CN219806251U - Mould shakes formula road bed piece mould frame - Google Patents

Abstract

The utility model provides a die vibration type road foundation block die frame which comprises an outer die frame, an inner die frame, a vibration assembly and a driving part, wherein the inner die frame is sleeved in the outer die frame; the outer wall of any pair of opposite sides of the outer mold frame is provided with the vibration assembly, and the driving part is connected with the vibration assembly. The utility model has the advantages that: the vibration assembly can be driven to work by the driving component, so that the roadbed block die frame can generate a die vibration effect, a slurry surface can be formed on the inner side wall of the roadbed block die frame rapidly, the roadbed block can better form a male inclined surface, a female inclined surface and a trapezoid groove, meanwhile, compaction of materials is facilitated under the die vibration effect, and the quality of the formed roadbed block can be improved.

Description

Mould shakes formula road bed piece mould frame

[ field of technology ]

The utility model relates to the technical field of brick mold frames, in particular to a mold vibration type roadbed block mold frame.

[ background Art ]

Currently, fabricated pavement infrastructure (referred to as foundation blocks) has found large-area applications. The whole roadbed block is cuboid, compared with the traditional cube block formed by vibration and compression, as shown in fig. 7, the thickness of the traditional roadbed block 100' is 20 cm-40 cm, the top surface area is about 1 square meter, and the volume and the thickness are larger; at the same time, four sides of the road base block 100 'are provided with convex Yang Xiemian' and concave inclined planes 102', and the inclined planes are provided with trapezoid grooves 103'.

Because the four sides of the road base block need to form a male inclined plane, a female inclined plane and a trapezoid groove, a four-way mold opening and closing frame is needed to be used for molding; the four-way brick opening and closing die disclosed in Chinese patent application No. CN202020960493.4 comprises a die frame, wherein the die frame is formed by sequentially connecting a front frame, a left frame, a rear frame and a right frame into a whole in a head-to-tail manner; the mold frame is divided into a front mold frame and a rear mold frame by the partition plates which are fixedly arranged on the left frame and the right frame, and movable plates are arranged in the front mold frame and the rear mold frame respectively; the middle parts of the front frame and the rear frame are respectively provided with an oil cylinder, the oil cylinders are provided with push-pull rods which extend into the die frame, the movable plate is provided with two guide rods which penetrate through the front frame, and the front frame and the rear frame are respectively provided with two guide seats corresponding to the guide rods; according to the four-way brick opening and closing die, the partition plate is fixedly arranged in the die frame and divides the die frame into the front die frame and the rear die frame, so that the functions of the die are improved, and the die is flexible and convenient to use; the front frame and the middle part of the rear frame are provided with the oil cylinders, the oil cylinders are connected with the hydraulic device, the expansion speed of the movable plate is high, the pressed brick can be rapidly demoulded, the operation is simple and convenient, and the brick production efficiency is high. However, when the mold frame is used for molding the roadbed block, only the bench vibration effect can be realized, and the requirement on the side surface of the roadbed block is high, so that the slurry surface is difficult to quickly form on the side wall only through the bench vibration. In view of the above problems, the present inventors have conducted intensive studies on the problems, and have produced the present utility model.

[ utility model ]

The utility model aims to solve the technical problem of providing a die vibration type road foundation block die frame, which solves the problems that the conventional die frame can only realize the bench vibration effect and is difficult to form a slurry surface on the side wall rapidly when the road foundation block is molded.

The utility model is realized in the following way: the die vibration type road foundation block die frame comprises an outer die frame, an inner die frame, a vibration assembly and a driving part, wherein the inner die frame is sleeved in the outer die frame; the outer wall of any pair of opposite sides of the outer mold frame is provided with the vibration assembly, and the driving part is connected with the vibration assembly.

Further, the number of the driving parts is 2, and each driving part is connected with one vibration assembly.

Further, the vibration assembly comprises a supporting seat, a driving shaft body and an eccentric block;

the outer wall of the outer mold frame is fixedly provided with the supporting seats at two ends, and two ends of the driving shaft body are rotationally connected with the supporting seats; eccentric blocks are fixedly arranged at two ends of the driving shaft body and are positioned at the inner side of the supporting seat; one end of the driving shaft body extends to the outer side of the supporting seat and is connected with the driving part; and a gap is reserved between the eccentric block and the outer wall of the outer die frame.

Further, the two ends of the driving shaft body are provided with assembling parts, and the outer diameter of each assembling part is larger than that of the driving shaft body; the eccentric block is provided with an arc-shaped concave surface which is attached to the outer wall of the assembly part, and is locked and fixed on the assembly part through a locking piece.

Further, the outer die frame is provided with the extension board at the outer outside extension of lower extreme of outer wall, the lower extreme and the extension board fixed connection of supporting seat, leave the clearance between eccentric block and the extension board.

Further, the inner mold frame is formed by surrounding 4 movable plates; the middle part of the outer wall of each side of the outer mold frame is fixedly provided with a push-pull cylinder, the movable end of the push-pull cylinder penetrates through the frame wall of the outer mold frame, and each movable plate is connected with the movable end of one push-pull cylinder; the driving shaft body is positioned at the outer side of the push-pull cylinder.

Further, guide blocks are arranged on two sides of the push-pull cylinder, one end of each guide block penetrates through the frame wall of the outer mold frame and is fixedly connected with the movable plate, a guide sleeve is arranged on the outer wall of the outer mold frame, and the other end of each guide block is movably assembled in the guide sleeve; the outer end of the guide sleeve is provided with a dust cover, and the driving shaft body is positioned at the outer side of the dust cover.

Further, the eccentric blocks and the guide blocks are staggered.

By adopting the technical scheme of the utility model, the utility model has at least the following beneficial effects:

1. adopt the outer wall at the outer template of arbitrary a set of opposite side to all set up vibration subassembly, and be connected vibration subassembly and drive part, make at the in-process that carries out shaping to the road foundation piece, available drive part orders about vibration subassembly work, make road foundation piece template frame produce the mould effect of vibrating, the mould shakes and can promote the flow of concrete slurry, thereby can form the thick liquid face fast at the inside wall of road foundation piece template frame, make the better positive inclined plane of formation of road foundation piece, yin inclined plane and trapezoidal recess, also help the compaction of material under the mould vibration effect simultaneously, can promote the quality of fashioned road foundation piece.

2. Through set up positioning groove along axial direction on the assembly portion to set up the positioning lug that inlays with positioning groove cooperation on the arc concave surface, make when concrete assembly, can be accurate assemble the assembly portion with the eccentric block on, and can play the effect of location to the eccentric block after the assembly, guarantee that the eccentric block itself can not produce the skew and rock at rotatory in-process.

3. The guide blocks are arranged on the two sides of the push-pull cylinder and penetrate through the frame wall of the outer mold frame to be connected with the movable plates, so that the guide blocks can be used for guiding the opening and closing mold of each movable plate when in use; meanwhile, the outer end of the guide sleeve is provided with the dust-proof cover, so that dust and the like can be prevented from entering the guide sleeve.

[ description of the drawings ]

The utility model will be further described with reference to examples of embodiments with reference to the accompanying drawings.

FIG. 1 is a diagram of the overall structure of a modular vibrating roadbed block module according to the present utility model;

fig. 2 is a block diagram of the entire vibration type road block module according to the present utility model after removing the driving member.

FIG. 3 is a block diagram of the entire modular vibrating road block module of the present utility model with the drive member and one dust cap removed;

FIG. 4 is a block diagram of the entire modular vibrating road block module of the present utility model with the drive components, dust caps and guide sleeves removed;

FIG. 5 is a block diagram of the vibration assembly of the present utility model with the support base removed;

FIG. 6 is a block diagram of an outer mold frame in the present utility model;

fig. 7 is a block diagram of a conventional road base block.

Reference numerals illustrate:

road base block 100', yang Xiemian', female bevel 102', trapezoidal recess 103';

a road base block module 100;

an outer mold frame 1, an extension plate 11;

an inner mold frame 2, a movable plate 21;

the vibration assembly 3, the supporting seat 31, the driving shaft body 32, the assembling part 321, the eccentric block 33, the arc concave 331, the bearing 34, the first belt pulley 35 and the driving belt 36;

a driving member 4, a second pulley 41;

a locking piece 5;

push-pull cylinder 61, guide block 62, guide sleeve 63, dust cover 64.

[ detailed description ] of the utility model

In order to better understand the technical scheme of the present utility model, the following detailed description will refer to the accompanying drawings and specific embodiments.

It should be noted herein that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. refer to an orientation or positional relationship based on that shown in the drawings, merely for convenience in describing these embodiments and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operate in a specific orientation. 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", "a second", etc. may explicitly or implicitly include one or more such feature.

Referring to fig. 1 to 6, in a preferred embodiment of a vibrating roadbed block mold frame 100 according to the present utility model, the roadbed block mold frame 100 includes an outer mold frame 1, an inner mold frame 2, a vibrating assembly 3 and a driving component 4, wherein the inner mold frame 2 is sleeved in the outer mold frame 1; the outer wall of any pair of opposite sides of the outer mold frame 1 is provided with the vibration component 3, and the driving component 4 is connected with the vibration component 3.

According to the utility model, the vibrating assemblies 3 are arranged on the outer walls of any group of opposite sides of the outer die frame 1, and the vibrating assemblies 3 are connected with the driving parts 4, so that in the process of forming the roadbed block, the driving parts 4 can be utilized to drive the vibrating assemblies 3 to work, so that the roadbed block die frame 100 generates a die vibration effect, the die vibration can promote the flow of concrete slurry, thereby the slurry surface can be quickly formed on the inner side wall of the roadbed block die frame 100, the roadbed block can better form a male inclined plane, a female inclined plane and a trapezoid groove, meanwhile, the compaction of materials is facilitated under the die vibration effect, and the quality of the formed roadbed block can be improved.

In the preferred embodiment of the present utility model, the number of the driving parts 4 is 2, and each driving part 4 is connected to one vibration assembly 3. By designing each driving part 4 to connect one vibration assembly 3, each driving part 4 can independently drive one vibration assembly 3 to work, and when the vibration assembly works specifically, the two vibration assemblies 3 can work asynchronously, so that a better vibration effect is realized.

As an embodiment of the present utility model, the vibration assembly 3 includes a support base 31, a driving shaft body 32, and an eccentric block 33;

the outer wall of the outer mold frame 1 is fixedly provided with the supporting seats 31 at two ends, and two ends of the driving shaft body 32 are rotatably connected with the supporting seats 31, so that the driving shaft body 32 can be supported by the supporting seats 31, and the driving shaft body 32 can rotate, and in a concrete implementation, the two ends of the driving shaft body 32 can be rotatably connected with the supporting seats 31 through bearings 34; eccentric blocks 33 are fixedly arranged at two ends of the driving shaft body 32, the eccentric blocks 33 are positioned on the inner side of the supporting seat 31, and the driving shaft body 32 can drive the eccentric blocks 33 to rotate together when rotating, so that a die vibration effect is generated; one end of the driving shaft body 32 extends to the outer side of the supporting seat 31 and is connected with the driving part 4; a gap is reserved between the eccentric block 33 and the outer wall of the outer die frame 1, so that the eccentric block 33 can not collide with the outer wall of the outer die frame 1 in the rotating process, and the eccentric block 33 can smoothly rotate.

More specifically, the two ends of the driving shaft body 32 are provided with assembling parts 321, and the outer diameter of the assembling parts 321 is larger than the outer diameter of the driving shaft body 32; the eccentric block 33 has an arc-shaped concave surface 331 attached to the outer wall of the assembly portion 321, and the eccentric block 33 is locked and fixed to the assembly portion 321 by the locking piece 5, thereby realizing the fixed assembly of the eccentric block 33 on the driving shaft body 32.

In the embodiment of the present utility model, the arc concave surface 331 is designed to be a circular arc concave surface, and the circular arc radius of the circular arc concave surface is equal to the section radius of the assembling portion 321, so that the outer wall of the assembling portion 321 and the arc concave surface 331 can be better attached together during assembling.

More specifically, the outer mold frame 1 is provided with an extension plate 11 extending outwards at the lower end of the outer wall, and the lower end of the supporting seat 31 is fixedly connected with the extension plate 11, and the outer walls of the extension plate 11 and the outer mold frame 1 are fixedly connected with the supporting seat 31, so that the supporting seat 31 can be ensured to be firmer and more reliable; a gap is reserved between the eccentric block 33 and the extension plate 11, so that the eccentric block 33 cannot collide with the extension plate 11 in the rotating process, and smooth rotation of the eccentric block 33 is ensured.

More specifically, the end of the driving shaft body 32 is fixedly provided with the first belt pulley 35, the driving component 4 is a driving motor, the output of the driving component 4 is fixedly provided with the second belt pulley 41, the first belt pulley 35 is connected with the second belt pulley 41 through the driving belt 36, the second belt pulley 41 is driven to rotate by the output power of the driving motor during operation, the second belt pulley 41 is driven to rotate through the driving belt 36, and the second belt pulley 41 can drive the driving shaft body 32 to rotate, so that the driving shaft body 32 drives the eccentric block 33 to rotate.

In the preferred embodiment of the present utility model, the inner mold frame 2 is formed by surrounding 4 movable plates 21, i.e. comprises 4 movable plates 21, i.e. front, back, left and right; the middle part of the outer wall of each side of the outer mold frame 1 is fixedly provided with a push-pull cylinder 61, the movable end of the push-pull cylinder 61 penetrates through the frame wall of the outer mold frame 1, and each movable plate 21 is connected with the movable end of one push-pull cylinder 61 so as to drive the movable plate 21 to move by using the push-pull cylinder 61; the drive shaft body 32 is located outside the push-pull cylinder 61 so that the push-pull cylinder 61 does not affect the rotation of the drive shaft body 32. The inner mold frame 2 is formed by surrounding 4 movable plates 21, and each movable plate 21 is driven to move through one push-pull cylinder 61, so that the size of a formed roadbed block can be adjusted according to actual needs, and the demolding of the roadbed block can be conveniently realized.

In the preferred embodiment of the present utility model, guide blocks 62 are disposed on two sides of the push-pull cylinder 61, one end of the guide block 62 passes through the frame wall of the outer mold frame 1 and is fixedly connected with the movable plate 21, a guide sleeve 63 is disposed on the outer wall of the outer mold frame 1, and the other end of the guide block 62 is movably assembled in the guide sleeve 63; the outer end of the guide sleeve 63 is provided with a dust cover 64, and the drive shaft body 32 is located outside the dust cover 64. By arranging the guide blocks 62 on both sides of the push-pull cylinder 61 and connecting the guide blocks 62 with the movable plates 21 through the frame walls of the outer mold frame 1, the opening and closing molds of each movable plate 21 can be guided by the guide blocks 62 during use; at the same time, a dust-proof cover 64 is arranged at the outer end of the guide sleeve 63, so that dust and the like can be prevented from entering the guide sleeve 63.

More specifically, the eccentric block 33 and the guide block 62 are staggered, so that the eccentric block 33 and the guide block 62 are not mutually influenced.

The roadbed block mold frame 100 specifically molds roadbed blocks, and can control the push-pull cylinder 61 to drive the movable plate 21 to move to a required position according to the required roadbed block size requirement, so that a required cavity is formed by surrounding 4 movable plates 21; and then filling the materials into the cavity for molding, and driving the vibration assembly 3 to work through the driving part 4 in the process, so that the roadbed block mold frame 100 generates mold vibration, and the inner side wall of the roadbed block mold frame 100 rapidly forms a slurry surface.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that the specific embodiments described are illustrative only and not intended to limit the scope of the utility model, and that equivalent modifications and variations of the utility model in light of the spirit of the utility model will be covered by the claims of the present utility model.

Claims (8)

1. The die vibration type road foundation block die frame comprises an outer die frame and an inner die frame, wherein the inner die frame is sleeved in the outer die frame; the method is characterized in that: the outer wall of any group of opposite sides of the outer mold frame is provided with the vibration assembly, and the driving component is connected with the vibration assembly.

2. A modular vibrating subgrade block mold frame as in claim 1, wherein: the number of the driving parts is 2, and each driving part is connected with one vibration assembly.

3. A modular vibrating subgrade block mold frame as in claim 1, wherein: the vibration assembly comprises a supporting seat, a driving shaft body and an eccentric block;

the outer wall of the outer mold frame is fixedly provided with the supporting seats at two ends, and two ends of the driving shaft body are rotationally connected with the supporting seats; eccentric blocks are fixedly arranged at two ends of the driving shaft body and are positioned at the inner side of the supporting seat; one end of the driving shaft body extends to the outer side of the supporting seat and is connected with the driving part; and a gap is reserved between the eccentric block and the outer wall of the outer die frame.

4. A modular vibrating subgrade block mold frame as in claim 3, wherein: the two ends of the driving shaft body are provided with assembling parts, and the outer diameter of each assembling part is larger than that of the driving shaft body; the eccentric block is provided with an arc-shaped concave surface which is attached to the outer wall of the assembly part, and is locked and fixed on the assembly part through a locking piece.

5. A modular vibrating subgrade block mold frame as in claim 3, wherein: the outer mold frame is provided with the extension board in the outside extension of the lower extreme of outer wall, the lower extreme and the extension board fixed connection of supporting seat, leave the clearance between eccentric block and the extension board.

6. A modular vibrating subgrade block mold frame as in claim 3, wherein: the inner mold frame is formed by surrounding 4 movable plates; the middle part of the outer wall of each side of the outer mold frame is fixedly provided with a push-pull cylinder, the movable end of the push-pull cylinder penetrates through the frame wall of the outer mold frame, and each movable plate is connected with the movable end of one push-pull cylinder; the driving shaft body is positioned at the outer side of the push-pull cylinder.

7. A modular vibratory subgrade block mold frame as set forth in claim 6, wherein: guide blocks are arranged on two sides of the push-pull cylinder, one end of each guide block penetrates through the frame wall of the outer mold frame and is fixedly connected with the movable plate, a guide sleeve is arranged on the outer wall of the outer mold frame, and the other end of each guide block is movably assembled in the guide sleeve; the outer end of the guide sleeve is provided with a dust cover, and the driving shaft body is positioned at the outer side of the dust cover.

8. A modular vibratory subgrade block mold frame as set forth in claim 7, wherein: the eccentric blocks and the guide blocks are staggered.