CN205522143U - O type circle forming die - Google Patents

Abstract

The utility model provides a O type circle forming die belongs to mould technical field. It has solved the current problem that the O type circle forming die die sinking is inconvenient, the cost of labor is high. This O type circle forming die, including fixed die plate and the two block at least upper and lower movable mould boards of superpose on the fixed die plate, about fixed die plate and the movable mould board adjacent with the fixed die plate and two blocks of adjacent movable mould boards the surface each other the laminating form the die cavity, every movable mould board both sides have the clamping part that is the bar of outstanding movable mould board side respectively, the thickness of clamping part is less than movable mould plate thickness and clamping part and is close to and corresponds movable mould board upper surface and make between fixed die plate and the adjacent movable mould board and form the centre gripping breach between two blocks of adjacent movable mould boards. This O type circle forming die is through setting up clamping part and centre gripping breach for this O type circle forming die can be applicable to the automatic die sinking of machinery, need not the artifical die sinking of rethread, has reduced workman's intensity of labour, has reduced the cost of labor.

Description

A kind of O mould

Technical field

This utility model belongs to technical field of mold, relates to a kind of O mould.

Background technology

O be a kind of cross section be circular rubber seal, be widely used in all kinds of plant equipment, for the sealing of liquids and gases.O, in temperature, pressure and the different liquids and gases media of regulation, can play sealing function under static or kinestate.

The O mould that generally uses of O is processed, existing O mould, such as, and Chinese patent [application number 200820038631.2；Authorization Notice No. CN201366771Y] disclosed in a kind of O double-layer die structure, include upper die and lower die, multiple O die cavity it is formed with between upper die and lower die, upper die and lower die are respectively arranged with two, respectively constitute first, second group of mould, wherein the lower mold of first group of mould is fixedly mounted on the upper surface of second group of upper mould, upper mold lower surface or/and the lower mold upper surface that coordinates with it is provided with a bracer, upper mold and lower mold formed after involutory flow freely for sizing material and with the gap of O die cavity UNICOM.The lower mold of first group of mould is separately installed with electric heating tube in the upper mold of second group of mould.The lower mold both sides of second group of mould are separately installed with row's roller.

Above-mentioned O double-layer die structure by arranging two groups of moulds, the O of simultaneous manufacturing more, improve production efficiency.But, this O double-layer die structure has problems in that, is limited by multiple layers of molds structure, and during mould die sinking, template successively takes out difficulty, adds the difficulty of blanking, and the blanking time is longer；After blanking completes, the assembling of template difficulty so that mould required time of again putting into production is longer；The steps such as the cycle that these problems result in whole processing and forming is longer, die sinking also need to manual operation and complete, and cost of labor is higher, all limit the further raising of production efficiency.

Summary of the invention

The purpose of this utility model is to there are the problems referred to above for existing technology, it is proposed that a kind of O mould, and this utility model solves the technical problem that the moving platen being how to make O mould is easier to by lifting equipment lifting implementation die sinking.

The purpose of this utility model can be realized by following technical proposal: a kind of O mould, including solid plate, it is characterized in that, described O mould also includes about at least two pieces moving platens being stacked on solid plate, described solid plate and the moving platen adjacent with solid plate and adjacent two pieces of moving platen upper and lower surfaces can formation die cavities bonded to each other, every piece of moving platen both sides are respectively provided with the clamping part in bar shaped of prominent moving platen side, the thickness of described clamping part makes to be formed between solid plate and adjacent moving platen and between adjacent two pieces of moving platens clamping breach less than the thickness of moving platen and clamping part near corresponding moving platen upper surface.

This O mould, in order to produce more O in a molding process, is stacked in up and down on solid plate by least two moving platen and forms at least two group die cavities.The innovation of this O mould is, by arranging clamping part in moving platen both sides, mechanical lift equipment stretches into the clamping breach between solid plate and adjacent moving platen and between adjacent two pieces of moving platens, and act on the holder portion, promote respectively to realize automatic die sinking by every piece of moving platen.Further, clamping part can be as supporting construction to realize the location of moving platen after lifting.This O mould can be applicable to machine automatization die sinking, saves time cost and the Financial cost of artificial die sinking, improves O production efficiency.

In above-mentioned O mould, described O mould also includes the location structure that solid plate and the moving platen adjacent with solid plate and adjacent two pieces of moving platens can be made to be mutually aligned.After arranging location structure and making die sinking, the position of solid plate and moving platen is more accurate, it is not necessary to rearranges mould again and i.e. can be used for processing next time, shortens the time before processing, improve working (machining) efficiency.

In above-mentioned O mould, described location structure includes the multiple positioning convex bodies being positioned at moving platen lower surface, described positioning convex body be head be the pyramidal structure of circular arc, described positioning convex body is arranged in the die cavity both sides near clamping part respectively along the direction being parallel to moving platen side, described moving platen upper surface has the hole, location one arranged with positioning convex body one_to_one corresponding, and each positioning convex body on described moving platen can insert in hole, location one corresponding on adjacent moving platen；Described location structure also includes the hole, location two being positioned at solid plate upper surface and arranging with the positioning convex body one_to_one corresponding on moving platen, and each positioning convex body on the moving platen adjacent with solid plate can insert in the hole, location two on solid plate.When moving platen assembles, positioning convex body is that the head of circular arc can first be found the hole one, location of correspondence accurately or position the position in hole two, along with the close positioning convex body of position gradually stretches into the hole, location one of correspondence or positions in hole two so that all moving platens and solid plate are accurately positioned.

Alternatively, in above-mentioned O mould, described location structure includes the positioning step one being positioned at moving platen upper surface and is positioned at the locating notch of moving platen lower surface, described positioning step one is concordant with moving platen lateral surface, described locating notch extends to moving platen side the most right with positioning step one position, and the positioning step one on described moving platen can snap in the locating notch on adjacent moving platen；Described location structure also includes the positioning step two being positioned at solid plate upper surface, and described positioning step two is concordant with solid plate lateral surface, and the positioning step two on described solid plate can snap in the locating notch on adjacent moving platen.Positioning step one and locating notch can directly process on moving platen, and positioning step two can directly process on solid plate, and the structure of moving platen and solid plate is the simplest, save the processing cost of O mould.

In above-mentioned O mould, the thickness of described clamping part is 3mm～8mm.

As preferably, in above-mentioned O mould, the thickness of described clamping part is 5mm.

Design by the thickness to clamping part so that clamping part can preferably be played a supporting role in lifting and the location of moving platen.

In above-mentioned O mould, described clamping part lateral surface is 5mm～15mm with the distance of moving platen lateral surface.

As preferably, in above-mentioned O mould, described clamping part lateral surface is 10mm with the distance of moving platen lateral surface.

Such design makes the degree of depth clamping breach more particularly suitable, and in lifting process, mechanical lift equipment can more easily stretch in clamping breach and act on the holder portion, it is to avoid stuck situation occurs, makes die sinking more smoothly.

Compared with prior art, the advantage of this O mould is, by arranging clamping part and clamping breach, make this O mould can be applicable to machine automatization die sinking, without again by artificial die sinking, decreasing the labor intensity of workman, reduce cost of labor.

Accompanying drawing explanation

Fig. 1 is the assembling structure schematic front view of this O mould.

Fig. 2 is the partial enlarged drawing in Fig. 1 at A.

Fig. 3 is the assembling structure schematic top plan view of this O mould.

In figure, 1, solid plate；11, hole two, location；2, moving platen；21, clamping part；22, positioning convex body；23, hole one, location；3, die cavity；4, clamping breach；5, installing plate.

Detailed description of the invention

The following is specific embodiment of the utility model and combine accompanying drawing, the technical solution of the utility model is further described, but this utility model is not limited to these embodiments.

Embodiment one:

This O mould, including solid plate 1, moving platen 2, die cavity 3, clamping part 21 and clamping breach 4.

Specifically, as shown in figs. 1 and 3, solid plate 1 is arranged on installing plate 5.In the present embodiment, the quantity of moving platen 2 is 5 pieces, moving platen about 2 is stacked on solid plate 1, solid plate 1 and the moving platen 2 adjacent with solid plate 1 and adjacent two pieces of moving platen 2 upper and lower surfaces can formation die cavities 3 bonded to each other so that die cavity 3 quantity that can be practical in simultaneous manufacturing is greatly increased.In actual production and manufacture process, the quantity of moving platen 2 is at least two pieces.

As depicted in figs. 1 and 2, every piece of moving platen 2 both sides are respectively provided with the clamping part 21 in bar shaped of prominent moving platen 2 side, clamping part 21 extends along the side of moving platen 2, and the thickness of clamping part 21 is less than close corresponding moving platen 2 upper surface of the thickness of moving platen 2 and clamping part 21.In the present embodiment, the lateral surface of solid plate 1 is concordant with the lateral surface of the clamping part 21 on moving platen 2, every piece of moving platen 2 side all only one of which clamping part 21.Between the clamping breach 4 clamping part 21 lower surface and solid plate 1 upper surface on moving platen 2 of solid plate 1 and the moving platen 2 adjacent with solid plate 1, the clamping breach 4 of adjacent two pieces of moving platens 2 is between clamping part 21 lower surface and the upper surface of another clamping part 21.There is clamping part 21, stretched into the clamping breach 4 between solid plate 1 and adjacent moving platen 2 and between adjacent two pieces of moving platens 2 by existing mechanical lift equipment, and act on clamping part 21, promote respectively to realize automatic die sinking by every piece of moving platen 2.Such as, employing arranges the embodiment of mechanical hand in both sides.Further, clamping part 21 can be as supporting construction to realize the location of moving platen 2 after lifting.

Preferably, the thickness of clamping part 21 is 5mm, and clamping part 21 lateral surface is 10mm with the distance of moving platen 2 lateral surface.In actual production and manufacture process, the thickness of clamping part 21 is 3mm～8mm, and clamping part 21 lateral surface is 5mm～15mm with the distance of moving platen 2 lateral surface, it is also possible to make mechanical lift equipment can be easier to lifting and location moving platen 2.

As depicted in figs. 1 and 2, this O mould also includes the location structure that solid plate 1 and adjacent moving platen 2 and adjacent two pieces of moving platens 2 can be made to be mutually aligned.In the present embodiment, location structure includes the multiple positioning convex bodies 22 being positioned at moving platen 2 lower surface, positioning convex body 22 be head be the pyramidal structure of circular arc, positioning convex body 22 is arranged in the die cavity 3 both sides near clamping part 21 respectively along the direction being parallel to moving platen 2 side, moving platen 2 upper surface has the hole, location 1 arranged with positioning convex body 22 one_to_one corresponding, and each positioning convex body 22 on moving platen 2 can insert in hole, location 1 corresponding on adjacent moving platen 2.Location structure also includes the hole, location 2 11 being positioned at solid plate 1 upper surface and arranging with positioning convex body 22 one_to_one corresponding on moving platen 2, the each positioning convex body 22 moving platen 2 on adjacent with solid plate 1 can insert in the hole, location 2 11 on solid plate 1, it is ensured that adjacent moving platen 2 and moving platen 2 and solid plate 1 are accurately positioned.

Embodiment two:

Technical scheme in the present embodiment is essentially identical with the technical scheme in embodiment one, difference is, in the present embodiment, location structure includes the positioning step one being positioned at moving platen 2 upper surface and is positioned at the locating notch of moving platen 2 lower surface, positioning step one is concordant with moving platen 2 lateral surface, locating notch extends to moving platen 2 side the most right with positioning step one position, and the positioning step one on moving platen 2 can snap in the locating notch on adjacent moving platen 2.Location structure also includes the positioning step two being positioned at solid plate 1 upper surface, and positioning step two is concordant with solid plate 1 lateral surface, and the positioning step two on solid plate 1 can snap in the locating notch on adjacent moving platen 2.Positioning step one and locating notch can directly process on moving platen 2, and positioning step two can directly process on solid plate 1, and the structure of moving platen 2 and solid plate 1 is the simplest, save the processing cost of O mould.

Specific embodiment described herein is only to this utility model spirit explanation for example.Described specific embodiment can be made various amendment or supplements or use similar mode to substitute by this utility model person of ordinary skill in the field, but without departing from spirit of the present utility model or surmount scope defined in appended claims.

Although the most more employing solid plate 1, hole 2 11, location, moving platen 2, clamping part 21, positioning convex body 22, hole 1, location, die cavity 3, the clamping term such as breach 4, installing plate 5, but it is not precluded from using the probability of other term.Use these terms to be only used to more easily and describe and explain essence of the present utility model；It is all contrary with this utility model spirit for being construed as any additional restriction.

Claims (8)

1. an O mould, including solid plate (1), it is characterized in that, described O mould also includes about at least two pieces moving platens (2) being stacked on solid plate (1), described solid plate (1) and the moving platen (2) adjacent with solid plate (1) and adjacent two pieces of moving platen (2) upper and lower surfaces can formation die cavities (3) bonded to each other, every piece of moving platen (2) both sides are respectively provided with the clamping part (21) in bar shaped of prominent moving platen (2) side, the thickness of described clamping part (21) makes to be formed between solid plate (1) and adjacent moving platen (2) and between adjacent two pieces of moving platens (2) clamping breach (4) less than the thickness of moving platen (2) and clamping part (21) near corresponding moving platen (2) upper surface.

O mould the most according to claim 1, it is characterized in that, described O mould also includes the location structure that solid plate (1) and the moving platen (2) adjacent with solid plate and adjacent two pieces of moving platens (2) can be made to be mutually aligned.

O mould the most according to claim 2, it is characterized in that, described location structure includes the multiple positioning convex bodies (22) being positioned at moving platen (2) lower surface, described positioning convex body (22) be head be the pyramidal structure of circular arc, described moving platen (2) upper surface has the hole, location one (23) arranged with positioning convex body (22) one_to_one corresponding, and each positioning convex body (22) on described moving platen (2) can insert in the upper corresponding hole, location one (23) of adjacent moving platen (2)；Described location structure also includes the hole, location two (11) being positioned at solid plate (1) upper surface and arranging with positioning convex body (22) one_to_one corresponding on moving platen (2), and each positioning convex body (22) moving platen (2) on adjacent with solid plate (1) can insert in the hole, location two (11) on solid plate (1).

O mould the most according to claim 2, it is characterized in that, described location structure includes the positioning step one being positioned at moving platen (2) upper surface and is positioned at the locating notch of moving platen (2) lower surface, described positioning step one is concordant with moving platen (2) lateral surface, described locating notch extends to moving platen (2) side the most right with positioning step one position, and the positioning step one on described moving platen (2) can snap in the locating notch on adjacent moving platen (2)；Described location structure also includes the positioning step two being positioned at solid plate (1) upper surface, described positioning step two is concordant with solid plate (1) lateral surface, and the positioning step two on described solid plate (1) can snap in the locating notch on adjacent moving platen (2).

O mould the most according to any one of claim 1 to 4, it is characterised in that the thickness of described clamping part (21) is 3mm～8mm.

O mould the most according to claim 5, it is characterised in that the thickness of described clamping part (21) is 5mm.

O mould the most according to any one of claim 1 to 4, it is characterised in that described clamping part (21) lateral surface is 5mm～15mm with the distance of moving platen (2) lateral surface.

O mould the most according to claim 7, it is characterised in that described clamping part (21) lateral surface is 10mm with the distance of moving platen (2) lateral surface.