CN209755587U - Pipe gallery pouring mold of eave structure - Google Patents

Abstract

The utility model provides a piping lane pouring die of eave structure, including pouring the groove, pouring portion and vibration subassembly, it sets up in pouring the inslot to pour the portion, it includes the boss and sets up the eave structure that is the outer low of well crowning on this boss to pour the portion, the eave structure is formed by a plurality of boards concatenations of pouring, the surface of pouring the board is for pouring the face, the vibration subassembly is equipped with the multiunit to connect the bottom surface of pouring the board respectively. During pouring, a mold to be poured is placed in the pouring groove, concrete materials are thrown to the pouring surface of the eave structure and can fall down along the inclined surface of any pouring surface under the action of gravity, and the hard concrete can be dispersed more uniformly through the vibration of the vibration assembly; simultaneously, the groove body structure of pouring the groove can prevent that concrete from pouring outside the mould, has reduced the loss of concrete, has improved the efficiency of construction.

Description

Pipe gallery pouring mold of eave structure

Technical Field

The utility model relates to a pipe rack pours the field, concretely relates to pipe rack pouring die of eave structure.

Background

The utility tunnel is an underground urban pipeline utility tunnel, namely, a tunnel space is built underground in a city, various engineering pipelines such as electric power, communication, gas, heat supply, water supply and drainage and the like are integrated, a special overhaul port, a lifting port and a monitoring system are arranged, unified planning, unified design, unified construction and management are implemented, and the utility tunnel is an important infrastructure and a 'lifeline' for guaranteeing urban operation.

The pipe gallery generally adopts integrative mode of pouring, directly throws the material through the concrete and enters into the mould and pour the shaping. The pipe gallery is hollow structure generally, because the concrete is the hard concrete when pouring, consequently can not adopt the pump truck to pour, and generally will mix concrete careful pouring to the mould by manual work or machine, and the mode of this kind of pouring is the efficiency of construction low on the one hand, and on the other hand often can appear concrete material and pour the mould outside, has wasted raw and other materials. Therefore, the pouring device capable of improving the construction efficiency and reducing the loss is still needed to be solved urgently.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a can effectively reduce the concrete loss, and can improve the piping lane pouring die of eave structure of efficiency of construction.

In order to achieve the above purpose, the utility model provides a technical scheme as follows:

The utility model provides a mould is pour to piping lane of eave structure, is including pouring the groove, pouring portion and vibration subassembly, it sets up in pouring the inslot to pour the portion, it includes the boss and sets up the eave structure that is the low outside well on this boss to pour the portion, the eave structure is formed by a plurality of slabs concatenations of pouring, the surface of pouring the board is for pouring the face, the vibration subassembly is equipped with the multiunit to connect the bottom surface of pouring the board respectively.

Furthermore, the vibration assembly is an elastic vibration assembly and comprises an elastic part, a first connecting part and a second connecting part, wherein the first connecting part and the second connecting part are connected to two ends of the elastic part, the first connecting part is connected with the bottom surface of the pouring plate, and the second connecting part is used for connecting a fixing structure.

Further, the elastic part is a spring.

Furthermore, the first connecting portion is of a telescopic structure.

Furthermore, the first connecting portion is a telescopic sleeve, and the telescopic sleeve is fixed through a fixing piece.

Further, the second connecting portion is a rubber buffer portion.

Furthermore, the height of the groove wall of the pouring groove is higher than that of the eave structure of the pouring part.

Furthermore, a first fixing nut is arranged on the boss.

Furthermore, a second fixing nut is arranged on the wall of the pouring groove.

through the utility model provides a technical scheme has following beneficial effect:

During pouring, a mold to be poured is placed in the pouring groove, concrete materials are thrown to the pouring surface of the eave structure and can fall down along the inclined surface of any pouring surface under the action of gravity, and the hard concrete can be dispersed more uniformly through the vibration of the vibration assembly; simultaneously, the groove body structure of pouring the groove can prevent that concrete from pouring outside the mould, has reduced the loss of concrete, has improved the efficiency of construction.

Drawings

FIG. 1 is a schematic structural diagram of a pipe gallery pouring mold of an eave structure in an embodiment;

Fig. 2 is a schematic structural diagram of the vibration assembly in the embodiment.

Detailed Description

To further illustrate the embodiments, the present invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references, one of ordinary skill in the art will appreciate other possible embodiments and advantages of the present invention. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1 and 2, the piping lane casting mold of the eave structure provided in this embodiment includes a casting groove 10, a casting portion and a vibration component 30, the casting portion is disposed in the casting groove 10, the casting portion includes a boss 21 and an eave structure disposed on the boss and having a middle height and a lower height, the eave structure is formed by splicing a plurality of casting plates 22, the surface of the casting plate 22 is a casting surface, and the vibration component 30 is provided with a plurality of groups and is respectively connected to the bottom surfaces of the casting plates 22.

During pouring, a mold to be poured is placed in the pouring groove 10, concrete materials are thrown to the pouring surface of the eave structure and can fall down along the inclined surface of any pouring surface under the action of gravity, and the dry and hard concrete can be dispersed more uniformly through the vibration of the vibration assembly 30; meanwhile, the groove body structure of the pouring groove 10 can prevent concrete from being poured out of the mold, so that the loss of the concrete is reduced, and the construction efficiency is improved.

Specifically, in this embodiment, the eave structure is formed by splicing four casting plates 22, the four casting plates include two trapezoidal casting plates 221 and two triangular casting plates 222, short sides of the two trapezoidal casting plates 221 are connected through a push rod (not shown), long sides of the two trapezoidal casting plates are connected with the boss 21 in an inclined and downward manner, and the two triangular casting plates 222 are spliced on two sides of the two trapezoidal casting plates 221, so as to form the eave structure. Of course, in other embodiments, the shape and number of the pouring plates 22 for splicing the eave structure may be set according to actual conditions, and those skilled in the art can make corresponding changes according to the above description, such as splicing the eave structure in a triangular cone shape by using three triangular pouring plates, and so on.

Specifically, in this embodiment, eight groups of vibration assemblies 30 are provided, one group is provided on each of the two triangular casting plates 222, and three groups are provided on each of the two trapezoidal casting plates 221, so that the effect is uniform. Of course, in other embodiments, the number of vibration assemblies 30 can be determined according to actual conditions.

Specifically, in this embodiment, the vibration component 30 is an elastic vibration component, and includes an elastic portion 32, and a first connection portion 31 and a second connection portion 32 connected to two ends of the elastic portion 32, where the first connection portion 31 is connected to the bottom surface of the casting plate 22, and the second connection portion 32 is used for connecting a fixed structure, such as the ground. The vibration component 30 is an elastic vibration component, when concrete falls on the pouring plate, the pouring plate vibrates due to the action of gravity, and then the vibration is transmitted to the elastic part 32 of the elastic vibration component to enable the elastic part 32 to vibrate, and the vibration of the elastic part 32 can continuously react with the pouring plate 22, so that the concrete with dry and hard properties is dispersed more uniformly; simple structure and no need of additional power source. Of course, in other embodiments, the vibration component may also be a vibration component that requires an external power source to drive the vibration, such as a vibration motor.

Furthermore, the elastic part 32 is a spring, so that the structure is simple, the assembly is easy, and the service life is ensured. Of course, in other embodiments, other elastic devices (such as elastic pieces) may be used instead.

Further, the first connecting portion 31 is a telescopic structure, and the telescopic first connecting portion 31 can be adjusted correspondingly according to the distance between the casting plate 22 and the fixed structure.

Still further, the first connecting portion 31 is a telescopic sleeve, which includes an outer sleeve 311 and an inner sleeve 312 sleeved in the outer sleeve 311, the outer sleeve 311 is connected to the casting board 22, the inner sleeve 312 is connected to the elastic portion, the relative position between the outer sleeve 311 and the inner sleeve 312 is fixed by a fixing member, that is, the telescopic length of the telescopic sleeve is fixed, the fixing member has a structure and a fixing manner in the prior art, for example, a bolt hole and a bolt are inserted to be matched, in this embodiment, the fixing member has a fixing plate 313 structure, one end of the fixing plate 313 is fixed on the outer sleeve 311, the other end of the fixing plate corresponds to the inner sleeve 312, the fixing plate 313 and the inner sleeve 312 have corresponding screw holes (not shown), and are fixed by a bolt (not. Of course, in other embodiments, the first connecting portion 31 may have other structures with telescopic functions in the prior art, or may have structures without telescopic functions.

Further, the second connecting portion 33 is a rubber buffer portion, which can play a role of buffering and prevent the elastic vibration of the elastic portion 32 from being transmitted to the fixed structure.

Specifically, in this embodiment, the height of the groove wall 11 of the casting groove 10 is higher than that of the eave structure of the casting portion, so that concrete outflow can be more effectively prevented.

Specifically, in this embodiment, a first fixing nut (not shown) is disposed on the boss 21, and a second fixing nut (not shown) is disposed on the groove wall 11 of the casting groove 10, and is used for fixing a mold to be cast. The structure of the first and second fixing nuts is prior art. Of course, in other embodiments, the structure of the first fixing nut and/or the second fixing nut may be replaced by a fixing structure such as a snap in the prior art.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides a mould is pour to piping lane of eave structure which characterized in that: including pouring the groove, pouring portion and vibration subassembly, it sets up in pouring the inslot to pour the portion, it includes the boss and sets up the eave structure that is the height outside the boss, the eave structure is formed by a plurality of slabs concatenations of pouring, the surface of pouring the board is for pouring the face, the vibration subassembly is equipped with the multiunit to connect the bottom surface of pouring the board respectively.

2. the piping lane casting mold of an eave structure according to claim 1, wherein: the vibration assembly is an elastic vibration assembly and comprises an elastic part, a first connecting part and a second connecting part, wherein the first connecting part and the second connecting part are connected to two ends of the elastic part, the first connecting part is connected with the bottom surface of the pouring plate, and the second connecting part is used for connecting a fixed structure.

3. The piping lane casting mold of an eave structure according to claim 2, wherein: the elastic part is a spring.

4. The piping lane casting mold of an eave structure according to claim 2, wherein: the first connecting part is of a telescopic structure.

5. The piping lane casting mold of an eave structure according to claim 4, wherein: the first connecting portion are telescopic sleeves, and the telescopic sleeves are fixed through fixing pieces.

6. The piping lane casting mold of an eave structure according to claim 2, wherein: the second connecting part is a rubber buffer part.

7. The piping lane casting mold of an eave structure according to claim 1, wherein: the groove wall height of the pouring groove is higher than the eave structure of the pouring part.

8. The piping lane casting mold of an eave structure according to claim 1, wherein: and a first fixing nut is arranged on the boss.

9. The piping lane casting mold of an eave structure according to claim 1, wherein: and a second fixing nut is arranged on the wall of the pouring groove.