CN203831669U - Steam heating type foam molding die - Google Patents

Abstract

The utility model relates to a steam heating type foam molding die, and belongs to the technical field of foam molding dies. The steam heating type foam molding die comprises an upper die frame and a lower die frame matched with each other, wherein an upper die is mounted at the bottom of the upper die frame, a lower die mutually matched with the upper die is mounted at the top of the lower die frame, mounting seats are fixed on left and right sides of the lower die frame, a guide pillar is vertically fixed on each mounting seat, guide sleeves mutually matched with the guide pillars are fixed on left and right sides of the upper die frame which is of a hollow structure, the bottom of the upper die frame is provided with at least three heating holes of rectangular structures corresponding to the upper die, a first aluminum thermal conductive frame of a hollow structure is arranged in the upper die frame in a sleeving manner, a first steam heating pipeline is arranged in the first aluminum thermal conductive frame, and the bottom of the first aluminum thermal conductive frame extends downwards to form a first bump. By using the steam heating type foam molding die, the structure is simple, the foam molding die is convenient to design, and percent of pass of products is ensured.

Description

The foam-formed mould of steam heating type

Technical field

The utility model relates to the foam-formed mould of a kind of steam heating type, belongs to foam-formed technical field of mold.

Background technology

The structure of the foam-formed mould of current existing use mainly comprises upper die and lower die, and heating rod is evenly set respectively on upper die and lower die.This structure is applicable to the fairly simple product of molding structure in use, but structure is more complicated time, and upper die and lower die will bring a lot of problems in the time of design, as: 1, the uniformity of heating; 2, steam vent distributes; 3, charging aperture distributes, if the problems referred to above are processed the bad qualification rate that will reduce product.

Utility model content

For the problems referred to above, the utility model provides a kind of steam heating type foam-formed mould, and it is simple in structure, has facilitated foam-formed Design of Dies, has guaranteed the qualification rate of product.

The technical scheme that the utility model is taked is:

The foam-formed mould of described steam heating type, comprise the upper framed and low mold frame cooperatively interacting, at patrix frame bottom, patrix is installed, the counterdie cooperatively interacting with patrix is installed at low mold frame top, the low mold frame left and right sides is fixed with mount pad, on each mount pad, be vertically fixed with guide pillar, be fixed with in the upper framed left and right sides guide pin bushing cooperatively interacting with guide pillar, it is characterized in that: above framed is hollow structure, and corresponding patrix offers the first bottoming hole of at least three square type structures at patrix frame bottom, there is the first heat conduction aluminum frame of hollow structure in upper framed internal sleeve, in the first heat conduction aluminum frame, be provided with the first Steam Heating pipeline, the first Steam Heating pipeline is fixed in the first heat conduction aluminum frame by the first mounting sleeve, corresponding the first bottoming hole extends downwards and has the first projection matching with the first bottoming hole at the first heat conduction aluminum frame bottom, the first projection bottom is close to patrix top.

The utility model further preferred described low mold frame is hollow structure, and corresponding counterdie offers the second bottoming hole of at least three square type structures in low mold frame bottom, there is the second heat conduction aluminum frame of hollow structure in low mold frame internal sleeve, in the second heat conduction aluminum frame, be provided with the second Steam Heating pipeline, the second Steam Heating pipeline is fixed in the second heat conduction aluminum frame by the second mounting sleeve, corresponding the second bottoming hole extends upward the second projection matching with the second bottoming hole at the second heat conduction aluminum arch, the second projection bottom is close to counterdie bottom.

Further in order to ensure the even transmission of heat, preferably described the first Steam Heating pipeline S-type distribution in the first heat conduction aluminum frame.

The same, preferably described the second Steam Heating pipeline S-type distribution in the second heat conduction aluminum frame.

In order further to improve heat-conducting effect and to increase the service life, preferably described the first heat conduction aluminum frame is aluminium alloy.

The same, preferably described the second heat conduction aluminum frame is aluminium alloy.

Compared with prior art, the beneficial effect that the utility model brings is mainly:

By the utility model, it is simple in structure, under the first heat conduction aluminum frame and the first projection effect, the heat of the first Steam Heating pipeline is evenly passed to patrix top; Under the effect of the second heat conduction aluminum frame and the second projection, the heat of the second Steam Heating pipeline is evenly passed to counterdie bottom, thereby making upper die and lower die is all thermally equivalents, in addition the first projection and the second projection are all close to patrix top and counterdie bottom, therefore firing rate is fast, production efficiency is high, easy for installation; In the time that complicated foam-formed mould is set, only need to consider that steam vent distributes and charging aperture distribution situation simultaneously, do not need to consider again the uniformity of heating, facilitated foam-formed Design of Dies, guaranteed the qualification rate of product.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the arrangement schematic diagram of the first Steam Heating pipeline in the first heat conduction aluminum frame in Fig. 1;

Fig. 3 goes up the framed structural representation of looking up in Fig. 1.

In figure: 1, upper framed 2, the first heat conduction aluminum frame 3, the first mounting sleeve 4, the first Steam Heating pipeline 5, the first projection 6, guide pillar 7, guide pin bushing 8, patrix 9, counterdie 10, mount pad 11, low mold frame 12, the second projection 13, the second mounting sleeve 14, the second Steam Heating pipeline 15, the second heat conduction aluminum frame.

Detailed description of the invention

Below in conjunction with drawings and Examples, further set forth the utility model.In the following detailed description, only by the mode of explanation, some example embodiment of the present utility model has been described.Undoubtedly, those of ordinary skill in the art can recognize, in the situation that not departing from spirit and scope of the present utility model, can revise described embodiment by various mode.Therefore, accompanying drawing is illustrative with being described in essence, instead of for limiting the protection domain of claim.

Embodiment mono-

As Fig. 1, shown in Fig. 3, the foam-formed mould of steam heating type, comprise upper framed 1 and the low mold frame 11 that cooperatively interact, in upper framed 1 bottom, patrix 8 is installed, the counterdie 9 cooperatively interacting with patrix 8 is installed at low mold frame 11 tops, low mold frame 11 left and right sides are fixed with mount pad 10, on each mount pad 10, be vertically fixed with guide pillar 6, be fixed with in upper framed 1 left and right sides guide pin bushing 7 cooperatively interacting with guide pillar 6, upper framed 1 is hollow structure, and corresponding patrix 8 offers the first bottoming hole of three square type structures in upper framed 1 bottom, there is the first heat conduction aluminum frame 2 of hollow structure in upper framed 1 internal sleeve, in the first heat conduction aluminum frame 2, be provided with the first Steam Heating pipeline 4, the first Steam Heating pipeline 4 is fixed in the first heat conduction aluminum frame 2 by the first mounting sleeve 3, corresponding the first bottoming hole extends downwards and has the first projection 5 matching with the first bottoming hole in the first heat conduction aluminum frame 2 bottoms, the first projection 5 bottoms are close to patrix 8 tops.

In the present embodiment, described low mold frame 11 is hollow structure, and corresponding counterdie 9 offers the second bottoming hole of three square type structures in low mold frame 11 bottoms, there is the second heat conduction aluminum frame 15 of hollow structure in low mold frame 11 internal sleeve, in the second heat conduction aluminum frame 15, be provided with the second Steam Heating pipeline 14, the second Steam Heating pipeline 14 is fixed in the second heat conduction aluminum frame 15 by the second mounting sleeve 13, corresponding the second bottoming hole extends upward the second projection 12 matching with the second bottoming hole at the second heat conduction aluminum frame 15 tops, the second projection 12 bottoms are close to counterdie 9 bottoms, described the first heat conduction aluminum frame 2 is aluminium alloy, described the second heat conduction aluminum frame 15 is aluminium alloy.

As shown in Figure 2, described the first Steam Heating pipeline 4 is in the interior S-type distribution of the first heat conduction aluminum frame 2; Described the second Steam Heating pipeline 14 is in the interior S-type distribution of the second heat conduction aluminum frame 15 (its distribution situation is similar or identical with Fig. 2).

When use, under the first heat conduction aluminum frame 2 and the first projection 5 effects, the heat of the first Steam Heating pipeline 4 is evenly passed to patrix 8 tops; Under the effect of the second heat conduction aluminum frame 15 and the second projection 12, the heat of the second Steam Heating pipeline 14 is evenly passed to counterdie 9 bottoms, thereby making patrix 8 and counterdie 9 is all thermally equivalents, in addition the first projection 5 and the second projection 12 are all close to patrix 8 tops and counterdie 9 bottoms, therefore firing rate is fast, production efficiency is high, easy for installation.

Embodiment bis-

The present embodiment changes on the basis of embodiment mono-, and described the first bottoming hole is become to five; Described the second bottoming hole becomes six.Other is with embodiment mono-.

Embodiment tri-

The present embodiment changes on the basis of embodiment mono-, and described the first bottoming hole is become to six; Described the second bottoming hole becomes four.Other is with embodiment mono-.

Embodiment tetra-

The present embodiment changes on the basis of embodiment mono-, and described the first bottoming hole is become to seven; Described the second bottoming hole becomes four.Other is with embodiment mono-.

In the time of practical application, the first bottoming hole in above-described embodiment and the second bottoming hole quantity are done last determining according to product specification shape.

The foregoing is only the schematic detailed description of the invention of the utility model, not in order to limit scope of the present utility model.Any those skilled in the art, is not departing from equivalent variations and the amendment under the prerequisite of design of the present utility model and principle, done, all should belong to the scope of the utility model protection.

Claims (6)

1. the foam-formed mould of steam heating type, comprise upper framed (1) and the low mold frame (11) that cooperatively interact, in upper framed (1) bottom, patrix (8) is installed, the counterdie (9) cooperatively interacting with patrix (8) is installed at low mold frame (11) top, low mold frame (11) left and right sides is fixed with mount pad (10), on each mount pad (10), be vertically fixed with guide pillar (6), be fixed with in upper framed (1) left and right sides the guide pin bushing (7) cooperatively interacting with guide pillar (6), it is characterized in that: upper framed (1) is hollow structure, and corresponding patrix (8) offers the first bottoming hole of at least three square type structures in upper framed (1) bottom, there is the first heat conduction aluminum frame (2) of hollow structure in upper framed (1) internal sleeve, in the first heat conduction aluminum frame (2), be provided with the first Steam Heating pipeline (4), the first Steam Heating pipeline (4) is fixed in the first heat conduction aluminum frame (2) by the first mounting sleeve (3), corresponding the first bottoming hole extends downwards and has the first projection (5) matching with the first bottoming hole in the first heat conduction aluminum frame (2) bottom, the first projection (5) bottom is close to patrix (8) top.

2. the foam-formed mould of steam heating type as claimed in claim 1, it is characterized in that: described low mold frame (11) is hollow structure, and corresponding counterdie (9) offers the second bottoming hole of at least three square type structures in low mold frame (11) bottom, there is the second heat conduction aluminum frame (15) of hollow structure in low mold frame (11) internal sleeve, in the second heat conduction aluminum frame (15), be provided with the second Steam Heating pipeline (14), the second Steam Heating pipeline (14) is fixed in the second heat conduction aluminum frame (15) by the second mounting sleeve (13), corresponding the second bottoming hole extends upward at the second heat conduction aluminum frame (15) top the second projection (12) matching with the second bottoming hole, the second projection (12) bottom is close to counterdie (9) bottom.

3. the foam-formed mould of steam heating type as claimed in claim 1, is characterized in that: the S-type distribution in the first heat conduction aluminum frame (2) of described the first Steam Heating pipeline (4).

4. the foam-formed mould of steam heating type as claimed in claim 2, is characterized in that: the S-type distribution in the second heat conduction aluminum frame (15) of described the second Steam Heating pipeline (14).

5. the foam-formed mould of the steam heating type as described in claim 1 or 3, is characterized in that: described the first heat conduction aluminum frame (2) is aluminium alloy.

6. the foam-formed mould of the steam heating type as described in claim 2 or 4, is characterized in that: described the second heat conduction aluminum frame (15) is aluminium alloy.