JPH0776055B2 - Supply device and supply method for resin molding material - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention is a supply device capable of continuously supplying a resin molding material in a large number of material silos to a resin molding machine through a single material transportation line or the like. And a supply method.

[Prior art]

Conventionally, as a resin molding material supply device, as shown in FIG. 4, a resin molding material in the material silo 10 is supplied to the material input hopper 65 of the resin molding machine 6 by pneumatic transportation through the material transportation line 20. Are known. This pneumatic transportation is performed by operating the blower 73 for sucking air.
The material is put on the air flow from the material silo 10 to be sucked, and the material is separated in the cyclone 3. The separated material is held in the material input hopper 65, and the shutter 66 is opened at the time of molding to be supplied to the molding machine 6. In the figure, reference numeral 30 is a cyclone inlet, 31 is an air outlet, and 74 is an air dust collector for cleaning exhaust gas.

By the way, as shown in FIG. 4, if only one kind of resin molding material is supplied to the resin molding machine 6, the material silo 10 and the material transportation line 20 need only one dedicated facility. However, when using various types of resin molding materials in the form of pellets or powders having different types of materials, colors, etc., care must be taken not to mix these various types of materials. Therefore, the material silo 10, the transportation line 20, and the cyclone 3 had to be cleaned every time the type changed. In addition, transportation had to be interrupted after every cleaning.

Therefore, in order to avoid such a situation, as shown in FIG. 5, for example, a resin molding material supply device equipped with three material silos 101 to 103, material transport lines 201 to 203, hoppers 651 to 653, etc. is adopted. Has been done.

[Problems to be solved]

However, the latter conventional feeder described above must be provided with material silos, material transport lines, cyclones, and hoppers by the number of different types of resin molding materials. Therefore, the scale of equipment becomes enormous.

The present invention has been made in view of the above conventional problems, and it is possible to easily transport various types of resin molding materials without mixing them, and to clean the material transportation line, cyclone, etc., and transport the next resin molding material. It is an object of the present invention to provide a supply device and a supply method capable of concurrently performing the previous supply of the resin molding material to the resin molding machine.

[Means for solving problems]

The present invention relates to a large number of material silos containing different types of resin molding materials, one material transport line connected to the material silos to pneumatically transport the resin molding material in the material silo, and the material transport line. A cyclone connected to the first cyclone, and a first material tank provided below the cyclone,
The second material tank is provided below the first material tank, the outlet of the second material tank is connected to a resin molding machine, and the cyclone is used for air transportation via an air dust collector. A blower is connected, a shutter is provided between the first material tank and the second material tank, and a shutter is also provided at the outlet of the second material tank. The air dust collector is connected through a cleaning suction pipe and a cleaning dust collector, and a cleaning air purge pipe for introducing external air is connected to each of the first material tank and the second material tank. And a resin molding material supply device.

In the present invention, the material silo is a resin molding material storage container (tank or the like) for storing pellet-shaped or powder-shaped resin molding material according to types such as material and color. The material silos are provided by the number of the above types.

The cyclone is a device for applying a centrifugal force to the gas by, for example, a rotating flow in a cylinder to separate and collect the resin molding material.

The material transportation line is a resin molding material transportation line including pipes for connecting the material silo and the cyclone. The transportation line is one. A branch pipe branched from each material silo is connected to the transportation line. Each of the branch pipes has a valve near the transportation line (see FIG. 1).

The material tank is composed of a first material tank and a second material tank, and the first material tank is connected above the second material tank. The first material tank is a container for temporarily holding the resin molding material separated from the cyclone. Further, the first tank is made of resin molding material as a second
It is a tank for adjusting the timing of supply to the material tank. The second material tank is a container for supplying the resin molding material to the resin molding machine, and is also a storage container for holding the resin molding material while cleaning the inside of the first material tank. .

On the other hand, the second aspect of the present invention uses one of a number of material silos containing different types of resin molding materials to blow a pneumatic blower to blow the resin molding material into one cyclone through one material transportation line by air. The resin molding material that has been transported and sorted by the cyclone is temporarily held in the first material tank, and then the resin molding material in the first material tank is caused to flow into the second material tank, and when molding the resin molding material When the resin molding material in the second material tank is supplied to the resin molding machine and a resin molding material different from the previously transported resin molding material is transported, the material transport line, the cyclone, the first material and the second material A method of supplying a resin molding material for cleaning a material tank, wherein the resin molding material in the first material tank is dropped into the second material tank after the first material tank is cleaned during the cleaning. And the second material tank, the shutter is closed, and the blower for air transportation introduces external air into the material transportation line and the cyclone to clean them, and then this cleaning causes the first material tank. The remaining resin molding material accumulated inside is dropped into the second material tank by opening the shutter, and the shutter is closed again to close the first material.
External air is introduced into the material tank to clean the inside of the first material tank, and then the next resin molding material is transported and supplied into the first material tank as described above. This is a method of supplying a resin molding material, characterized in that external air is introduced into the tank to clean it.

In the present invention, the preparative separation means centrifugal separation of a resin molding material that has been pneumatically conveyed by a cyclone.
Further, the air for material transportation may be either pressure-fed or suctioned.

[Work]

In the apparatus and method of the present invention, the resin molding material is pneumatically transported from one of a number of material silos by one material transportation line and supplied to one cyclone. here,
The resin molding material is separated from the transportation air by a cyclone.

Then, the separated resin molding material is sent to the first material tank provided below the cyclone, and is temporarily held in the first material tank.

Next, the resin molding material in the first material tank is sent to the second material tank before the next injection of another material. At this time, the second material tank is empty.
Then, the resin molding material supplied into the second material tank is sent to a resin molding machine for resin molding.

Next, when the resin molding material different from the previously transported resin molding material is transported, the material transportation line, the cyclone, the first material tank, and the second material tank are cleaned as described later.

That is, when a resin molding material different from the resin molding material previously transported as described above is transported, first, as described above, the resin molding material in the first material tank is dropped into the second material tank, and then, between the two. The shutter is closed, and external air is introduced into the material transportation line and cyclone by the air transportation blower to clean it.

Then, after the resin molding material accumulated in the first material tank by this cleaning is dropped into the second material tank, the shutter between the two is closed again, and the blower for air transportation through the cleaning air purge pipe is used for the first material tank. External air is introduced into the inside to clean it.

Further, after cleaning the first material tank, the next new resin molding material is transported and supplied therein. On the other hand, in parallel with this, external air is introduced into the second material tank to clean it.

[Effect]

According to the present invention, when supplying the material to the resin molding machine, the next material can be transported to the first material tank while the transported material is held in the second material tank.

Also, when transporting a resin molding material different from the previous one,
While the previous resin molding material was retained in the second material tank, the material transportation line, the cyclone, and the first material tank were cleaned, while the resin molding material in the second material tank was dropped on the resin molding machine, While cleaning the inside of the second material tank, the next resin molding material can be transported and supplied into the above-mentioned first material tank in parallel with the cleaning.

Therefore, according to the present invention, it is possible to easily transport various types of resin molding materials without mixing, and to clean the material transportation line, cyclone, etc., and the next time the resin molding materials are transported, and the previous time to the resin molding machine. It is possible to provide a supply device and a supply method capable of concurrently performing supply of a resin molding material.

〔Example〕

A supply device according to the present invention will be described with reference to FIGS.

That is, as shown in FIG. 1, the supply device of this example has a large number of material silos 11 to 11 for storing resin molding materials for each type.
17, one material transportation line 2 in which the material silos 11 to 17 are connected by branch pipes 21 to 27, and the material transportation line 2
One cyclone 3 connected to one end of the first material tank 4, a first material tank 4 connected below the cyclone 2, a second material tank 5 connected below the first material tank 4, and a second material tank 5 And a resin molding machine 6 disposed below the.

The material silos 11 to 17 are arranged in a number corresponding to the type of resin molding material, such as 7 in consideration of the type of the resin molding material. Therefore, different types of resin molding materials are stored in the material silos 11-17.

Below the material silos 11 to 17, chute ports 1A for taking out the resin molding material are arranged.

The material transport line 2 is for pneumatically transporting the resin molding material from the material silos 11 to 17 to a cyclone 3 described later. The material transport line 2 includes one main pipe 29, an air filter 28 arranged at one end thereof,
The valve 98 is arranged between the air filter 28 and the main pipe 29. Branch pipes 21 to 27 are connected to the chute port 1A between the chute port 1A and the main pipe 29, respectively. Also, valves 91 to 97 are provided on each branch pipe.

The cyclone 3 has its inlet 30 connected to the main pipe 29 of the material transport line 2. Further, the air suction port 31 of the cyclone 3 has a three-way valve through a pipe 71.
Connect to 72. Further, the three-way valve 72 has an air dust collector 74.
Via the suction port 731 of the transport blower 73.

The first material tank 4 is a container that is disposed below the cyclone 3 and temporarily holds and stores the resin molding material. The first material tank 4 also has a cleaning air purge pipe 41, a material confirmation level gauge 42, and a cleaning suction pipe 44. The cleaning suction pipe 44 is connected to the cleaning dust collector 8 of the cyclone type and the three-way valve 72. The three-way valve 72 is connected to the suction port 731 of the transportation blower 73 as described above.

The 21st material tank 5 is the same as the 1st material tank 4
A shutter 43 is provided between the two tanks below the tank. The second material tank 5 temporarily stores the resin molding material during cleaning of the first material tank 4 and the like, and
A container for supplying the resin molding material to the resin molding machine 6.

Here, the first material tank 4 and the second material tank will be described in detail with reference to FIGS. 2 and 3.

That is, in the first material tank 4, as described above, the cleaning air purge pipe 41 and the material confirmation level meter 42 are arranged above.

A shutter 43 that can be opened and closed is provided between the first material tank 4 and the second material tank 5. The shutter 43 is
The resin molding material temporarily retained in the first material tank 4
It opens when it is supplied to the material tank 5, and is normally closed.
Then, as will be described later, it is operated by automatic control.

Further, in the second material tank 5, a material upper limit level meter 51 is arranged on the central side wall, and a lower limit level meter 52 is arranged below. Further, the second material tank 5 is provided with a cleaning air purge pipe 54. The air purge pipes 54 for cleaning are branched on the side walls of the second material tank 5, respectively.
Connect with 0.

Further, the resin molding machine 6 is disposed below the second material tank 5, and a shutter 53 which can be opened and closed by automatic control described later is provided between the resin molding machine 6 and the second material tank 5.

Since the supply device of this example is configured as described above,
It has the following effects. This will be described with reference to FIG. 1 in the case where, for example, the resin molding material in the material silo 17 is supplied.

First, the material upper limit level meter 51 of the second material tank 5 detects that the amount of the resin molding material in the previously supplied tank has decreased. Next, the shutter 43 of the first material tank 4
Is closed, and the three-way valve 72 and the valve 97 of the material transfer line 2 are opened. Also, make sure that the other valves 91 to 96, 98 of the material transportation line 2 are closed. afterwards,
The suction port 731 of the transport blower 73 opens and the transport blower 73 operates. Here, the material transportation line 2 starts pneumatic transportation of the resin molding material in the material silo 17.

The resin molding material is the branch pipe 27 and the main pipe 2
The air inside 9 is sucked together with air into the cyclone 3, separated from the air and supplied to the first material tank 4. The resin molding material in the tank 4 is immediately shuttered when the material level meter 42 detects the upper limit level and operates.
43 is opened and dropped into the second material tank 5. In this way, pneumatic transportation of the resin molding material in the material silo 17 is repeated.

Next, the case of changing from the material silo 17 to the transportation of the resin molding material in the material silo 16 will be described.

In this case, a non-required signal of resin molding material is sent to the material silo 17 from the control device that manages the entire device,
Valve 97 closes.

Next, the material upper limit level meter 51 of the second material tank 5
When it is detected that the amount of the resin molding material in the tank is decreased, that is, when the inside of the first material tank 4 is detected to be empty, the shutter 43 is closed at that time.

Then, the valve 98 at the rear of the transportation line 2 opens, air is sucked into the main pipe 29 through the filter 28, and cleaning of the main pipe 29 and the cyclone 3 is started.

Then, after the lapse of the preset cleaning time,
The shutter 43 opens, and the remaining resin molding material accumulated in the first material tank 4 by the above cleaning falls into the second material tank 5. Further, when the dropping of the resin molding material is completed, the shutter 43 is closed after confirming the no-material signal of the upper limit level meter 51.

Next, the three-way valve 72 is switched to the cleaning dust collector 8 side. In addition, the cleaning air purge pipe 41 starts to operate, and the transport blower 73 also starts to operate, so that the first material tank 4
Air is sent inside and cleaning is performed. Further, after the cleaning inside the first material tank 4 is completed, the three-way valve 72 is switched to the cyclone 3 side.

Next, the valve 98 behind the main pipe 29 is closed, the valve 96 is opened, and the transport blower 73 is activated. Then, the resin molding material in the material silo 16 is transferred to the first material tank 4
Air transport to. As for the resin molding material supplied to the first material tank 4, the previously supplied material in the second material tank 5 is supplied to the resin molding machine 6, and the inside of the second material tank is cleaned and emptied. It is temporarily held in the first material tank 4 until the machine 6 sends a drop signal “fall resin molding material”.

Further, in parallel with the transportation and supply of the resin molding material into the cleaned first material tank 4, the resin molding material of the previous transportation is sent to the resin molding machine 6 in the second material tank 5. When the level passes the lower limit level meter 52, the air purge 54 operates to discharge all the material to the resin molding machine 6 and clean the second material tank. Then, after the inside of the second material tank 5 has been cleaned as described above, when a drop signal is sent from the resin molding machine 6 to the first material tank 4, the shutter 43 is opened and held. First
The resin molding material in the material tank 4 drops into the second material tank 5.

The supply device of this example has the above-mentioned effects, and therefore has the following effects.

That is, according to this example, the resin molding material is supplied from one of the many silos 11 to 17 through the material transport line 2, the cyclone 3, the first material tank 4, and the second material tank 5, respectively. Can be supplied to. Therefore, the entire device becomes more compact than the conventional device (Fig. 5). Further, since the material can be continuously supplied to the molding machine as described above, the operating time of the resin molding machine can be increased and the productivity of the resin molding material can be improved.

Further, according to this example, the material transport line, the cyclone, the first material tank and the second material tank can be automatically cleaned. Further, the resin molding materials having different colors or types can be supplied to the resin molding machine without being mixed.

Therefore, according to this example, many kinds of resin molding materials can be easily transported without being mixed, and the material transportation line,
Cleaning of cyclone and transportation of next resin molding material,
A supply device and a supply method capable of concurrently performing the previous supply of the resin molding material to the resin molding machine can be provided.

[Brief description of drawings]

1 to 3 show an embodiment of the present invention, FIG. 1 is an overall explanatory view of a resin molding material supply device, FIG. 2 is a front view of a cyclone, a first material tank, and a second material tank, FIG. 3 is a side view of FIG. 2, and FIGS. 4 and 5 are overall explanatory views of a conventional material supply device. 1 …… Material silo, 11 to 17 …… Material silo, 1A …… Shoot port, 2 …… Material transport line, 21 to 27 …… Branching pipe, 29 …… Main pipe, 3 …… Cyclone, 4 …… 1st material tank, 5 ... 2nd material tank, 6 ... Resin molding machine, 73 ... Transport blower,

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-52-1770 (JP, A) JP-A-57-57124 (JP, A) Actual development S-49-140891 (JP, U) Actual publication S42- 10998 (JP, Y1)

Claims (2)

[Claims] 1. A large number of material silos each containing a different type of resin molding material, one material transportation line connected to the material silo to pneumatically transport the resin molding material in the material silo, and the material transportation. The cyclone is composed of one cyclone connected to a line, a first material tank provided below the cyclone, and a second material tank provided below the first material tank, and the outlet of the second material tank is made of resin. It is connected to a molding machine, a blower for pneumatic transportation is connected to the cyclone via an air dust collector, and a shutter is provided between the first material tank and the second material tank. A shutter is also provided at the outlet of the second material tank, and the air dust collector is connected to the first material tank via a cleaning suction pipe and a cleaning dust collector, and the first material tank is connected. And the second material tank feeder resin molding material characterized by connecting a cleaning air purge tube for external air introduced respectively. 2. A resin molding material is transported from one of a number of material silos containing different types of resin molding material to one cyclone through one material transportation line by air by a blower for pneumatic transportation, The resin molding material fractionated by the cyclone is temporarily held in the first material tank, and then the resin molding material in the first material tank is caused to flow into the second material tank, and the second resin molding material is molded into the second material tank. When the resin molding material in the material tank is supplied to the resin molding machine and the resin molding material different from the previously transported resin molding material is transported, the above-mentioned material transportation line, cyclone, first material tank and second material tank A method of supplying a resin molding material for cleaning a first material tank, wherein the resin molding material in the first material tank is dropped into the second material tank during the cleaning. Closing the shutter between the second material tank and the blower for air transportation to introduce external air into the material transportation line and cyclone to clean them, and then by this cleaning into the first material tank. The remaining resin molding material accumulated is dropped into the second material tank by opening the shutter, and the shutter is closed again to close the first material.
External air is introduced into the material tank to clean the inside of the first material tank, and then the next resin molding material is transported and supplied into the first material tank as described above. A method for supplying a resin molding material, which comprises introducing external air into a tank to clean the tank.