JP2020158981A - Asphalt feeder - Google Patents

Abstract

To drive a switching cock even if an air compressor is stopped, in an asphalt plant equipped with the switching cock operated by an actuator driven by air generated by the air compressor.SOLUTION: An asphalt feeder 1 has an asphalt tank 3 that stores asphalt, which is a constituent material of asphalt mixture, and has an asphalt inlet 11 and an asphalt outlet 13, an inlet side switching cock 5 that opens and closes the asphalt inlet 11 by being driven by an actuator 15 that operates with fluid pressure, an outlet side switching cock 7 that opens and closes the asphalt outlet 13 by being driven by an actuator 17 that operates with fluid pressure, and a dedicated fluid tank 9 for storing the fluid pressure for driving the inlet side switching cock 5 and the fluid pressure for driving the outlet side switching cock 7.SELECTED DRAWING: Figure 2

Description

The present invention relates to an asphalt supply device, and more particularly to a device having a switching cock driven by fluid pressure.

Conventionally, an asphalt supply device 301 having a switching cock driven by air pressure is known (see FIG. 1). The conventional asphalt supply device 301 includes a plurality of asphalt tanks 303 (303A, 303B, 303C, 303D), a switching cock 305, a pump 307, and a measuring instrument 309.

In the conventional asphalt supply device 301, when the pump 307 is operating, the switching cock 305 is appropriately switched to send the asphalt coming out of the asphalt tank 303A (303B, 303C, 303D) to the measuring instrument 309. The asphalt coming out of the asphalt tank 303 is returned to the asphalt tank 303A (303B, 303C, 303D).

Here, for example, Patent Document 1 is listed as a document relating to the prior art.

Japanese Unexamined Patent Publication No. 2009-24405

By the way, in the conventional asphalt supply device 301, the switching cock 305 is driven by an air cylinder that operates by air pressure, as described above. Further explaining, the switching cock 305 is configured like a pilot type switching valve, and the main seat of the switching cock 305 is opened and closed by the pneumatic cylinder (the pneumatic cylinder is the main valve of the switching cock 305). It is designed to drive the body).

Therefore, in the conventional asphalt supply device 301, if the supply of air from the air compressor is interrupted, the switching cock 305 cannot switch.

Further, when the asphalt supply device 301 is stopped, if the power is turned off on the operation panel of the asphalt supply device 301 after the air compressor is stopped, the pneumatic cylinder that operates the switching cock 305 may not operate.

That is, when the air compressor is stopped, the amount of air and pressure supplied to the pneumatic cylinder that drives the valve body of the switching cock 305 are insufficient, and the switching cock 305 is not completely switched. For example, asphalt in the asphalt tank 303A. However, it may get inside the asphalt tank 303B.

According to the present invention, in an asphalt plant provided with a switching cock operated by an actuator operated by air (air pressure) generated by the air compressor, the switching cock can be operated even when the air compressor is stopped. The purpose is to provide what can be done.

The invention according to claim 1 is to store asphalt, which is a constituent material of an asphalt mixture, and drive the asphalt by an asphalt tank provided with an asphalt inlet and an asphalt outlet and an actuator operated by fluid pressure. An inlet-side switching cock that opens and closes the asphalt inlet of the tank, an outlet-side switching cock that opens and closes the asphalt outlet of the asphalt tank by driving with an actuator that operates by fluid pressure, and an inlet-side switching cock for driving the inlet-side switching cock. A dedicated fluid tank that stores at least one of the fluid pressure and the fluid pressure for driving the outlet-side switching cock exclusively for driving the inlet-side switching cock and the outlet-side switching cock. It is an asphalt supply device (1) having.

The invention according to claim 2 is the asphalt supply device according to claim 1, which is driven by a pump for transferring the asphalt, a measuring instrument for measuring the asphalt, and an actuator operated by fluid pressure. It has a measuring instrument side switching cock that opens and closes the asphalt flow path between the measuring instrument and the asphalt tank, and when the pump is operating, the inlet side switching cock and the outlet side switching cock By switching the switching cock on the measuring instrument side, it is possible to set an operating state in which the asphalt coming out of the asphalt tank is returned to the asphalt tank and an operating state in which the asphalt coming out of the asphalt tank flows to the measuring instrument. It is an asphalt supply device configured as follows.

The invention according to claim 3 is the asphalt supply device according to claim 1, which is driven by a pump for transferring the asphalt, a measuring instrument for measuring the asphalt, and an actuator operated by fluid pressure. It has a measuring instrument side switching cock that opens and closes an asphalt flow path between the measuring instrument and the asphalt tank, and a plurality of the asphalt tanks are provided, and each of the plurality of asphalt tanks has an inlet. A side switching cock and the outlet side switching cock are provided, and the dedicated fluid tank drives all the inlet side switching cocks, all the outlet side switching cocks, and the measuring instrument side switching cocks. It is configured to store the fluid pressure for this purpose, and by switching between the inlet side switching cock, the outlet side switching cock, and the measuring instrument side switching cock while the pump is operating, each of the above An operating state in which the asphalt that has come out of at least one predetermined asphalt tank in the asphalt tank is returned to the predetermined one asphalt tank, and the asphalt that has come out of at least one predetermined asphalt tank in each of the asphalt tanks. It is an asphalt supply device configured so that it can be put into an operating state of flowing through the measuring instrument.

According to the present invention, in an asphalt plant equipped with a switching cock operated by an actuator operated by air (air pressure) generated by the air compressor, the switching cock is operated even when the air compressor is stopped. It has the effect of being able to do it.

It is a figure which shows the schematic structure of the asphalt supply device which concerns on embodiment of this invention. It is a figure which shows the schematic structure of the asphalt supply device which concerns on embodiment of this invention. It is a figure which shows the structure around the air tank of the asphalt supply device which concerns on embodiment of this invention.

The asphalt supply device 1 according to the embodiment of the present invention supplies asphalt to an asphalt plant that produces an asphalt mixture used for pavement of roads and the like, and as shown in FIG. 2, an asphalt tank 3 and an inlet. It is configured to include a side switching cock (inlet side switching valve) 5, an outlet side switching cock (outlet side switching valve) 7, and a dedicated fluid tank 9.

The asphalt tank 3 is designed to store (store) asphalt, which is a constituent material of the asphalt mixture, and includes an asphalt inlet 11 and an asphalt outlet 13.

The inlet side switching cock 5 opens and closes the asphalt inlet 11 of the asphalt tank 3 by being driven by an actuator (for example, a pneumatic cylinder; a fluid pressure cylinder such as a hydraulic cylinder) 15 that operates by fluid pressure. There is.

Like the inlet-side switching cock 5, the outlet-side switching cock 7 is also driven by an actuator 17 that operates with fluid pressure to open and close the asphalt outlet 13 of the asphalt tank 3.

The dedicated fluid tank (dedicated fluid pressure tank; for example, a dedicated air tank) 9 has a function as an accumulator for storing air pressure, and a fluid pressure for driving the inlet side switching cock 5 (inlet side switching cock drive). (Compressed air for) and the fluid pressure for driving the outlet side switching cock 7 are both stored.

The air pressure stored in the dedicated fluid tank 9 is exclusively for driving the inlet side switching cock 5 and the outlet side switching cock 7.

That is, both the fluid pressure for driving the inlet side switching cock 5 and the fluid pressure for driving the outlet side switching cock 7 in one dedicated fluid tank (may be a plurality of fluid tanks of one system) 9 It is designed to store only the fluid pressure of.

The dedicated fluid tank 9 is configured to store only at least one of the fluid pressure for driving the inlet side switching cock 5 and the fluid pressure for driving the outlet side switching cock 7. You may. Further, two dedicated fluid tanks 9 (may be two systems) are provided, one dedicated fluid tank 9 stores only the fluid pressure for driving the inlet side switching cock 5, and the other one dedicated fluid tank 9 may be configured to store only the fluid pressure for driving the outlet side switching cock 7.

Further, the asphalt supply device 1 includes a pump 19 for transferring asphalt, a measuring instrument 21 for measuring asphalt, and a measuring instrument side switching cock for opening and closing the asphalt flow path between the measuring instrument 21 and the asphalt tank 3. 23 and are provided.

Then, when the pump 19 is operating, the inlet side switching cock 5, the outlet side switching cock 7, and the measuring instrument side switching cock 23 are appropriately switched to bring the asphalt circulation state or the asphalt measuring instrument supply state as shown below. It is configured to be able to.

The asphalt circulation state is an operation state in which the asphalt coming out of the asphalt tank 3 is returned to the asphalt tank 3 without flowing to the measuring instrument 21, and the asphalt measuring instrument supply state is an operation state in which the asphalt coming out of the asphalt tank 3 is returned to the asphalt tank 3. It is an operating state in which the asphalt tank 3 is flown to the measuring instrument 21 without being returned to the asphalt tank 3.

In the asphalt measuring instrument supply state, the asphalt weighed through the measuring instrument 21 is supplied to the mixer 10 and mixed with aggregates and fillers so that the asphalt mixture used for pavement such as roads is produced. It has become.

A plurality (for example, four) asphalt tanks 3 (3A, 3B, 3C, 3D) are provided.

Asphalt is stored inside each of the plurality of asphalt tanks 3, but for example, the asphalts stored inside each of the plurality of asphalt tanks 3A, 3B, 3C, and 3D have different specifications. ing.

That is, the properties of the asphalt stored in the asphalt tank 3A and the properties of the asphalt stored in the asphalt tank 3B are different from each other. Then, in the case of producing an asphalt mixture having a certain predetermined specification, a predetermined amount of asphalt stored in the asphalt tank 3A is used.

Further, when producing an asphalt mixture having another predetermined specification, a predetermined amount of asphalt stored in the asphalt tank 3A and a predetermined amount of asphalt stored in the asphalt tank 3B are used. ing.

A plurality (for example, four) of the inlet side switching cocks 5 (5A, 5B, 5C, 5D) are also provided corresponding to the asphalt tank 3. A plurality (for example, four) of outlet-side switching cocks 7 (7A, 7B, 7C, 7D) are also provided corresponding to the asphalt tank 3. That is, each of the plurality of asphalt tanks 3 is provided with an inlet side switching cock 5 and an outlet side switching cock 7.

Further explaining, an inlet side switching cock 5A is provided in the vicinity of the asphalt inlet 11A of the asphalt tank 3A, and an inlet side switching cock 5B is provided in the vicinity of the asphalt inlet 11B of the asphalt tank 3B. An inlet side switching cock 5C is provided in the vicinity of the asphalt inlet 11C of the asphalt tank 3C, and an inlet side switching cock 5D is provided in the vicinity of the asphalt inlet 11D of the asphalt tank 3D.

Further, an outlet side switching cock 7A is provided in the vicinity of the asphalt outlet 13A of the asphalt tank 3A, and an outlet side switching cock 7B is provided in the vicinity of the asphalt outlet 13B of the asphalt tank 3B. An outlet side switching cock 7C is provided in the vicinity of the asphalt outlet 13C of the 3C, and an outlet side switching cock 7D is provided in the vicinity of the asphalt outlet 13D of the asphalt tank 3D.

As described above, the dedicated fluid tank 9 stores compressed air for driving all the inlet-side switching cocks 5 and all the outlet-side switching cocks 7.

Then, when the pump 19 is operating, the asphalt circulation state described above or the asphalt measuring instrument supply described above is performed by appropriately switching between the inlet side switching cock 5, each outlet side switching cock 7, and the measuring instrument side switching cock 23. It can be put into a state.

More specifically, the inlet-side switching cock 5A is driven by the pneumatic cylinder 15A, the inlet-side switching cock 5B is driven by the pneumatic cylinder 15B, and the inlet-side switching cock 5C is driven by the pneumatic cylinder 15B. It is driven by the pneumatic cylinder 15C, and the inlet side switching cock 5D is driven by the pneumatic cylinder 15D.

Further, the outlet side switching cock 7A is driven by the pneumatic cylinder 17A, the outlet side switching cock 7B is driven by the pneumatic cylinder 17B, and the outlet side switching cock 7C is driven by the pneumatic cylinder 17C. The outlet side switching cock 7D is driven by a pneumatic cylinder 17D.

The measuring instrument side switching cock 23 is driven by an actuator (for example, a pneumatic cylinder; a fluid pressure cylinder such as a hydraulic cylinder) 25 that operates by fluid pressure in the same manner as the inlet side switching cock 5 and the like, thereby causing asphalt. The flow path is switched.

The compressed air stored in the dedicated fluid tank 9 is used to operate the pneumatic cylinder 25 in addition to each pneumatic cylinder 15 and each pneumatic cylinder 17.

Here, the asphalt supply device 1 will be described in more detail. Reference numeral 27 in FIG. 1 schematically shows the valve bodies of the inlet side switching cock 5, the outlet side switching cock 7, and the measuring instrument side switching cock 23. Reference numeral 29 in FIG. 1 schematically shows a flow path of asphalt provided in the valve body 27.

The valve body 27 of the inlet-side switching cock 5A is rotated by, for example, the pneumatic cylinder 15A, and takes either a posture indicated by reference numeral 5Aa or a posture indicated by reference numeral 5Ab.

Similarly, the valve body 27 of the inlet side switching cock 5B also takes one of the postures indicated by the reference reference numeral 5Ba and the posture indicated by the reference reference numeral 5Bb, and the valve body 27 of the inlet side switching cock 5C also takes one of the postures. , The posture indicated by the reference reference numeral 5Ca and the posture indicated by the reference reference numeral 5Cb, and the valve body 27 of the inlet side switching cock 5D is also indicated by the posture indicated by the reference reference numeral 5Da and the reference numeral 5Db. It is designed to take one of the postures.

Further, the valve body 27 of the outlet-side switching cock 7A also takes either a posture indicated by the reference reference numeral 7Aa or a posture indicated by the reference reference numeral 7Bb, and the valve body 27 of the outlet-side switching cock 7B is also referred to. The posture indicated by the reference numeral 7Ba and the posture indicated by the reference reference numeral 7Bb are taken, and the valve body 27 of the outlet side switching cock 7C also has the posture indicated by the reference reference numeral 7Ca and the posture indicated by the reference reference numeral 7Cb. The valve body 27 of the outlet side switching cock 7D also takes one of the postures indicated by the reference reference numeral 7Da and the posture indicated by the reference reference numeral 7Db, and switches to the measuring instrument side. The valve body 27 of the cock 23 is also adapted to take either a posture indicated by reference numeral 23a or a posture indicated by reference numeral 23b.

Further, the asphalt supply device 1 is provided with an air compressor 31 and a pressure switch 33. Compressed air is supplied to the air tank 9 from the air compressor 31. The pressure switch 33 detects the pressure of the air in the air tank 9. Then, when the pressure of the air in the air tank 9 becomes lower than the predetermined value, the compressed air is supplied from the air compressor 31 to the air tank 9, and the pressure of the air in the air tank 9 becomes higher than the predetermined value. When this happens, the supply of compressed air from the air compressor 31 to the air tank 9 is stopped.

Here, the air compressor 31, the dedicated fluid tank 9, and the like will be described in more detail with reference to FIG.

The air compressor 31 includes an air compressor main body (compressor) 35 and an air tank 37. The air compressor main body 35 is driven by a prime mover such as a motor to compress air and discharge the compressed air. The air tank 37 is attached to the air compressor main body 35, stores the compressed air discharged from the air compressor main body 35, and discharges the stored compressed air.

The compressed air discharged from the air tank 37 passes through a branched air flow path (pipe) 45 and is a device (for example, asphalt plant 39, recycling plant 41, other device 43) that requires compressed air for operation. , Is supplied to the asphalt supply device 1) and consumed.

A check valve 51 is provided in the middle of the air flow path (air flow path for the asphalt supply device) 49 extending between the branched portion 47 of the pipe 45 and the asphalt supply device 1. ing. By this check valve 51, compressed air flows from the branched portion 47 toward the asphalt supply device 1, but compressed air does not flow from the asphalt supply device 1 toward the branched portion 47. ing.

Further, a dedicated fluid tank 9 and a pressure switch 33 are connected to a portion of the asphalt supply device air flow path 49 extending between the check valve 51 and the asphalt supply device 1. No other device that uses compressed air for driving is connected to the air flow path 49 for the asphalt supply device.

Therefore, the compressed air pressure stored in the dedicated fluid tank 9 is not consumed by the asphalt plant 39, the recycling plant 41 and other devices 43, and is exclusively the inlet side switching cock 5 and the outlet side switching cock 7 of the asphalt supply device 1. It is supposed to be consumed to drive.

Here, the operation of the asphalt supply device 1 will be described.

First, a case where the asphalt in the asphalt tank 3A is supplied to the measuring instrument 21 will be described.

At this time, the pump 19 is operating, the valve body 27 of the outlet side switching cock 7A is in the posture indicated by the reference reference numeral 7Aa, and the valve body 27 of the measuring instrument side switching cock 23 is in the posture indicated by the reference numeral 23a. It has become.

As a result, a predetermined amount of asphalt is supplied from the asphalt tank 3A to the mixer 10.

Next, the case where the asphalt in the asphalt tank 3A is returned to the asphalt tank 3A will be described.

At this time as well, the pump 19 is operating, the valve body 27 of the outlet side switching cock 7A is in the posture indicated by the reference numeral 7Aa, and the valve body 27 of the measuring instrument side switching cock 23 is indicated by the reference numeral 23b. The posture is such that the valve body 27 of the inlet side switching cock 5A is in the posture indicated by the reference numeral 5Aa.

As a result, the asphalt coming out of the asphalt tank 3A returns to the asphalt tank 3A.

Next, the case where the asphalt in the asphalt tank 3B is supplied to the measuring instrument 21 will be described.

At this time as well, the pump 19 is operating, the valve body 27 of the outlet-side switching cock 7A is in the posture indicated by the reference numeral 7Ab, and the valve body 27 of the outlet-side switching cock 7B is in the posture indicated by the reference numeral 7Ba. The valve body 27 of the measuring instrument side switching cock 23 is in the posture indicated by the reference numeral 23a.

Next, the case where the asphalt in the asphalt tank 3B is returned to the asphalt tank 3B will be described.

Also at this time, the pump 19 is operating, the valve body 27 of the outlet side switching cock 7A is in the posture indicated by the reference reference numeral 7Ab, and the valve body 27 of the outlet side switching cock 7B is in the posture indicated by the reference numeral 7Ba. The valve body 27 of the measuring instrument side switching cock 23 is in the posture indicated by the reference reference numeral 23b, and the valve body 27 of the inlet side switching cock 5A is in the posture indicated by the reference reference numeral 5Ab. The valve body 27 of the switching cock 5B is in the posture indicated by the reference numeral 5Ba.

The transfer of asphalt in the asphalt tanks 3A and 3B has been described above, but the transfer of asphalt in the asphalt tank 3C and the asphalt tank 3D is also performed in the same manner.

According to the asphalt supply device 1, a dedicated fluid pressure for driving the inlet side switching cock 5, a fluid pressure for driving the outlet side switching cock 7, and a fluid pressure for driving the measuring instrument side switching cock 23 are stored. Since the fluid tank 9 of the above is provided, the switching cocks 5, 7, and 23 can be driven even when the air compressor 31 is stopped.

Therefore, when the asphalt supply device 1 is stopped, after the air compressor 31 is stopped, the switching cocks 5, 7, and 23 are driven when the switching cocks 5, 7, and 23 are switched on the operation panel of the asphalt supply device 1. Cylinders 15, 17 and 25 can be operated.

Further, according to the asphalt supply device 1, the amount of asphalt to be measured by the measuring instrument 21 can be determined by the measuring instrument side switching cock 23, so that the amount of asphalt is determined by turning on / off the pump 19. , The exact amount of asphalt can be sent to the measuring instrument 21.

Further, according to the asphalt supply device 1, one predetermined asphalt can be obtained by switching between each inlet side switching cock 5, each outlet side switching cock 7, and the measuring instrument side switching cock 23 while the pump 19 is operating. Since the asphalt coming out of the tank 3 (for example, 3A) can be returned to the predetermined one asphalt tank 3 (for example, 3A), the asphalt in the predetermined one asphalt tank 3 (for example, 3A) can be put into an operating state. , It is prevented from entering another asphalt tank 3 (for example, 3B), and asphalts having different specifications (characteristics) are prevented from being mixed with each other.

Further, by switching between each inlet side switching cock 5, each outlet side switching cock 7, and the measuring instrument side switching cock 23 while the pump 19 is operating, the asphalt coming out of one predetermined asphalt tank 3 can be removed. Since it is possible to bring the asphalt into the measuring instrument 21 without returning it to the asphalt tank 3, only the asphalt in one predetermined asphalt tank 3 can be weighed by the measuring instrument 21.

In the above description, the pneumatic cylinder 15 for driving the inlet-side switching cock 5 and the pneumatic cylinder 17 for driving the outlet-side switching cock 7 are separate pneumatic cylinders, but the inlet-side switching cock 5 is driven. The air pressure cylinder may be configured to drive the outlet side switching cock (the air pressure cylinder may be shared).

For example, the pneumatic cylinder 15A driven by the inlet side switching cock 5A may drive the outlet side switching cock 7A.

1 Asphalt supply device 3, 3A, 3B, 3C, 3D Asphalt tank 5, 5A, 5B, 5C, 5D Inlet side switching cock 7, 7A, 7B, 7C, 7D Outlet side switching cock 9 Dedicated fluid tank 11, 11A, 11B, 11C, 11D Asphalt inlet 13, 13A, 13B, 13C, 13D Asphalt outlet 15, 15A, 15B, 15C, 15D Actuator (pneumatic cylinder)
17, 17A, 17B, 17C, 17D actuator (pneumatic cylinder)
19 Pump 25 Actuator 23 Measuring instrument side switching cock

Claims (3)

An asphalt tank that stores asphalt, which is a constituent material of asphalt mixture, and has an asphalt inlet and an asphalt outlet.
An inlet-side switching cock that opens and closes the asphalt inlet of the asphalt tank by being driven by an actuator that operates with fluid pressure.
An outlet-side switching cock that opens and closes the asphalt outlet of the asphalt tank by being driven by an actuator that operates with fluid pressure.
At least one of the fluid pressure for driving the inlet-side switching cock and the fluid pressure for driving the outlet-side switching cock is exclusively driven for the inlet-side switching cock and the outlet-side switching cock. With a dedicated fluid tank to store
An asphalt supply device characterized by having. In the asphalt supply device according to claim 1.
A pump for transferring the asphalt and
A measuring instrument for measuring the asphalt and
A measuring instrument side switching cock that opens and closes the asphalt flow path between the measuring instrument and the asphalt tank by being driven by an actuator that operates with fluid pressure.
By switching between the inlet side switching cock, the outlet side switching cock, and the measuring instrument side switching cock while the pump is operating, the asphalt coming out of the asphalt tank can be transferred to the asphalt tank. An asphalt supply device characterized in that it is configured to be in an operating state for returning, and an operating state for flowing asphalt coming out of the asphalt tank to the measuring instrument. In the asphalt supply device according to claim 1.
A pump for transferring the asphalt and
A measuring instrument for measuring the asphalt and
A measuring instrument side switching cock that opens and closes the asphalt flow path between the measuring instrument and the asphalt tank by being driven by an actuator that operates with fluid pressure.
Have,
Multiple asphalt tanks are provided,
Each of the plurality of asphalt tanks is provided with the inlet side switching cock and the outlet side switching cock.
The dedicated fluid tank is configured to store fluid pressure for driving all the inlet-side switching cocks, all the outlet-side switching cocks, and the measuring instrument-side switching cocks.
By switching between the inlet side switching cock, the outlet side switching cock, and the measuring instrument side switching cock while the pump is operating, from at least one predetermined asphalt tank among the asphalt tanks. An operating state in which the asphalt that has come out is returned to the predetermined one asphalt tank, and an operating state in which the asphalt that has come out from at least one predetermined asphalt tank in each of the predetermined asphalt tanks is allowed to flow to the measuring instrument. An asphalt supply device characterized by being configured in.

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