CN218700893U - Diamond rope production mould - Google Patents

Abstract

The utility model discloses a buddha's warrior attendant rope production mould relates to mould technical field, including mould supporter, a pair of cooling chamber, first mould main part and second mould main part. The mould supporting body comprises an upper supporting body and a lower supporting body positioned right below the upper supporting body; a pair of cooling cavities are respectively arranged on the opposite surfaces of the upper supporting body and the lower supporting body; an installation caulking groove is arranged at the edge of each cooling cavity; the first die main body is detachably mounted in a mounting caulking groove on the upper support body; a plurality of injection ports are vertically arranged on the upper supporting body in a penetrating way. The utility model discloses a with the ingenious design of first mould main part, second mould main part on the mould supporter that comprises last supporter and under bracing body to the use in cooperation cooling chamber has effectively reduced the consumptive material cost that the mould was changed, has improved the shaping efficiency of diamond wire saw, and this application structure easily processes design and assembly simultaneously, and is comparatively practical.

Description

Diamond rope production mould

Technical Field

The utility model belongs to the technical field of the mould, especially, relate to a buddha's warrior attendant rope production mould.

Background

The diamond wire saw comprises a steel wire rope, beads and a spacer bush. The production of the diamond wire saw is that the beads are placed in the cavity through the die with the steel wire rope and the cavity for fixing the bead positions, the steel wire rope is penetrated, the steel wire rope is tensioned, and then slurry for forming the spacer sleeve is injected into the die cavity through the injection port to coat on the surface of the steel wire rope and fix the beads through the slurry.

The invention discloses a mould for producing a diamond wire saw and a using method thereof, wherein the mould for producing the diamond wire saw comprises a first template, a second template, a hot runner fixing plate, a hot runner and a cooling heat insulation plate from top to bottom, the first template and the second template are combined and connected, the bottom surface of the second template is detachably connected with the top surface of the hot runner fixing plate, a detachably connected hot runner is arranged in the inner cavity of the hot runner fixing plate, and the detachably connected cooling heat insulation plate is arranged on the bottom surface of the hot runner fixing plate; the use method of the die for producing the diamond wire saw product comprises the following steps: fixing the diamond wire saw, injection molding and die sinking forming. The die for producing the diamond wire saw and the hot runner are used simultaneously, so that the working efficiency is high, the adhesive property is high after the adhesive liquid is solidified, and the generation of waste materials is reduced.

In the die for producing the diamond wire saw, the adopted first die plate (upper die) and the second die plate (lower die) are mostly designed in an integrated mode, and the abrasion degree of a cavity at the edge of the die is large after the die is repeatedly processed, so that the die is frequently replaced for ensuring the quality of the wire saw, and for some areas (namely idle areas on the die) on the die for providing production matched with the diamond wire saw, the welding material cost of the die and the production cost of the diamond wire saw are increased when the whole die is replaced; simultaneously, in order to realize the rapid prototyping of diamond wire saw spacer, the cooling mode that above-mentioned a mould for producing diamond wire saw adopted all sets up the condenser tube that can dismantle the connection in first template, second template, hot runner fixed plate, hot runner and the cooling heat insulating board, and this mode has satisfied the rapid prototyping of diamond wire saw spacer of moulding plastics, but cooling structure cooperation design has increased the processing degree of difficulty and the maintenance degree of difficulty of cooling structure of this mould in the mould that is used for producing diamond wire saw.

Therefore, there is a strong need in the market for improved techniques to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a buddha's warrior attendant rope production mould through with the ingenious design of first mould main part, second mould main part on the mould supporter that comprises last supporter and under bracing body to the use of cooperation cooling chamber has effectively reduced the consumptive material cost that the mould was changed and the processing degree of difficulty of mould, has improved the shaping efficiency of diamond wire saw, and this application structure easily processes design and assembly simultaneously, and is comparatively practical, has solved current problem.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a buddha's warrior attendant rope production mould, include:

a mold support comprising an upper support and a lower support located directly below the upper support;

a pair of cooling cavities respectively provided on the opposing faces of the upper support and the lower support; an installation caulking groove is formed in the edge of each cooling cavity;

a first mold main body detachably mounted in a mounting caulking groove on the upper support; a plurality of injection ports are vertically formed in the upper support body in a penetrating mode, and the plurality of injection ports are communicated with the first mold main body;

and a second mold body detachably mounted in the mounting caulking groove of the lower support body.

Furthermore, a pair of cooling water connectors is fixedly arranged on two side faces of the upper supporting body and the lower supporting body in a penetrating mode, and the cooling water connectors are communicated with the cooling cavity.

Further, the first mold main body comprises a first mold plate, a first steel wire rope cavity, a first bead string cavity and a plurality of grouting pipes, wherein the first steel wire rope cavity is formed in the lower surface of the first mold plate and is used for a steel wire rope to pass through, the first bead string cavity is formed in the first steel wire rope cavity at intervals and used for placing bead strings, and the grouting pipes fixedly penetrate through the bottom of the first mold plate and are communicated with the first steel wire rope cavity;

the first template is detachably connected in the mounting embedded groove through screws.

Furthermore, the grouting pipe is movably inserted inside the injection port.

Furthermore, the second die body comprises a second die plate, a second steel wire rope cavity formed in the upper surface of the second die plate and used for the steel wire rope to pass through, and second bead cavities formed in the second steel wire rope cavity at intervals and used for placing beads.

Furthermore, the first template and the second template both extend into the cooling cavities corresponding to the upper support body and the lower support body, sealing gaskets are arranged at the bottoms of the edges of the first template and the second template, and the two sealing gaskets are respectively arranged in the two installation caulking grooves.

The utility model discloses following beneficial effect has:

the utility model discloses a design first mould main part, second mould main part ingenious on the mould supporter that comprises upper supporter and under bracing body, divide into four independent individuals independently promptly, first mould main part and second mould main part can satisfy the injection moulding of daily diamond rope saw spacer on the one hand, on the other hand first mould main part and second mould main part can be independently reliably dismantled and assembled at the mould supporter, effectively reduced the consumptive material cost that the mould was changed, the structure of this application is easy to process and assemble, it is comparatively practical; simultaneously, utilize the cooling chamber that sets up on the mould supporter, it improves the hidden dress that inlays of mould supporter space utilization realization first mould main part and second mould main part and when, can satisfy first mould main part and second mould main part spacer injection moulding's cooling, when improving diamond wire saw shaping efficiency, still improved the service function nature of this application scheme, structural design is reasonable, and convenient design and processing.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an exploded view of the whole of the present invention;

FIG. 2 is a bottom view of the upper support body of FIG. 1 according to the present invention;

fig. 3 is a schematic structural view of the first mold body of fig. 1 according to the present invention;

fig. 4 is a schematic structural view of the second mold body shown in fig. 1 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a mold support; 11. an upper support; 12. a lower support; 2. a cooling chamber; 3. installing an embedding groove; 4. a first mold body; 41. a first template; 42. a first steel wire rope cavity; 43. a first bead cavity; 44. a grouting pipe; 5. an injection port; 6. a second mold body; 61. a second template; 62. a second steel wire rope cavity; 63. a second bead cavity; 7. a cooling water joint; 8. a gasket seal.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-4, the present invention relates to a diamond rope production mold, which comprises a mold support 1, a pair of cooling cavities 2, a first mold main body 4 and a second mold main body 6; the existing diamond wire saw mainly comprises a steel wire rope, beads and a spacer bush;

the mold support 1 comprises an upper support 11 and a lower support 12 positioned right below the upper support 11; the upper support body 11 and the lower support body 12 can respectively provide connection and support for the first die main body 4 and the second die main body 6, so that the quality of the diamond wire saw is not influenced, and the lower loss rate can be roughly out of reach;

a pair of cooling chambers 2 are respectively provided on the opposing faces of the upper support body 11 and the lower support body 12; the edge of each cooling cavity 2 is provided with an installation caulking groove 3; a pair of cooling water connectors 7 are fixedly penetrated through the two side surfaces of the upper support body 11 and the lower support body 12, and the cooling water connectors 7 are communicated with the cooling cavity 2; the pair of cooling water connectors 7 corresponding to each cooling cavity 2 can be conveniently used for introducing cooling water and discharging the cooling water, and the water-cooling of the to-be-formed spacer bushes in the first die main body 4 and the second die main body 6 can be effectively realized by circulating the cooling water in the cooling cavities 2; the cooling cavity 2 is positioned on the upper support body 11 and the lower support body 12 and is easy to machine, so that the machining difficulty of the cooling cavity 2 is effectively reduced;

referring to fig. 3, the first mold body 4 is detachably mounted in the mounting caulking groove 3 of the upper support 11; the first mold body 4 comprises a first mold plate 41, a first steel wire rope cavity 42 formed in the lower surface of the first mold plate 41 and allowing a steel wire rope to pass through, a first bead stringing cavity 43 formed in the first steel wire rope cavity 42 at intervals and allowing beads to be placed, and a plurality of grouting pipes 44 fixedly penetrating through the bottom of the first mold plate 41 and communicated with the first steel wire rope cavity 42; the first template 41 is detachably connected in the mounting caulking groove 3 through screws;

a plurality of injection ports 5 are vertically arranged on the upper support body 11 in a penetrating manner, and the plurality of injection ports 5 are communicated with the first mold main body 4; the grouting pipe 44 is movably inserted inside the injection port 5;

specifically, after the first template 41 is installed in the installation caulking groove 3 of the upper support body 11 through a screw, the grouting pipe 44 can be inserted into the injection port 5 at this time, so that the slurry for subsequently injecting and molding the spacer through the injection port 5 flows out through the grouting pipe 44 and covers the surface of the steel wire rope;

referring to fig. 4, the second mold body 6 is detachably mounted in the mounting insert groove 3 of the lower support 12; the second die main body 6 comprises a second die plate 61, a second steel wire rope cavity 62 formed in the upper surface of the second die plate 61 and allowing a steel wire rope to pass through, and a second bead cavity 63 formed in the second steel wire rope cavity 62 at intervals and allowing beads to be placed;

specifically, after the second template 61 is installed in the installation caulking groove 3 of the lower support body 12, a plurality of beads are placed in the second bead cavity 63, the steel wire rope penetrates through the plurality of beads, the first template 41 and the second template 61 are matched through controlling the mold support body 1 to fix the beads, and finally, slurry for injecting the forming spacer through the injection port 5 flows out of the grouting pipe 44 and coats the surfaces of the steel wire rope in the first steel wire rope cavity 42 and the second steel wire rope cavity 62; when the spacer to be formed needs to be cooled, circulating cooling water can be input into the cooling cavities 2, and because the two cooling cavities 2 respectively belong to the wrapping type states for the first template 41 and the second template 61, the cooling efficiency of the spacer can be effectively accelerated, and the forming efficiency is improved; in this application scheme, also be provided with the groove that the cooperation wire rope chamber supplied wire rope to penetrate on the mould supporter 1.

It is worth explaining that, because the size utilization of the first mold main body 4 and the second mold main body 6 is maximized, the cost of the consumable materials is low, and meanwhile, because the mold supporting body 1 mainly serves as a supporting piece for the first mold main body 4 and the second mold main body 6 and is connected in a detachable mode, the mold supporting body 1 can effectively reduce the processing cost of the diamond rope saw when the first mold main body 4 or the second mold main body 6 is replaced subsequently under the condition that the mold supporting force of the first mold main body 4 and the second mold main body 6 is satisfied.

Further, the first template 41 and the second template 61 each extend into the cooling chamber 2 corresponding to the upper support 11 and the lower support 12; in this case, a gap is present between the first die plate 41 and the second die plate 61 corresponding to the cooling chamber 2, so as to allow cooling water to flow therethrough; the bottom parts of the edges of the first template 41 and the second template 61 are respectively provided with a sealing gasket 8, and the two sealing gaskets 8 are respectively arranged in the two installation caulking grooves 3; the sealing gasket 8 improves the tightness and tightness of the connection of the first template 41, the second template 61 and the mounting nest 3.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, and any modifications to the technical solutions recorded in the foregoing embodiments, and equivalent replacements to some of the technical features thereof, and any modifications, equivalent replacements, and improvements made belong to the protection scope of the present invention.

Claims (6)

1. A diamond wire production mould, which is characterized by comprising:

a mold support (1) comprising an upper support (11) and a lower support (12) located directly below the upper support (11);

a pair of cooling chambers (2) provided on the opposing faces of the upper support body (11) and the lower support body (12), respectively; an installation caulking groove (3) is formed in the edge of each cooling cavity (2);

a first mold main body (4) which is detachably mounted in a mounting caulking groove (3) of the upper support body (11); a plurality of injection ports (5) vertically penetrate through the upper support body (11), and the plurality of injection ports (5) are communicated with the first mold main body (4);

a second mold body (6) detachably mounted in the mounting nest (3) on the lower support (12).

2. A diamond wire production mould according to claim 1, characterized in that a pair of cooling water connectors (7) are fixedly penetrated through the two side surfaces of the upper support body (11) and the lower support body (12), and the cooling water connectors (7) are communicated with the cooling cavity (2).

3. A diamond wire production mold according to claim 1, wherein the first mold body (4) comprises a first mold plate (41), a first steel wire rope cavity (42) provided on the lower surface of the first mold plate (41) for passing steel wire ropes, a first bead cavity (43) provided in the first steel wire rope cavity (42) at intervals for placing beads, and a plurality of grouting pipes (44) fixedly penetrating the bottom of the first mold plate (41) and communicating with the first steel wire rope cavity (42);

the first template (41) is detachably connected in the mounting embedded groove (3) through screws.

4. A diamond wire production mould according to claim 3, characterized in that the grouting pipe (44) is movably inserted inside the injection port (5).

5. A diamond wire production mold according to claim 3, wherein the second mold body (6) comprises a second mold plate (61), a second steel wire rope cavity (62) opened on the upper surface of the second mold plate (61) for passing the steel wire rope, and a second bead cavity (63) spaced apart from the second steel wire rope cavity (62) for placing beads.

6. A diamond wire production mould according to claim 5, characterized in that said first template (41) and said second template (61) extend into the cooling chamber (2) corresponding to said upper support (11) and said lower support (12), and said first template (41) and said second template (61) are provided with sealing gaskets (8) at the bottom of their edges, two of said sealing gaskets (8) being respectively arranged in two of said mounting caulking grooves (3).

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