CN210880490U - Production system of mould product - Google Patents

Abstract

A production system of a mould product comprises a mould running track and a mould, wherein the mould comprises an upper mould and a lower mould, and the lower mould is positioned on the mould running track; the die further comprises an adjusting part, the adjusting part comprises an adjusting shaft, and the adjusting shaft can be connected with the upper die; still including adjusting the track, adjust the track with the mould orbit sets up along upper and lower direction interval, it includes first section to adjust the track, first section with the mould orbit is the contained angle setting, the regulating spindle with adjust track sliding connection, along first section downstream operation the regulating spindle can order about go up the mould and keep away from relatively the lower mould. The utility model provides a production system of mould goods, its mould is at the in-process from the upper reaches to downstream operation, under the effect of first section, the regulating spindle can order about the mould automatically and keep away from the lower mould relatively to accomplish the drawing of patterns at mould operation in-process, be favorable to guaranteeing the continuity of production, can improve production efficiency.

Description

Production system of mould product

Technical Field

The utility model relates to a mould goods technical field, concretely relates to mould goods's production system.

Background

The mold product, i.e. the product produced by using the mold, usually needs to set a special demolding station on the track where the mold runs, and then uses a special demolding tool to separate the two mold bodies butted with each other, and this demolding mode requires the mold to stop running at the demolding station, which is not beneficial to the continuous production of the product.

Therefore, how to provide a solution to overcome the above-mentioned drawbacks remains a technical problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a production system of mould goods, its mould can realize going up the separation of mould, lower mould at the operation in-process, is favorable to guaranteeing the continuity of production, can improve production efficiency.

In order to solve the technical problem, the utility model provides a production system of a mold product, which comprises a mold running track and a mold, wherein the mold comprises an upper mold and a lower mold, and the lower mold is positioned on the mold running track; the die further comprises an adjusting part, the adjusting part comprises an adjusting shaft, and the adjusting shaft can be connected with the upper die; still including adjusting the track, adjust the track with the mould orbit sets up along upper and lower direction interval, it includes first section to adjust the track, first section with the mould orbit is the contained angle setting, the regulating spindle with adjust track sliding connection, follow first section downstream operation the regulating spindle can order about go up the mould and keep away from relatively the lower mould.

So, the mould is by the in-process of upper reaches downstream operation along the mould orbit, under the effect of first section, and the regulating spindle can order about automatically and go up the mould and keep away from the lower mould relatively to with the lower mould phase separation, and then can accomplish the drawing of patterns at mould operation in-process, be favorable to guaranteeing the continuity of production, can improve production efficiency.

Optionally, the adjusting track is located below the mold running track, and the adjusting shaft passes through the lower mold and can be connected with the upper mold.

Optionally, the lower die includes a bottom plate and a side plate, the bottom plate and the side plate enclose to form an open slot, and the upper die is installed in the open slot and encloses to form a die cavity with the bottom plate and the side plate.

Optionally, the side plate is provided with a through hole, the adjusting shaft penetrates through and extends out of the through hole, and a baffle plate extending radially outwards is arranged on the outer wall of a shaft section of the adjusting shaft extending out of the through hole and can form an axial block with the side plate; the upper die is provided with a hole-shaped or groove-shaped positioning structure, and the adjusting shaft can be inserted into the positioning structure and is supported by the upper die through the baffle.

Optionally, the upper die comprises a body and a supporting plate mounted on the body, the positioning structure is arranged on the supporting plate, and the baffle can be supported by the supporting plate.

Optionally, the connecting end part of the adjusting shaft and the supporting plate comprises an equal-diameter section and a conical guide section, and the conical guide section is far away from the baffle relative to the equal-diameter section; the positioning structure is a positioning hole, the inner diameter of the positioning hole is matched with the outer diameter of the equal-diameter section, and the equal-diameter section can be inserted into the positioning hole in an assembling state.

Optionally, the adjustment track further comprises a second section, the second section is connected to the upstream end of the first section, and the second section is parallel to the mold running track.

Optionally, the adjusting track further includes a third section, the third section is connected to the upstream end of the first section, and the third section is disposed at an included angle with the mold running track.

Optionally, the adjusting track further includes a fourth section, the fourth section is connected to the downstream end of the first section, the fourth section is parallel to the mold running track, and the demolding station is disposed in the fourth section.

Optionally, the adjusting track further includes a fifth section, the fifth section is connected to the downstream end of the fourth section, and the fifth section and the mold running track are arranged at an included angle.

Optionally, each section of the adjusting track is in hinged fit, and a track height adjusting mechanism is further arranged below the second section and the fourth section and used for adjusting the height of the second section and the height of the fourth section.

Drawings

FIG. 1 is a diagram of the relative positions of first, second, fourth, and fifth sections of an adjustment track and the adjustment track in one embodiment;

FIG. 2 is a diagram of the relative positions of the first and third sections of the adjustment track and the adjustment track in one embodiment;

fig. 3 is a connection structure view of the upper mold, the lower mold, the mold running rail, the adjusting rail, and the rail height adjusting mechanism.

The reference numerals in fig. 1-3 are illustrated as follows:

2, a die, 21 upper dies, 211 bodies, 211a reinforcing frameworks, 212 supporting plates, 212a positioning holes, 213 templates, 22 lower dies, 221 bottom plates, 222 side plates, 222a through holes, 223 adjusting parts, 223a adjusting shafts, 223a-1 equal-diameter sections, 223a-2 conical guide sections, 223b sliding parts, 223c baffle plates, 23 die cavities and 24 die nails;

5, a track height adjusting mechanism, a 51 motor, a 511 rotating shaft, a 512 driving bevel gear, a 52 screw rod, a 521 driven bevel gear and a 53 fixing plate;

the device comprises an A1 mould running track, an A2 adjusting track, an A21 first section, an A22 second section, an A23 third section, an A24 fourth section and an A25 fifth section.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

The terms "first", "second", and the like, as used herein are used for convenience only to describe two or more structures or components that are the same or similar in structure, and do not denote any particular limitation on the order.

Referring to fig. 1 to 3, fig. 1 is a diagram illustrating relative positions of a first section, a second section, a fourth section, a fifth section of an adjustment track and the adjustment track in an embodiment, fig. 2 is a diagram illustrating relative positions of the first section, the third section and the adjustment track in an embodiment, and fig. 3 is a connection structure diagram of an upper mold, a lower mold, a mold running track, the adjustment track and a track height adjusting mechanism.

As shown in fig. 1, the present invention provides a system for producing a mold product, which may be specifically a latex product, or may be other products that need to be prepared by a mold; the production system comprises a mold track a1 and a mold 2, the mold 2 comprises an upper mold 21 and a lower mold 22, when in production, the upper mold 21 and the lower mold 22 can be butted to form a mold cavity 23, the lower mold 22 is located on the mold track a1 and can be displaced from upstream to downstream along the mold track a1, the driving force of the lower mold 22 can be from the mold track a1 and can also be from other driving parts, and the embodiment of the invention is not limited.

Different from the prior art, in the production system provided by the utility model, the mold 2 further comprises an adjusting part 223, the adjusting part 223 comprises an adjusting shaft 223a, and the adjusting shaft 223a can be connected with the upper mold 21; still include and adjust track A2, adjust track A2 and mould orbit A1 along upper and lower direction interval setting, adjust track A2 and include first section A21, first section A21 and mould orbit A1 are the contained angle setting, adjusting shaft 22a still with adjust track A2 sliding connection, can drive upper die 21 and keep away from lower die 22 relatively along the adjusting shaft 223a of first section A21 downstream operation.

Like this, mould 2 is at the in-process of moving downstream by the upper reaches along mould orbit A1, under the effect of first section A21, and adjusting shaft 223a can drive automatically that go up mould 21 is kept away from lower mould 22 relatively to with the phase separation of lower mould 22, and then can accomplish the drawing of patterns in mould 2 operation process, be favorable to guaranteeing the continuity of production, can improve production efficiency.

In a specific embodiment, the adjustment track a2 may be located below the mold travel track a1, and the adjustment shaft 223a may pass through the lower mold 22 and may be connected to the upper mold 21; the distance between the first segment a21 and the mold orbit a1 may gradually decrease from upstream to downstream to provide an axially upward urging force to the adjustment shaft 223a during the downstream displacement of the mold 2, so that the upper mold 21 and the lower mold 22 may be pushed apart by the adjustment shaft 223 a.

Of course, the adjustment track a2 may be located above the mold track a1, in which case there may be no connection between the adjustment shaft 223a and the lower mold 22, and the distance between the first segment a21 and the mold track a1 may gradually increase from upstream to downstream to provide an axially upward pulling force to the adjustment shaft 223a during the downstream displacement of the mold 2, thereby pulling the upper mold 21 and the lower mold 22 apart.

Taking the adjusting track a2 as an example, as shown in fig. 3, the lower mold 22 may include a bottom plate 221 and a side plate 222, the bottom plate 221 and the side plate 222 may enclose to form an open slot, and the upper mold 21 may be installed in the open slot and enclose with the bottom plate 221 and the side plate 222 to form the mold cavity 23.

The side plate 222 may be a circumferential plate surrounding a circle, at this time, an open slot formed by the bottom plate 221 and the side plate 222 may be a slot body enclosed in the circumferential direction, and the mold in this form is suitable for the production of a single product; or, the side panels 222 may be distributed on both sides of the bottom panel 221 in the transverse direction (left-right direction in fig. 3), at this time, the open slot defined by the bottom panel 221 and the side panels 222 is a slot body penetrating in the longitudinal direction (the direction perpendicular to the transverse direction in the horizontal plane, and the direction perpendicular to the paper plane in fig. 3), and the mold in this form can adapt to continuous production.

The supporting end of the adjusting shaft 223a and the adjusting track a2 may be provided with a sliding part 223b, and the adjusting shaft 223a may be slidably connected with the adjusting track a2 through the sliding part 223 b. The sliding member 223b may be a roller (in fig. 3), and may further slide along the adjusting track a2 through the roller, or the sliding member 223b and the track may be matched through a structure of a sliding rail and a sliding groove, so that the two can be slidably connected.

The scheme to sliding part 223b for the gyro wheel, because sliding part 223b self can rotate, the structure of adjusting track A2 can be simple relatively, use figure 3 as the visual angle, adjust track A2 and can adopt the channel-section steel preparation, specifically can adopt two channel-sections, and dock through the notch of two channel-sections, so that the lateral wall of two channel-sections can overlap, and can form the adjusting track A2 of cross-section for closed figure, more be favorable to guaranteeing to adjust track A2's intensity. The mould operation track A1 can be made of U-shaped steel, channel steel, steel pipes and the like.

The side plate 222 may be provided with a through hole 222a, the adjusting shaft 223a may pass through and extend out of the through hole 222a, and an outer wall of a shaft section of the adjusting shaft 223a extending out of the through hole 222a may be provided with a baffle 223c extending outward in the radial direction, the baffle 223c may abut against the side plate 222 in the axial direction, and then the adjusting shaft 223a may be stopped from coming out of the through hole 222a by matching with the sliding component 223 b; note that, in order to prevent interference during installation, at least one of the sliding member 223b and the blocking plate 223c may be installed after the adjusting shaft 223a is inserted into the through hole 222a or may be detachably connected, for example, the roller 32 and the adjusting shaft 223a may be fixedly connected through a screw thread. The upper die 21 may be provided with a hole-type or groove-type positioning structure, and the adjusting shaft 223a can be inserted into the positioning structure and supported by the baffle 223c and the upper die 21.

By adopting the scheme, the upper die 21 and the adjusting shaft 223a can be in lap joint fit, and the upper die 21 and the lower die 22 can be easily connected or separated, so that the die assembly and the die disassembly operation can be conveniently carried out.

With continued reference to fig. 3, the upper mold 21 may include a body 211 and a supporting plate 212 mounted on the body 211, the body 211 may include a reinforcing frame 211a and a mold plate 213, the reinforcing frame 211a is used to increase the strength of the upper mold 21, and the lower plate surface of the mold plate 213 may form a mold surface contacting with a product; the supporting plates 212 may be disposed at both lateral sides of the reinforcing frame 211a, the positioning structures may be disposed on the supporting plates 212, and the baffle 223c may be supported by the supporting plates 212 so as to drive the upper mold 21 to relatively approach or separate from the lower mold 22 when the adjusting shaft 223a performs axial displacement.

Further, the insertion end portion of the adjusting shaft 223a and the supporting plate 212, that is, the shaft section of the adjusting shaft 223a located at the upper side of the baffle 223c, may include a constant diameter section 223a-1 and a tapered guide section 223a-2, the tapered guide section 223a-2 is away from the baffle 223c from the constant diameter section 223a-1, and the radial dimension of the tapered guide section 223a-2 may gradually decrease in the direction away from the baffle 223 c; the positioning structure may be a positioning hole 212a, and the inner diameter of the positioning hole 212a and the outer diameter of the equal-diameter section 223a-1 may be matched, i.e. the two may have approximately the same size.

When the mold is installed, the positioning hole 212a of the upper mold 21 can be inserted into the conical guide section 223a-2, and due to the design of the conical guide section 223a-2, even if the positioning hole 212a is not completely aligned with the adjusting shaft 223a, the positioning hole 212a can be inserted into the equal-diameter section 223a-1 under the guidance of the conical guide section 223a-2, so that the mold closing accuracy can be improved.

Here, the embodiment of the present invention does not limit the number of the adjusting components 223, and in the specific implementation, it is preferable to set the number to be plural, so as to ensure the stability of the adjusting process and the consistency of the adjustment at different positions of the whole mold as much as possible.

In order to improve the air permeability of the latex product, air holes may be formed in the latex product, and mold pins 24 may be disposed on the mold plate 213 and/or the bottom plate 221 according to the distribution positions of the air holes, and for convenience of description, the mold pins of the mold plate 213 may be referred to as first mold pins, and the mold pins of the bottom plate 221 may be referred to as second mold pins.

According to different product requirements, the lengths of the first die nail and the second die nail can be different, and the first die nail and the second die nail can be provided with a plurality of different lengths.

The upper die 21 and the lower die 22 may be made of metal, such as aluminum alloy; or both of them can be made of plastic material, such as epoxy resin, POM (polyoxymethylene), etc.; it is also possible to use one of a metal material and the other of a plastic material, depending on the environment in which the mould 2 is used. For example, when the mold 2 is applied to a latex product production line adopting a radio frequency vulcanization technology, at least the upper mold 21 of the mold may be made of a plastic material, so as to significantly reduce interference of the mold 2 on radio frequency, which is beneficial to ensuring the efficiency of radio frequency vulcanization.

Further, the adjustment track a2 may further include a second segment a22, and the second segment a22 may be parallel to the mold track a1, and in general, the mold track a1 is disposed horizontally, so the second segment a22 may also be disposed horizontally. With this arrangement, the spacing between second segment A22 and mold path A1 can remain constant and can be used to support adjustment shaft 223a to maintain a particular height of mold cavity 23.

It will be appreciated that the spacing between the second section a22 and the mold track a1 actually determines the thickness of the molded article, and thus, during the production process, the track height adjustment mechanism 5 can be disposed below the second section a22 for adjusting the height of the second section a22, and thus the spacing between the second section a22 and the mold track a1 can be changed to accommodate the production of molded articles of different thicknesses.

The track height adjusting mechanism 5 may be a screw structure, a rack-and-pinion structure, an air cylinder or a hydraulic cylinder, and the like capable of generating linear displacement. In an exemplary scheme, as shown in fig. 3, the track height adjusting mechanism 5 may include a motor 51 and a screw 52, the screw 52 may be connected with a fixing plate 53, a rotating shaft 511 of the motor 51 is connected with a driving bevel gear 512, the screw 52 is connected with a driven bevel gear 521 in a threaded manner, the driving bevel gear 512 and the driven bevel gear 513 may be engaged with each other, so that when the motor 51 drives the driving bevel gear 512 to rotate through the rotating shaft 511, the driven bevel gear 521 may also rotate along with the driving bevel gear, and then the screw 52 may be driven to axially displace relative to the driven bevel gear 521, and then the adjusting track a2 may be driven to go up and down; the rotation shaft 511 and the screw 52 can also be driven by a worm gear structure, in this case, the worm gear corresponds to the driven bevel gear 521 in the solution of fig. 3.

The number of the track height adjusting mechanisms 5 is preferably set to be a plurality, and a plurality of the track height adjusting mechanisms 5 can be distributed below the corresponding adjusting track A2 at intervals along the longitudinal direction to ensure the smoothness in the height adjusting process of the adjusting track A2. It can be understood that there are two adjusting tracks a2, the two adjusting tracks a2 are distributed at intervals along the transverse direction, and the track height adjusting mechanism 5 can be arranged below each of the two adjusting tracks a 2.

The adjusting track a2 may further include a third section a23, the third section a23 may be connected to the upstream end of the first section a21, and the third section a23 is disposed at an angle to the mold moving track a1, specifically, the third section a23 may be inclined upward gradually from upstream to downstream, and during the operation, the adjusting shaft 223a penetrating through the lower mold 22 may be displaced upward gradually along the third section a23 until moving to the first section a 21.

The upper mold 21 and the lower mold 22 may be clamped after the second section a22 (as shown in fig. 2), or may be clamped in the third section a23, which is an optional option in practice, and the structure of the injection apparatus may refer to the prior art after the clamping or before the clamping, and is not limited herein.

As also shown in fig. 1, the adjustment track a2 may further include a fourth segment a24, a fourth segment a24 may be connected to the downstream end of the second segment a22, and the fourth segment a24 may be parallel to the mold travel track a1, after the adjustment shaft 223a moves from the second segment a22 to the fourth segment a24, the distance between the upper mold 21 and the lower mold 22 does not change, the adjustment shaft 223a is not lifting the upper mold 21, a demolding station may be provided at the fourth segment a24, and the upper mold 21 may be taken away by a special demolding apparatus (prior art) to clean or recycle the mold.

It will be appreciated that the fourth segment a24 can be installed at a higher position than the second segment a22, and there is a height difference between the two, and the size of the height difference will directly determine the separation effect of the upper mold 21 and the mold product when the sliding part 223b moves to the fourth segment a 24; for the embodiment of the present invention, when the sliding part 223b moves to the fourth section a24, the mold pin 24 of the upper mold 21 may be completely separated from the mold product, or may still be partially inserted into the mold product, which is an available option in the specific implementation.

In order to adjust the degree of separation between the upper mold 21 and the lower mold 22 when the fourth stage a24 is reached, the rail height adjusting mechanism 5 may be provided below the fourth stage a 24.

The adjustment track a2 may further include a fifth section a25, the fifth section a25 may be connected to the downstream end of the fourth section a24, and the fifth section a25 may be disposed at an angle to the mold travel track a1, and may be disposed to be gradually inclined downward from upstream to downstream.

When the adjusting shaft 223a moves to the fifth section a25, the adjusting shaft 223a can gradually move downward along the axial direction until the baffle 223c abuts against the side plate 222 along the axial direction, and through the transition of the fifth section a25, the adjusting shaft 223a can be prevented from suddenly moving downward and the baffle 223c can be prevented from colliding with the side plate 222 due to the fact that the lower die 22 directly slides down from the fourth section a 24.

In order to control the precision of the adjustment, the sections of the adjustment track a1 can be in hinged fit, so that the installation heights of the second section a22 and the fourth section a24 can be adjusted respectively. The upstream end of the third segment a23 and the downstream end of the fifth segment a25 may be supported on a bracket to form a transition track for the ascending or descending of the adjustment shaft 223 a.

It should be emphasized that the above description only describes the core improvement points of the production system of the mold product provided by the present invention, such as the mold structure, the track structure, and the like, and in fact, in addition to the above-mentioned devices, the production system of the mold product may further include other devices, taking the mold product as an example of a latex product, and the production system may further include a latex storage device, a batching device, a glue curing device, a material injection device, a water washing device, a drying device, a cutting device, and the like, and these devices that are not described in the embodiments of the present invention may all be designed according to the prior art.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (11)

1. A production system of a mold product, comprising a mold running track (a1) and a mold (2), wherein the mold (2) comprises an upper mold (21) and a lower mold (22), and the lower mold (22) is located on the mold running track (a1), characterized in that the mold (2) further comprises an adjusting part (223), and the adjusting part (223) comprises an adjusting shaft (223a), and the adjusting shaft (223a) can be connected with the upper mold (21);

still including adjusting track (A2), adjust track (A2) with mould orbit (A1) sets up along upper and lower direction interval, it includes first section (A21) to adjust track (A2), first section (A21) with mould orbit (A1) is the contained angle setting, adjust axle (223a) still with adjust track (A2) sliding connection, follow first section (A21) move downstream adjust axle (223a) can drive go up mould (21) and keep away from relatively lower mould (22).

2. The system for producing a molded article according to claim 1, wherein the adjustment rail (a2) is located below the mold travel rail (a1), and the adjustment shaft (223a) passes through the lower mold (22) and is connectable to the upper mold (21).

3. The mold product production system of claim 2, wherein the lower mold (22) comprises a bottom plate (221) and side plates (222), the bottom plate (221) and the side plates (222) enclose an open slot, and the upper mold (21) is installed in the open slot and encloses the bottom plate (221) and the side plates (222) to form the mold cavity (23).

4. The mold-product production system of claim 3, wherein the side plate (222) is provided with a through hole (222a), the adjusting shaft (223a) passes through and protrudes out of the through hole (222a), and the outer wall of the shaft section of the adjusting shaft (223a) protruding out of the through hole (222a) is provided with a baffle (223c) extending radially outwards, and the baffle (223c) can form an axial block with the side plate (222);

the upper die (21) is provided with a hole-shaped or groove-shaped positioning structure, and the adjusting shaft (223a) can be inserted into the positioning structure and is supported with the upper die (21) through the baffle (223 c).

5. The system for producing a molded article according to claim 4, wherein the upper mold (21) comprises a body (211) and a supporting plate (212) mounted to the body (211), the positioning structure is provided to the supporting plate (212), and the baffle (223c) is capable of supporting the supporting plate (212).

6. The mold-product producing system of claim 5, wherein the connecting end of the adjusting shaft (223a) and the stay plate (212) comprises an equal-diameter section (223a-1) and a tapered guide section (223a-2), the tapered guide section (223a-2) being away from the baffle (223c) relative to the equal-diameter section (223 a-1);

the positioning structure is a positioning hole (212a), the inner diameter of the positioning hole (212a) is matched with the outer diameter of the equal-diameter section (223a-1), and the equal-diameter section (223a-1) can be inserted into the positioning hole (212a) in an assembling state.

7. The system for producing a molded article according to any one of claims 1 to 6, wherein the adjustment track (A2) further comprises a second section (A22), the second section (A22) being connected to the upstream end of the first section (A21), and the second section (A22) being parallel to the mold running track (A1).

8. The system for producing a molded article according to claim 7, wherein the adjustment track (A2) further comprises a third section (A23), the third section (A23) is connected to the upstream end of the first section (A21), and the third section (A23) is disposed at an angle to the mold running track (A1).

9. The system for producing molded articles according to claim 7, wherein the adjustment track (A2) further comprises a fourth section (A24), the fourth section (A24) is connected to the downstream end of the first section (A21), the fourth section (A24) is parallel to the mold running track (A1), and a demolding station is provided in the fourth section (A24).

10. The system for producing molded articles according to claim 9, wherein the adjustment track (a2) further comprises a fifth segment (a25), the fifth segment (a25) is connected to the downstream end of the fourth segment (a24), and the fifth segment (a25) is disposed at an angle to the mold running track.

11. The system for producing molded articles according to claim 9, wherein the segments of the adjusting track (A2) are hinged together, and a track height adjusting mechanism (5) is further provided below the second segment (A22) and the fourth segment (A24) for adjusting the heights of the second segment (A22) and the fourth segment (A24).

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