CN204584071U - The cooling water channel structure of forming blocks in heat pressing and molding mold - Google Patents

Abstract

The utility model relates to the cooling field of forming blocks, disclose the cooling water channel structure of forming blocks in a kind of heat pressing and molding mold, the bottom surface of multiple forming blocks (1) all offers the R type groove (11) running through its two ends, the plate (2) identical with forming blocks (1) quantity all matches with the size of each R type groove (11) and is inserted in each R type groove (11), and the gap between the end face of each plate (2) and each R type groove (11) forms each independently cooling water channel, each forming blocks (1) and each plate (2) are all connected and fixed with installation backing plate (3), in the upper position corresponding with the two ends of each cooling water channel of installation backing plate (3), separate inlet opening (31) and apopore (32) are set respectively, and between each inlet opening, all be communicated with between each apopore.Compared with prior art, the utility model can effectively prevent mounting mat plate benging to be out of shape under the prerequisite not affecting cooling effect, mould is produced more stable.

Description

The cooling water channel structure of forming blocks in heat pressing and molding mold

Technical field

The utility model relates to the cooling field of forming blocks, particularly the cooling water channel structure of forming blocks in a kind of heat pressing and molding mold.

Background technology

In heat pressing and molding mold field, it is generally the groove first going out to run through two ends, bottom surface at the bottom surface processing and fabricating of forming blocks to the cooling of forming blocks, then processing and fabricating goes out the plate matched with groove size and inserts in this groove, gap between plate end face and groove forms cooling water channel, then all forming blocks and plate being all fixed on same thickness is about on the installation backing plate of 80 ~ 100mm, intake tunnel and the exhalant canal of cooling water is dug out respectively in the inside, installation backing plate both sides of corresponding position, cooling water channel two ends, cooling water cools rear arrival exhalant canal along cooling water channel to forming blocks after entering installation backing plate by intake tunnel and discharges.

Because above-mentioned intake tunnel and exhalant canal are overall structure, namely all cooling water channels share intake tunnel and the exhalant canal of a strip, like this in order to dig out the intake tunnel and exhalant canal that can ensure cooling water proper flow, just need comparatively large thicker installation backing plate, otherwise backing plate itself is installed be very easy to occur bending and deformation, the flatness of backing plate both sides installed surface is installed in impact, and then affects the stability of mould production.

Utility model content

utility model object:for problems of the prior art, the utility model provides the cooling water channel structure of forming blocks in a kind of heat pressing and molding mold, can effectively prevent mounting mat plate benging to be out of shape under the prerequisite not affecting cooling effect, mould is produced more stable.

technical scheme:the utility model provides the cooling water channel structure of forming blocks in a kind of heat pressing and molding mold, comprise multiple forming blocks, the plate equal with described forming blocks quantity and one install backing plate, the bottom surface of each described forming blocks all offers the R type groove running through its two ends, the size of each described plate and each described R type groove all matches and is inserted in each described R type groove, and the gap between the end face of each described plate and each described R type groove forms each independently cooling water channel, each described forming blocks and each described plate are all connected and fixed with described installation backing plate, position corresponding with the two ends of each described cooling water channel on described installation backing plate arranges separate inlet opening and apopore respectively, and between each inlet opening, all be communicated with between each apopore.

Further, the bottom surface of each described forming blocks and the bottom surface of each plate in same level, and are sealedly connected and fixed between the upper surface of the bottom surface of each described plate and described installation backing plate.Plate bottom surface and install after the upper surface of backing plate is sealedly connected and fixed and can be effectively sealed in by cooling water channel between R type groove and plate end face, promotes cooling effect.

Further, the both sides, bottom surface of each described plate have chamfering, and are connected by welded seal at described chamfering place between the bottom surface of each described plate and the upper surface of described installation backing plate.Adopt common sealing strip to seal cooling water channel to plate and the sealing of installing between backing plate in prior art, and owing to needing the scope of sealing very large, the sealing strip causing needs to use is very long, and sealing strip itself is not a closed circle, need manually to bond the position of sealing strip splicing, easily cause and leak; And chamfering is offered in the both sides, bottom surface of the utility model centerboard, be connected carrying out welded seal between plate bottom surface with installation backing plate upper surface in the position of chamfering, so after welding the solder side of the two also can and the bottom surface of forming blocks between in same level, better to the sealing effectiveness of cooling water channel.

Preferably, be connected and fixed by trip bolt between each described forming blocks and described installation backing plate.

Preferably, be sealedly connected and fixed between the bottom surface of each described forming blocks and the upper surface of described installation backing plate.Be tightly connected between the bottom surface of forming blocks and the upper surface installing backing plate the sealing be more beneficial to cooling water channel.

Preferably, be sealedly connected and fixed by O type circle between the bottom surface of each described forming blocks and the upper surface of described installation backing plate.First offer O type circle mounting groove at the upper surface installing backing plate, re-use O type circle and the two be tightly connected, and then use trip bolt to clench the two, clenching of trip bolt makes O type circle be sufficiently compressed to reach better sealing effectiveness.

Further, described installation backing plate is steel plate.

beneficial effect:each cooling water channel in the utility model is equal correspondence one independently inlet opening and apopore on installation backing plate, form separate waterway structure, in order to not affect flowing and the cooling effect of cooling water, each inlet opening, can be communicated with by various ways such as pipelines between each apopore, replace owing to the intake tunnel of entirety and exhalant canal to be used multiple inlet opening and apopore, make between multiple inlet opening and between multiple apopore, still have the linking of mounting mat plate material, so install backing plate not easily flexural deformation, the production stability of follow-up mould is higher.

Accompanying drawing explanation

Fig. 1 is top view of the present utility model;

Fig. 2 is upward view of the present utility model;

Fig. 3 is the sectional view in A-A face in Fig. 1;

Fig. 4 is the enlarged diagram in Fig. 3 in dashed circle S;

Fig. 5 is the sectional view in B-B face in Fig. 1;

Fig. 6 is the sectional view in C-C face in Fig. 1.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model preferred embodiment is described in detail.

Present embodiments provide for the cooling water channel structure of forming blocks in a kind of heat pressing and molding mold, as shown in Fig. 1 ~ 6, by eight forming blocks 1, the installation backing plate 3 of eight plates 2 and a steel forms, the bottom surface of each forming blocks 1 all offers the R type groove 11 that runs through two ends, each plate 2 is all inserted in R type groove 11, gap between the end face of plate 2 and R type groove 11 forms cooling water channel, the bottom surface of plate 2 and the bottom surface of forming blocks 1 are in same level, and plate 2 and forming blocks 1 are all fixed on installation backing plate 3, the position corresponding with each cooling water channel two ends on backing plate 3 is installed and offers independently inlet opening 31 and apopore 32 respectively, and be communicated with between each inlet opening 31, be communicated with between each apopore 32.

In order to be sealed by above-mentioned cooling water channel, be equipped with chamfering 21 in the both sides, bottom surface of plate 2, be connected and fixed by welded seal in chamfering 31 position between the bottom surface of plate 2 and installation backing plate 3, reach the effect of sealing cooling water channel with this; In addition, in order to seal cooling water channel further, O type circle mounting groove 33 has all been offered in installation each inlet opening 31 of backing plate 3 and the both sides of apopore 32, forming blocks 2 and installing is clenched by trip bolt 4 between backing plate 3 fixing before, O type circle 5 is added in O type circle mounting groove 33, and then trip bolt 4 is clenched, clenching of trip bolt 4 makes O type circle 5 be sufficiently compressed to reach forming blocks 1 and install better sealing effectiveness between backing plate 3, and then the sealing effectiveness of cooling water channel is better.

When using this structure to cool forming blocks 1, cooling water is injected from first inlet opening 31 of installing backing plate 3 left end, flow out through each apopore 32 after each inlet opening 31 flows through each cooling water channel according to the direction of arrow in figure, then flow out from last apopore 32 installing backing plate 3 right-hand member, complete the cooling to forming blocks 1.

Above-mentioned embodiment, only for technical conceive of the present utility model and feature are described, its object is to person skilled in the art can be understood content of the present utility model and implement according to this, can not limit protection domain of the present utility model with this.All equivalent transformations of doing according to the utility model Spirit Essence or modification, all should be encompassed within protection domain of the present utility model.

Claims (7)

1. the cooling water channel structure of forming blocks in a heat pressing and molding mold, it is characterized in that, comprise multiple forming blocks (1), the plate (2) equal with described forming blocks (1) quantity and one install backing plate (3), the bottom surface of each described forming blocks (1) all offers the R type groove (11) running through its two ends, each described plate (2) all matches with the size of each described R type groove (11) and is inserted in each described R type groove (11), and the gap between the end face of each described plate (2) and each described R type groove (11) forms each independently cooling water channel, each described forming blocks (1) and each described plate (2) are all connected and fixed with described installation backing plate (3), in the upper position corresponding with the two ends of each described cooling water channel of described installation backing plate (3), separate inlet opening (31) and apopore (32) are set respectively, and between each inlet opening, all be communicated with between each apopore.

2. the cooling water channel structure of forming blocks in heat pressing and molding mold according to claim 1, it is characterized in that, the bottom surface of each described forming blocks (1) and the bottom surface of each plate (2) in same level, and are sealedly connected and fixed between the upper surface of the bottom surface of each described plate (2) and described installation backing plate (3).

3. the cooling water channel structure of forming blocks in heat pressing and molding mold according to claim 2, it is characterized in that, the both sides, bottom surface of each described plate (2) have chamfering (21), and are connected by welded seal at described chamfering (21) place between the bottom surface of each described plate (2) with the upper surface of described installation backing plate (3).

4. in the heat pressing and molding mold according to any one of claim 1 ~ 3, the cooling water channel structure of forming blocks, is characterized in that, is connected and fixed between each described forming blocks (1) and described installation backing plate (3) by trip bolt (4).

5. the cooling water channel structure of forming blocks in heat pressing and molding mold according to claim 4, is characterized in that, be sealedly connected and fixed between the bottom surface of each described forming blocks (1) and the upper surface of described installation backing plate (3).

6. the cooling water channel structure of forming blocks in heat pressing and molding mold according to claim 5, is characterized in that, is sealedly connected and fixed between the bottom surface of each described forming blocks (1) and the upper surface of described installation backing plate (3) by O type circle (5).

7. in the heat pressing and molding mold according to any one of claim 1 ~ 3,5,6, the cooling water channel structure of forming blocks, is characterized in that, described installation backing plate (3) is steel plate.