CN217414344U - Pouring die for framework slope protection water intercepting tank - Google Patents

Abstract

The utility model relates to a road bed construction technical field, concretely relates to skeleton bank protection catch basin is with pouring mould. The pouring mold for the framework slope protection water intercepting tank comprises a plurality of sub-molds distributed along the length direction of a slope surface; the sub-mould comprises a first forming part, a second forming part and a supporting component, wherein the first forming part and the second forming part are arranged in parallel, and the extending directions of the first forming part and the second forming part are consistent with the length direction of the water intercepting groove, so that a pouring cavity for pouring the water intercepting groove is formed between the first forming part and the second forming part; the supporting assembly comprises a first supporting piece, and the first forming piece and the second forming piece are fixedly connected with the first supporting piece; in the length direction of the slope surface, two adjacent first supporting pieces are detachably connected so as to detachably connect two adjacent sub-molds. Adopt this disclosed skeleton bank protection catch basin with water cut basin appearance quality who pours into of pouring mould better.

Description

Pouring die for framework slope protection water intercepting tank

Technical Field

The utility model relates to a road bed construction technical field especially relates to a framework bank protection catch basin is with pouring mould.

Background

The framework revetment refers to a frame-type structure formed by concrete or grouted rubble on the side slope of a highway or a railway roadbed and is a constituent part of the roadbed. The skeleton bank protection generally includes the skeleton body and forms the inside water cut-off groove in the skeleton body.

Generally, the water intercepting tank is formed by taking a plurality of concrete precast blocks to a slope protection site and manually piling the concrete precast blocks after the concrete precast blocks are manufactured in a precast yard.

However, in the above-mentioned forming method of the water intercepting tank, the precast block is easy to be separated, so that the edge line of the formed water intercepting tank is not straight, the water intercepting effect of the water intercepting tank is affected, and the roadbed is permeated and deformed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem or at least partially solve the technical problem, the present disclosure provides a casting mold for a framework slope protection water cut-off trough.

The utility model provides a framework bank protection catch basin is with pouring mould, including a plurality of daughter moulds that distribute along the length direction of domatic; the sub-mould comprises a first forming part, a second forming part and a supporting component, wherein the first forming part and the second forming part are arranged in parallel, and the extending directions of the first forming part and the second forming part are consistent with the length direction of the water intercepting groove, so that a pouring cavity for pouring the water intercepting groove is formed between the first forming part and the second forming part; the supporting assembly comprises a first supporting piece, and the first forming piece and the second forming piece are fixedly connected with the first supporting piece; in the length direction of the slope surface, two adjacent first supporting pieces are detachably connected so as to detachably connect two adjacent sub-molds.

Optionally, the device further comprises a first connecting structure; in the length direction of the slope, the first connecting structure is arranged between two adjacent first supporting pieces and is used for connecting the two adjacent first supporting pieces.

Optionally, the first connecting structure comprises two flanges and a threaded fastener; in the length direction of the slope, the two flange plates are respectively sleeved on the two adjacent first supporting pieces, and the threaded fastener can be detachably connected with the two flange plates so as to be detachably connected with the two adjacent first supporting pieces.

Optionally, the axial direction of the threaded fastener and the extending direction of the first support member are both consistent with the length direction of the slope surface.

Optionally, the support assembly further includes a second support member and a third support member, the second support member is fixedly connected to the first support member; one end of the third supporting piece is connected to the second supporting piece, and the first forming piece and the second forming piece are connected with the other end of the third supporting piece.

Optionally, an included angle is formed between the extending direction of the second supporting member and the extending direction of the first supporting member; the extending direction of the third supporting piece is perpendicular to the extending direction of the second supporting piece.

Optionally, the third supporting member is a plurality of, and the plurality of third supporting members are distributed at intervals along the length direction of the water intercepting tank.

Optionally, still include second connection structure, second connection structure is located between the skeleton body of supporting component and skeleton bank protection, and second connection structure is used for connecting supporting component and skeleton body.

Optionally, the second connecting structure includes a fourth supporting member, a backing plate and a connecting steel bar; the fourth supporting piece is connected between the supporting assembly and the base plate; the backing plate is located the one side towards the supporting component of skeleton body, is connected through the connecting reinforcement between backing plate and the skeleton body.

Optionally, a plurality of sub-molds are distributed in the slope direction of the slope.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

the pouring mold for the framework slope protection water intercepting tank comprises a plurality of sub-molds distributed along the length direction of a slope surface, each sub-mold comprises a first forming piece and a second forming piece, the extending directions of the first forming piece and the second forming pieces are consistent with the length direction of the water intercepting tank, a pouring cavity for pouring the water intercepting tank is formed between the first forming piece and the second forming pieces, and the first forming pieces and the second forming pieces are all integral pieces extending along the length direction of the water intercepting tank, so that the edge of the pouring cavity formed between the first forming pieces and the second forming pieces is consistent with the edge of the water intercepting tank, and the appearance quality of the poured water intercepting tank is good; in addition, the supporting assembly comprises a first supporting piece, and two adjacent first supporting pieces are detachably connected in the length direction of the slope surface so as to detachably connect two adjacent submolds, so that when the local structure of the water intercepting groove is damaged, a plurality of submolds can be detached to be separated, and the corresponding local structure of the water intercepting groove can be repaired by using a single submold.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic view of a partial structure of a roadbed where an arch-shaped framework slope protection is located;

fig. 2 is a schematic structural view of a pouring mold for a framework slope protection water intercepting tank provided in the embodiment of the present disclosure;

fig. 3 is a schematic view of a disassembled structure of the pouring mold for the framework slope protection water intercepting tank provided in the embodiment of the present disclosure;

fig. 4 is a use state diagram of the pouring mold for the framework slope protection water cut-off trough provided by the embodiment of the disclosure along the sectional direction a-a in fig. 2;

FIG. 5 is an enlarged view of a portion of the structure at B in FIG. 4;

fig. 6 is a schematic structural diagram of a first flange plate in the pouring mold for the framework slope protection water-intercepting tank provided by the embodiment of the disclosure.

Wherein the content of the first and second substances,

1. a skeleton body; 2. a water intercepting tank; 3. a sub-mold; 4. a first connecting structure; 5. a second connecting structure;

10. the framework slope protection water intercepting trough is provided with a pouring mold; 11. a first sub-skeleton; 12. a second sub-skeleton; 13. a third sub-skeleton; 21. a first groove section; 22. a second groove section; 23. a third groove section; 3a, a first sub-mold; 3b, a second sub-mold; 3c, a third sub-mold; 3d, a fourth sub-mold; 41. a first flange plate; 42-a second flange; 43-third flange; 44-a fourth flange; 45-a first threaded fastener; 46-a second threaded fastener; 51. 51a, 51b, a fourth support; 52. 52a, 52b, a backing plate; 53. 53a, 53b, connecting steel bars;

31a, 31b, 31c, 31d, a first molding member; 32a, 32b, 32c, 32d, a second profile; 33a, 33b, 33c, 33d, a support member; 34a, 34b, 34c, 34d, a casting cavity; 411-a first threaded hole;

331a, 331b, 331c, 331d, a first support; 332a, 332b, 332c, 332d, a second support; 333a, 333b, 333c, 333d, a third support.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present disclosure may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced in other ways than those described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.

The framework slope protection refers to a frame type structure formed by concrete or mortar rubbles on the side slopes of highways and railways, and is a component of roadbeds, namely the framework slope protection is used for dividing and fixing the side slopes with the overall downward sliding tendency to disperse the potential energy generated by the overall tendency to stabilize the side slopes, and particularly, the integral side slopes are stabilized through local fixation on the surfaces, local soil retaining and drainage guiding. The skeleton revetment generally includes a skeleton body and a water trap formed inside the skeleton body.

In the current railway and highway construction of China, the arch skeleton slope protection is a slope protection form which is widely applied to roadbed protection.

Generally, the water intercepting tank is formed by taking a plurality of concrete precast blocks to a slope protection site and manually piling the concrete precast blocks after the plurality of concrete precast blocks are manufactured in a precast yard.

However, in the above-mentioned forming method of the intercepting basin, due to the height of the on-site masonry worker process and the size deviation of the precast block, the precast block may be separated, the edge line shape of the formed intercepting basin is not straight, the intercepting effect of the intercepting basin is affected, and the roadbed may be permeated and deformed.

Therefore, the embodiment of the disclosure provides a framework slope protection intercepting basin is with pouring mould, through setting up first shaping spare and the second shaping spare that is parallel to each other, and the extending direction of first shaping spare and second shaping spare is unanimous with the length direction of intercepting basin to form the pouring chamber of pouring the intercepting basin between first shaping spare and second shaping spare, like this, then can avoid the marginal line type of the intercepting basin that forms not straight to a certain extent, thereby make the intercepting effect of intercepting basin better, avoid road bed infiltration deformation to a certain extent.

The following describes in detail a pouring mold for a framework slope protection water intercepting tank according to an embodiment of the present disclosure with reference to the accompanying drawings and specific embodiments.

It should be noted that, the following description will use an arch-shaped framework slope protection as an example to describe the embodiments of the present disclosure.

Fig. 1 is a schematic view of a local structure of a roadbed where an arch-shaped framework revetment is located.

As shown in fig. 1, an arched skeleton slope protection comprises a skeleton body 1 and a water cut-off groove 2, wherein the skeleton body 1 comprises a first sub-skeleton 11, a second sub-skeleton 12 and a third sub-skeleton 13, the first sub-skeleton 11 and the second sub-skeleton 12 are distributed along the length direction of a slope, the extending direction of the first sub-skeleton 11 and the extending direction of the second sub-skeleton 12 are consistent with the slope inclination direction, the third sub-skeleton 13 is connected between the first sub-skeleton 11 and the second sub-skeleton 12, and the middle part of the third sub-skeleton 13 protrudes towards the top of a roadbed, so that the skeleton body 1 is integrally in an inverted U shape; cut-off basin 2 is formed in skeleton body 1's inboard, and is unanimous with skeleton body 1's shape, and cut-off basin 2 deviate from domatic one side and skeleton body 1 deviate from domatic one side and flush, or cut-off basin 2 deviates from domatic one side and distance between domatic is greater than skeleton body 1 and deviates from domatic one side and distance between domatic.

Specifically, the water intercepting tank 2 includes a first tank section 21, a second tank section 22 and a third tank section 23, the first tank section 21 is arranged corresponding to the first sub-framework 11, the second tank section 22 is arranged corresponding to the second sub-framework 12, and the third tank section 23 is arranged corresponding to the third sub-framework 13.

It should be noted that, the framework body 1 and the water intercepting groove 2 can be made of concrete, and a cavity enclosed between the water intercepting groove 2 of one arched framework slope protection and the adjacent arched framework slope protection is filled with soil.

Further, the longitudinal direction of the slope surface coincides with the x-axis direction in fig. 1, and the inclination direction of the slope surface coincides with the y-axis direction in fig. 1.

The concrete mold for the framework slope protection gutter will be described in detail below with respect to the gutter 2 having the above-described shape.

Please refer to fig. 1 to fig. 3, wherein fig. 2 is a schematic structural view of a casting mold for a framework slope protection water-intercepting trough according to an embodiment of the present disclosure. Fig. 3 is a schematic view of a disassembled structure of the pouring mold for the framework slope protection water-intercepting tank provided by the embodiment of the present disclosure.

As shown in fig. 2 and fig. 3, the present embodiment provides a pouring mold 10 for a framework slope protection water cut-off trough, which includes four sub-molds 3, where the four sub-molds 3 include a first sub-mold 3a, a second sub-mold 3b, a third sub-mold 3c, and a fourth sub-mold 3d, where the first sub-mold 3a and the second sub-mold 3b are distributed along the length direction of the slope, and the first sub-mold 3a is detachably connected to the second sub-mold 3 b; the third sub-mould 3c and the fourth sub-mould 3d are distributed along the length direction of the slope, and the third sub-mould 3c and the fourth sub-mould 3d are detachably connected; the first sub-mold 3a and the third sub-mold 3c are distributed along the slope direction, and the first sub-mold 3a is positioned at the top of the third sub-mold 3c and is abutted against the third sub-mold 3 c; the second sub-mold 3b and the fourth sub-mold 3d are distributed along the slope direction, and the second sub-mold 3b is located on the top of the fourth sub-mold 3d and is abutted to the fourth sub-mold 3 d.

Specifically, the first sub-mold 3a includes a first forming part 31a, a second forming part 32a and a supporting component 33a, the first forming part 31a and the second forming part 32a are arranged in parallel, and the extending directions of the first forming part 31a and the second forming part 32a are consistent with the extending direction of the third trough section 23, so as to form a pouring cavity 34a for pouring a partial structure of the third trough section 23 between the first forming part 31a and the second forming part 32a, in this embodiment, the second forming part 32a is located inside the first forming part 31 a; the supporting assembly 33a includes a first supporting member 331a, a second supporting member 332a and a third supporting member 333a, the extending direction of the first supporting member 331a is consistent with the length direction of the slope, and both the first forming member 31a and the second forming member 32a are fixedly connected to the outer end of the first supporting member 331 a; an included angle is formed between the extending direction of the second support 332a and the extending direction of the first support 331a, one end of the second support 332a is fixedly connected to the first support 331a, and the other end of the second support 332a is connected to the second forming member 32 a; the extending direction of the third supporting member 333a is perpendicular to the extending direction of the second supporting member 332a, one end of the third supporting member 333a is connected to the second supporting member 332a, and the first forming member 31a and the second forming member 32a are both connected to the other end of the third supporting member 333a, wherein the arrangement of the second supporting member 332a and the third supporting member 333a reinforces the structure of the first sub-mold 3 a.

In some alternative embodiments, the third supporting member 333a is multiple, and the multiple third supporting members 333a are distributed at intervals along the length direction of the third slot segment 23; one end of the third support member 333a facing away from the first support member 331a may be connected to the third support member in the adjacent casting mold for a framework slope protection water cut trough 10.

It should be noted that, the connection manner between the first support 331a and the first forming member 31a, between the first support 331a and the second forming member 32a, between the first support 331a and the second support 332a, between the second support 332a and the third support 333a, between the third support 333a and the first forming member 31a, between the third support 333a and the second forming member 32a, and between the second support 332a and the second forming member 32a may be a welded connection manner, and the second support 332a may also abut against the second forming member 32a, where the connection manner is not particularly limited; when the first support 331a and the first forming member 31a, the first support 331a and the second forming member 32a, the third support 333a and the first forming member 31a, the third support 333a and the second forming member 32a, and the second support 332a and the second forming member 32a are welded, it is necessary to keep the positions of the first forming member 31a consistent with a plurality of positions on the inner side of the third trough section 23, and the positions of the second forming member 32a consistent with the positions on the outer side of the third trough section 23.

Specifically, the first forming member 31a and the second forming member 32a may be plate-shaped members, and the thickness direction of the first forming member 31a and the thickness direction of the second forming member 32a both coincide with the length direction of the slope surface, in some alternative embodiments, in order to reduce the quality of the casting mold 10 for framework slope protection and water interception provided in this embodiment, the first forming member 31a and the second forming member 32a may be steel plates with a thickness of 5mm, and herein, the thickness and material of the first forming member 31a and the second forming member 32a are not particularly limited; in addition, the first support 331a, the second support 332a, and the third support 333a may be square steel pipes having an outer diameter of 5cm, and the size, shape, and material of the first support 331a, the second support 332a, and the third support 333a are not particularly limited.

Further, the second sub-mold 3b includes a first molding member 31b, a second molding member 32b and a supporting member 33b, the first molding member 31b and the second molding member 32b are arranged in parallel, and the extending directions of the first molding member 31b and the second molding member 32b are consistent with the extending direction of the third trough section 23, so as to form a casting cavity 34b for casting a partial structure of the third trough section 23 between the first molding member 31b and the second molding member 32b, the casting cavity 34b and the casting cavity 34a are equal in size and symmetrical in shape, and the casting cavity 34b and the casting cavity 34a jointly constitute a casting cavity for casting the third trough section 23, so that the cast third trough section 23 is smoothly continuous, in this embodiment, the second molding member 32b is located inside the first molding member 31 b; the supporting assembly 33b includes a first supporting member 331b, a second supporting member 332b and a third supporting member 333b, an extending direction of the first supporting member 331b is consistent with a length direction of the slope, the first forming member 31b and the second forming member 32b are both fixedly connected with an outer end of the first supporting member 331b, and an inner end of the first supporting member 331b is detachably connected with an inner end of the first supporting member 331a so as to detachably connect the first sub-mold 3a and the second sub-mold 3 b; an included angle is formed between the extending direction of the second support 332b and the extending direction of the first support 331b, one end of the second support 332b is fixedly connected to the first support 331b, and the other end of the second support 332b is connected to the second forming member 32 b; the extending direction of the third supporting member 333b is perpendicular to the extending direction of the second supporting member 332b, one end of the third supporting member 333b is connected to the second supporting member 332b, and the first forming member 31b and the second forming member 32b are both connected to the other end of the third supporting member 333b, wherein the arrangement of the second supporting member 332b and the third supporting member 333c enhances the structure of the second sub-mold 3 b.

In some alternative embodiments, the third supporting member 333b is multiple, and the multiple third supporting members 333b are distributed at intervals along the length direction of the third trough section 23; wherein, an end of the third supporting member 333b facing away from the first supporting member 331b may be connected to the third supporting member in the adjacent pouring mold for framework slope protection intercepting gutter 10.

It should be noted that, the connection manner between the first support 331b and the first forming member 31b, between the first support 331b and the second forming member 32b, between the first support 331b and the second support 332b, between the second support 332b and the third support 333b, between the third support 333b and the first forming member 31b, between the third support 333b and the second forming member 32b, and between the second support 332b and the second forming member 32b may be a welded connection manner, and the second support 332b may also abut against the second forming member 32b, where the connection manner is not particularly limited; when the first support 331b and the first forming member 31b, the first support 331b and the second forming member 32b, the third support 333b and the first forming member 31b, the third support 333b and the second forming member 32b, and the second support 332b and the second forming member 32b are welded, it is necessary to keep the position of the first forming member 31b consistent with the position of the outer side of the third trough section 23, and the position of the second forming member 32b consistent with the position of the inner side of the third trough section 23.

Specifically, the first forming member 31b and the second forming member 32b may be plate-shaped members, and the thickness direction of the first forming member 31b and the thickness direction of the second forming member 32b are both consistent with the length direction of the slope surface, in some alternative embodiments, in order to reduce the quality of the pouring mold 10 for a framework slope protection water interception trough provided in this embodiment, the first forming member 31b and the second forming member 32b may be steel plates with a thickness of 5mm, and here, the thickness and the material of the first forming member 31b and the second forming member 32b are not particularly limited; in addition, the first support 331b, the second support 332b, and the third support 333b may be square steel pipes having an outer diameter of 5cm, and the size, shape, and material of the first support 331b, the second support 332b, and the third support 333b are not particularly limited.

Further, the third sub-mold 3c includes a first molding member 31c, a second molding member 32c, and a supporting member 33c, the first molding member 31c is disposed in parallel with the second molding member 32c, and the extending direction of the first forming member 31c and the second forming member 32c are both identical to the extending direction of the first trough section 21, so as to form a casting cavity 34c for casting the first groove section 21 between the first molding member 31c and the second molding member 32c, the top of the first molding member 31c is fitted with the bottom of the first molding member 31a and abuts against the first molding member 31a, the top of the second molding member 32c is fitted with the bottom of the second molding member 32a and abuts against the second molding member 32a, to connect the casting cavity 34c and the casting cavity 34a, so that the first trough section 21 and the third trough section 23 are formed to be smoothly continuous, and in the embodiment, the second forming member 32c is positioned at the inner side of the first forming member 31 c; the supporting component 33c includes a first supporting member 331c, a second supporting member 332c and a third supporting member 333c, the extending direction of the first supporting member 331c is consistent with the length direction of the slope, and both the first forming member 31c and the second forming member 32c are fixedly connected with the outer end of the first supporting member 331 c; the extending direction of the second support 332c is the same as the extending direction of the first groove section 21, one end of the second support 332c is fixedly connected to the first support 331c, and the other end of the second support 332c abuts against the first support 331 a; the third supporting member 333c extends in the same direction as the length direction of the slope, one end of the third supporting member 333c is connected to the second supporting member 332c, and the first forming member 31c and the second forming member 32c are both connected to the other end of the third supporting member 333c, wherein the arrangement of the second supporting member 332c and the third supporting member 333c enhances the structure of the third sub-mold 3 c.

In some alternative embodiments, the third supporting member 333c is plural, and the plural third supporting members 333c are spaced apart along the length direction of the first slot segment 21; wherein, an end of the third supporting member 333c facing away from the first supporting member 331c may be connected to the third supporting member in the adjacent pouring mold for framework slope protection intercepting basin 10.

It should be noted that, a welding connection manner may be adopted between the first support 331c and the first forming member 31c, between the first support 331c and the second forming member 32c, between the first support 331c and the second support 332c, between the second support 332c and the third support 333c, between the third support 333c and the first forming member 31c, and between the third support 333c and the second forming member 32c, and herein, the connection manner is not particularly limited; when the first support 331c and the first forming member 31c, the first support 331c and the second forming member 32c, the third support 333c and the first forming member 31c, and the third support 333c and the second forming member 32c are welded, it is necessary to keep the position of the first forming member 31c consistent with the position of the outer side of the first trough section 21, and the position of the second forming member 32c consistent with the position of the inner side of the first trough section 21.

Specifically, the first forming member 31c and the second forming member 32c may be plate-shaped members, and the thickness direction of the first forming member 31c and the thickness direction of the second forming member 32c are both consistent with the length direction of the slope surface, in some alternative embodiments, in order to reduce the quality of the pouring mold 10 for a framework slope protection water interception trough provided in this embodiment, the first forming member 31c and the second forming member 32c may be steel plates with a thickness of 5mm, and here, the thickness and the material of the first forming member 31c and the second forming member 32c are not particularly limited; in addition, the first support 331c, the second support 332c, and the third support 333c may be square steel pipes having an outer diameter of 5cm, and the size, shape, and material of the first support 331c, the second support 332c, and the third support 333c are not particularly limited.

Further, the fourth sub-mold 3d includes a first molding member 31d, a second molding member 32d, and a supporting member 33d, the first molding member 31d is disposed in parallel with the second molding member 32d, and the extending direction of the first forming member 31d and the second forming member 32d are both identical to the extending direction of the second trough section 22, so as to form a pouring cavity 34d for pouring the first groove section 21 between the first molding member 31d and the second molding member 32d, the top of the first molding member 31d is fitted with the bottom of the first molding member 31b and abuts against the first molding member 31b, the top of the second molding member 32d is fitted with the bottom of the second molding member 32b and abuts against the second molding member 32b, to communicate the casting cavity 34b with the casting cavity 34d, so that the formed third groove section 23 and the second groove section 22 are smoothly continuous, in this embodiment, the second molding member 32d is located at the inner side of the first molding member 31 d; the supporting component 33d includes a first supporting member 331d, a second supporting member 332d and a third supporting member 333d, the extending direction of the first supporting member 331d is consistent with the length direction of the slope, both the first forming member 31d and the second forming member 32d are fixedly connected with the outer end of the first supporting member 331d, and the inner end of the first supporting member 331d is fixedly connected with the inner end of the first supporting member 331 c; the extending direction of the second support 332d is the same as the extending direction of the second groove section 22, one end of the second support 332d is fixedly connected to the first support 331d, and the other end of the second support 332d abuts against the first support 331 b; the extending direction of the third supporting member 333d is the same as the length direction of the slope surface, one end of the third supporting member 333d is connected to the second supporting member 332d, and both the first forming member 31d and the second forming member 32d are connected to the other end of the third supporting member 333d, wherein the arrangement of the second supporting member 332d and the third supporting member 333d reinforces the structure of the fourth sub-mold 3 d.

In some alternative embodiments, the third supporting member 333d is plural, and the plural third supporting members 333d are spaced apart along the length direction of the second slot segment 22; wherein, an end of the third supporting member 333d facing away from the first supporting member 331d can be connected to the third supporting member in the adjacent pouring mold for framework slope protection intercepting basin 10.

It should be noted that, a welding connection manner may be adopted between the first support 331d and the first forming member 31d, between the first support 331d and the second forming member 32d, between the first support 331d and the second support 332d, between the second support 332d and the third support 333d, between the third support 333d and the first forming member 31d, and between the third support 333d and the second forming member 32d, and herein, the connection manner is not particularly limited; when the first support 331d and the first forming member 31d, the first support 331d and the second forming member 32d, the third support 333d and the first forming member 31d, and the third support 333d and the second forming member 32d are welded, it is necessary to keep the position of the first forming member 31d consistent with the position of the outer side of the second trough section 22, and the position of the second forming member 32d consistent with the position of the inner side of the second trough section 22.

Specifically, the first forming member 31d and the second forming member 32d may be plate-shaped members, and the thickness direction of the first forming member 31d and the thickness direction of the second forming member 32d both coincide with the length direction of the slope surface, in some optional embodiments, in order to reduce the quality of the pouring mold 10 for a framework slope protection water interception trough provided in this embodiment, the first forming member 31d and the second forming member 32d may both be steel plates with a thickness of 5mm, and herein, the thickness and the material of the first forming member 31d and the second forming member 32d are not particularly limited; in addition, the first support 331d, the second support 332d, and the third support 333d may be square steel pipes having an outer diameter of 5cm, and the size, shape, and material of the first support 331d, the second support 332d, and the third support 333d are not particularly limited.

In this embodiment, the first sub-mold 3a and the second sub-mold 3b are symmetrical with respect to the central axis of the cut-off tank 2 in the slope length direction, and the third sub-mold 3c and the fourth sub-mold 3d are symmetrical with respect to the central axis of the cut-off tank 2 in the slope length direction.

Further, in order to straighten the edge of the poured cut-off water tank 2, in the present embodiment, the thickness of the first formed part 31c is equal to that of the first formed part 31a, and the thickness of the second formed part 32c is equal to that of the second formed part 32 a; the thickness of the first forming part 31d is equal to that of the first forming part 31b, and the thickness of the second forming part 32d is equal to that of the second forming part 32b, so that the edge of the poured intercepting basin 2 is smooth and straight, and the intercepting basin 2 has a good intercepting effect.

Specifically, in the pouring mold 10 for the framework slope protection water intercepting tank provided by the embodiment, the pouring cavity 34c, the pouring cavity 34a, the pouring cavity 34b and the pouring cavity 34d are sequentially communicated, the width of the pouring cavity 34c is equal to that of the pouring cavity 34a, the pouring cavity 34a and the pouring cavity 34b are in axial symmetry, and the pouring cavity 34d and the pouring cavity 34c are in axial symmetry, so that the outer edge of the poured water intercepting tank 2 is straight, the water intercepting tank 2 has a good water intercepting effect, and the occurrence of permeation deformation of a roadbed is avoided to a certain extent; in addition, in the present embodiment, the first sub-mold 3a and the second sub-mold 3b are detachably connected, and the first sub-mold 3a abuts against the third sub-mold 3 c; the third sub-mold 3c is detachably connected with the fourth sub-mold 3d, and the second sub-mold 3b is abutted to the fourth sub-mold 3d, so that when a certain groove section of the pouring cut-off trough 2 is damaged, at this time, the corresponding sub-mold 3 can be adopted to repair the corresponding groove section, and the use performance of the pouring mold 10 for the framework slope protection cut-off trough provided by the embodiment is improved.

In the specific embodiment of the present embodiment, the first formed part 31a, the first formed part 31b, the first formed part 31c, and the first formed part 31d are machined by a plate making machine according to the outer dimension of the water cutting tank 2, and the second formed part 32a, the second formed part 32b, the second formed part 32c, and the second formed part 32d are machined by a plate making machine according to the inner dimension of the water cutting tank 2.

The longitudinal direction of the slope surface coincides with the x-axis direction in fig. 2, and the oblique direction of the slope surface coincides with the y-axis direction in fig. 2.

Please refer to fig. 2 to fig. 6, wherein fig. 4 is a using state diagram of the casting mold for a framework slope protection water cut-off trough provided by the embodiment of the present disclosure along a sectional direction a-a in fig. 2. Fig. 5 is an enlarged view of a portion of the structure at B in fig. 4. Fig. 6 is a schematic structural view of a first flange plate in the pouring mold for the framework slope protection water intercepting trough provided by the embodiment of the disclosure.

As shown in fig. 1 to 6, in order to achieve the detachable connection between the first sub-mold 3a and the second sub-mold 3b and the detachable connection between the third sub-mold 3c and the fourth sub-mold 3d, in some embodiments, the pouring mold 10 for a framework slope protection water-intercepting trough provided in this embodiment further includes a first connecting structure 4, the first connecting structure 4 includes a first flange 41, a second flange 42, a third flange 43, a fourth flange 44, two first threaded fasteners 45 and two second threaded fasteners 46, the first flange 41 is sleeved on the first supporting member 331a, the second flange 42 is sleeved on the first supporting member 331b, the first flange 41 is respectively provided with a first threaded hole 411 along two radial ends thereof, the second flange 42 is respectively provided with a second threaded hole along two radial ends thereof, the second threaded holes are in one-to-one correspondence with the first threaded holes 411, the first threaded fastener 45 passes through the first threaded hole 411 and the second threaded hole in sequence to detachably connect the first flange 41 and the second flange 42, thereby detachably connecting the first sub-mold 3a and the second sub-mold 3 b; the third flange plate 43 is sleeved on the first support member 331c, the fourth flange plate 44 is sleeved on the first support member 331d, third threaded holes are respectively formed in the third flange plate 43 along the two radial ends of the third flange plate, fourth threaded holes are respectively formed in the fourth flange plate 44 along the two radial ends of the fourth flange plate, the fourth threaded holes correspond to the third threaded holes one to one, and the second threaded fasteners 46 sequentially penetrate through the third threaded holes and the fourth threaded holes to detachably connect the third flange plate 43 and the fourth flange plate 44, so that the third sub-mold 3c and the fourth sub-mold 3d can be detachably connected.

Wherein the first flange 41 is welded to the first support member 331a, and the second flange 42 is welded to the first support member 331 b; the third flange 43 is welded to the first support member 331c, and the fourth flange 44 is welded to the first support member 331 d; here, the connection manner of the first flange 41 between the first support 331a, the second flange 42 and the first support 331b, the third flange 43 and the first support 331c, and the fourth flange 44 and the first support 331d is not particularly limited.

In this embodiment, the specifications and parameters of the first flange 41 and the second flange 42 are the same, and the specifications and parameters of the third flange 43 and the fourth flange 44 are the same; here, specific specifications and parameters of the first flange 41, the second flange 42, the third flange 43, and the fourth flange 44 are not limited.

In order to further determine the casting position of the cut-off trough 2, the casting mold 10 for a framework slope protection cut-off trough provided by the embodiment further includes a second connecting structure 5, the second connecting structure 5 includes a fourth supporting member 51, a backing plate 52 and a connecting steel bar 53, the fourth supporting member 51 includes a fourth supporting member 51a and a fourth supporting member 51b, the backing plate 52 includes a backing plate 52a and a backing plate 52b, the connecting steel bar 53 includes a connecting steel bar 53a and a connecting steel bar 53b, one end of the fourth supporting member 51a is connected to the outer end of the first supporting member 331a, the other end of the fourth supporting member 51a is connected to the backing plate 52a, and the backing plate 52a is connected to the side of the first sub-framework 11 facing the first supporting member 331a through the connecting steel bar 53 a; one end of the fourth support 51b is connected to the outer end of the first support 331b, the other end of the fourth support 51b is connected to the backing plate 52b, and the backing plate 52b is connected to the side of the second sub-frame 12 facing the first support 331b through the connecting steel bar 53 b; connect in skeleton body 1 with the framework slope protection casting die for catch basin 10 that this embodiment provided to can effectively confirm the position of pouring of catch basin 2, avoid to a certain extent catch basin 2 to pour the back and design position between have the deviation.

It should be noted that, the backing plate 52a and the backing plate 52b may be steel plates, and the backing plate 52a and the backing plate 52b have the same shape and the same size, and the fourth support 51a and the first support 331a and the fourth support 51a and the backing plate 52a may be connected by welding; the fourth support 51b and the first support 331b, and the fourth support 51b and the backing plate 52b can be connected by welding; here, the material of the backing plate 52a and the backing plate 52b, the shape of the backing plate 52a and the backing plate 52b, the connection manner between the fourth support 51a and the first support 331a, the connection manner between the fourth support 51a and the backing plate 52a, the connection manner between the fourth support 51b and the first support 331b, and the connection manner between the fourth support 51b and the backing plate 52b are not particularly limited.

In the present embodiment, the welding position between the respective parts or components is determined depending on the shape and size of the specific water cut groove 2, and herein, it is not limited.

When the pouring mold 10 for the framework slope protection water cut-off groove provided by the embodiment is used for pouring the water cut-off groove 2, firstly, the framework body 1 is poured, the position where the pouring mold 10 for the framework slope protection water cut-off groove is to be inserted is reserved, then, soil located on the inner side of the water cut-off groove 2 is cleaned up, then, the framework slope protection water cut-off groove is installed to the pre-embedded position after each sub-mold 3 of the pouring mold 10 for the framework slope protection water cut-off groove is assembled, the framework slope protection water cut-off groove is connected to the framework body 1 through the pouring mold 10, then, concrete is poured in the pouring mold 10 for the framework slope protection water cut-off groove, the water cut-off groove 2 is formed, and the cleaned graph is filled back to the original position.

The pouring mold for the framework slope protection water intercepting tank provided by the embodiment comprises a plurality of sub-molds which are distributed along the length direction of a slope surface and are detachably connected; the sub-mould comprises a first forming part, a second forming part and a supporting assembly, wherein the first forming part and the second forming part are arranged in parallel, and the extending directions of the first forming part and the second forming part are consistent with the length direction of the water intercepting groove, so that a pouring cavity for pouring the water intercepting groove is formed between the first forming part and the second forming part; the supporting assembly comprises a first supporting part, and the first forming part and the second forming part are fixedly connected with the first supporting part; in the length direction of the slope surface, two adjacent first supporting pieces are detachably connected so as to detachably connect two adjacent sub-molds. The water intercepting groove poured by the pouring mold for the framework slope protection water intercepting groove provided by the embodiment has a smooth and straight appearance, and when the local structure of the water intercepting groove is damaged, the local structure of the water intercepting groove can be repaired by using a separate sub-mold.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description is only for the purpose of describing particular embodiments of the present disclosure, so as to enable those skilled in the art to understand or implement the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A pouring mold (10) for a framework slope protection water intercepting tank is characterized by comprising a plurality of sub-molds (3) distributed along the length direction of a slope;

the sub-mould (3) comprises a first forming part, a second forming part and a supporting component, wherein the first forming part and the second forming part are arranged in parallel, and the extending directions of the first forming part and the second forming part are consistent with the length direction of the water intercepting groove (2), so that a pouring cavity for pouring the water intercepting groove (2) is formed between the first forming part and the second forming part;

the supporting assembly comprises a first supporting piece, and the first forming piece and the second forming piece are fixedly connected with the first supporting piece;

in the length direction of the slope surface, two adjacent first supporting pieces are detachably connected so as to detachably connect two adjacent sub-molds (3).

2. The casting mold (10) for a framework slope protection intercepting basin according to claim 1, further comprising a first connecting structure (4);

in the length direction of the slope surface, the first connecting structure (4) is arranged between two adjacent first supporting pieces, and the first connecting structure (4) is used for connecting the two adjacent first supporting pieces.

3. The pouring mold (10) for a framework slope protection cut-off trough of claim 2, characterized in that the first connecting structure (4) comprises two flanges and a threaded fastener;

in the length direction of the slope, the two flange plates are respectively sleeved on the two adjacent first supporting pieces, and the threaded fastener can be detachably connected with the two flange plates so as to be detachably connected with the two adjacent first supporting pieces.

4. The casting mold (10) for the framework slope protection water intercepting tank as claimed in claim 3, wherein the axial direction of the threaded fastener and the extending direction of the first support member are both consistent with the length direction of the slope surface.

5. The casting mold (10) for a framework slope protection water intercepting tank according to any one of claims 2 to 4, wherein the support assembly further comprises a second support member and a third support member, the second support member being fixedly connected to the first support member;

one end of the third supporting piece is connected to the second supporting piece, and the first forming piece and the second forming piece are connected with the other end of the third supporting piece.

6. The pouring mold (10) for the framework slope protection water intercepting trough as claimed in claim 5, wherein an angle is formed between the extending direction of the second supporting member and the extending direction of the first supporting member;

the extending direction of the third supporting piece is perpendicular to the extending direction of the second supporting piece.

7. The casting mold (10) for a framework slope protection water cut-off trough according to claim 5, wherein the number of the third supporting members is plural, and the plural third supporting members are distributed at intervals along the length direction of the water cut-off trough (2).

8. The pouring mold (10) for the framework slope protection water intercepting trough according to any one of claims 1 to 4, further comprising a second connecting structure (5), wherein the second connecting structure (5) is located between the support component and the framework body (1) of the framework slope protection, and the second connecting structure (5) is used for connecting the support component and the framework body (1).

9. The casting mold (10) for a framework slope protection cut-off trough of claim 8, wherein the second connecting structure (5) comprises a fourth supporting member (51), a backing plate (52) and a connecting steel bar (53);

the fourth supporting piece (51) is connected between the supporting component and the backing plate (52);

the backing plate (52) is located on one side, facing the supporting component, of the framework body (1), and the backing plate (52) is connected with the framework body (1) through the connecting steel bars (53).

10. The casting mold (10) for a framework slope protection intercepting drain of any one of claims 1 to 4, wherein a plurality of the sub-molds (3) are distributed in the slope surface in an inclined direction.

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