KR20130056493A - Pneumatic waste conveyor having weighing scale - Google Patents

Abstract

PURPOSE: A pneumatic waste conveying apparatus with a weight measuring device is provided to prevent the malfunction of a transfer device due to the excessive supply of waste and to maximize the conveying efficiency of the apparatus. CONSTITUTION: A pneumatic waste conveying apparatus(100) with a weight measuring device comprises a body(110), a collecting chute(120), a waste input valve(130), a compressed air supply valve, a load cell(140), and a control part. A waste receiving part(111) is formed inside the body. The collecting chute communicates with the waste receiving part and drops waste to the waste receiving part. The waste input valve rotationally drops the waste from the collecting chute to the waste receiving part. The compressed air supply valve supplies compressed air to the waste receiving part to convey the waste. The load cell measures the weight of the waste received in the waste receiving part. The control part controls the rotation of the waste input valve and the supply of the compressed air based on the weight of the waste. [Reference numerals] (AA) Impurities

Description

Pneumatic contaminant feeder with weighing device {PNEUMATIC WASTE CONVEYOR HAVING WEIGHING SCALE}

The present invention relates to a pneumatic contaminant conveying apparatus having a weighing device, and more particularly, the contaminant can be dropped into the contaminant receiving unit based on the weight of the contaminant, and the apparatus malfunctions due to the excessive input of the contaminant. Pneumatic contaminant feeder with weight measuring device, which can improve the transfer capacity of the device by more than 20% by continuously operating at the maximum capacity rather than 70 ~ 80% of the device's specified capacity. It is about.

It is well known that in modern industrial society, population growth and water consumption are increasing and living sewage continues to increase.

These sewage treatment plants are treated in sewage treatment plants, which include sedimentary lifting to remove contaminants such as sand, which are introduced with sewage, and dehydrators that dewater excess sludge in the final process. It plays an important role as one of the processing means.

The sedimentation lifter is a bucket that scrapes sand and other contaminants accumulated on the bottom of the sedimentation basin, which is a rectangular concrete structure, and discharges it to the outside of the sedimentation basin. Or screw conveyor.

In general, a method of transporting the sedimentation or dehydration cake to the sedimentation storage box or the dehydration cake storage tank in the sedimentation lifter or dehydrator installed in the sewage treatment plant is applied with a contaminant conveying apparatus using air pressure.

However, in the sedimentation lifter or dehydrator, the sedimentation or dehydration cake does not occur continuously in a constant manner, but is partially generated in an excessive amount of conveying. In such a case, the contaminant cannot be transported due to a malfunction of the conveying device using air pressure. There was a problem that adversely affects the pollution and hygiene of the surrounding environment due to scattering.

That is, the acupuncture or dehydration cake using the air pressure, for example, the contaminant conveying device, as shown in Figure 1, is provided with a hemispherical contaminant inlet valve 30 around the sealing holding portion 10 of the lower portion of the collection chute 20 An air passage 61 for injecting compressed air in an inward direction of the contaminant accommodating portion 11 is formed at a predetermined portion of the upper and lower confinement accommodating portion 11 formed at the lower side thereof. A venturi portion 14 is formed at the lower portion of the portion 11 to narrow the transfer passage, and a tubular transfer passage 15 is configured to be connected to the venturi portion 14 to the outside. The support part 13 is comprised in the outer side of the reinforcement part 12 comprised in the outer side of the accommodating part 11, and conveys a contaminant by the air pressure of the air compressed by the air compressor to an external storage box or a storage collection chute. To be able to As a result, it is possible to transport long distances without pollution to the surrounding environment such as odor generation or scattering of contaminants, and it is possible to install a transfer path freely.

However, the method of accommodating the contaminants in the contaminant accommodating part 11 is controlled by time, but when a certain amount of the contaminants is supplied for each time, there is no problem in the cycle operation by the existing time, but as mentioned above, If a large amount of contaminants are filled in the part 11 and an excessive amount of contaminants flows in a short time, the capacities exceed the capacity of the contaminant accommodating part 11, which impedes the closing of the contaminant inlet valve 30, thereby transferring the contaminants. Rather, it is a phenomenon that the impurities are scattered to the outside.

Therefore, in the case of the sludge conveying apparatus using the pneumatic pressure of the prior art, since the opening and closing operation of the contaminant inlet valve 30 has been only dependent on the time setting, a small amount of contaminants smaller than the quantitative amount is considered in consideration of the safety factor against partial excess injection. Due to the time setting to be accommodated, the transport capacity of the device tends to be drastically lowered, and an appropriate alternative for preventing excessive input of contaminants and causing maximum transport capacity is required.

Korean Patent Office Application No. 10-2007-0093202 Korean Patent Office Application No. 20-2004-0007356 Korean Patent Office Application No. 20-2001-0013507

The object is to drop the contaminants into the contaminant receiving portion based on the weight of the contaminants, thereby preventing the malfunction of the apparatus due to the excessive input of the contaminants, and furthermore, the range of 70 to 80% of the specified capacity of the apparatus It is to provide a pneumatic contaminant conveying device having a weighing device, which can continuously operate at the maximum capacity, thereby improving the conveying capacity of the device by 20% or more.

The object is, the main body of the contaminant conveying apparatus is formed with a contaminant receiving portion therein; A collection chute coupled to an upper portion of the main body of the contaminant conveying device and in communication with the contaminant receiving part, and configured to drop the contaminant into the contaminant receiving part; A contaminant inlet valve disposed in a communication region of the collection chute and the contaminant accommodating part, and configured to drop the contaminant in the collection chute into the contaminant accommodating part based on a rotation operation; A load cell provided in the main body of the contaminant conveying apparatus, the load cell measuring a weight of the contaminants accommodated in the contaminant receiving unit; And a control unit for controlling the rotation operation of the contaminant inlet valve based on the weight of the contaminant measured by the load cell.

A plurality of supports coupled to the sidewalls of the contaminant conveying body; And a support support part connected to the plurality of supports, respectively, for supporting the main body of the contaminant conveying apparatus with respect to the ground.

The load cell may be provided in the support region.

The contaminant accommodating portion may have a funnel shape in which the cross-sectional area gradually decreases downward.

A venturi unit connected to a lower portion of the contaminant receiving unit; A miscellaneous material conveying pipe for conveying a contaminant past the venturi part; And it may further include a flexible connector for flexibly connecting the venturi portion and the contaminant conveying pipe so that no obstacle occurs in measuring the weight in the load cell.

According to the present invention, the amount of the contaminants introduced by using the air pressure for conveyance is measured based on the weight of the contaminants, the excess of the contaminants that can be generated when controlling the input of the conventional contaminants by time It is possible to prevent the transfer amount from being significantly lower than the rated capacity by applying a safety factor to prevent the malfunction of the transfer device or the operation by input, and further improve the performance of the device to maximize the transfer capacity of the device. There is.

1 is a view showing a sludge conveying apparatus using a conventional air pressure.
2 is a system diagram of controlling a device by a conventional time.
Figure 3 is a system diagram according to the use state of the pneumatic contaminant conveying device having a weighing device according to an embodiment of the present invention.
4 is an enlarged structural diagram of a pneumatic contaminant conveying device having a weight measuring device shown in FIG.
5 is an enlarged cross-sectional view of the pneumatic contaminant conveying device having the weight measuring device shown in FIG.
6 is a control block diagram of a pneumatic contaminant conveying device having a weighing device according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

Figure 3 is a system diagram according to the use state of the pneumatic contaminant conveying apparatus having a weight measuring apparatus according to an embodiment of the present invention, Figure 4 is an enlarged structural diagram of the pneumatic contaminant conveying apparatus having a weight measuring apparatus shown in FIG. 5 is an enlarged cross-sectional view of the pneumatic contaminant conveying apparatus having a weight measuring apparatus shown in FIG. 2, and FIG. 6 is a control block diagram of the pneumatic contaminant conveying apparatus having a weight measuring apparatus according to an embodiment of the present invention.

Referring first to FIG. 3, the apparatus for conveying a contaminant using air pressure according to the present embodiment 100 is connected to peripheral devices, such as an air compressor 200, a compressed air storage tank 300, and a sludge storage tank 400. Can be used.

That is, when the air is compressed by the air compressor 200 and sent to the compressed air storage tank 300, the compressed air storage tank 300 injects high pressure compressed air into the sludge conveying apparatus 100, and into the sludge conveying apparatus 100. The contaminants (WASTE) injected into the sludge conveying apparatus 100 based on the compressed air is injected may be transferred by the compression force of the compressed air to be stored in the contaminant storage tank (400).

According to this system, all of the contaminants are connected to the pipes (P1 ~ P3) and are sealed, so it is suitable for the transfer of repellent materials such as sediments, manure, livestock waste, and sewage sludge. It is a transfer device suitable for eco-friendly use.

For reference, the contaminants described in the present embodiment may include various screen contaminants, sewage treatment plant dewatering sludge cakes, manure, livestock waste, and the like, including sewage treatment plant sedimentation contaminant transport.

3 to 6, the sludge conveying apparatus 100 using the pneumatic pressure of the present embodiment, the contaminant conveying apparatus main body 110, the collection chute 120, the contaminant inlet valve 130, a load cell (load cell, 140, and the controller 150.

The junk material conveying apparatus main body 110 is the part occupying the largest volume in the apparatus of the present embodiment, and the junk material receiving part 111 in which sludge is accommodated is formed therein.

In the present embodiment, the contaminant accommodating portion 111 has a funnel shape in which the cross-sectional area gradually decreases toward the lower side. By this structural feature, after the sludge introduced into the contaminant receiving portion 111 can be easily moved to the conveying pipe, it can be transferred to the sludge storage tank 400 shown in FIG.

On the other hand, the complex feed device main body 110 is provided with a structure in which the compressed air supplied from the compressed air storage tank 300 is injected into the inside of the complex receiving portion 111.

Looking at the related art in the related art, in the case of the prior art, when the input of the contaminant for a predetermined time through the contaminant chute 120, as shown in the system diagram for controlling the device by the time in FIG. The valve 130 is closed, and compressed air is supplied from the compressed air supply port 162 to the contaminant accommodating part 111, and the condensate is compressed by the compressed air pressure through the venturi part 114 via the conduit storage tank. When the transfer to the 400 is completed, the contaminant inlet valve 130 is opened and the operation of repeating the process in which the contaminant is introduced into the contaminant accommodating unit is performed, and most of the applied systems are fed into the collection chute 120. If the distribution by time is not constant and the input time of the input of the contaminant exceeds the storage capacity of the contaminant accommodating portion 111, the input of the contaminant input valve 130 is closed. When the compressed air is supplied, impurities are scattered in the direction of the collection chute 120 and contaminate the surroundings. In order to compensate for this, the amount of feed is drastically reduced when the operation time is shortened. Problems and disadvantages have been brought about. However, the present embodiment applies a method for solving such a disadvantage.

The collection chute 120 is coupled to the upper portion of the contaminant feeder main body 110 to communicate with the contaminant accommodating portion 111 and serves to drop the sludge to the contaminant accommodating portion 111. Collection chute 120 may have a funnel shape as shown.

The contaminant inlet valve 130 is disposed in the communication region of the collection chute 120 and the contaminant accommodating part 111, and drops the contaminant conveyed to the collection chute 120 to the contaminant accommodating part 111 based on a rotational motion. Play a role.

That is, when the contaminant inlet valve 130 is disposed in the solid line of FIG. 4, since the communication region between the collection chute 120 and the contaminant accommodating part 111 is blocked, the contaminant does not fall, but the contaminant inlet valve 130 is shown in FIG. 3. When arranged in a dotted line of the collection chute 120 and because the communication region of the contaminant accommodating portion 111 is opened so that the contaminant may fall to the contaminant accommodating portion 111 through this.

In the structure of the object feeder main body 110, a plurality of support supports 112 are provided on the sidewalls of the object feeder main body 110, and the support 113 is connected to the support 113, respectively, 110 is supported against the ground.

Although the support 113 may be directly welded to the contaminant conveying apparatus main body 110, when the support support 112 is provided as in the present embodiment, the load cell 140 is easily installed at the connection site to measure the weight of the contaminants introduced thereto. can do.

Between the supports 113, that is, the lower region of the contaminant conveying apparatus main body 110, a conduit for transferring the contaminant in the contaminant accommodating portion 111 to the contaminant storage tank 400, and the venturi part 114 and the contaminant conveying pipe ( 116 is provided.

The venturi part 114 and the contaminant transport pipe 115 may be connected to the flexible connector 115 at the corresponding position. Unlike the contaminant conveying tube 116, the flexible connector tube 115 connecting the venturi part 114 has a difficulty in measuring the weight in the load cell 140 when directly connected to the contaminant conveying tube 116. 115) so that the weight of the contaminants can be easily measured.

The load cell 140 is provided in the main body of the contaminant conveying apparatus 110 to measure the weight of the contaminants contained in the contaminant accommodating part 111. Since the load cell 140 serves to measure the weight of the sludge accommodated in the contaminant accommodating portion 111, the load cell 140 may be located at any position of the contaminant feeder main body 110 if only the weight of the contained contaminant can be measured. It may be provided. In the present embodiment, the load cell 140 is provided in the region of the support support 112, but the scope of the present invention is not necessarily limited to the structure and the figure.

Meanwhile, as shown in FIG. 6, the controller 150 controls opening and closing of the contaminant inlet valve 130 and supply of compressed air based on the weight of the sludge measured by the load cell 140. Do it.

As described in detail above, in the case of the prior art, since the opening and closing operation of the contaminant inlet valve 130 has been only dependent on the time setting, the contaminant may be exceeded in the contaminant accommodating part 111. A phenomenon in which a contaminant is introduced to overflow and obstructs the closing of the contaminant inlet valve 130, and when compressed air is supplied from the compressed air supply pipe 161, compressed air is leaked toward the contaminant inlet valve 130 to scatter contaminants and contaminate the surroundings. In order to prevent this, shortening the input time of the contaminants may cause a cause of deterioration of the original contaminant conveying function of the contaminant conveying apparatus due to a decrease in the amount of conveying the contaminants.

However, in the present embodiment, the load cell 140 measures the weight of the sludge accommodated in the contaminant accommodating portion 111, and the controller 150 controls the contaminant inlet valve based on the weight of the sludge measured by the load cell 140. Since the opening and closing operation of the 130 is controlled, for example, by measuring the weight of the contaminants accommodated in the contaminant accommodating part 111, the weight of the contaminant in the maximum accommodating state is measured in the contaminant accommodating part 111, and based on the weight By setting the opening and closing operation of the inlet valve 130 can be controlled to operate the contaminant conveying device. Therefore, by preventing the malfunction of the contaminant excessive input and improves the conveying ability of the contaminant conveying device 100 compared to the conventional operation type. Efficient driving is possible.

As described above, according to the present embodiment, it is possible to drop the contaminants into the contaminant accommodating portion 111 based on the weight of the contaminants, thereby preventing the malfunction of the apparatus due to the excessive injection of the contaminants. Continuous operation at maximum capacity, not in the range of 70-80% of the specified capacity, can improve the transfer capacity of the device by more than 20%.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

100: miscellaneous material conveying device 110: miscellaneous material conveying device
111: foreign matter receiving portion 112: support support
113: Support 114: Venturi part
115: flexible connector 116: miscellaneous material conveying pipe
120: collection chute 130: impurities input valve
140: load cell 150: control unit
161: compressed air supply pipe 162: compressed air supply port
200: air compressor 300: compressed air storage tank
400: a contaminant storage tank

Claims (3)

A junk material conveying apparatus body in which a blank receiving portion is formed;
A collection chute coupled to an upper portion of the main body of the contaminant conveying device and in communication with the contaminant receiving part, and configured to drop the contaminant into the contaminant receiving part;
A contaminant inlet valve disposed in a communication region of the collection chute and the contaminant accommodating part, and configured to drop the contaminant in the collection chute into the contaminant accommodating part based on a rotation operation;
A compressed air supply valve disposed in the contaminant accommodating part region and configured to supply compressed air to the contaminant accommodating part based on the operation of the valve to convey the contaminant;
A load cell provided in the main body of the contaminant conveying apparatus, the load cell measuring a weight of the contaminants accommodated in the contaminant receiving unit; And
And a control unit for controlling the rotation operation of the contaminant inlet valve and the supply of compressed air based on the weight of the contaminant measured by the load cell.
The method of claim 1,
And the load cell is provided in the support region. The method of claim 1,
A venturi unit connected to a lower portion of the contaminant receiving unit;
A miscellaneous material conveying pipe for conveying a contaminant past the venturi part; And
And a flexible connector for flexibly connecting the venturi part and the contaminant conveying pipe so that no obstacle occurs in measuring the weight in the load cell.

Images