CN210999252U - Assembled PC prefabricated component mould convenient to high-efficient loading and unloading - Google Patents

Abstract

The utility model discloses an assembly type PC prefabricated part mould convenient for high-efficiency loading and unloading, which belongs to the technical field of moulds and comprises a main block, wherein both ends of the top of the main block are provided with bolt holes, both ends of the inner wall of each bolt hole are provided with inverted F-shaped grooves, the inner parts of the bolt holes on both sides of the main block are respectively embedded with a fixed ring on one side of an auxiliary block A and a fixed ring on one side of an auxiliary block B, the fixed rings on both sides of the auxiliary block A are embedded into the bolt holes on one side of the main block and one side of the auxiliary block B through the arrangement of the auxiliary block A, the auxiliary block B, a linking block A, a linking block B and a fixed bolt, the fixed rings on both sides of the auxiliary block A are embedded into the fixed rings on one side of the main block B, the rectangular blocks A and the rectangular blocks B pass through the rectangular vertical grooves of the fixed rings and slide into the vertical grooves of the F-shaped grooves, the rectangular blocks A and the rectangular blocks B slide into the transverse grooves of the F-shaped, the problem of untight fixation between the parts of the mould in the above-mentioned patent is solved.

Description

Assembled PC prefabricated component mould convenient to high-efficient loading and unloading

Technical Field

The utility model relates to the technical field of mold, especially, relate to an assembled PC prefabricated component mould convenient to high-efficient loading and unloading.

Background

Moulds (Mule) are used for obtaining various moulds and tools of required products by injection moulding, blow moulding, extrusion, die casting or forging forming, smelting, stamping and other methods in industrial production. In short, a mold is a tool used to make a shaped article, the tool being made up of various parts, different molds being made up of different parts. The processing of the appearance of an article is realized mainly through the change of the physical state of a formed material. The element has the name of "industrial mother".

Patent No. CN 209425702U's a high-efficient assembled PC prefabricated component mould, including linking module, linking module's right-hand member passes through connecting slot and is connected with middle module, and the linking module left end is connected with the corner module, be provided with switching draw-in groove and lower switching draw-in groove on the four faces of corner module respectively, a second linking module is connected to middle module's right-hand member, and a second linking module is connected with a second corner module, so connect gradually, form and pour the die cavity, compare with traditional prefabricated component mould, the utility model discloses a realize the compound mode of assembled, practiced thrift the cost, strengthened its commonality greatly, realized more convenient installation, dismantlement, had higher practical value.

The connection mode between its part of high-efficient assembled PC prefabricated component mould among the above-mentioned patent technique is comparatively loaded down with trivial details to fix between the middle module that uses in the above-mentioned patent and the concatenation module inseparable, and single thin template buckle is after long-term the use, and thin template buckle is easy fracture deformation, influences the use of mould, for this reason, we propose an assembled PC prefabricated component mould convenient to high-efficient loading and unloading.

SUMMERY OF THE UTILITY MODEL

The utility model provides an assembled PC prefabricated component mould convenient to high-efficient loading and unloading, it is through being equipped with vice piece A, vice piece B, link up piece A, link up piece B and gim peg, imbed the solid fixed ring at vice piece A both sides in the keyhole of main piece and link up piece B one side, slide the gim peg to the solid fixed ring of vice piece A, make rectangle piece A and rectangle piece B of gim peg pass the rectangle vertical slot of solid fixed ring and slide into the vertical slot of F-slot, rotate the gim peg and make rectangle piece A and rectangle piece B slide into the transverse slot of F-slot, imbed the solid fixed ring at vice piece B both sides in the keyhole of main piece opposite side and the keyhole of link up piece A one side, insert the gim peg in the keyhole of main piece opposite side and link up piece A one side, then use the gim peg again according to the above-mentioned step to fix vice piece B, main piece and trilateral link up piece A, all the other links up the wall and also use the above-mentioned step, only need rotate the gim peg when dismantling the mould and propose it alright dismantle vice piece A, vice piece B, link up piece A, link up piece B and main piece, solved fixed untight problem between the part of mould in the above-mentioned patent, realized the high-efficient assembly of assembled PC prefabricated component mould, and the higher solid fixed ring of thickness has replaced the template buckle, has solved the problem that the template buckle life is short in the above-mentioned patent.

The utility model provides a specific technical scheme as follows:

the utility model provides an assembled PC prefabricated component mould convenient for high-efficient loading and unloading, including the main piece, the top both ends of main piece are seted up the keyhole, and state the inner wall both ends of keyhole and set up the F-shaped groove of inversion, the keyhole inside of main piece both sides is embedded with the solid fixed ring of vice piece A one side and the solid fixed ring of vice piece B one side respectively, the surface of solid fixed ring is seted up the rectangle vertical slot that runs through the ring body, the solid fixed ring embedding of keyhole inner wall upper end and lower extreme has the fixed bolt, and the bolt body upper and lower extreme of fixed bolt links up rectangle piece A and rectangle piece B in proper order, rectangle piece A and rectangle piece B run through the solid fixed ring of keyhole inner wall in proper order, and rectangle piece A and rectangle piece B run through the rectangle vertical slot of solid fixed ring after sliding into the transverse groove of F-shaped groove in the F-shaped groove, the solid fixed ring of vice piece B and vice piece A opposite side is embedded into the bolt hole that links up piece A and piece B, the rectangular block A and the rectangular block B of the fixing bolt slide downwards into an F-shaped groove along a rectangular vertical groove of a fixing ring on the other side of the auxiliary block A, the rectangular block A and the rectangular block B of the fixing bolt slide downwards into the F-shaped groove along a rectangular vertical groove of a fixing ring on the other side of the auxiliary block B, bolt holes are also formed in the other sides of the joining block A and the joining block B, and fixing rings of the auxiliary block B and the auxiliary block A are respectively embedded into the other sides of the joining block A and the joining block B.

Optionally, the top end of the fixing bolt is welded with a bolt handle, and frosted particles are protruded on one side of the outer wall of the bolt handle.

Optionally, rectangular notches are formed at the bottom ends of the main block, the auxiliary block a and the auxiliary block B.

Optionally, the transverse groove of the F-shaped groove is located on the inner wall of the keyhole at the lower end of the fixing ring.

Optionally, the joints of the main block, the auxiliary block a, the auxiliary block B, the connection block a and the connection block B are filled with graphite gaskets.

The utility model has the advantages as follows:

the utility model discloses a be equipped with vice piece A, vice piece B, link up piece A, link up piece B and gim peg, it is downthehole with the bolt of the solid fixed ring embedding owner piece in vice piece A both sides and link up piece B one side, slide the gim peg to the solid fixed ring of vice piece A, make the rectangle piece A and the rectangle piece B of gim peg pass solid fixed ring's rectangle vertical slot and slide into the vertical slot of F-slot, rotate the gim peg and make rectangle piece A and rectangle piece B slide into the transverse slot of F-slot, in the keyhole of embedding owner piece opposite side and linking piece A one side with the solid fixed ring of vice piece B both sides, insert the gim peg in the keyhole of owner piece opposite side and the keyhole of linking piece A one side, then use the gim peg again according to above-mentioned step and fix vice piece B, all the other trilateral walls also use above-mentioned step to fix, when dismantling the mould alright only need rotate the gim peg with it to propose dismantlement vice piece A, Vice piece B, link up piece A, link up piece B and main piece, fixed untight problem between the part of mould in the above-mentioned patent has been solved, has realized the high-efficient assembly of assembled PC prefabricated component mould, and the higher solid fixed ring of thickness has replaced the template buckle, has solved the problem that the template buckle life is short in the above-mentioned patent.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described 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 to obtain other drawings without creative efforts.

Fig. 1 is the utility model discloses an assembled PC prefabricated component mould's overall structure schematic diagram convenient to high-efficient loading and unloading.

Fig. 2 is the utility model discloses an assembled PC prefabricated component mould's outer wall cross-sectional view convenient to high-efficient loading and unloading.

Fig. 3 is the utility model discloses a solid fixed ring schematic structure view of assembled PC prefabricated component mould convenient to high-efficient loading and unloading.

Fig. 4 is a schematic structural diagram of a fixing bolt of an assembly type PC prefabricated part mold convenient for efficient assembling and disassembling according to an embodiment of the present invention.

In the figure: 1. a master block; 2. a sub-block A; 3. a sub-block B; 4. a joining block A; 5. a joining block B; 6. a keyhole; 7. an F-shaped groove; 8. a fixing bolt; 9. a latch handle; 10. a rectangular block A; 11. a fixing ring; 12. a rectangular block B; 13. a rectangular vertical slot.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

An assembled PC prefabricated part mold facilitating efficient assembly and disassembly according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 4.

Referring to fig. 1-4, an assembled PC prefabricated part mold convenient for efficient loading and unloading provided by the embodiment of the present invention includes a main block 1, wherein bolt holes 6 are formed at two ends of the top of the main block 1, inverted F-shaped grooves 7 are formed at two ends of the inner wall of the bolt holes 6, fixing rings 11 at one side of an auxiliary block a2 and fixing rings 11 at one side of an auxiliary block B3 are respectively embedded in the bolt holes 6 at two sides of the main block 1, rectangular vertical grooves 13 penetrating through the ring bodies are formed on the surfaces of the fixing rings 11, fixing bolts 8 are embedded in the fixing rings 11 at the upper and lower ends of the inner wall of the bolt holes 6, rectangular blocks a10 and B12 are sequentially connected at the upper and lower ends of the bolt bodies of the fixing bolts 8, the rectangular blocks a10 and B12 sequentially penetrate through the fixing rings 11 on the inner wall of the bolt holes 6, and the rectangular blocks a10 and B12 slide into the transverse grooves of the F-shaped grooves 7 along the vertical grooves, the fixing rings 11 on the other sides of the sub block B3 and the sub block A2 are respectively embedded into bolt holes 6 of the connecting block A4 and the connecting block B5, the rectangular block A10 and the rectangular block B12 of the fixing bolt 8 slide downwards into the F-shaped groove 7 along the rectangular vertical groove 13 of the fixing ring 11 on the other side of the sub block A2, the rectangular block A10 and the rectangular block B12 of the fixing bolt 8 slide downwards into the F-shaped groove 7 along the rectangular vertical groove 13 of the fixing ring 11 on the other side of the sub block B3, bolt holes 6 are also formed in the other sides of the connecting block A4 and the connecting block B5, and the fixing rings 11 of the sub block B3 and the sub block A2 are respectively embedded into the other sides of the connecting block A4 and the connecting block B5.

Illustratively, the fixing rings 11 on both sides of the sub-block A2 are inserted into the pin holes 6 on one side of the main block 1 and the engaging block B5, the fixing pins 8 are slid into the fixing rings 11 of the sub-block A2 so that the rectangular blocks A10 and B12 of the fixing pins 8 slide into the vertical grooves of the F-shaped groove 7 through the rectangular vertical grooves 13 of the fixing rings 11, the fixing pins 8 are rotated so that the rectangular blocks A10 and B12 slide into the horizontal grooves of the F-shaped groove 7, the fixing rings 11 on both sides of the sub-block B3 are inserted into the pin holes 6 on the other side of the main block 1 and the pin holes 6 on one side of the engaging block A4, the fixing pins 8 are inserted into the pin holes 6 on the other side of the main block 1 and the pin holes 6 on one side of the engaging block A4, and then the fixing pins 8 are used again to fix the sub-block B3, the main block 1 and the engaging block A4, and the remaining three walls are also fixed by using the above steps, and the fixing pins 8 are rotated so that the fixing pins 2A can be removed, Sub-block B3, engagement block A4, engagement block B5 and main block 1.

Referring to fig. 4, a handle 9 is welded to the top end of the fixing bolt 8, and frosted particles are protruded on one side of the outer wall of the handle 9.

Illustratively, a handle 9 with abrasive particles is welded to the top end of the securing pin 8 to facilitate rotation to lift the securing pin 8.

Referring to fig. 1 and 2, the bottom ends of the main block 1, the sub-block a2 and the sub-block B3 are provided with rectangular notches.

By way of example, rectangular notches at the bottom ends of the main block 1, the auxiliary block A2 and the auxiliary block B3 can save materials, and the groove walls can be conveniently pinched to take the main block 1, the auxiliary block A2 and the auxiliary block B3.

Referring to fig. 2, the transverse groove of the F-shaped groove 7 is located on the inner wall of the keyhole 6 at the lower end of the fixing ring 11.

Illustratively, after the fixing pin 8 passes through the rectangular vertical groove 13 of the fixing ring 11, it is convenient to screw the rectangular blocks a10 and B12 of the fixing pin 8 into the vertical groove of the F-shaped groove 7.

Referring to fig. 2, the joints of the main block 1, the sub-block a2, the sub-block B3, the joint block a4 and the joint block B5 are filled with graphite gaskets.

Illustratively, graphite gaskets at the joints of the main block 1, the auxiliary block A2, the auxiliary block B3, the joint block A4 and the joint block B5 fill the joints to prevent gaps at the joints of the main block 1, the auxiliary block A2, the auxiliary block B3, the joint block A4 and the joint block B5.

When the fixing device is used, fixing rings 11 on two sides of an auxiliary block A2 are embedded into bolt holes 6 on one sides of a main block 1 and an engagement block B5, a bolt handle 9 of a fixing bolt 8 is pinched to slide the fixing bolt 8 into a fixing ring 11 of the auxiliary block A2, so that a rectangular block A10 and a rectangular block B12 of the fixing bolt 8 pass through a rectangular vertical groove 13 of the fixing ring 11 to slide into a vertical groove of an F-shaped groove 7, the fixing bolt 8 is rotated to slide a rectangular block A10 and a rectangular block B12 into a transverse groove of the F-shaped groove 7, fixing rings 11 on two sides of an auxiliary block B3 are embedded into bolt holes 6 on the other side of the main block 1 and bolt holes 6 on one side of the engagement block A4, the fixing bolt 8 is inserted into bolt holes 6 on the other side of the main block 1 and bolt holes 6 on one side of the engagement block A4, then the fixing bolt 8 is used again according to fix the auxiliary block B3, the main block 1 and the engagement block A4, the rest of the wall is fixed by rotating, and the fixing bolt 24 is only needed to be taken out when the fixing device is disassembled on, Vice piece B3, link up piece A4, link up piece B5 and main piece 1, the bolt handle 9 that has dull polish granule welds in 8 tops of gim peg, conveniently rotates and proposes gim peg 8, the utility model discloses only carry out fixed knot to a high-efficient assembled PC prefabricated component mould of patent number CN 209425702U and construct the improvement, its subassembly inner wall does not change, just the utility model discloses analyze and the structure description to the one side outer wall of improving the back mould when describing, all the other trilateral outer walls of novel assembled PC prefabricated component mould also use this fixed knot that inclines the outer wall to construct fixedly.

It should be noted that the utility model relates to an assembled PC prefabricated component mould convenient to high-efficient loading and unloading, including main piece 1, vice piece A2, vice piece B3, link up piece A4, link up piece B5, keyhole 6, F shape groove 7, gim peg 8, stock 9, rectangular block A10, solid fixed ring 11, rectangular block B12, rectangle vertical slot 13, the part is the general standard component or the part that technical personnel in the field know, and its structure and principle all are that this technical personnel all can learn through the technical manual or learn through conventional experimental method.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (5)

1. The utility model provides an assembled PC prefabricated component mould convenient to high-efficient loading and unloading, includes master block (1), its characterized in that: the two ends of the top of the main block (1) are provided with bolt holes (6), the two ends of the inner wall of each bolt hole (6) are provided with inverted F-shaped grooves (7), a fixing ring (11) on one side of an auxiliary block A (2) and a fixing ring (11) on one side of an auxiliary block B (3) are respectively embedded into the bolt holes (6) on the two sides of the main block (1), the surface of each fixing ring (11) is provided with a rectangular vertical groove (13) penetrating through a ring body, fixing bolts (8) are embedded into the fixing rings (11) at the upper end and the lower end of the inner wall of each bolt hole (6), the upper end and the lower end of the bolt body of each fixing bolt (8) are sequentially connected with a rectangular block A (10) and a rectangular block B (12), the rectangular block A (10) and the rectangular block B (12) sequentially penetrate through the fixing rings (11) on the inner wall of the bolt holes (6), and the vertical grooves of the F-shaped grooves (7) behind the rectangular vertical grooves (13) of the fixing rings (11) are slid into the transverse grooves (7), the fixing ring (11) on the other side of the auxiliary block A (2) and the auxiliary block B (3) is respectively embedded into a bolt hole (6) of the connecting block B (5) and the connecting block A (4), the rectangular block A (10) and the rectangular block B (12) of the fixing bolt (8) slide downwards into an F-shaped groove (7) along a rectangular vertical groove (13) of the fixing ring (11) on the other side of the auxiliary block A (2), the rectangular block A (10) and the rectangular block B (12) of the fixing bolt (8) slide downwards into the F-shaped groove (7) along the rectangular vertical groove (13) of the fixing ring (11) on the other side of the auxiliary block B (3), the bolt hole (6) is also formed in the other side of the connecting block A (4) and the connecting block B (5), and the fixing ring (11) of the auxiliary block B (3) and the auxiliary block A (2) is respectively embedded into the other side of the connecting block A (4) and the connecting block B (5).

2. The assembled PC prefabricated part mold facilitating efficient handling as claimed in claim 1, wherein: the top welding of gim peg (8) has a bolt handle (9), and the outer wall one side arch of bolt handle (9) has dull polish granule.

3. The assembled PC prefabricated part mold facilitating efficient handling as claimed in claim 1, wherein: rectangular notches are formed in the bottom ends of the main block (1), the auxiliary block A (2) and the auxiliary block B (3).

4. The assembled PC prefabricated part mold facilitating efficient handling as claimed in claim 1, wherein: the transverse groove of the F-shaped groove (7) is positioned on the inner wall of the bolt hole (6) at the lower end of the fixing ring (11).

5. The assembled PC prefabricated part mold facilitating efficient handling as claimed in claim 1, wherein: and graphite gaskets are filled at the joints of the main block (1), the auxiliary block A (2), the auxiliary block B (3), the connecting block A (4) and the connecting block B (5).

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