CN211585539U

CN211585539U - Tubular pile residual slurry recycling system

Info

Publication number: CN211585539U
Application number: CN201921911084.9U
Authority: CN
Inventors: 王德明; 徐建军; 常飞龙
Original assignee: Tongchi Jianhua Building Material Nantong Co ltd
Current assignee: Tongchi Jianhua Building Material Nantong Co ltd
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2020-09-29
Anticipated expiration: 2029-11-07

Abstract

The utility model discloses a surplus thick liquid recycle system of tubular pile, it relates to tubular pile processing technology field. A residual slurry collecting barrel is arranged below a chute, a stirring device is arranged in the residual slurry collecting barrel, a discharge port of the residual slurry collecting barrel is provided with a filter screen, and a slurry pump is arranged between the bottom of the residual slurry collecting barrel and a homogenizing barrel; a liquid level sensor and a stirring device are installed in the homogenizing barrel, a weighing sensor is installed outside the homogenizing barrel, the homogenizing barrel is communicated with a water supplementing barrel, and the homogenizing barrel conveys residual slurry to a storage barrel through a slurry pump; the bottom of the storage barrel is communicated with the top of the metering barrel; be provided with agitating unit in the metering tank, metering tank externally mounted has weighing sensor. The utility model has the advantages that: the concentration of the residual slurry can be adjusted; the residual pulp amount required by each tank material can be provided according to the requirement; and the control system is used for controlling the conveying, density adjustment, quantitative discharging of the residual pulp amount and the like of the residual pulp during the recovery of the residual pulp, so that the efficiency is improved.

Description

Tubular pile residual slurry recycling system

Technical Field

The utility model relates to a tubular pile processing technology field, concretely relates to remaining thick liquid recycle system of tubular pile.

Background

When the concrete pipe pile is manufactured, firstly, the prepared concrete is stirred in a stirring station, then the stirred concrete is input into a pipe pile mould, and a concrete pipe pile finished product is formed through vibration and centrifugation.

In the vibration process of the concrete pipe pile, the concrete slurry in the concrete can continuously overflow, the conventional concrete slurry recovery device is a simple slurry receiving box body which is arranged at the concrete slurry outflow position of the vibration table, and after the residual slurry is connected into the slurry receiving box body, the concrete slurry is pumped into another storage pool or a stirrer by using a pump.

Above-mentioned current concrete mud recovery unit, at the mud pumping in-process, the pump line often can be because of the sediment of concrete mud and the pump can be because the pump line jam produce the mud pumping difficult and easy damage, the mud pumping in-process all needs special staff to operate and control moreover, and efficiency ratio is lower, and the concentration of the surplus thick liquid of recycle needs independent control, and the volume when recycling is not suitable for controlling.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a surplus thick liquid recycle system of tubular pile, can solve that the surplus thick liquid that exists among the prior art when retrieving concentration control inconvenient, when recycling the volume should not be controlled, the recovery in-process pipeline blocks up easily, the recovery process needs staff think control, inefficiency scheduling problem.

In order to solve the technical problem, the utility model adopts the technical scheme that: comprises a residual pulp collecting barrel, a homogenizing barrel, a storage barrel and a metering barrel; the residual slurry collecting barrel is used for collecting residual slurry filtered by the chute, a filter screen is arranged in the chute, the residual slurry in the residual slurry collecting barrel is conveyed into the homogenizing barrel through a slurry pump, the residual slurry in the homogenizing barrel is conveyed into the storage barrel through a slurry pump for storage, and the residual slurry in the storage barrel is discharged to the metering barrel and then enters the mixing plant;

the residual slurry collecting barrel is arranged below the chute, a stirring device is arranged in the residual slurry collecting barrel, a filter screen is arranged at a discharge port of the residual slurry collecting barrel, and a slurry pump is arranged between the bottom of the residual slurry collecting barrel and the homogenizing barrel;

the top of the homogenizing barrel is communicated with a pipeline arranged at a discharge port of a slurry pump, a liquid level sensor and a stirring device are arranged in the homogenizing barrel, a weighing sensor is arranged outside the homogenizing barrel, the homogenizing barrel is communicated with a water supplementing barrel, an electromagnetic valve is arranged on the water supplementing barrel, and the homogenizing barrel conveys residual slurry to a storage barrel through a slurry pump arranged at the side edge;

the top of the storage barrel is communicated with a pipeline of a discharge hole of the slurry pump, a stirring device and a liquid level sensor are arranged in the storage barrel, and the bottom of the storage barrel is communicated with the top of the metering barrel;

a stirring device is arranged in the metering barrel, a weighing sensor is arranged outside the metering barrel, a pneumatic butterfly valve is arranged at a discharge port at the bottom of the metering barrel, and a mixing plant is arranged below the discharge port of the metering barrel;

the mud pump, the slurry pump, the electromagnetic valve, the liquid level sensor, the weighing sensor, the pneumatic butterfly valve and the stirring device are all electrically connected with the control system.

Furthermore, a first clear water barrel is connected to a pipeline between a feed port of the slurry pump and the residual slurry collecting barrel, a control valve is arranged on a connecting pipeline between the first clear water barrel and the slurry pump, a control valve is arranged on a pipeline between the slurry pump and the residual slurry collecting barrel, a control valve is arranged on a connecting pipeline between the slurry pump and the homogenizing barrel, a second clear water barrel is connected to a connecting pipeline between the slurry pump and the storage barrel, a control valve is arranged on a connecting pipeline between the second clear water barrel and the storage barrel, and control valves are respectively arranged at two ends of the connecting pipeline between the slurry pump and the storage barrel.

After adopting the structure, the utility model has the advantages that:

1. a homogenizing barrel is arranged behind the residual pulp collecting barrel, the amount of the residual pulp and the water supplementing amount are adjusted, the concentration of the residual pulp can be adjusted, and the density of the residual pulp is ensured to be constant when the residual pulp is recycled;

2. the reused residual slurry can be quantitatively measured through the measuring barrel, and the residual slurry amount required by each tank can be provided according to the requirement;

3. the residual slurry is filtered and then conveyed, a stirring device is arranged in each step of the barrel to reduce precipitates, and a clear water barrel I and a clear water barrel II are arranged to clean pipelines and prevent blockage;

4. and the control system is used for controlling the conveying, density adjustment, quantitative discharging of the residual pulp amount and the like of the residual pulp during the recovery of the residual pulp, so that the efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, the following technical solutions are adopted in the present embodiment: comprises a residual pulp collecting barrel 2, a homogenizing barrel 4, a storage barrel 6 and a metering barrel 7; the residual slurry collecting barrel 2 collects residual slurry filtered by the chute 1, a filter screen is arranged in the chute 1, large-particle precipitates are removed through the filter screen, the residual slurry in the residual slurry collecting barrel 2 is conveyed into the homogenizing barrel 4 through the slurry 3 pump to be homogenized and adjusted in density, the residual slurry in the homogenizing barrel 4 is conveyed into the storage barrel 6 through the slurry pump 5 to be stored, the residual slurry in the storage barrel 6 is discharged into the metering barrel 7 and then enters the mixing tower 8, and the metering barrel 7 can perform quantitative metering on the slurry, so that the amount of the residual slurry which is subsequently used is quantitatively controlled;

the residual slurry collecting barrel 2 is arranged below the chute 1, a stirring device is arranged in the residual slurry collecting barrel 2 to prevent precipitation, a filter screen is arranged at a discharge port of the residual slurry collecting barrel 2 to filter off a part of slag, a slurry pump 3 is arranged between the bottom of the residual slurry collecting barrel 2 and the homogenizing barrel 4, and the residual slurry is conveyed into the homogenizing barrel 4 through the slurry pump 3;

the top of the homogenizing barrel 4 is communicated with a pipeline arranged at a discharge port of the slurry pump 3, residual slurry enters the homogenizing barrel 4 from the top, a liquid level sensor and a stirring device are arranged in the homogenizing barrel 4, the liquid level sensor can sense the liquid level in the homogenizing barrel 4, the stirring device enables the residual slurry to be uniformly stirred, a weighing sensor is arranged outside the homogenizing barrel 4, the weighing sensor can sense the weight of the homogenizing barrel 4, the density of the slurry can be known according to the weight and the liquid level, the homogenizing barrel 4 is communicated with a water supplementing barrel, an electromagnetic valve is arranged on the water supplementing barrel, the water supplementing barrel can supplement water to the interior of the homogenizing barrel 4, the homogenizing barrel 4 conveys the residual slurry to a storage barrel 6 through a slurry pump 5 arranged at the side edge, and the residual slurry with the adjusted concentration is conveyed to the storage barrel;

the top of the storage barrel 6 is communicated with a pipeline of a discharge port of the slurry pump 5, residual slurry is input into the storage barrel 6 from the top of the storage barrel 6 and is stored, a stirring device and a liquid level sensor are arranged in the storage barrel 6, the stirring device prevents the residual slurry from precipitating, the liquid level sensor can sense the amount of the slurry in the storage barrel 6, the bottom of the storage barrel 6 is communicated with the top of the metering barrel 7, and the residual slurry in the storage barrel 7 can directly enter the metering barrel 7 for metering and can be metered according to the demand;

a stirring device is arranged in the metering barrel 7, stirring can prevent slurry from precipitating, a weighing sensor is arranged outside the metering barrel 7, the specific quantity value of residual slurry in the metering barrel 7 is known through the weighing sensor, a pneumatic butterfly valve is arranged at a discharge port at the bottom of the metering barrel 7, a mixing tower 8 is arranged below the discharge port of the metering barrel 7, and the pneumatic butterfly valve is opened to place the slurry into the mixing tower 8 below for reuse;

the mud pump 3, the slurry pump 5, the solenoid valve, a liquid level sensor, a weighing sensor, a pneumatic butterfly valve and a stirring device are all electrically connected with a control system, the control system controls the stirring device to stir and controls the slurry pump 5 to start, the control system controls the solenoid valve on the first clear water barrel 9 and the mud pump 3 to start according to feedback information of the liquid level sensor and the weighing sensor on the homogenizing barrel 4, the concentration of residual slurry is adjusted, and the control system controls the pneumatic butterfly valve to open and discharge through the feedback information of the weighing sensor on the metering barrel 7.

The pipeline between the feed port of the slurry pump 3 and the residual slurry collecting barrel 2 is connected with a first clear water barrel 9, a control valve is arranged on a connecting pipeline between the first clear water barrel 9 and the slurry pump 3, a control valve is arranged on a pipeline between the slurry pump 3 and the residual slurry collecting barrel 2, a control valve is arranged on a connecting pipeline between the slurry pump 3 and the homogenizing barrel 4, the first clear water barrel 9 can clean the pipeline after the residual slurry is conveyed by the slurry pump 3 to prevent sediment blockage, a second clear water barrel 10 is connected on a connecting pipeline between the slurry pump 5 and the storage barrel 6, a control valve is arranged on a connecting pipeline between the second clear water barrel 10 and the storage barrel 6, control valves are respectively arranged at two ends of the connecting pipeline between the slurry pump 5 and the storage barrel 6, and the second clear water barrel 10 can clean the pipeline after the residual slurry is conveyed by the slurry pump 5 to prevent sediment blockage.

The working principle is as follows: the residual slurry is filtered by a filter screen of the chute 1 and then enters the residual slurry collecting barrel 2 to be collected, a stirring device is arranged in the residual slurry collecting barrel 2 to be continuously stirred to prevent sedimentation, a filter screen is arranged at a discharge port of the residual slurry collecting barrel 2 to be filtered again, the filtered residual slurry is conveyed into the homogenizing barrel 4 by a slurry pump 3 to be homogenized, a liquid level sensor arranged in the homogenizing barrel 4 can sense the liquid level of the homogenizing barrel 4, a weighing sensor can sense the weight of the homogenizing barrel 4, the liquid level value and the weight value are transmitted to a control device, the control device controls an electromagnetic valve on the water replenishing barrel to be opened and closed according to a set value to perform water replenishing operation, the residual slurry conveyed to a mixing tower 8 through a slurry pump 5 is ensured to be constant in density, the stirring device of the homogenizing barrel 4 is stirred to be uniform, the homogenized residual slurry is conveyed into a storage barrel 6 through the slurry pump 5 to be stored, the liquid level sensor in the storage barrel 6 can know the total amount of the residual slurry in the storage barrel 6, the residual slurry in the storage barrel 6 is discharged into the metering barrel 7, the residual slurry in the metering barrel 7 is weighed according to the requirement, the weighing sensor transmits the weighing value to the control device, the control device controls the control valve at the inlet of the metering barrel 7 to stop feeding, controls the pneumatic butterfly valve to be opened, and discharges the residual slurry into the mixing plant 8 for repeated use;

the mud pump 3 can clean the pipeline by pumping clean water from the first clear water barrel 9 after the residual mud is conveyed from the residual mud collecting barrel 2 to the homogenizing barrel 4 every time, the pipeline is only cleaned by the cleaning water through opening and closing of the control valve, the pipeline is not left in the residual mud collecting barrel 2 and the homogenizing barrel 4, the pipeline is automatically backwashed by pumping clean water from the second clear water barrel 10 after the residual mud pump 5 is conveyed from the homogenizing barrel 4 to the metering barrel 7 every time, and the pipeline is only cleaned by the cleaning water through opening and closing of the control valve, and the pipeline is not left in the homogenizing barrel 4 and the storage barrel 6.

The above-mentioned components of the slurry pump 3, the slurry pump 5, the electromagnetic valve, the liquid level sensor, the weighing sensor, the pneumatic butterfly valve, the stirring device, the control valve, the control system and the like are all general standard components or components known by those skilled in the art, and the structure and principle of the components are known by those skilled in the art through technical manuals or conventional experimental methods, and are not described.

In the embodiment, the homogenizing barrel is arranged behind the residual pulp collecting barrel, the amount of the residual pulp and the water supplementing amount are adjusted, the concentration of the residual pulp can be adjusted, and the density of the residual pulp is ensured to be constant when the residual pulp is recycled; the reused residual slurry can be quantitatively measured through the measuring barrel, and the residual slurry amount required by each tank can be provided according to the requirement; the residual slurry is filtered and then conveyed, a stirring device is arranged in each step of the barrel to reduce precipitates, and a clear water barrel I and a clear water barrel II are arranged to clean pipelines and prevent blockage; and the control system is used for controlling the conveying, density adjustment, quantitative discharging of the residual pulp amount and the like of the residual pulp during the recovery of the residual pulp, so that the efficiency is improved.

The basic principles and main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a surplus thick liquid recycle system of tubular pile which characterized in that: comprises a residual pulp collecting barrel, a homogenizing barrel, a storage barrel and a metering barrel; the residual slurry collecting barrel is used for collecting residual slurry filtered by the chute, a filter screen is arranged in the chute, the residual slurry in the residual slurry collecting barrel is conveyed into the homogenizing barrel through a slurry pump, the residual slurry in the homogenizing barrel is conveyed into the storage barrel through a slurry pump for storage, and the residual slurry in the storage barrel is discharged to the metering barrel and then enters the mixing plant;

2. The tubular pile residual slurry recycling system according to claim 1, characterized in that: the slurry pump is characterized in that a first clear water barrel is connected to a pipeline between a feed port of the slurry pump and the residual slurry collecting barrel, a control valve is arranged on a connecting pipeline between the first clear water barrel and the slurry pump, a control valve is arranged on a pipeline between the slurry pump and the residual slurry collecting barrel, a control valve is arranged on a connecting pipeline between the slurry pump and the homogenizing barrel, a second clear water barrel is connected to a connecting pipeline between the slurry pump and the storage barrel, a control valve is arranged on a connecting pipeline between the second clear water barrel and the storage barrel, and control valves are respectively arranged at two ends of the connecting pipeline between the slurry pump and the storage.