spraying requirements can be realized, the end part of the liquid inlet pipe body 3-5 is provided with a feeding pipe head, the working liquid enters the liquid pipe 3-3 through the feeding pipe head, so as to spray from the spray head of the fluid spraying mechanism 3-4, and in order to further keep the stability of liquid feeding, a hoop is also arranged on the pipe body of the liquid feeding pipe body 3-5.

The fluid delivery system further comprises a power member 4, the power member 4 provides a power source for delivering the fluid, and the power member 4 and the delivery pipeline member 5 cooperate to deliver the working fluid. The power component 4 comprises a peristaltic pump 4-1, and the peristaltic pump 4-1 is selected to work by extruding a pipeline when a roller in the pump rotates, so that the pump has variable speed capability and sufficient rated pressure, and meets the requirement of fluid ejection of the system; one side of the peristaltic pump 4-1 is communicated with a suction pipeline 4-2, the suction pipeline 4-2 is used for sucking the working liquid stored in the liquid storage tank, the other side of the peristaltic pump 4-1 is communicated with a conveying pipeline component 5, a plurality of pipeline branches are formed at the far end of the conveying pipeline component 5, each pipeline branch is respectively communicated with a fluid distribution component 6, and the number of the pipeline branches can be reasonably configured according to the model number of the peristaltic pump 4-1 and the number of the fluid distribution components 6.

The fluid distribution means 6 are arranged on the upper part of the retaining ring means 2, for the purposes of this application, the number of fluid distribution means 6 is preferably 4, each of which is connected to a respective retaining ring means 2, the fluid distribution means 6 comprising a distribution chamber, the upper part of which is provided with a main channel communicating with a pipe branch via a pipe, the side walls of the distribution chamber being provided with a plurality of side channels, each of which communicates with the inlet stub of a respective inlet pipe body 3-5 via a pipe, the number of side channels being selectable according to the number of fluid ejection means 3.

For the workpiece rotating mechanism of the invention, the workpiece rotating mechanism is positioned in the space formed by the supporting leg members 1, the workpiece rotating mechanism comprises a motor bracket 7, a driving motor 8 is assembled on the motor bracket 7, a rotating disc 9 is assembled on a driving shaft of the driving motor 8, a plurality of slots are arranged on the rotating disc 9, a clamping member 10 is assembled in each slot, and the clamping members 10 are used for clamping workpieces.

The motor support 7 comprises a bottom plate, an I-shaped body is arranged on the bottom plate, the I-shaped body is connected with a motor plate of the driving motor 8 through a connecting piece, the driving motor 8 is provided with a sealing shell, interference of working liquid can be prevented, and safety and stability of work are guaranteed.

Clamping member 10 is equipped with the centre gripping groove, the work piece can be inserted tightly in the centre gripping groove, be equipped with the first locking hole of a plurality of groups on the rotary disk 9, first locking hole is located the slot directly over, be equipped with second locking hole on the clamping member 10, second locking hole is located the centre gripping groove directly over, first locking hole and second locking hole correspond each other, retaining member subassembly 13 wears to locate first locking hole and second locking hole, thereby lock the work piece in the centre gripping groove, through such setting, the work piece just can and stable assembly, thereby overcome the influence that centrifugal force and motor vibration caused in the rotation process, further improve the eruption/injection/spraying effect of work piece.

Fluid conveying mechanism is still including fluid storage component 11, fluid storage component 11 is used for storing the working fluid who sprays out, thereby resources are saved, prevent working fluid's waste and pollution, fluid storage component 11 is including outside storage body and inside storage body, outside storage body is used for receiving more than 80% working fluid, the edge of outside storage body still is equipped with the stabilizing block, the bottom plate of motor support 7 is located the space of inside storage body, outside inside storage body can receive a small amount of working fluid, still mainly played the effectual isolation of working fluid that can be with outside storage body, prevent to cause the influence to driving motor.

The invention also discloses a using method of the liquid injection mould system, which comprises the following steps:

A) inserting the workpiece into the holding groove of the holding member, fitting the holding member into the insertion groove of the rotating disk, locking and positioning the workpiece using the locking member assembly, and mounting a specified nozzle on the ejection body of the fluid ejection mechanism;

B) starting a driving motor, wherein a driving shaft of the driving motor drives a rotating disc to rotate, so that the workpiece rotates along with the rotating disc;

C) activating the peristaltic pump, the suction line on one side of the peristaltic pump drawing the working fluid from the reservoir, thereby pumping the working fluid into the delivery line, thereby delivering the working fluid into the primary passageway of the fluid dispensing member; the working fluid is distributed into the fluid pipe through the side passage, and then the working fluid is sprayed out from the spray head and acts on the surface of the workpiece;

D. and after the spraying work is finished, the driving motor and the peristaltic pump are closed, the locking piece assembly is detached, and the workpiece is taken out from the clamping groove.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A fluid ejection die system comprising a fluid delivery mechanism and a workpiece rotation mechanism, wherein the fluid delivery system comprises a plurality of support leg members (1), a retaining ring member (2) is connected to the support leg members (1), a plurality of fluid ejection members (3) is connected to the retaining ring member (2), the fluid delivery system further comprises a power member (4), the power member (4) is communicated with a fluid distribution member (6) through a delivery conduit member (5), the fluid distribution member (6) is disposed on the retaining ring member (2), and the fluid distribution member (6) is communicated with the fluid ejection members (3) through a conduit; the workpiece rotating mechanism is located in a space formed by the supporting leg members (1), the workpiece rotating mechanism comprises a motor support (7), a driving motor (8) is assembled on the motor support (7), a rotating disc (9) is assembled on a driving shaft of the driving motor (8), a plurality of slots are formed in the rotating disc (9), a clamping member (10) is assembled in each slot, and the clamping member (10) is used for clamping workpieces.

2. A fluid injection molding apparatus as claimed in claim 1 wherein said fluid delivery mechanism further comprises a fluid reservoir member (11) and a stabilizing ring member (12), said stabilizing ring member (12) being attached to said support leg member (1).

3. A fluid injection mould system according to claim 1, wherein the support leg member (1) comprises a post (1-1), the post (1-1) is connected to a cross-post (1-2) by means of an adapter, the cross-post (1-2) is connected to a solid shaft (1-3) by means of an adapter, the solid shaft (1-3) is assembled with a support base (1-4), wherein the support base (1-4) comprises a disc base provided with a sleeve, the solid shaft (1-3) is assembled in the sleeve, the disc base is connected to the retaining ring member (2), the central part of the post (1-1) is further assembled with an intermediate body (1-5) comprising a longitudinal tube, the vertical pipe is welded with a horizontal pipe, wherein the vertical pipe is assembled with the upright post (1-1), the horizontal pipe is assembled with the stabilizing ring component (12), and the bottom of the upright post (1-1) is assembled in the base (1-6).

4. A fluid injection mold system as claimed in claim 1, wherein said retaining ring member (2) comprises a plurality of arc-shaped bodies (2-1) and locking members (2-2), wherein the heads of said arc-shaped bodies (2-1) are in contact with each other and connected by said locking members (2-2).

5. A fluid injection die system according to claim 1, wherein said fluid ejection member (3) comprises a bracket body (3-1), said bracket body (3-1) comprises a flat plate portion and an arc plate portion, said flat plate portion is connected with a carrier body (3-2), said carrier body (3-2) comprises a pier, a screw member of said pier is connected with a lower portion of said retaining ring member (2), said arc plate portion is provided with a fluid pipe (3-3), a fluid outlet hole is provided below said fluid pipe (3-3), said fluid outlet hole is provided with a fluid ejection mechanism (3-4), one end of said fluid pipe (3-3) is provided with a fluid inlet pipe body (3-5), the other end of said fluid pipe (3-3) is provided with a sealing plug (3-6), the fluid spraying mechanism (3-4) comprises a spraying main body, a replaceable spray head is arranged on the spraying main body, a feeding pipe head is arranged at the end part of the liquid inlet pipe body (3-5), and a hoop is further arranged on the pipe body of the liquid inlet pipe body (3-5).

6. A fluid injection molding system as claimed in claim 1 wherein said power member (4) comprises a peristaltic pump (4-1), said peristaltic pump (4-1) having a suction line (4-2) connected to one side thereof, said suction line (4-2) being adapted to suck the working fluid stored in the reservoir, said peristaltic pump (4-1) having a delivery line member (5) connected to the other side thereof, said delivery line member (5) having a plurality of line branches formed at a distal end thereof, each of said line branches being connected to said fluid distribution member (6).

7. A fluid injection molding system as claimed in claim 1 wherein said fluid distribution member (6) comprises a distribution chamber having a main passage at an upper portion thereof, said main passage being in communication with said manifold branches via pipes, said distribution chamber having a plurality of side passages in a sidewall thereof, each of said side passages being in communication with a feed tip of said inlet pipe body (3-5) via a pipe.

8. A fluid injection molding system as claimed in claim 1 wherein said holding member (10) has holding grooves in which said workpiece is inserted, said rotary disk (9) has a plurality of sets of first locking holes, said first locking holes are located directly above said insertion grooves, said holding member (10) has second locking holes, said second locking holes are located directly above said holding grooves, said first locking holes and said second locking holes correspond to each other, and locking member assemblies (13) are inserted through said first locking holes and said second locking holes to lock said workpiece in said holding grooves.

9. A fluid injection mold system as claimed in claim 1 wherein said fluid storage member (11) comprises an outer storage body and an inner storage body, said outer storage body being provided with a stabilizing block, the floor of said motor mount (7) being located in the space of said inner storage body.

10. A method of using a fluid ejection die system, such as any of claims 1-9, the method comprising the steps of:

A) inserting the workpiece into the holding groove of the holding member, fitting the holding member into the insertion groove of the rotating disk, locking and positioning the workpiece using the locking member assembly, and mounting a specified nozzle on the ejection body of the fluid ejection mechanism;

B) starting a driving motor, wherein a driving shaft of the driving motor drives a rotating disc to rotate, so that the workpiece rotates along with the rotating disc;

C) activating the peristaltic pump, the suction line on one side of the peristaltic pump drawing the working fluid from the reservoir, thereby pumping the working fluid into the delivery line, thereby delivering the working fluid into the primary passageway of the fluid dispensing member; the working fluid is distributed into the fluid pipe through the side passage, and then the working fluid is sprayed out from the spray head and acts on the surface of the workpiece;

D) after the spraying work is finished, the driving motor and the peristaltic pump are closed, the locking piece assembly is detached, and the workpiece is taken out from the clamping groove.

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