CN212078701U - Porous device of pouring of side wall - Google Patents

Abstract

The utility model discloses a porous pouring device of side wall, which comprises a material distributor and a side wall template, wherein the side wall template is provided with a pouring gate; the conveying pipe of the distributing machine is communicated with the feed inlet of the flow dividing device; the discharge port of the flow dividing device is communicated with the pouring port. The utility model discloses can slow down concrete placement speed, avoid by the concrete pump direct in the same direction as the problem of pipe impact die plate when pouring, also can effectively solve the transform and pour the problem that need temporarily shut down the concrete pump when mouthful, especially to the mouth of pouring of equidistant range, not only can guarantee the homogeneity of cloth, can also carry out cloth work in succession, be difficult for blockking up cloth machine and conveyer pipe, save time for pour the construction progress. The utility model discloses the method is simple, convenient operation, and cloth machine, shunt and pouring hose are convenient for wash, and the efficiency of construction is high, pours of high qualityly.

Description

Porous device of pouring of side wall

Technical Field

The utility model relates to a lid is dug the porous system of pouring of contrary station side wall of making, especially a device is pour to side wall porosity.

Background

When the station side wall is constructed, the side wall template can be erected by adopting cast-in-place concrete for construction, a concrete delivery pump is generally used for connecting a hose in the concrete construction process, and the hose is directly poured to a specified position. In the concrete pouring process, due to the fact that the pouring amount of the concrete is large, the concrete is fast in flow speed and large in impact force after being discharged from a pumping pipe, and impacts a side wall formwork to influence the formwork precision, so that the problem that the pouring quality is poor is caused. In addition, when the side wall formwork is erected and then is poured in a layered mode from bottom to top, because the side wall formwork is provided with a plurality of pouring openings which are arranged at equal intervals, when the cast-in-place side wall concrete is constructed, the pouring openings need to be changed one by one to ensure that concrete pouring of each layer is uniform and compact, when the pouring openings are changed, concrete pumping flow rate is high, concrete waste is easily caused, concrete maintenance and later-period cleaning need to be carried out manually, the concrete pump is stopped to change the pouring openings, the uniformity and the continuity of the concrete pouring cannot be ensured, time is wasted, particularly, the concrete pump is stopped for a long time, concrete pumping pipes and a material distributor can be blocked, and great inconvenience is brought.

Disclosure of Invention

The utility model aims to solve the technical problem that, it is not enough to prior art, provide a porous device of pouring of side wall, guarantee homogeneity and the continuity of concrete placement in-process, practice thrift operating time, guarantee to pour the quality, improve and pour the efficiency of construction, prevent to block up concrete pumping pipe and cloth machine.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a side wall porous pouring device comprises a material distributor and a side wall template, wherein a pouring gate is formed in the side wall template; the conveying pipe of the distributing machine is communicated with the feed inlet of the flow dividing device; the discharge port of the flow dividing device is communicated with the pouring port.

The side wall template is provided with a plurality of rows of pouring gates, and the plurality of pouring gates in each row are arranged at equal intervals. Is convenient for uniform feeding.

The flow dividing device comprises a flow divider; the flow divider comprises an inlet pipe, one end of the inlet pipe is communicated with a conveying pipe of the distributing machine, the other end of the inlet pipe is communicated with two material distributing pipes, and the two material distributing pipes are respectively communicated with two pouring ports in the side wall template.

In order to further improve the pouring efficiency and the pouring quality, the flow dividing device comprises n layers of flow dividers with the same structure; the diverter includes an inlet pipe, inlet pipe one end with the conveyer pipe intercommunication of cloth machine, the inlet pipe other end divides the material pipe intercommunication with two, two divide the material pipe respectively with two inlet pipe one end intercommunications of second floor shunt, the branch material pipe of second floor shunt communicates with the inlet pipe of third layer shunt respectively, analogizes from this to the side, the branch material pipe of nth layer shunt with sprue gate intercommunication in the side wall template.

In two adjacent layers of the flow dividers, the material distributing pipe of the upper layer of the flow divider is communicated with the material inlet pipe of the lower layer of the flow divider through a hose. And the shunt of the adjacent layer is ensured to be connected more firmly.

The material distributing pipe is communicated with the pouring port through a pouring hose.

The material distributing pipe is fixedly connected with the pouring hose through a hoop.

And a flow limiting device is arranged at one end of the pouring hose close to the pouring port. The amount of concrete poured to each pouring gate is conveniently adjusted.

Compared with the prior art, the utility model discloses the beneficial effect who has does: the utility model discloses can slow down concrete placement speed, avoid by the concrete pump direct in the same direction as the problem of pipe impact die plate when pouring, also can effectively solve the transform and pour the problem that need temporarily shut down the concrete pump when mouthful, especially to the mouth of pouring of equidistant range, not only can guarantee the homogeneity of cloth, can also carry out cloth work in succession, be difficult for blockking up cloth machine and conveyer pipe, save time for pour the construction progress. The utility model discloses the method is simple, convenient operation, and cloth machine, shunt and pouring hose are convenient for wash, and the efficiency of construction is high, pours of high qualityly.

Drawings

FIG. 1 is a schematic diagram of a distribution work performed by a Y-type distributor flow distribution controller;

FIG. 2 is a front view of a Y-type concrete diverter;

FIG. 3 is a cross-sectional view of a Y-type concrete diverter;

the method comprises the following steps of 1-axillary angle template, 2-side wall template, 3-pouring openings arranged at equal intervals, 4-concrete pumping pipe, 5-material distributing machine foot bracket, 6-material distributing machine, 7-material distributing machine bracket, 8-material distributing machine conveying pipe, 9-material distributing machine counterweight, 10-flow divider, 11-oblique branch guide pipe (material distributing pipe), 12-vertical branch guide pipe (material feeding pipe), 13-hoop, 14-pouring hose and 15-butterfly switch.

Detailed Description

Referring to fig. 1, side wall template and axillary angle template have been assembled, and the side wall template reservation has the mouth of pouring of equidistant range, uses the utility model discloses a cloth machine, shunt and pouring hose carry out the cloth work, here inside climbing cloth machine as an example, but not limited to certain single model cloth machine. Concrete flows into the distributing machine 6 from the pumping pipe 4, flows into the Y-shaped flow divider 10 along the conveying pipe 8 of the distributing machine, flows into the oblique flow dividing guide pipe 11 after being divided, enters the pouring hose 14 after passing through the vertical branch guide pipe 12, is controlled by the butterfly switch 15 in a flowing state, and is poured through the side wall template pouring opening 3 finally. When pouring needs to be changed for pouring at the pouring opening 3-1, a certain pouring hose switch 15-1 can be closed, then the hose 14-1 is changed to the pouring opening 3-2 to be poured, then the switch 15-1 is opened, after the pouring opening 3-2 is poured uniformly, the other hose switch 15-2 is closed, the hose 14-2 is changed to a new pouring opening 3-2, then the switch 15-2 is opened, double-pipe uniform pouring is continued, and the material distribution is repeated in a circulating mode in sequence.

The utility model discloses the cloth machine is not limited to certain single form, and the shunt is the Y type diverging device of a control cloth machine discharge gate, is connected with behind the shunt and pours the hose and be equipped with butterfly switch (current limiting device) at the hose end, and the side wall template leaves the mouth of pouring of equidistant range.

The utility model provides a concrete spreader shunt, for a "Y type" concrete spreader discharge gate reposition of redundant personnel controlling means, two branch line Y type export mouth of pipe area all is the same with the single import mouth of pipe area of Y type, two branch line export area's sum can prevent to block up Y type shunt greatly than the import area, a plurality of diverging device of installation can accelerate the construction progress when pouring the equidistant range of mouth, there is the hose of pouring through the clamp connection at two branch line Y type shunt outlet pipe ends, the hose end is equipped with butterfly switch device.

When the cloth is distributed, the Y-shaped splitter can be used for uniformly pouring from the two pouring openings, when the pouring openings need to be changed, only one switch needs to be closed first, the switch is opened for pouring after the pouring openings are changed, then the other switch is closed, the switch is opened after the pouring openings are changed, the cloth can be continuously and uniformly distributed by circularly and repeatedly pouring, the uniformity of the cloth can be ensured, the cloth can be continuously distributed, and the time is saved by distributing the cloth in multiple openings.

In order to further improve the pouring efficiency and the pouring quality, the flow dividing device of the utility model can also comprise n layers of flow dividers with the same structure; the shunt includes an inlet pipe, inlet pipe one end with the conveyer pipe intercommunication of cloth machine, the inlet pipe other end and two branch material pipes intercommunication, two branch material pipes communicate with two inlet pipe one end of second floor shunt respectively, the branch material pipe of second floor shunt communicates with the inlet pipe of third layer shunt respectively, analogizes from this to the sun, the branch material pipe of nth layer shunt with sprue gate intercommunication in the side wall template. In the structure, the number of the distributing pipes of the nth layer of flow divider is the same as that of the pouring gates. In two adjacent layers of diverters, the material distributing pipe of the previous layer of diverter is communicated with the feeding pipe of the next layer of diverter through a hose, so that the connection of the diverters of the adjacent layers is more firm.

The utility model discloses a shunt, inlet pipe and bipartition material union coupling form one and fall the Y type, and the feed pipe axis is the acute angle with the contained angle between the feed pipe axis. The pipe diameter of the inlet pipe is the same as that of the distributing pipe, the area of the pipe opening of the inlet pipe is the same as that of the pipe opening of the distributing pipe, so that the sum of the areas of the discharge ports is 2 times that of the feed inlet, the area of the outlet is larger than that of the inlet, the Y-shaped flow divider can be prevented from being blocked, meanwhile, a plurality of flow dividing devices can be conveniently installed continuously, one flow dividing device is additionally arranged, one discharge port is additionally arranged, the construction progress can be accelerated, and the pouring opening is.

Claims (9)

1. A side wall porous pouring device comprises a material distributor and a side wall template, wherein a pouring gate is formed in the side wall template; the distributing machine is characterized in that a conveying pipe of the distributing machine is communicated with a feed inlet of the distributing device; the discharge port of the flow dividing device is communicated with the pouring port; the side wall template is provided with a plurality of rows of pouring gates, and the plurality of pouring gates in each row are arranged at equal intervals.

2. The sidewall multihole casting device of claim 1, wherein said flow divider comprises a flow divider; the flow divider comprises an inlet pipe, one end of the inlet pipe is communicated with a conveying pipe of the distributing machine, the other end of the inlet pipe is communicated with two material distributing pipes, and the two material distributing pipes are respectively communicated with two pouring ports in the side wall template.

3. The porous casting device for the side wall of claim 1, wherein the flow dividing device comprises n layers of flow dividers with the same structure; the diverter includes an inlet pipe, inlet pipe one end with the conveyer pipe intercommunication of cloth machine, the inlet pipe other end divides the material pipe intercommunication with two, two divide the material pipe respectively with two inlet pipe one end intercommunications of second floor shunt, the branch material pipe of second floor shunt communicates with the inlet pipe of third layer shunt respectively, analogizes from this to the side, the branch material pipe of nth layer shunt with sprue gate intercommunication in the side wall template.

4. The porous pouring device for the side wall of claim 3, wherein in two adjacent layers of the shunts, the material distribution pipe of the previous layer of the shunts is communicated with the material supply pipe of the next layer of the shunts through a hose.

5. The porous pouring device for the side wall according to claim 2 or 3, wherein the material distribution pipe is communicated with the pouring opening through a pouring hose.

6. The porous pouring device for the side wall of claim 5, wherein the material distribution pipe is fixedly connected with the pouring hose through a hoop.

7. The porous sidewall casting device of claim 5, wherein a flow restriction device is disposed at an end of the casting hose near the casting opening.

8. The porous pouring device for the side wall according to claim 2 or 3, wherein the included angle between the axis of the feeding pipe and the axis of the distributing pipe is an acute angle.

9. The porous casting device for the side wall of claim 2 or 3, wherein the pipe diameter of the feeding pipe is the same as that of the distributing pipe.

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