KR101903017B1 - 3way distributor - Google Patents

Abstract

The present invention relates to a three-way dispenser, and more particularly, to a three-way dispenser capable of quickly distributing a conveyed object in three directions by a very simple structure and allowing the conveyed object to be completely discharged to the outside.
The present invention relates to a fuel cell system comprising: a first passage having an inlet at an upper portion thereof; A second passage communicating with an upper side thereof in an oblique direction to one side of the first passage so as to share an inlet of the first passage; A third passage communicating with an upper side of the first passage so as to share an inlet of the first passage in an oblique direction to the other side of the first passage; A first blocking plate fixed to be rotatable by a first rotating shaft at a connecting portion between the first passage and the second passage to selectively connect the first passage and the second passage with the charging port; A second blocking plate which is fixed to be rotatable by a second rotation axis at a connection portion between the first passage and the third passage to selectively connect the first passage and the third passage with the inlet; A first cylinder connected to the first rotating shaft by a working arm to rotate a first rotating shaft; And a second cylinder connected to the second rotary shaft by a rod by an operation arm to rotate the second rotary shaft, wherein the first and second membranes are provided with vibration units at regular intervals in the vertical and vertical directions .

Description

3way distributor

The present invention relates to a three-way dispenser, and more particularly, to a three-way dispenser capable of quickly distributing a conveyed object in three directions by a very simple structure and allowing the conveyed object to be completely discharged to the outside.

1 and 2, the powder dispenser disclosed in Registration No. 20-0358060, to which the present application is registered, is provided with a charging port 11 at the upper end of a cone-shaped hopper 10, A circular plate 20 having a plurality of outlets 21, 22, 23 and 24 on a concentric circle is fixed to the opening portion and a rotary shaft 30 is rotatably supported on a shaft support portion 31 provided at a central portion of the circular plate 20. [ The upper end portion 41 is communicated with the inlet port 11 of the cone type hopper 10 and the lower end portion 42 is selectively communicated with the outlet ports 21, 22, 23, Is coupled with the rotary shaft 30 so as to rotate together with a driving means 50 for rotating the rotary shaft 30.
In the conventional powder distributor having such a structure, since the upper portion of the distribution pipe 40 is fixed to the upper end of the rotary shaft 30 when the rotary shaft 30 is rotated by the driving force of the driving means 50, When the distribution pipe 40 rotates in this way, the lower end portion 42 of the distribution pipe 40 is discharged to the discharge ports 21 and 22 of the circular plate 20 according to the rotation angle of the distribution pipe 40, 22, 23 and 24 so that the conveyed matter such as powder charged into the inlet 11 of the cone type hopper 10 flows into the upper end portion 41 of the distribution pipe 40 and flows into the lower end portion of the distribution pipe 40 22, 23, 24 of the circular plate 20 communicating with the discharge ports 21, 22, 23,
Accordingly, the conveyed matter, which is supplied from the inlet 11 at the upper portion provided in the cone-shaped hopper 10, is selectively discharged to a plurality of outlets 21, 22, 23, 24 provided in the circular plate 20 in a desired direction .
The driving means 50 includes a driving motor 51 and a speed reducer 52 provided on one side of the lower portion of the cone type hopper 10 and the driving shaft 53 of the speed reducer 52 is coupled to the rotating shaft 30 Since the structure is complicated and the rotation of the distribution pipe 40 is required to connect the inlet 11 in the direction of the discharge ports 21, 22, 23 and 24, It is not sufficient to rapidly change the direction of the conveyed object inputted through the outlet 11 and discharge it through the corresponding outlet 21, 22, 23, 24.
That is, during the rotation of the distribution pipe 40, the introduction of the object through the inlet 11 must be stopped. As a result, the delivery time of the object to be delivered is increased and the yield of the entire process is lowered.
In addition, under a high moisture content or high humidity environment, the conveyed material easily adheres to the inner side of the distribution pipe 40, and in particular, when such a conveyed material is a food, corruption may occur, As a matter of course, when the other conveyed matter is conveyed, there is a problem that the conveyed matter adhering to the conveyed matter is separated and conveyed while being mixed with the foreign matter.

In order to solve the problems of the conventional art, it is necessary to provide a blocking plate which is opened and closed by rotating a cylinder at a connecting portion of three passages sharing one inlet, so that the structure is very simple, And it is an object of the present invention to provide a three-way dispenser in which a conveying object is not adhered to a blocking plate.

According to an aspect of the present invention, there is provided a three-way distributor comprising:
A first passage having an inlet at an upper portion thereof;
A second passage communicating with an upper side thereof in an oblique direction to one side of the first passage so as to share an inlet of the first passage;
A third passage communicating with an upper side of the first passage so as to share an inlet of the first passage in an oblique direction to the other side of the first passage;
A first blocking plate fixed to be rotatable by a first rotating shaft at a connecting portion between the first passage and the second passage to selectively connect the first passage and the second passage with the charging port;
A second blocking plate which is fixed to be rotatable by a second rotation axis at a connection portion between the first passage and the third passage to selectively connect the first passage and the third passage with the inlet;
A first cylinder connected to the first rotating shaft by a working arm to rotate a first rotating shaft;
And a second cylinder connected to the second rotation axis by a working arm to rotate the second rotation axis,
And the first and second barrier plates are provided with vibration units at regular intervals in the vertical direction.

According to the present invention, by selectively opening and closing the blocking plate by means of the cylinder, the direction in which the conveyed matter can be selectively discharged can be switched quickly through the three passages, the structure is very simple, Thereby increasing the yield of the entire process.
In addition, it is possible to maintain the cleanliness by preventing the conveyed matter from being stuck and corrupted by the vibration of the blocking plate or being mixed with foreign matter to another conveyed matter.

1 and 2 are views showing the structure of a conventional powder dispenser.
3 is a view showing a structure of a direction switching splitter according to the present invention;
4 is a side view of the present invention.
5 is a cross-sectional structural view of a passage applied to the present invention.
FIG. 6 is a view showing an operation of connecting an inlet through a first passage; FIG.
FIG. 7 is a view showing an operation of connecting an inlet through a third passage; FIG.
8 is a view showing the form of a first passage, a second passage, and a third passage;
9 is a view showing a form in which a vibration unit is installed on a blocking plate;
10 shows a side view of the present invention in which a vibrating unit and a rib are formed;
11 is a view showing a cross-sectional structure of a barrier plate on which ribs are formed;

The present invention thus constructed will be described in detail with reference to FIGS. 3 to 11. FIG.
FIG. 3 is a view showing the structure of the present invention. In the upper part of the first passage 110 positioned in the vertical direction, a charging port 140 for charging a conveyed object is formed. In the direction of both sides of the first passage 110 The second passage 120 and the third passage 130 sharing the inlet port 140 are connected diagonally downward and the first passage 110, the second passage 120, The passage 130 is covered with the casing 100 to the outside and the lower portion of the upper inlet 140 and the passages 110, 120 and 130, that is, the portion where the conveyed matter is discharged, is exposed to the outside of the casing 100 .
That is, as shown in FIG. 8, one side of the upper portion of the first passage 110 is communicated with the upper side portion of the second passage 120 connected in the oblique direction from the inside of the casing 100, And one inlet 140 communicates with the upper portion of the second passage 130 connected to the other in the oblique direction.
A first blocking plate 121 is rotatably installed at a portion where the first passage 110 and the second passage 120 are communicated with each other and a portion where the first passage 110 and the second passage 130 are communicated 5, the cross section of each of the passages 110, 120, and 130 has a rectangular passage so that the passages 110, 120, and 130 are connected to communicate with each other, Like plate-like blocking plates 121 and 131 are located, and the blocking plates 121 and 131 have such a size as to close the communicating portion.
3, the right side view has the same structure at a position opposite to the right side view. Therefore, the second cylinder 160, the rod 161, the fixing portion 162, The first rotary shaft 163, and the second rotary shaft 164 are denoted together.
The lower end of the first blocking plate 121 is fixed to the first rotating shaft 154 at the lower side of the portion where the first passage 110 and the second passage 120 are communicated and the lower end of the second blocking plate 131 And the lower end is fixed to the second rotary shaft 164 below the portion where the first passage 110 and the third passage 130 are communicated with each other.
The first rotation shaft 154 and the second rotation shaft 164 are protruded to the outside of the casing 100 and are mounted on the casing 100 so as to be rotatable by bearings.
A fixed operating arm 153 is provided at one side of the first rotating shaft 154 protruded to the outside of the casing 100 and the rod 151 of the first cylinder 150 is connected to the operating arm 153 The first blocking plate 121 is rotated by the operation of the first cylinder 150 and the first cylinder 150 is fixed to the fixing part 152 of the bracket type fixed to the outside of the casing 100, do.
A rod 161 of the second cylinder 160 is connected to the actuating arm 163. The rod 163 of the second cylinder 160 is connected to the second rod 163 The second blocking plate 131 is rotated by the operation of the second cylinder 160 and the first cylinder 160 is fixed to the bracket-like fixing portion 162 fixed to the outside of the casing 100, And is fixed.
The first blocking plate 121 and the second blocking plate 131 are rotated by the driving of the first cylinder 150 and the second cylinder 160 to move the inlet 140 to the first passage 110, The second passage 120, and the third passage 130, respectively.
3, when the inlet 140 and the first passage 110 are connected to each other, the rod 151 of the first cylinder 150 and the rod 150 of the second cylinder 160 are connected to each other. The rod 161 is compressed so that the first blocking plate 121 closes the communicated portion between the first passage 110 and the second passage 120 and the second blocking plate 131 The communicating portion between the first passage 110 and the third passage 130 is closed so that the inlet 140 and the first passage 110 are connected to each other so that the object to be introduced through the inlet 140 flows into the first passage 110, respectively.
6, when the inlet 140 and the second passage 120 are connected to each other, the second blocking plate 131 closes a portion where the first passage 110 and the third passage 130 are communicated with each other The first blocking plate 121 is inclined toward the first passage 110 and the upper end of the first blocking plate 121 abuts against the second blocking plate 131 The inlet 140 and the second passage 120 are connected to each other, whereby the discharged material to be introduced through the inlet 140 is discharged downward through the second passage 120.
7, when the inlet 140 and the third passage 130 are connected to each other, the first blocking plate 121 closes a portion where the first passage 110 and the second passage 120 are communicated with each other When the second cylinder 160 is operated to extend the rod 161, the second blocking plate 131 is inclined toward the first passage 110, and the upper end of the rod 161 abuts on the first blocking plate 121 The inlet 140 and the third passage 130 are connected to each other, whereby the discharged material to be introduced through the inlet 140 is discharged downward through the third passage 130.
As a result, by simply rotating the blocking plates 121 and 131 by the operation of the cylinders 150 and 160, the conveyed matter can be quickly distributed to the respective passages 110, 120 and 130 even in the state where the conveyed object is being input through the inlet 140.
9 is a view showing a structure in which a vibration unit is installed in the first blocking plate 121 and the second blocking plate 131. The upper and lower lengths of the center portion of the first blocking plate 121 and the second blocking plate 131 And are fixedly installed at predetermined intervals of the plurality of vibration units 122 and 132 in the direction of the arrows.
These vibration units 122 and 132 may be various types of vibrators such as a vibrator due to eccentricity and a supersonic plate vibrator and the first and second blocking plates 121 and 132 may be vibrated .
Therefore, when the vibrating units 122 and 132 are vibrated at the time of conveying the conveyed objects, the conveyed objects are prevented from being adhered to each other. Therefore, if the vibrating units 122 and 132 are operated for a certain period of time after the conveyance of the conveyed objects is completed, It is separated by vibration.
6 and 7, when the conveyed object falls when the conveyed object is conveyed in a state in which the first blocking plate 122 or the second blocking plate 132 is inclined, The first barrier plate 122 and the second barrier plate 132 may be damaged due to bending or the like so that the first barrier plate 122 and the second barrier plate 132 may be damaged, A plurality of ribs 123 and 133 are formed in the vertical direction.
The ribs 123 and 133 are formed in the form of a bone or an acid by press working as shown in FIG. 11 in the first blocking plate 122 and the second blocking plate 132 made of a steel plate, And is disposed between the ribs 123 and 133.
Accordingly, since the conveyed material can be caught or adhered to the ribs 122, 133 or the peripheral portion at the time of conveyance of the conveyed object, the vibration of the vibration units 122, 132 is transmitted to the ribs 122, 132 so that the conveyed objects can not be caught or adhered It is completely separated and discharged to the outside.

100: casing 110: first passage
120: second passage 121: first blocking plate
122: vibrating unit 123: rib
130: third passage 131: second blocking plate
132: vibration unit 133: rib
140: inlet 150, 160: cylinder
151, 161: LOAD 152, 162:
153, 163: Operation arms 154, 164:

Claims (3)

A first passage having an inlet at an upper portion thereof;
A second passage communicating with an upper side thereof in an oblique direction to one side of the first passage so as to share an inlet of the first passage;
A third passage communicating with an upper side of the first passage so as to share an inlet of the first passage in an oblique direction to the other side of the first passage;
A first blocking plate fixed to be rotatable by a first rotating shaft at a connecting portion between the first passage and the second passage to selectively connect the first passage and the second passage with the charging port;
A second blocking plate which is fixed to be rotatable by a second rotation axis at a connection portion between the first passage and the third passage to selectively connect the first passage and the third passage with the inlet;
A first cylinder connected to the first rotating shaft by a working arm to rotate a first rotating shaft;
And a second cylinder connected to the second rotation axis by a working arm to rotate the second rotation axis,
Wherein the first blocking plate and the second blocking plate are provided with vibration units at regular intervals in the vertical direction,
Wherein the first blocking plate and the second blocking plate are formed with a plurality of ribs in the vertical direction and the vibration unit is provided between the plurality of ribs.
delete 2. The three-way valve according to claim 1, wherein the first rotary shaft is located at a lower end of a connecting portion between the first passage and the second passage, and the second rotary shaft is located at a lower end of a connecting portion between the first passage and the third passage, Distributor.

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