CN210453466U - Anti-separation type compression molding die for foam composite board - Google Patents

Abstract

The utility model discloses a foam composite sheet's anticreep type adds compression moulding mould, belong to panel production facility technical field, the mould includes the mould shell, upper cover and locking structure, locking structure includes a set of position sleeve that sets up along length direction on the length limit of mould shell or the width edge, set up a set of vertical round pin axle on the upper cover, and the locking horizontal pole, a set of rectangular hole has been seted up along length direction on the locking horizontal pole, all position sleeve that lie in the mould shell with one side all suit on same locking horizontal pole, peg graft with position sleeve behind the rectangular hole on the locking horizontal pole is passed to the lower extreme of vertical round pin axle, the one end in every rectangular hole all is provided with horizontal round pin axle, horizontal round pin axle is pegged graft with the horizontal movement of locking horizontal pole and the draw-in groove that vertical round pin epaxial was seted. The upper cover and the mould shell are reliably connected, the upper cover can be effectively prevented from being separated from the module, and the quality of products can be improved.

Description

Anti-separation type compression molding die for foam composite board

Technical Field

The utility model belongs to the technical field of panel production facility, relate to a mould, especially a foam composite sheet's anticreep type pressure forming die.

Background

The foam composite board belongs to a light composite board, has the effects of good heat preservation, light weight, water resistance and the like, and is applied to a plurality of production fields. The production process of the foam composite board comprises the steps of firstly spraying slurry into a die cavity of a die shell by using a distributing machine and leveling the slurry, then installing an upper cover, locking the upper cover and the die shell by using a locking structure, then putting the die cavity into a curing warehouse, removing the upper cover after curing is finished, ejecting a finished product in the die shell, then spraying slurry into the die cavity of the die shell by using the distributing machine and leveling the slurry, and carrying out the next round of production. The existing locking structure is not firm and reliable enough in connection, and the upper cover and the formwork are easy to separate, so that the quality of products is influenced.

Disclosure of Invention

The utility model discloses an overcome prior art's defect, designed a foam composite sheet's anticreep type pressure forming die for reliably be connected between upper cover and the mould shell, can prevent effectively that upper cover and module from breaking away, can improve the quality of product.

The utility model adopts the following specific technical proposal: the utility model provides a foam composite sheet's anticreep type pressure forming die, includes mould shell, upper cover and is used for the locking structure together fixed with mould shell and upper cover, and the key lies in: all be provided with locking structure on two length edges or two width edges of mould, locking structure includes the length edge or the width edge at the mould shell along a set of position sleeve that length direction set up, set up a set of vertical round pin axle on the upper cover, and the locking horizontal pole, a set of rectangular hole has been seted up along length direction on the locking horizontal pole, all position sleeve that lie in the mould shell with one side all suits on same locking horizontal pole, peg graft with position sleeve behind the rectangular hole on the locking horizontal pole is passed to the lower extreme of vertical round pin axle, the one end in every rectangular hole all is provided with horizontal round pin axle, horizontal round pin axle is pegged graft with the draw-in groove of seting up on the vertical round pin axle with the help of the horizontal migration of locking horizontal.

The upper end face of the upper cover is provided with a groove, and a group of heat dissipation plates are fixed in the groove along the length direction of the upper cover.

And a group of supporting plates are fixed between the heat dissipation plates and the side wall of the groove and between the adjacent heat dissipation plates along the width direction of the upper cover, and the supporting plates are fixedly connected with the upper cover.

At least two bearing plates are fixed on each radiating plate along the length direction.

At least two stepped slotted holes are formed at the bottom of the formwork, a jacking plate for jacking a finished product in the formwork is embedded in the stepped slotted holes, and the upper end surface of the jacking plate is flush with the inner bottom surface of the formwork.

The length direction of the jacking plates is arranged along the width direction of the formwork, and all the jacking plates are arranged along the length direction of the formwork.

At least two side plates of the shuttering are provided with jacks for clamping and fixing the shuttering.

The inner wall of the mould shell is fixed with a heat-conducting aluminum plate.

The utility model has the advantages that: when the upper cover is installed, the vertical pin shaft on the upper cover directly penetrates through the strip hole to be inserted into the positioning sleeve, after the upper cover is pressed in place, the clamping groove in the vertical pin shaft is just corresponding to the transverse pin shaft in the strip hole, at the moment, the locking cross rod is pushed to the other side of the vertical pin shaft, the transverse pin shaft in the strip hole is connected with the clamping groove in the vertical pin shaft in an inserting mode, and therefore the upper cover and the formwork are fixed together. The locking structure is simple in structure, firm and reliable in connection, convenient and fast to disassemble and assemble, and time-saving and labor-saving.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a cross-sectional view of fig. 2.

Fig. 4 is a top view of the locking rail of fig. 3.

Fig. 5 is a schematic structural view of the upper cover of the present invention.

Fig. 6 is a side view of fig. 5.

Fig. 7 is a schematic structural view of the middle mold shell of the present invention.

In the attached drawings, 1 represents a formwork, 2 represents an upper cover, 3 represents a positioning sleeve, 4 represents a vertical pin shaft, 5 represents a locking cross rod, 6 represents a long hole, 7 represents a transverse pin shaft, 8 represents a clamping groove, 9 represents a heat dissipation plate, 10 represents a support plate, 11 represents a bearing plate, 12 represents a jacking plate, and 13 represents an insertion hole.

Detailed Description

The present invention will be described in detail with reference to the following drawings and specific embodiments:

in a specific embodiment, as shown in fig. 1 to 7, an anti-separation type compression molding die for a foam composite board comprises a die shell 1, an upper cover 2 and locking structures for fixing the die shell 1 and the upper cover 2 together, wherein the locking structures are arranged on two length edges or two width edges of the die, each locking structure comprises a set of positioning sleeves 3 arranged along the length direction on the length edge or the width edge of the die shell 1, a set of vertical pin shafts 4 arranged on the upper cover 2 and a locking cross rod 5, a set of strip holes 6 are formed in the locking cross rod 5 along the length direction, all the positioning sleeves 3 positioned on the same side of the die shell 1 are sleeved on the same locking cross rod 5, the lower end of each vertical pin shaft 4 penetrates through the strip hole 6 in the locking cross rod 5 and then is connected with the positioning sleeve 3 in an inserting manner, a horizontal pin shaft 7 is arranged at one end in each strip hole 6, and the horizontal pin shaft 7 is connected with a clamping groove 8 formed in the vertical pin shaft 4 in an inserting manner The upper cover 2 is locked and fixed with the mould shell 1.

As a further improvement, the upper end surface of the upper cover 2 is provided with a groove, and a set of heat dissipation plates 9 are fixed in the groove along the length direction of the upper cover 2. The heat dissipation plate 9 can improve the heat conduction efficiency of the upper cover 2, shorten the heating and heat dissipation time and improve the production efficiency.

A group of supporting plates 10 are fixed between the heat dissipation plates 9 and the side walls of the grooves and between the adjacent heat dissipation plates 9 along the width direction of the upper cover 2, and the supporting plates 10 are fixedly connected with the upper cover 2. The support plate 10 makes the connection between the heat radiating plate 9 and the upper cover 2 more secure.

All be fixed with two at least bearing plates 11 along length direction on every heating panel 9, can be with the effort on bearing plate 11 when lower upper cover 2, transmit upper cover 2 through bearing plate 11, compare with direct effect on heating panel 9, can increase lifting surface area, the process of pushing down is more steady, and product quality is better.

As a further improvement, the utility model discloses a set up two at least ladder slotted holes in the mould shell 1 bottom, the ladder slotted hole department inlays and is equipped with the jacking board 12 that is used for coming the ejecting finished product in the mould shell 1, and the up end of jacking board 12 flushes with the interior bottom surface of mould shell 1. The stepped slot includes an upper slot and a lower slot, and the opening width of the upper slot is greater than that of the lower slot, so that the jacking plate 12 can be embedded in the stepped slot without falling off. Because the upper end surface of the lifting plate 12 is flush with the inner bottom surface of the formwork 1, the normal use of the formwork 1 is not influenced. When demoulding, the jacking mechanism is utilized to jack up the jacking plate 12 at the bottom of the mould shell 1, so that the finished product of the foam composite board in the mould shell 1 can be separated from the mould shell 1, and then the finished product is taken away.

As shown in fig. 7, in order to make the stress of the foam composite board in the formwork 1 more balanced, the lifting boards 12 are configured to be strip-shaped, four lifting boards 12 are arranged at the bottom of the formwork 1 along the length direction, the length direction of the lifting boards 12 is arranged along the width direction of the formwork 1, all the lifting boards 12 are arranged along the length direction of the formwork 1, and a lifting mechanism is arranged below each lifting board 12. The jacking plates 2 are all placed in stepped slotted holes, the opening width of an upper slotted hole of each stepped slotted hole along the length direction (namely, the left and right direction) of the formwork 1 is larger than that of a lower slotted hole along the length direction (namely, the left and right direction) of the formwork 11, and the length of the upper slotted hole is equal to that of the lower slotted hole.

As a further improvement, the side plates of the at least two parallel arrangements of the mold shell 1 are all provided with the insertion holes 13 for clamping and fixing the mold shell 1. When the finished product of the foam composite board is ejected out of the formwork 1, the formwork 1 can be clamped and fixed by matching external equipment with the insertion holes 13, so that the finished product can be ejected out smoothly.

As a further improvement, the heat conducting aluminum plate is fixed on the inner wall of the mould shell 1. The heat conduction efficiency of the formwork 1 can be improved by utilizing the heat conduction aluminum plate, the heating and radiating time is shortened, and the production efficiency is improved.

The utility model discloses when specifically using, with all be provided with locking structure on two length edges of mould, the left side in rectangular hole 6 is provided with horizontal round pin axle 7 for the example, in the beginning, horizontal round pin axle 7 on the locking horizontal pole 5 is located the left side of vertical round pin axle 4, when installing upper cover 2, vertical round pin axle 4 on the upper cover 2 directly passes rectangular hole 6 right side part and inserts positioning sleeve 3 in, after upper cover 2 compresses tightly targets in place, draw-in groove 8 on the vertical round pin axle 4 just in time is corresponding with horizontal round pin axle 7 in the rectangular hole 6, at this moment, promote locking horizontal pole 5 right, then horizontal round pin axle 7 pegs graft with draw-in groove 19, thereby it can with mould shell 1 is fixed together with upper cover 2. Simple structure, firm in connection is reliable, and easy dismounting is swift, labour saving and time saving.

Claims (8)

1. The utility model provides a foam composite sheet's anticreep type pressure forming die, includes mould shell (1), upper cover (2) and is used for locking structure together fixed with mould shell (1) and upper cover (2), its characterized in that: the mould is characterized in that locking structures are arranged on two length edges or two width edges of the mould, each locking structure comprises a group of positioning sleeves (3) arranged along the length direction on the length edge or the width edge of the mould shell (1), a group of vertical pin shafts (4) arranged on the upper cover (2) and a locking cross rod (5), a group of strip holes (6) are formed in the locking cross rod (5) along the length direction, all the positioning sleeves (3) positioned on the same side of the mould shell (1) are sleeved on the same locking cross rod (5), the lower end of each vertical pin shaft (4) penetrates through the strip hole (6) in the locking cross rod (5) and then is inserted into the positioning sleeve (3), and a transverse pin shaft (7) is arranged at one end in each strip hole (6), the transverse pin shaft (7) is inserted into a clamping groove (8) formed in the vertical pin shaft (4) by means of horizontal movement of the locking cross rod (5) so that the upper cover (2) and the formwork (1) are locked and fixed.

2. The anti-separation type compression molding die for the foam composite board as claimed in claim 1, wherein: the upper end face of the upper cover (2) is provided with a groove, and a group of heat dissipation plates (9) are fixed in the groove along the length direction of the upper cover (2).

3. The anti-separation type compression molding die for the foam composite board as claimed in claim 2, wherein: a group of supporting plates (10) are fixed between the heat dissipation plates (9) and the side walls of the grooves and between the adjacent heat dissipation plates (9) along the width direction of the upper cover (2), and the supporting plates (10) are fixedly connected with the upper cover (2).

4. The anti-separation type compression molding die for the foam composite board as claimed in claim 2, wherein: at least two bearing plates (11) are fixed on each radiating plate (9) along the length direction.

5. The anti-separation type compression molding die for the foam composite board as claimed in claim 1, wherein: at least two stepped slotted holes are formed at the bottom of the formwork (1), a jacking plate (12) for ejecting a finished product in the formwork (1) is embedded in the stepped slotted holes, and the upper end surface of the jacking plate (12) is flush with the inner bottom surface of the formwork (1).

6. The anti-separation type compression molding die for the foam composite board as claimed in claim 5, wherein: the length direction of the jacking plates (12) is arranged along the width direction of the formwork (1), and all the jacking plates (12) are arranged along the length direction of the formwork (1).

7. The anti-separation type compression molding die for the foam composite board as claimed in claim 1, wherein: at least two side plates arranged in parallel of the shuttering (1) are provided with insertion holes (13) for clamping and fixing the shuttering (1).

8. The anti-separation type compression molding die for the foam composite board as claimed in claim 1, wherein: a heat-conducting aluminum plate is fixed on the inner wall of the formwork (1).

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