JPS6087121A - Throw in and supply apparatus for granular body - Google Patents

Abstract

PURPOSE:To prevent the possibility of scattering of a material, mixing of foreign matter and blocking up a pipe by supplying a material from a material supply device to a closed pressure-tight receptacle while secondary air is intermittently introduced in a supply pipe. CONSTITUTION:An intake valve 11 and a valve 7 are opened, a discharge valve 18 is closed and a suction air power source 4 is operated, so that the pressure in a closed pressure-tight receptacle 1 is reduced below atmospheric pressure to suction-transport a material in a material supply receptacle 13 to the receptacle 1 through a pipe 10. After it is judged by an upper limit level meter 2 that the material supplied to the interior of the receptacle 1 reaches a designated amount, the valves 7, 11 are closed and the valve 18 is opened to discharge the material to the outside of the system. Air is intermittently fed into the pipe from a secondary air intake port 14 mounted on the pipe 10 of the upper end portion of a suction nozzle 12, thereby to prevent blocking up the material in the pipe 10.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an apparatus for supplying 4 g of powder or granular material such as medicine or food from a material supply container to a closed pressure-resistant container.

The purpose of this is to feed the granular material to be transferred from the material supply container to the closed surface pressure vessel at high concentration, and to transfer the material granulated into granules etc. to the closed surface pressure vessel. The purpose of the present invention is to provide a feeding and feeding device for powder and granular material, which prevents crushing and shape changes during processing, and also prevents material from scattering when feeding from a material feeding container into a sealed pressure-resistant container.

To achieve the above object, the present invention provides a suction air pipe with a suction air power source connected to one end! :jA K A sealed pressure-resistant container is connected, and a material supply pipe that can communicate with the material supply container is connected to the sealed pressure-resistant container, and the powder material in the material supply container is sucked and pressure-fed to the sealed pressure-resistant container. It is configured as follows.

A first embodiment of the invention will be described below with reference to FIG.

+1) is a pressure-resistant container with a closed structure, and the upper limit level meter (2) is installed at the top of the pressure-resistant container H, and the discharge port (3) is installed at the bottom.
are set up respectively.

A suction air pipe (5), one end of which is connected to a suction air power source (4) consisting of a vacuum bomb or blower, is connected to the upper part of the hermetically sealed pressure-resistant container (1) via an attachment pipe (5a). It is connected. In the middle of the suction air pipe (5), there is a dust collector (
6) is available for inquiry. This dust collector (6) is not limited to the structure described above, and the size and number of pieces and the mounting position are arbitrary. (7) is a valve, and (8) is a pressure gauge.

At the center of the upper part of the airtight pressure container (1), there is a material supply pipe (all or part of which is made of a compatible material such as synthetic resin).
One end of the material supply pipe (10) is inserted through the input valve (11), and the other end of the material supply pipe (10) is connected to a suction nozzle (12), which is connected to the flexible container. It can be inserted into a material supply container (13) such as a hopper, bagger, etc. Therefore, the suction air power '# and (4) are used to suction and depressurize the sealed surface of the pressure vessel fl), thereby sucking the material in the material supply container (13) through the nozzle (12) and the material supply pipe (lO ) to the sealed pressure-resistant container (1).

The material supply pipe (10) is not limited to the permeable material as in the embodiment, but may be made of any metal pipe or the like.

In the embodiment, the material supply pipe (10) is connected to the appropriate position, the upper end of the thin suction nozzle (12), and the secondary air intake (14) that takes in secondary air (outside air). Secondary air is intermittently fed into the interest supply pipe (10) from this secondary air intake (14).

This intermittent supply method of secondary air includes an intake pipe (I5) forming the secondary air intake (14).
Attach a solenoid valve (16) to the appropriate location, and open and close the solenoid valve (opening/closing) intermittently.
Other structures may also be used, and the design may be changed as appropriate.

For example, as shown in the second figure, one or more secondary air intakes (14) are bored in the upper outer wall of the suction nozzle (12), and through holes (
The ring body (40) formed with the ring body (41) is inserted into the suction nozzle (
12) A large gear (42) is formed on the outer periphery of the upper end of the ring body (40), and a suction nozzle (1
2) A small gear (44) is attached to the end of the rotating shaft of the small motor (4→) fixed to part 1.
) rotates the ring body (40), and when the through hole (41) of the ring body (40) matches the secondary air intake (14) K of the suction nozzle (12), the secondary air is The secondary air may be taken into the suction nozzle (12), that is, the material supply pipe (1o), and when the two H1 (14) do not match, the intake of secondary air may be blocked.

Alternatively, in the case of Fig. 2, the ring body (4o) may not be rotatable as shown in the figure, but may be rotated from side to side within a certain range, or may be moved up and down by a hydraulic cylinder or the like. You can also do that.

In the embodiment, the secondary air intake (14) is provided above the suction nozzle (12), but as shown in the third figure, the auxiliary air conduit (14) is installed near the suction port (12a) of the suction nozzle (12). The secondary air taken in from the secondary air intake port (14) passes through the auxiliary conduit (piece) to the suction port (12).
a) It is also possible to intermittently send it to a nearby location. According to this, there is an advantage that the material is suctioned into the suction nozzle (12) while being well loosened.

By intermittently sending secondary air into the material supply pipe (10) in this way, the material can be transported to the sealed pressure-resistant container (1) with a plug, or blockage of the material in the material supply pipe (10) can be prevented. A high concentration of input supply is achieved.

In addition, (17) is an auxiliary secondary air intake part installed at the appropriate location of the material supply pipe (10), and should the same material supply pipe (10)
If there is a possibility that the material may become clogged inside, tilt it and use this auxiliary secondary air intake part 07) to eliminate the blockage. (18) is a discharge valve.

FIG. 4 shows a second embodiment. In this case, the sealed pressure container i
Reference numeral 11 is used in the preparation process of pharmaceutical products that must be treated in a particularly hygienic manner, and this is an air transport device (20) equipped with an air source (21) and a transport pipe (4).
This is a blow tank for use.

In other words, the above-mentioned blow tank is a sealed pressure-resistant container ill.
It is equipped with casters (3G) so that it can be moved, and it can also be detachably attached to the pneumatic transportation device (2o). Therefore, first, at a certain point, for example, powder and granules are transferred from a material supply container (13) forming a hopper for a granulator into a sealed pressure-resistant container f+) via a material supply pipe (10) to a suction air power source ( 4), and then move the sealed pressure container (1) to a point where the pneumatic transportation device (2o) is located, and connect the pneumatic transportation device (b) to the sealed pressure container (1). , the material in the sealed pressure-resistant container fil can be pneumatically transported to a destination t271 such as a hopper for a tablet press or packaging machine.

To explain the pneumatic transport device (20) in detail, a transport pipe (22) is connected to the lower end of the airtight pressure container (1) via a mixer (23) and its connecting pipe (24). A transport gas supply pipe (24) is connected to the side wall of the mixer (z3) and the connecting pipe (24).
The air power source (combiner or (d blower) (2+) is connected to the tips of (26) and (26), and the compressed gas in the transport pipe (22) is connected to the transport pipe (4). Take the auxiliary gas supply pipe (26) which is used to increase the transportation pressure of the pipe or prevent the blockage of the material of the split circle from rain, and connect the air source to this auxiliary gas supply pipe (26) (21
) is configured to supply compressed gas.

In addition, although the material supply container (13) in this case employ|adopts the container for granulation equipment, it is not limited to this. +28) (ri bag filter, (29)
is a transportation cut valve, (Paulownia, (31), (3 audiences is a solenoid valve,
(33) is a valve, (34) is a lower limit level meter, and +351 is a load cell.

According to the configuration shown in FIG. 4, after supplying the material to the sealed pressure container (1), the material can be transported over long distances using the pneumatic transportation device (20), and can also be distributed to multiple locations at the destination. In addition, the material can be transported from the sealed pressure-resistant container (1) to the hopper for the tablet machine or packaging machine (2) in a sealed state, so there is no possibility of the material scattering or foreign matter getting mixed in. has advantages.

5 to 7 show other modifications of the material supply container (13). This paulownia material supply container (13) is a drum containing pharmaceutical supplies, etc. After the material supply container (13) in an erect state is crimped and fixed to the reversing device (50), the The supply container (13) is reversed by the drive #, (52) of the reversing device ftt (50), and the material is fed into the closed 1111t pressure container (1). In this case, the tip of the material supply pipe (10) made of a flexible material is connected to the connection v153.
) is in communication with the opening of the material supply container (j3). (54) is a stand for the reversing device.

According to this configuration, the suction nozzle (12) can be automatically communicated with the material supply container (13) without having to grasp it and insert it each time, and the material can be supplied to the sealed pressure-resistant container in a sealed state. Because it can be used, there is no contamination by foreign substances.
Hygienic advantages include the ability to input and supply materials.

To briefly explain the operation of the above embodiment, the discharge valve p(18
) or transportation cuff) When the valve (29) is closed, the valve (7) and the dosing valve (11) are opened, and the suction air power source (4) is activated, the suction action of the power source (4) causes the sealing surface 1 to close. The pressure inside the pressure vessel [1] is reduced from atmospheric pressure, and the material supply vessel +1
: The material in lj is suctioned and transported to the sealed pressure vessel fl+ via the material supply pipe (+01). After a predetermined amount of material is fed into the sealed pressure vessel (1), the discharge valve (18)
When the cut-off valve (29) for transport is opened, the material is discharged or transported to a hopper (27) for a tablet or packaging machine, etc. outside the system. At this time, in the embodiment shown in the fourth figure, the valve (7
) and input n (n) Iri valve is closed.

The present invention has the above-mentioned configuration, in which a suction air power source is connected to one end of the suction air pipe, and a sealed pressure-resistant container is connected to the other end of the suction air pipe, and the sealed pressure-resistant container is connected to a material supply container. The powder and granules in the material supply container are connected to the material supply pipe and the powder and granules in the material supply container are suction-forced to the sealed pressure-resistant container. It can be supplied at high concentration into a sealed pressure-resistant container.

Moreover, compared to the conventional method in which the material is introduced into the upper opening of the sealed pressure container by gravity falling, the present invention has the above-mentioned structure. It is possible to prevent crushing, separation of the blended composition, or change in shape.

Furthermore, since the material can be supplied from the material supply container to the pressure-resistant container in a sealed state using suction air from the suction air power source (4), when the material is supplied from the material supply container to the pressure-resistant container, There will be no scattering of materials or contamination of foreign objects.

The drawings all show embodiments of the present invention, and Fig. 1 is a front view of the first implementation row, Fig. 2 is a perspective view of a modified example near the secondary air intake, and Fig. 3 is a similar view. FIG. 4 is a front view of the second embodiment, FIG. 5 is a front view of another modification of the fee supply customer, and FIG. 6 is a perspective view of the r'1 reversing device. FIG. 7 is an explanatory view showing the reversing operation state of the material supply container.

f++...Sealed pressure container, (4)...Suction air power source, (5)...Suction air pipe, (10)...Material supply pipe, (1W...Material supply container, (14) ... Secondary air intake, (I6) ... Solenoid valve, (2o) ... Air transport device, (21) ... Air power source, (Country ... Transport pipe, (2
F: Hopper, etc. for key presses or packaging machines.

Figure 2 10 Figure 3 Figure 5 Figure 7

Claims (4)

[Claims] (1) A suction air power source is connected to one end of the suction air pipe, and the other end of the suction air pipe is connected to a sealed pressure-resistant container, and a material supply pipe that can communicate with the material supply container is connected to the sealed pressure-resistant container,
A powder feeding and feeding device configured to suction and force feed the powder in the material supply container to a sealed pressure-resistant container. (2) The powder/granular material charging/supplying device according to claim 1, wherein a secondary air intake port is provided at an appropriate position of the material supply pipe to intermittently take in secondary air. (3) The charging of powder and granular material according to claim (1) or (2), wherein the sealed pressure-resistant container is a blow tank for a pneumatic transport device equipped with an air source and a transport pipe. Feeding device. (4) The powder feeding/supplying device according to any one of claims (1) to (3), wherein the material supply container is configured to be reversible by a reversing device.