CN209920342U - Automatic demoulding device for large rubber ring - Google Patents
Automatic demoulding device for large rubber ring Download PDFInfo
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- CN209920342U CN209920342U CN201920230510.6U CN201920230510U CN209920342U CN 209920342 U CN209920342 U CN 209920342U CN 201920230510 U CN201920230510 U CN 201920230510U CN 209920342 U CN209920342 U CN 209920342U
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- outer ring
- pressing mechanism
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- 238000003825 pressing Methods 0.000 claims abstract description 79
- 238000004519 manufacturing process Methods 0.000 abstract description 3
- 238000000034 method Methods 0.000 description 3
- 125000006850 spacer group Chemical group 0.000 description 3
- 238000001125 extrusion Methods 0.000 description 2
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical group [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
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Abstract
The utility model provides a large-scale rubber circle automatic demoulding device, it is used for deviating from the rubber circle of assembling between mould inner core and mould outer lane in order to realize the drawing of patterns. The automatic demoulding device for the large rubber ring comprises a base, a center ejection mechanism, a rubber ring pressing mechanism, a left outer ring pressing mechanism and a right outer ring pressing mechanism, wherein the center ejection mechanism, the rubber ring pressing mechanism, the left outer ring pressing mechanism and the right outer ring pressing mechanism are installed on the base. The central ejection mechanism comprises an ejection oil cylinder of which the bottom is connected to the middle part of the base, and the top of the ejection oil cylinder is connected with a circular central ejection plate. The rubber ring pressing mechanism comprises a plurality of press-fitting wedge blocks which are connected to the upper surface of the central ejector plate and can slide inwards and outwards along the radial direction. The left outer ring pressing mechanism and the right outer ring pressing mechanism are symmetrically arranged on the left side and the right side of the central ejection mechanism and can slide towards or away from the ejection mechanism along the radial direction. The utility model discloses can realize the automatic drawing of patterns to large-scale rubber circle to show the drawing of patterns efficiency that has promoted the rubber circle, reduced manufacturing cost.
Description
Technical Field
The utility model relates to a drawing of patterns equipment, especially an automatic shedder of large-scale rubber circle.
Background
The rubber ring is generally formed by heating, pressurizing and vulcanizing a die, the rubber ring die generally comprises an upper die, a lower die, a middle movable die, a removable outer die ring, an inner die core and the like, and an extrusion die cavity of the rubber ring is formed between the outer die ring and the inner die core. As shown in fig. 1, after the extrusion molding of the rubber ring is completed, the rubber ring 300 is still fastened between the outer mold ring 200 and the inner mold core 100, and thus, the mold is released to separate the three. For some small rubber rings, the rubber rings and the dies are light in weight, and the manual demolding operation is not difficult. However, for some large rubber rings, the weight of the mold and the rubber ring reaches dozens or even hundreds of kilograms, and the manual demolding is difficult to meet the production requirement.
In view of the above, there is a need to develop an automatic demolding device for large rubber rings, which can realize automatic demolding, so as to meet the demolding requirement of large rubber rings.
SUMMERY OF THE UTILITY MODEL
In order to realize the above object, the utility model provides a large-scale rubber circle automatic demoulding device, its automatic drawing of patterns to the rubber circle can be realized to it, its technical scheme as follows:
the utility model provides a large-scale rubber circle automatic demoulding device, its rubber circle that is used for assembling between mould inner core and mould outer lane is deviate from in order to realize the drawing of patterns, its characterized in that, large-scale rubber circle automatic demoulding device includes:
a base;
the central ejection mechanism comprises an ejection oil cylinder of which the bottom is connected to the middle part of the base, the top of the ejection oil cylinder is connected with a circular central ejection plate, the diameter of the central ejection plate is matched with the outer diameter of the inner core of the die, and the ejection oil cylinder is used for driving the central ejection plate to move up and down;
the rubber ring pressing mechanism comprises a plurality of press-fitting wedges connected to the upper surface of the central ejector plate, the press-fitting wedges can slide inwards and outwards along the radial direction, and when the press-fitting wedges slide outwards, parts of the press-fitting wedges can extend out of the outer side of the central ejector plate to press the rubber ring to be demoulded;
the left outer ring pressing mechanism and the right outer ring pressing mechanism are symmetrically arranged on two sides of the central ejection mechanism and can slide towards or away from the central ejection mechanism along the radial direction, and when the left outer ring pressing mechanism and the right outer ring pressing mechanism slide towards the central ejection mechanism, the left outer ring pressing mechanism and the right outer ring pressing mechanism can press the outer ring of the die from two sides.
As a further improvement of the utility model, still be provided with on the base respectively with left outer lane hold-down mechanism reaches left driving cylinder and right driving cylinder that right side outer lane hold-down mechanism connects, wherein: the left driving oil cylinder is used for driving the left outer ring pressing mechanism to move towards or away from the central ejection mechanism along the radial direction to slide, and the right driving oil cylinder is used for driving the right outer ring pressing mechanism to move towards or away from the central ejection mechanism along the radial direction to slide.
As a further improvement, the left outer ring hold-down mechanism includes left sliding block, left guide arm, left clamp plate, wherein: the left sliding block is connected to the base in a sliding mode and is connected with the left driving oil cylinder, the left guide rod is vertically connected to the left sliding block, and the left pressing plate is sleeved on the left guide rod; right outer lane hold-down mechanism includes right sliding block, right guide arm, right clamp plate, wherein: the right sliding block is connected to the base in a sliding mode and is connected with the right driving oil cylinder, the right guide rod is vertically connected to the right sliding block, and the right pressing plate is sleeved on the right guide rod; when the left sliding block and the right sliding block slide towards the central ejection mechanism, the left pressing plate and the right pressing plate press the outer ring of the die downwards from two sides.
As a further improvement, the center liftout plate is provided with still a plurality of with the voussoir driving cylinder of a plurality of pressure equipment voussoir one-to-ones, voussoir driving cylinder is used for the drive to correspond the pressure equipment voussoir slides along radially inside and outside.
As a further improvement, both sides are equipped with an outer lane mechanism of pushing up respectively around central ejection mechanism, outer lane mechanism of pushing up includes: the outer ring upward jacking oil cylinder is connected with an outer ring upward jacking module at the top of the outer ring upward jacking oil cylinder, and the outer ring upward jacking oil cylinder is used for driving the outer ring upward jacking module to move up and down.
As a further improvement, the rubber ring hold-down mechanism includes four the pressure equipment voussoir, four the pressure equipment voussoir is arranged along circumference equidistance on the central liftout plate.
Compared with the prior art, the utility model discloses can realize the automatic drawing of patterns to large-scale rubber circle to show the drawing of patterns efficiency that has promoted the rubber circle, reduced manufacturing cost.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings which are needed in the embodiments and are practical will be briefly described below and will be obvious, the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts. Wherein,
FIG. 1 is an assembly view of a rubber ring to be demolded, a mold inner core and a mold outer ring;
fig. 2 is a schematic front view of an embodiment of the present invention;
fig. 3 is a schematic top view of another embodiment of the present invention.
Detailed Description
In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.
Referring to fig. 2, the present invention provides an automatic demolding device for large rubber rings, which comprises a base 1, a central ejection mechanism, a rubber ring pressing mechanism, a left outer ring pressing mechanism 2, a right outer ring pressing mechanism 3, and other components. Wherein:
the central ejection mechanism comprises an ejection oil cylinder 7, the bottom of the ejection oil cylinder 7 is connected to the middle of the base 1, the top of the ejection oil cylinder 7 is connected with a circular central ejection plate 6, the diameter of the central ejection plate 6 is matched with the outer diameter of the inner core of the die, and the ejection oil cylinder 7 is used for driving the central ejection plate 6 to move up and down.
The rubber ring pressing mechanism comprises a plurality of press-fitting wedge blocks 8 connected to the upper surface of the central ejector plate 6, the press-fitting wedge blocks 8 can slide inwards and outwards along the radial direction, and when the press-fitting wedge blocks 8 slide outwards, parts of the press-fitting wedge blocks can extend out of the outer side of the central ejector plate 6 to press the rubber ring to be separated. Further, a plurality of wedge driving oil cylinders (not marked) corresponding to the plurality of press-fitting wedges 8 one by one are further arranged on the central ejector plate 6, and the wedge driving oil cylinders are used for driving the corresponding press-fitting wedges 8 to slide inwards and outwards along the radial direction.
In some preferred embodiments, the rubber ring pressing mechanism comprises four press-fitting wedges 8, and the four press-fitting wedges 8 are arranged on the central ejector plate 6 in a cross shape at equal intervals along the circumferential direction.
The left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3 are symmetrically arranged on the left side and the right side of the central ejection mechanism and can slide towards or away from the central ejection mechanism along the radial direction. When the left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3 synchronously slide towards the center ejection mechanism, the left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3 can press the outer ring of the mold from two sides.
As shown in fig. 2, in order to drive the left rubber ring pressing mechanism 2 and the right outer ring pressing mechanism 3 to slide, in this embodiment, the base 1 is further provided with a left driving cylinder 4 and a right driving cylinder 5 respectively connected to the left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3, wherein: the left driving oil cylinder 4 is used for driving the left outer ring pressing mechanism 2 to slide towards or away from the central ejection mechanism along the radial direction, and the right driving oil cylinder 5 is used for driving the right outer ring pressing mechanism 3 to slide towards or away from the central ejection mechanism along the radial direction.
With continued reference to fig. 2, in this embodiment, the left outer ring pressing mechanism 2 includes a left sliding block 2a, a left guide bar 2b, and a left pressing plate 2c, wherein: the left sliding block 2a is connected to the base 1 through a radially arranged linear sliding rail in a sliding mode and connected with the left driving oil cylinder 4, the left guide rod 2b is vertically connected to the left sliding block 2a, and the left pressing plate 2c is connected to the left guide rod 2b in a sleeved mode. Right side outer lane hold-down mechanism 3 then includes right sliding block 3a, right guide arm 3b, right clamp plate 3c, wherein: the right sliding block 3a is connected to the base 1 through a radially arranged linear sliding rail in a sliding manner, the right driving oil cylinder 5 is connected to the right sliding block 3a, the right guide rod 3b is vertically connected to the right sliding block 3a, and the right pressing plate 3c is sleeved on the right guide rod 3 b. When the left sliding block 2a and the right sliding block 3a are driven by the left driving oil cylinder 4 and the right driving oil cylinder 5 to synchronously slide towards the central ejection mechanism, the left pressing plate 2c and the right pressing plate 3c can downwards press the outer ring of the mold from two sides.
In some preferred embodiments, the left pressing plate 2c and the right pressing plate 3c can move up and down along the left guide rod 2b and the right guide rod 3b respectively to adjust the height of the left pressing plate and the right pressing plate in the vertical direction, so that the pressing of the outer rings of the molds with different thicknesses can be met.
With reference to fig. 2 and fig. 1, the demolding operation principle of the automatic large rubber ring demolding device in this embodiment is as follows:
adjusting before demolding: the central ejector plate 6 is driven by the ejector oil cylinders 7 to move downwards to the lower limit position, and each wedge block driving oil cylinder drives each press-fitting wedge block 8 to slide in the radial direction so as to be completely retracted to the upper surface of the central ejector plate 6. The left and right pressing plates 2c and 3c are adjusted to appropriate positions according to the thickness of the mold outer ring 200, and a spacer (not shown) for supporting the mold outer ring 200 is placed at an appropriate position outside the center ejector mechanism, and the thickness of the spacer is thicker than that of the rubber ring 300.
Installing a rubber ring assembly part: placing a rubber ring assembly (shown in fig. 1) to be demolded on the central ejector plate 6 and ensuring that the mold inner core 100 is concentric with the central ejector plate 6, and then controlling the left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3 to synchronously move towards the central ejector mechanism until the left pressing plate 2c and the right pressing plate 3c are pressed downwards on the upper end surface of the mold outer ring 200.
And (3) demolding: the ejection cylinder 7 drives the central ejection plate 6 to move upward to an upper limit position, and in the process, the central ejection plate 6 is ejected upward into the rubber ring 300 to eject the mold core 100 out of the rubber ring 300, and the mold core 100 is removed. Next, each of the wedge driving cylinders drives each of the press-fitting wedges 8 to slide radially inward and outward until each of the press-fitting wedges 8 presses against the upper end surface of the rubber ring 300. At this time, the ejection cylinder 7 drives the central ejection plate 6 to move downward so as to drive each press-fitting wedge 8 to extrude the rubber ring 300 downward, and under the pushing of each press-fitting wedge 8, the rubber ring 300 and the outer ring 200 synchronously move downward until the outer ring 200 of the mold is supported on the cushion block. The ejection oil cylinder 7 continues to drive the central ejection plate 6 to move downwards, and the rubber ring 300 continues to move downwards relative to the outer ring 200 of the mold until the rubber ring falls on the base 1, so that the demolding of the rubber ring 200 is completed.
In some preferred embodiments, in order to prevent the press-fitting wedge 8 from crushing the upper end surface of the rubber ring 300 during the demolding, an annular iron ring is previously covered on the upper end surface of the rubber ring 300 to protect the rubber ring 300 before demolding.
Referring to fig. 3, in some preferred embodiments, an outer ring pushing mechanism is respectively disposed on front and rear sides of the central pushing mechanism, and the outer ring pushing mechanism includes: the outer ring upward jacking oil cylinder (not shown) is connected with an outer ring upward jacking module 9 at the top of the outer ring upward jacking oil cylinder, and the outer ring upward jacking oil cylinder is used for driving the outer ring upward jacking module 9 to move up and down.
After the rubber ring assembly is mounted on the demolding device, the lower end face of the mold outer ring 200 of the rubber ring assembly is supported on the upper end face of the outer ring upper ejector module 9, and the upper end face of the mold outer ring 200 of the rubber ring assembly is pressed by the left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3. It can be seen that in these preferred embodiments, the support and positioning of the outer ring 200 of the mold can be accomplished without the need for additional spacer blocks. In the demolding implementation process, when the separation of the mold outer ring 200 and the rubber ring 300 is realized, the outer ring upper ejection oil cylinder can push the outer ring upper ejection module 9 to upwards extrude the mold outer ring 200, so that the central ejection plate 6 can more easily realize the demolding of the mold outer ring 200.
In some preferred embodiments, in order to facilitate the clamping of the mold outer ring 200 by the left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3 and the support of the mold outer ring 200 by the outer ring top module 10, a plurality of outwardly protruding pressing lugs may be prefabricated at the periphery of the outer ring 200. In the demolding process, the pressing plates on the left outer ring pressing mechanism 2 and the right outer ring pressing mechanism 3 respectively press one pressing lug, and the outer ring upper ejection module 10 respectively upwards ejects one pressing lug.
The invention has been described above with a certain degree of particularity and detail. It will be understood by those of ordinary skill in the art that the description of the embodiments is merely exemplary and that all changes that may be made without departing from the true spirit and scope of the present invention are intended to be within the scope of the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments.
Claims (6)
1. The utility model provides a large-scale rubber circle automatic demoulding device, its rubber circle that is used for assembling between mould inner core and mould outer lane is deviate from in order to realize the drawing of patterns, its characterized in that, large-scale rubber circle automatic demoulding device includes:
a base;
the central ejection mechanism comprises an ejection oil cylinder of which the bottom is connected to the middle part of the base, the top of the ejection oil cylinder is connected with a circular central ejection plate, the diameter of the central ejection plate is matched with the outer diameter of the inner core of the die, and the ejection oil cylinder is used for driving the central ejection plate to move up and down;
the rubber ring pressing mechanism comprises a plurality of press-fitting wedges connected to the upper surface of the central ejector plate, the press-fitting wedges can slide inwards and outwards along the radial direction, and when the press-fitting wedges slide outwards, parts of the press-fitting wedges can extend out of the outer side of the central ejector plate to press the rubber ring to be demoulded;
the left outer ring pressing mechanism and the right outer ring pressing mechanism are symmetrically arranged on two sides of the central ejection mechanism and can slide towards or away from the central ejection mechanism along the radial direction, and when the left outer ring pressing mechanism and the right outer ring pressing mechanism slide towards the central ejection mechanism, the left outer ring pressing mechanism and the right outer ring pressing mechanism can press the outer ring of the die from two sides.
2. The automatic demolding device for the large-sized rubber ring according to claim 1, wherein: still be provided with on the base respectively with left side outer lane hold-down mechanism reaches left drive hydro-cylinder and right drive hydro-cylinder that right side outer lane hold-down mechanism connects, wherein: the left driving oil cylinder is used for driving the left outer ring pressing mechanism to move towards or away from the central ejection mechanism along the radial direction to slide, and the right driving oil cylinder is used for driving the right outer ring pressing mechanism to move towards or away from the central ejection mechanism along the radial direction to slide.
3. The automatic demolding device for the large-sized rubber ring according to claim 2, wherein:
left side outer lane hold-down mechanism includes left sliding block, left guide arm, left clamp plate, wherein: the left sliding block is connected to the base in a sliding mode and is connected with the left driving oil cylinder, the left guide rod is vertically connected to the left sliding block, and the left pressing plate is sleeved on the left guide rod;
right outer lane hold-down mechanism includes right sliding block, right guide arm, right clamp plate, wherein: the right sliding block is connected to the base in a sliding mode and is connected with the right driving oil cylinder, the right guide rod is vertically connected to the right sliding block, and the right pressing plate is sleeved on the right guide rod;
when the left sliding block and the right sliding block slide towards the central ejection mechanism, the left pressing plate and the right pressing plate press the outer ring of the die downwards from two sides.
4. The automatic demolding device for the large-sized rubber ring according to claim 1, wherein a plurality of wedge driving oil cylinders corresponding to the press-fitting wedges in a one-to-one manner are further arranged on the central ejector plate, and the wedge driving oil cylinders are used for driving the corresponding press-fitting wedges to slide inwards and outwards in a radial direction.
5. The automatic demolding device for the large rubber ring as claimed in claim 1, wherein an outer ring jacking mechanism is respectively arranged on the front side and the rear side of the central jacking mechanism, and the outer ring jacking mechanism comprises: the outer ring upward jacking oil cylinder is connected with an outer ring upward jacking module at the top of the outer ring upward jacking oil cylinder, and the outer ring upward jacking oil cylinder is used for driving the outer ring upward jacking module to move up and down.
6. The automatic large rubber ring demolding device as claimed in claim 1, wherein the rubber ring pressing mechanism comprises four press-fitting wedges, and the four press-fitting wedges are circumferentially arranged on the central ejector plate at equal intervals.
Priority Applications (1)
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CN201920230510.6U CN209920342U (en) | 2019-02-25 | 2019-02-25 | Automatic demoulding device for large rubber ring |
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CN201920230510.6U CN209920342U (en) | 2019-02-25 | 2019-02-25 | Automatic demoulding device for large rubber ring |
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CN201920230510.6U Expired - Fee Related CN209920342U (en) | 2019-02-25 | 2019-02-25 | Automatic demoulding device for large rubber ring |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112848017A (en) * | 2021-02-09 | 2021-05-28 | 宜兴市灵谷塑料设备有限公司 | Block demoulding equipment of pump body plastic mould pressing mould |
-
2019
- 2019-02-25 CN CN201920230510.6U patent/CN209920342U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112848017A (en) * | 2021-02-09 | 2021-05-28 | 宜兴市灵谷塑料设备有限公司 | Block demoulding equipment of pump body plastic mould pressing mould |
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Granted publication date: 20200110 |
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