CN219298765U - Annular bealock mould - Google Patents

Abstract

The utility model provides an annular bealock die, and belongs to the technical field of template engineering. The annular puerto die comprises a plurality of arc-shaped die sections; the arc-shaped mold section comprises a sub-mold, a supporting piece, a first fixing plate and a second fixing plate; the supporting piece is provided with a bearing table, and the sub-die is arranged on the bearing table; the sub-die and the supporting piece are respectively arranged between the first fixed plate and the second fixed plate; the sub-die, the supporting piece, the first fixing plate and the second fixing plate are connected through the first connecting piece to form an arc-shaped die section; the arc-shaped mold sections are sequentially connected through the second connecting piece to form an annular bealock mold. Through with annular bealock mould split formation a plurality of arc mould sections to the effectual installation and the dismantlement degree of difficulty that has reduced annular bealock mould, connect submodule, support piece, first fixed plate and second fixed plate through first connecting piece and form arc mould section, with the stability that promotes arc mould section, connect adjacent arc mould section through the second connecting piece simultaneously, with the bulk strength and the stability that promote annular bealock mould.

Description

Annular bealock mould

Technical Field

The utility model relates to the technical field of template engineering, in particular to an annular bealock die.

Background

The traditional building construction template mostly uses the wood form to carry out the template construction, and the general deformation of wood form reinforcement system is big for the construction of large-scale circular arc pond bealock can't satisfy the quality requirement of follow-up pond glass installation, and stability is relatively poor, rigidity is low, and the shaping concrete structure chi has great deviation, is difficult to guarantee the quality of pond.

Disclosure of Invention

In view of the above, the present utility model aims to overcome the defects in the prior art, and provides an annular bealock die.

The utility model provides the following technical scheme: an annular bealock die comprises a plurality of arc-shaped die segments;

the arc-shaped mold section comprises a sub-mold, a supporting piece, a first fixing plate and a second fixing plate;

the supporting piece is provided with a bearing table, and the sub-die is arranged on the bearing table;

the sub-die and the support are respectively arranged between the first fixing plate and the second fixing plate;

the sub-die, the support, the first fixing plate and the second fixing plate are connected through a first connecting piece to form the arc-shaped die section;

and the arc-shaped mold sections are sequentially connected to form the annular bealock mold.

In some embodiments of the utility model, the sub-die comprises a first connecting plate, a second connecting plate, a first arcuate plate, a second arcuate plate, and two ribs;

the first connecting plate, the second connecting plate, the first arc-shaped plate, the second arc-shaped plate and the two rib plates enclose to form a sub-die with an accommodating space.

Further, the sub-die further comprises a reinforcing plate, wherein the reinforcing plate is arranged in the accommodating space and is respectively abutted with the first connecting plate, the second connecting plate, the first arc-shaped plate and the second arc-shaped plate;

the distance from the reinforcing plate to the two rib plates is equal.

Further, the first connecting plate is provided with a plurality of first through holes which are spaced apart.

Further, the first arc plate is provided with a plurality of second through holes at intervals, and the second arc plate is provided with a plurality of third through holes at intervals;

the number of the second through holes is equal to that of the third through holes, and the axis of one second through hole is coincident with that of one third through hole.

Further, the first connecting plate, the second connecting plate, the first arc-shaped plate, the second arc-shaped plate, the rib plate and the reinforcing plate are all steel plates.

Further, the first connector comprises a first screw and a first nut;

one end of the first screw rod sequentially penetrates through the first fixing plate, the supporting piece, the sub-die and the second fixing plate and is connected with the first nut.

Further, the number of the first connecting pieces is a plurality, and the first connecting pieces are arranged at intervals;

the distances between the axes of any two adjacent first connecting pieces are equal.

Further, the rib plate is provided with at least two mounting holes;

the mounting holes are disposed at corners of the rib plate.

Further, any two adjacent sub-molds are connected through a second connecting piece;

the second connecting piece comprises a second screw rod and a second nut;

the second screw rod can penetrate through the mounting hole and is connected with the second nut.

Embodiments of the present utility model have the following advantages: the annular bealock die is split to form the plurality of arc-shaped die sections, so that the mounting and dismounting difficulty of the annular bealock die is effectively reduced, the quality of the arc-shaped die sections is effectively reduced, the mounting or dismounting efficiency of the annular bealock die is improved, and the position adjustment rapidness of the arc-shaped die sections is improved; through setting up the submodule at the supporting part's accepting bench to provide support and fixed action to the submodule through accepting the bench, with the stability of promoting being connected between submodule and the supporting part, connect the submodule, supporting part, first fixed plate and second fixed plate through first connecting piece and form arc mould section, with the stability that promotes arc mould section, connect adjacent arc mould section through the second connecting piece simultaneously, with the bulk strength and the stability of promotion annular bealock mould.

In order to make the above objects, features and advantages of the present utility model more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a view angle of a ring-shaped bealock die according to some embodiments of the present utility model;

fig. 2 is a schematic structural view of an angle of view of an arcuate segment in a ring-shaped bealock die according to some embodiments of the present utility model;

fig. 3 is a schematic structural view of a view angle of a ring-shaped bealock die according to some embodiments of the present utility model;

fig. 4 is a schematic structural view of a rib plate in a ring-shaped bealock die according to some embodiments of the present utility model.

Description of main reference numerals:

10-ring bealock dies; 100-arc-shaped mold sections; 110-sub-die; 120-support; 130-a first fixing plate; 140-a second fixing plate; 121-a receiving table; 200-a first connector; 111-a first connection plate; 112-a second connection plate; 113-a first arcuate plate; 114-a second arcuate plate; 115-rib; 300-reinforcing plate; 111 a-a first through hole; 210-a first screw; 220-a first nut; 115 a-mounting holes; 400-a second connector; 410-a second screw; 420-a second nut.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the templates herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 3, some embodiments of the present utility model provide an annular bealock die, which is mainly applied to building of a pool, and improves stability and molding quality of the die. The ring-shaped puerto mold 10 comprises a plurality of arc-shaped mold segments 100.

The number of the arc-shaped mold segments 100 can be specifically set according to practical situations. It should be noted that the number of the arc-shaped mold segments 100 is related to the magnitude of the central angle corresponding to the arc-shaped mold segments 100. The number of the arc-shaped mold segments 100 forming the ring-shaped bealock mold is smaller as the central angle corresponding to the arc-shaped mold segments 100 is larger, and the number of the arc-shaped mold segments 100 forming the ring-shaped bealock mold is larger as the central angle corresponding to the arc-shaped mold segments 100 is smaller.

In addition, the arc-shaped mold segment 100 includes a sub-mold 110, a support 120, a first fixing plate 130, and a second fixing plate 140. Specifically, in order to improve the stability, shock resistance and strength of the ring-shaped bealock die, the sub-die 110 is a steel die. The steel mould has the advantages of high strength, high combined rigidity, high plate manufacturing precision, tight joint, difficult deformation, good template integrity and strong shock resistance.

In this embodiment, the supporting members 120 are reinforced concrete members to improve the strength and stability of the arc-shaped mold segment 100.

Wherein, the first fixing plate 130 and the second fixing plate 140 are any one of steel plates, wood plates or plastic plates. In this embodiment, in order to improve stability of the arc-shaped mold segment 100, the first fixing plate 130 and the second fixing plate 140 are wood plates, respectively.

Specifically, the supporting member 120 has a receiving platform 121, in this embodiment, the supporting member 120 is shaped like an "L" to form the receiving platform 121 on the supporting member 120, and the sub-mold 110 is disposed on the receiving platform 121 to provide a supporting effect on the sub-mold 110 by the supporting member 120, so as to promote stability of the sub-mold 110 on the supporting member 120.

In this embodiment, the sub-mold 110 and the supporting member 120 are respectively disposed between the first fixing plate 130 and the second fixing plate 140, so as to respectively limit the sub-mold 110 and the supporting member 120 through the first fixing plate 130 and the second fixing plate 140, thereby improving the stability of the connection between the sub-mold 110 and the supporting member 120.

It should be noted that the first fixing plate 130 and the second fixing plate 140 are parallel to each other, and the first fixing plate 130 is disposed on a side of the support 120 facing away from the sub-mold 110.

Specifically, the sub-mold 110, the supporting member 120, the first fixing plate 130 and the second fixing plate 140 are connected by a first connecting member 200 to form the arc-shaped mold segment 100, and it is understood that the stability of the connection among the sub-mold 110, the supporting member 120, the first fixing plate 130 and the second fixing plate 140 is further improved by the first connecting member 200.

The plurality of arc-shaped mold segments 100 are connected end to end in sequence to form an annular bealock mold.

As shown in fig. 2 and 3, in some embodiments of the present utility model, the sub-die 110 includes a first connection plate 111, a second connection plate 112, a first arcuate plate 113, a second arcuate plate 114, and two rib plates 115.

The first connecting plate 111, the second connecting plate 112, the first arc-shaped plate 113, the second arc-shaped plate 114, and the two rib plates 115 are surrounded to form a sub-mold 110 having a receiving space.

Specifically, the first connection plate 111 and the second connection plate 112 are respectively disposed at two opposite sides of the sub-mold 110, and the first connection plate 111 and the second connection plate 112 are parallel to each other; the first arc plate 113 and the second arc plate 114 are respectively arranged at two opposite sides of the sub-die 110, and the first arc plate 113 and the second arc plate 114 are parallel to each other; the two rib plates 115 are respectively disposed on two opposite sides of the sub-mold 110, and four sides of each rib plate 115 are respectively abutted against the first connecting plate 111, the second connecting plate 112, the first arc-shaped plate 113 and the second arc-shaped plate 114, so as to enclose the sub-mold 110 with an accommodating space.

The rib plate 115 is a square plate, and the connection mode between the rib plate 115 and the first connecting plate 111, the second connecting plate 112, the first arc-shaped plate 113 and the second arc-shaped plate 114 includes any one of welding, clamping or wedge connection. In this embodiment, the rib plate 115, the first connecting plate 111, the second connecting plate 112, the first arc plate 113, and the second arc plate 114 are connected by welding, so as to improve the stability of the sub-mold 110.

As shown in fig. 3, in some embodiments of the present utility model, the sub-mold 110 further includes a reinforcing plate 300, where the reinforcing plate 300 is disposed in the accommodating space, and the reinforcing plate 300 is respectively abutted against the first connecting plate 111, the second connecting plate 112, the first arc-shaped plate 113 and the second arc-shaped plate 114, so as to avoid bending of the first connecting plate 111, the second connecting plate 112, the first arc-shaped plate 113 and the second arc-shaped plate 114, so as to improve stability of the sub-mold 110.

Specifically, the reinforcing plate 300 is perpendicular to the first connecting plate 111, the second connecting plate 112, the first arc plate 113 and the second arc plate 114, and the distances from the reinforcing plate 300 to the two rib plates 115 are equal, so that the condition of uneven pressure inside the sub-mold 110 is avoided, and the stability of the sub-mold 110 is improved.

The number of the reinforcing plates 300 may be one, two or more, and may be specifically set according to practical situations.

It should be noted that, the width of the first connecting plate 111 is smaller than the width of the second connecting plate 112, and the width of the second arcuate plate 114 is smaller than the width of the first arcuate plate 113, so as to form a bealock on the sub-die 110, and the bealock is communicated with the accommodating space, so that pouring can be performed through the bealock.

Through the arrangement of the reinforcing plate 300, the integral strength of the arc-shaped mold section 100 can be effectively enhanced, the bending resistance of the segmented arc-shaped mold section 100 is particularly enhanced, the deformation of the arc-shaped mold section 100 in the concrete pouring molding process can be effectively reduced, the accuracy of the size of a pouring molding lock is ensured, and the quality meets the subsequent construction requirements.

As shown in fig. 2 and 3, in some embodiments of the present utility model, the first connection plate 111 is provided with a plurality of first through holes 111a spaced apart from each other. The lifting time of the annular bealock die in the earlier stage can be greatly shortened through the first through hole 111a, and the weight of a single arc-shaped die segment 100 is effectively reduced by arranging the annular bealock die into a plurality of arc-shaped die segments 100, so that the rapidity of placing the arc-shaped die segments 100 and adjusting the subsequent steel die is increased. Meanwhile, when the arc-shaped mold segment 100 is disassembled after the concrete is formed, the single volume and weight thereof are reduced, and the transportation and storage thereof are facilitated.

In some embodiments of the present utility model, the first arcuate plate 113 is provided with a plurality of spaced apart second through holes, and the second arcuate plate 114 is provided with a plurality of spaced apart third through holes.

Specifically, the number of the second through holes is equal to the number of the third through holes, the axis of one second through hole coincides with the axis of one third through hole, the distance between the axes of any two adjacent second through holes is equal, and the distance between the axes of any two adjacent third through holes is equal.

In this embodiment, the first connecting member 200 may sequentially penetrate through the second through hole and the third through hole, so as to connect the first arc plate 113 and the second arc plate 114 through the first connecting member 200. It can be appreciated that the number of the second through holes is equal to that of the first connection members 200, thereby improving the stability of the connection between the first arc plate 113 and the second arc plate 114.

It can be appreciated that when the first connecting piece 200 is the first screw rod 210 and the first nut 220, one end of the first screw rod 210 sequentially penetrates through the second through hole and the third through hole and is connected with the first nut 220, so as to fix the first arc plate 113 and the second arc plate 114.

In some embodiments of the present utility model, the number of the first connectors 200 is plural, and the plural first connectors 200 are spaced apart. It should be noted that the number of the first connectors 200 may be two or more than two arbitrary values, and may be specifically set according to practical situations.

Specifically, in order to promote stability and balance of stress of the sub-mold 110, the distances between the axes of any two adjacent first connectors 200 are equal.

As shown in fig. 3, in some embodiments of the present utility model, the first connector 200 includes a first screw 210 and a first nut 220.

In this embodiment, the number of the first connectors 200 is four, and by setting the number of the first connectors 200 to four, not only the stability of the arcuate mold segment 100 can be improved, but also the cost can be reduced, and the installation or disassembly efficiency of the arcuate mold segment 100 can be improved.

Specifically, one end of the first screw 210 sequentially penetrates through the first fixing plate 130, the supporting member 120, the sub-mold 110, and the second fixing plate 140, and is connected to the first nut 220. It will be appreciated that the stability of the arc-shaped mold segment 100 can be improved by the connection of the first nut 220 and the first screw 210, and the tightness of the connection between the first fixing plate 130, the support 120, the sub-mold 110 and the second fixing plate 140 can be adjusted by adjusting the relative positions between the first nut 220 and the first screw 210.

Through setting up arc mould section 100 to detachable structure to store or remove in the convenience that annular bealock mould used has been promoted greatly in the use of being convenient for recycle moreover that can install in the place of difference.

In some embodiments of the present utility model, any two adjacent sub-modules 110 are connected by a second connector 400.

Specifically, the number of the second connectors 400 is at least two, and the number of the second connectors 400 can be specifically set according to practical situations.

As shown in fig. 4, the rib plate 115 is provided with a plurality of mounting holes 115a, and the plurality of mounting holes 115a are spaced apart, and the number of the mounting holes 115a can be specifically set according to practical situations. In this embodiment, in order to reduce the cost and improve the efficiency of installation or removal, the number of the installation holes 115a is two, and the two installation holes 115a are respectively located at two corners on two diagonal lines of the rib 115.

In addition, the number of the second connectors 400 is equal to the number of the mounting holes 115 a.

As shown in fig. 2 and 3, in the present embodiment, the second connector 400 includes a second screw 410 and a second nut 420. It should be noted that, when two adjacent arc-shaped mold sections 100 are connected, two opposite sides of two sub-molds 110 are abutted, at the same time, the rib plates 115 on the side wall of one sub-mold 110 are abutted with the rib plates 115 on the side wall of the other sub-mold 110, the mounting holes 115a on the two rib plates 115 are in one-to-one correspondence, and the two coincident mounting holes 115a on the two adjacent rib plates 115 are sequentially penetrated through the screw rod, and the two adjacent rib plates 115 are connected through the threaded connection of the screw rod and the nut, so that the two sub-molds 110 are connected, and the two adjacent arc-shaped mold sections 100 are connected.

It will be appreciated that by diagonally arranging the two mounting holes 115a, the stability of the connection between two adjacent sub-molds 110, and the stability of the connection between two adjacent arcuate mold segments 100, can be improved, avoiding sloshing.

In addition, in other embodiments of the present utility model, in order to further improve the stability of the connection between the two adjacent arc-shaped mold segments 100, four mounting holes 115a are provided on the rib plate 115, and four mounting holes 115a are respectively provided at four top corners of the rib plate 115, so that the two adjacent rib plates 115 are connected by the second connector 400, the stability of the connection between the two rib plates 115 can be further improved, and thus the stability of the connection between the two sub-molds 110 and the stability of the connection between the two adjacent arc-shaped mold segments 100 can be improved.

In some embodiments of the present utility model, the central angle corresponding to the arc-shaped mold segment 100 is α, where α has a value ranging from 0 ° < α+.ltoreq.60°.

It should be noted that, the central angle corresponding to the arc-shaped mold section 100 refers to a central angle corresponding to the arc-shaped surface of the arc-shaped mold section 100, that is, a central angle corresponding to the arc-shaped surface of the first arc-shaped plate 113 and/or a central angle corresponding to the arc-shaped surface of the second arc-shaped plate 114.

The value range of alpha can be any value of which the angle alpha is more than 0 DEG and less than or equal to 60 DEG, and can be specifically set according to actual conditions.

In some embodiments of the present utility model, the first connecting plate 111, the second connecting plate 112, the first arc plate 113, the second arc plate 114, the rib plate 115 and the reinforcing plate 300 are all steel plates to further improve the strength of the arc-shaped mold segment 100 and the overall strength of the ring-shaped bealock mold.

Any particular values in all examples shown and described herein are to be construed as merely illustrative and not a limitation, and thus other examples of exemplary embodiments may have different values.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

The above examples merely represent a few embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the present utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (10)

1. The annular bealock die is characterized by comprising a plurality of arc-shaped die segments;

the arc-shaped mold section comprises a sub-mold, a supporting piece, a first fixing plate and a second fixing plate;

the supporting piece is provided with a bearing table, and the sub-die is arranged on the bearing table;

the sub-die and the support are respectively arranged between the first fixing plate and the second fixing plate;

the sub-die, the support, the first fixing plate and the second fixing plate are connected through a first connecting piece to form the arc-shaped die section;

and the arc-shaped die sections are sequentially connected through the second connecting piece to form the annular bealock die.

2. The ring lock die as in claim 1, wherein the sub-die comprises a first web, a second web, a first arcuate plate, a second arcuate plate, and two ribs;

the first connecting plate, the second connecting plate, the first arc-shaped plate, the second arc-shaped plate and the two rib plates enclose to form a sub-die with an accommodating space.

3. The ring-shaped bealock die according to claim 2, wherein the sub-die further comprises a reinforcing plate, the reinforcing plate is disposed in the accommodating space, and the reinforcing plate is respectively abutted against the first connecting plate, the second connecting plate, the first arc plate and the second arc plate;

the distance from the reinforcing plate to the two rib plates is equal.

4. The ring lock die as in claim 2, wherein said first web is provided with a plurality of spaced apart first through holes.

5. The ring-shaped bealock die according to claim 2, wherein the first arcuate plate has a plurality of spaced apart second through holes and the second arcuate plate has a plurality of spaced apart third through holes;

the number of the second through holes is equal to that of the third through holes, and the axis of one second through hole is coincident with that of one third through hole.

6. The ring lock die as in claim 3, wherein said first web, said second web, said first arcuate, said second arcuate, said rib and said reinforcing plate are steel plates.

7. The ring die as claimed in any one of claims 2 to 6, characterized in that said first connection comprises a first screw and a first nut;

one end of the first screw rod sequentially penetrates through the first fixing plate, the supporting piece, the sub-die and the second fixing plate and is connected with the first nut.

8. The ring lock die as in claim 7, wherein the number of said first connecting members is plural, and the plural first connecting members are spaced apart;

the distances between the axes of any two adjacent first connecting pieces are equal.

9. The ring-shaped die as claimed in any one of claims 2 to 6, wherein the rib plate is provided with at least two mounting holes;

the mounting holes are disposed at corners of the rib plate.

10. The ring-shaped bealock die according to claim 9, wherein any two adjacent sub-dies are connected by a second connecting piece;

the second connecting piece comprises a second screw rod and a second nut;

the second screw rod can penetrate through the mounting hole and is connected with the second nut.

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