KR102560724B1 - Pellet sampler - Google Patents

Abstract

The present invention is fixed to the side of the conveying pipe so as to be connected to the inside of the conveying pipe of the pellets, the hollow main body is provided with a discharge portion directed downward; A sampling pipe that is installed to be slidable along the lengthwise direction of the main body so as to protrude into the conveying pipe or to be inserted into the main body, and to have an inlet formed at one end protruding inward of the conveying pipe upward and having an outlet formed to be connected to the discharge part; and an actuator installed on the main body to slide and reciprocate the sampling pipe.
According to the present invention, it is possible to conveniently and effectively collect pellets from the pellet transfer pipe, and ensure that the sampling pipe is inserted into the transfer pipe only when pellets are collected, so that when pellets are not collected, interference with the pellets transported through the transfer pipe can be prevented, thereby ensuring smooth transfer of the pellets and preventing quality degradation due to collision of the pellets.

Description

Pellet sampler {Pellet sampler}

The present invention relates to a pellet sampler, and more particularly, by allowing a sampling pipe to be inserted into the transfer pipe only when pellets are collected, to prevent interference with pellets transported through the transfer pipe when pellets are not collected, thereby ensuring smooth transfer of the pellets and to a pellet sampler that prevents quality degradation due to collision of the pellets.

In general, the pellet sampler is installed inside the pipe through which the pellets are transported, so that a part of the transported pellets is drawn outward to collect them, so that the state check or quality inspection of the collected pellets can be performed.

As a prior art related to such a pellet sampler, US Patent Registration No. 04082003 "Pellet sampler and method of sampling pellets" has been disclosed.

However, in this prior art, in order to collect pellets from the pellet transfer tube, the sampling tube must always be installed so as to protrude into the inside of the pellet transfer tube. As a result, the collection tube not only interferes with the transfer of pellets, but also collides with the pellets. By causing, there was a problem of deteriorating the quality of the pellets through the induction of particles.

In order to solve the problems of the prior art, the present invention is to conveniently and effectively collect pellets from the pellet transfer pipe, and to ensure that the sampling pipe is inserted into the transfer pipe only when pellets are collected, so that the pellets are not collected. To prevent interference with the pellets transported through the transfer pipe, thereby ensuring smooth transfer of the pellets, and to prevent quality degradation due to collision of the pellets.

In order to solve the above problems, according to one aspect of the present invention, a hollow body fixed to the side of the transfer pipe so as to be connected to the inside of the transfer pipe of the pellets, the discharge portion is provided to face downward; A sampling pipe that is installed to be slidable along the lengthwise direction of the main body so as to protrude into the conveying pipe or to be inserted into the main body, and to have an inlet formed at one end protruding inward of the conveying pipe upward and having an outlet formed to be connected to the discharge part; and an actuator installed on the main body to slide and reciprocate the sampling pipe.

The main body includes a hollow nozzle fixed to a side of the transfer pipe and connected to the inside of the transfer pipe; and a housing connected to an end of the nozzle, having the outlet, and protruding the end of the sampling pipe.

In the main body, a packing member for sealing both sides of the discharge port may be installed between the sampling pipe and the sampling pipe.

The main body is fixed to the side of the transfer pipe with an end inclined downward, and the sampling pipe has an inner surface of the transfer pipe when the end protruding to the inside of the transfer pipe is inserted into the main body. A tip portion may be provided to form a line.

The sampling pipe is provided with a pushing plate extending laterally at an end protruding from the housing, the housing is provided with a fixing part extending laterally to face the pushing plate, and the actuator is provided with the pushing plate and It may be installed between the fixing parts.

The actuator may be fixed to the fixing part as a pneumatic cylinder, and a piston rod may be fixed to the pushing plate.

The main body may be such that the pellets discharged by being connected to the hose adapter of the transfer box having a handle so that the discharge unit is collected in the transfer box.

A safety cover installed to surround the movable part of the actuator and a part protruding from the main body of the sampling pipe may be further included.

The sampling pipe may be provided with an air purging hole for injecting air for purging to the inside.

According to the pellet sampler according to the present invention, it is possible to conveniently and effectively collect pellets from the pellet transfer pipe, and ensure that the sampling pipe is inserted into the transfer pipe only when pellets are collected, so that the pellets are not collected. Interference with the pellets transported through the transfer pipe can be prevented, thereby ensuring smooth transfer of the pellets and preventing quality degradation due to collision of the pellets.

1 is a side cross-sectional view showing a pellet sampler according to an embodiment of the present invention, a side cross-sectional view showing a non-collecting state.
Figure 2 is a side cross-sectional view showing the main part of the pellet sampler according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing the housing of the pellet sampler according to an embodiment of the present invention.
Figure 4 is a plan view showing a pellet sampler according to an embodiment of the present invention.
5 is a front cross-sectional view showing a transfer box of a pellet sampler according to an embodiment of the present invention.
Figure 6 is a side cross-sectional view showing a pellet sampler according to an embodiment of the present invention, a side cross-sectional view showing a state during sampling.

Since the present invention may have various embodiments by various changes, it will be described by showing specific embodiments in the drawings as examples. In addition, it should be understood that the present invention is not limited to these specific examples, and includes all changes, equivalents, or substitutes included in the technical spirit of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, the same reference numerals are given to the same or corresponding components regardless of reference numerals, and redundant descriptions thereof will be omitted.

Figure 1 is a side cross-sectional view showing a pellet sampler according to an embodiment of the present invention, a side cross-sectional view showing a non-collecting state, Figure 2 is a side cross-sectional view showing the main part of the pellet sampler according to an embodiment of the present invention.

1 and 2, the pellet sampler 100 according to an embodiment of the present invention may include a main body 110 and 120, a sampling pipe 130 and an actuator 140.

The main bodies 110 and 120 are fixed to the side of the transport pipe 10 so as to be connected to the inside of the transport pipe 10 of the pellets, and a discharge portion 125 is provided so as to face downward.

The main bodies 110 and 120 may include a hollow nozzle 110 fixed to the side of the transfer pipe 10 and connected to the inside of the transfer pipe 10, and a housing 120 connected to an end of the nozzle 110, provided with a discharge part 125, and allowing the end of the sampling pipe 130 to protrude. The nozzle 110 may be fixed to the side of the transfer pipe 10 by welding, as in the present embodiment, or, as other examples, by flange coupling or screw coupling. The nozzle 110 and the housing 120 may be flanges 111 and 121 respectively formed so as to be detachably flange-coupled with a fixing bolt 122 on a side in contact with each other. The transfer pipe 10 may be provided with a flange 11 for flange connection with other pipes.

The main bodies 110 and 120 may include packing members 123, 124, and 128 for sealing both sides of the outlet 133 between the sampling pipe 130 and the packing member 123, 124, 128. Specifically, it may include a packing gland 123 and a packing tube 124 interposed between one end of the housing 120 and the sampling pipe 130, and the other end of the housing 120 and the sampling pipe ( 130) may include a packing tube 124 interposed between the discharge port 133 and the discharge portion 125, thereby enabling sealing to prevent the outflow of particles of the pellets.

Referring to FIGS. 1 to 3 , the housing 120 may be provided with a fixing part 127 extending laterally to face a pushing plate 134 to be described later. The fixing part 127 has various shapes such as a bar or a plate, and may be fixed to an end of the housing 120 by welding, flange coupling, or screw coupling. In addition, the housing 120 may be connected to the discharge pipe 126 by interference fit at the lower end of the discharge portion 125, a fitting member, a clip, or a clamp.

The bodies 110 and 120 may be fixed to the side of the transfer pipe 10 so that their ends are inclined downward. Therefore, the nozzle 110 and the housing 120 can be fixed to the end of the transfer pipe 10 so that the ends are inclined downward, thereby enabling the collected pellets to be collected smoothly.

The sampling pipe 130 is installed in the main bodies 110 and 120 so as to be slidable along the longitudinal direction, so that it protrudes to the inside of the transfer pipe 10 or is inserted into the main body 110 and 120, and the inlet 131 is formed at one end protruding to the inside of the transfer pipe 10 upward, and the discharge port 133 is formed downward to be connected to the discharge unit 125.

The sampling pipe 130 is provided with a tip portion 132 for forming a line on the inner surface of the transfer pipe 10 when the tip protruding inward of the transfer pipe 10 is inserted into the body 110 or 120, so as shown in FIGS. By preventing the cross section from being deformed or reduced, it enables smooth transfer of the pellets. Considering that the sampling pipe 130 is inclined, the tip portion 132 may be formed to be inclined in the longitudinal direction of the sampling pipe 130 .

The sampling pipe 130 may be provided with a pushing plate 134 extending laterally at an end protruding from the housing 120 . The pushing plate 134 may be fixed to the sampling pipe 130 by a fixing nut 135 screwed to the end of the sampling pipe 130 while passing through the end of the sampling pipe 130 .

The sampling pipe 130 may be provided with an air purging hole 170 for injecting air for purging to the inside. An air injection unit for injecting air from the outside is connected to the air purging hole 170 through an injection pipe, and purging air injected from the air purging hole 170 to the inside of the sampling pipe 130 prevents dust or raw materials from entering the drive unit clearance between the housing 110 and the sampling pipe 130 during operation.

The actuator 140 is installed on the main bodies 110 and 120 to slide and reciprocate the sampling pipe 130 . The actuator 140 is installed between the pushing plate 134 and the fixing part 127. For example, it may be fixed to the fixing part 127 as a pneumatic cylinder, and the piston rod 141 may be fixed to the pushing plate 134. As shown in FIGS. 1 and 4, the actuator 140, which is a pneumatic cylinder, selectively receives air necessary for operation through the air filter regulator 144 by the opening and closing operation of the solenoid valve 145, which is a kind of control valve, to one of the ports 142 on both sides, and the resulting reciprocation of the piston rod 141 can cause the sampling pipe 130 to slide. Meanwhile, the actuator 140 is a pneumatic cylinder as an example, but is not necessarily limited thereto, and may be configured to convert and transmit rotational force of a motor into linear motion or transmit reciprocating motion of a linear motor.

1 and 5, the main bodies 110 and 120 are discharged by the discharge unit 125 being connected to the hose adapter 152 of the transfer box 150 having a handle 151 so that the pellets discharged are collected in the transfer box 150. Here, in the transfer box 150, the hose 153 may be detachably connected to the hose adapter 152 for connection with the discharge unit 125, such a hose 153 may be connected to the discharge pipe 126, or by being made to replace the discharge pipe 126, the pellets may be supplied.

A safety cover 160 may be installed to cover the movable part of the actuator 140 and the part protruding from the main bodies 110 and 120 of the sampling pipe 130, whereby the user may be injured by contact with the movable part, etc. It can be prevented.

In the pellet sampler 100 according to the present invention having such a configuration, as shown in FIG. 6, when the sampling pipe 130 protrudes to the inside of the transfer pipe 10 by the drive of the actuator 140, the pellets moving along the transfer pipe 10 are put into the inlet 131 at the end of the sampling pipe 130 and descend along the inside of the sampling pipe 130 to the outlet 133 and Through the discharge unit 125, so that it can be collected toward the transfer box 150 side.

On the other hand, after collecting the pellets, when the sampling pipe 130 is inserted into the nozzle 110 by the drive of the actuator 140, the movement of the pellets moving along the transfer pipe 10 is not disturbed.

According to the pellet sampler according to the present invention, the pellets can be conveniently and effectively collected from the pellet transfer pipe.

In addition, according to the present invention, the sampling pipe is inserted into the transfer pipe only when the pellets are collected, so that when the pellets are not collected, interference with the pellets transferred through the transfer pipe can be prevented, thereby ensuring smooth transfer of the pellets, and preventing the pellets from deteriorating due to collision.

Although the present invention has been described with reference to the accompanying drawings, various modifications may be made without departing from the spirit of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments and should not be defined, but should be defined by the claims and equivalents of these claims.

10: transfer pipe 11: flange
110: nozzle 111: flange
120: housing 121: flange
122: fixing bolt 123: packing gland
124,128: packing tube 125: discharge unit
126: discharge pipe 127: fixing part
130: sampling pipe 131: inlet
132: tip part 133: outlet
134: pushing plate 135: fixing nut
140: actuator 141: piston rod
142: port 143: fixing nut
144: air filter regulator 145: solenoid valve
150: transfer box 151: handle
152: hose adapter 153: hose
160: safety cover 170: air purging hole

Claims (9)

A hollow main body 110 and 120 fixed to the side of the feed pipe 10 so as to be connected to the inside of the pellet feed pipe 10 and having a discharge portion 125 facing downward;
A sampling pipe 130 having an inlet 131 formed upward at one end protruding to the inside of the transfer pipe 10 and an outlet 133 formed so as to be connected to the outlet 125; and
An actuator 140 installed on the main bodies 110 and 120 to slide and reciprocate the sampling pipe 130;
The main bodies 110 and 120,
A hollow nozzle 110 fixed to the side of the transfer pipe 10 and connected to the inside of the transfer pipe 10; and
A housing 120 that is connected to the end of the nozzle 110, has the discharge part 125, has a discharge pipe 126 connected to the lower end of the discharge part 125, and protrudes the end of the sampling pipe 130,
The main bodies 110 and 120,
The end is fixed to the side of the transfer pipe 10 with a downward slope,
The sampling pipe 130,
When the end protruding inward of the transfer pipe 10 is inserted into the main body 110 or 120, a tip portion 132 is provided to form a line on the inner surface of the transfer pipe 10, so that the body 110 and 120 do not provide a protruding structure on the inner surface of the transfer pipe 10,
The sampling pipe 130,
By providing an air purging hole 170 for injecting air for purging inward, the purging air injected from the air purging hole 170 prevents dust or raw material from entering between itself and the housing 110. A pellet sampler. delete The method of claim 1,
The main bodies 110 and 120,
Packing members 123, 124, and 128 for sealing both sides of the outlet 133 are installed between the sampling pipe 130 and the pellet sampler. delete The method of claim 1,
The sampling pipe 130,
A pushing plate 134 extending laterally is provided at an end protruding from the housing 120,
The housing 120,
A fixing part 127 extending laterally to face the pushing plate 134 is provided,
The actuator 140,
A pellet sampler installed between the pushing plate 134 and the fixing part 127. The method of claim 5,
The actuator 140,
A pellet sampler fixed to the fixing part 127 as a pneumatic cylinder and fixed to the piston rod 141 to the pushing plate 134. According to claim 1 or claim 3,
The main bodies 110 and 120,
The discharge part 125 is connected to the hose adapter 152 of the transfer box 150 having a handle 151 so that the discharged pellets are collected in the transfer box 150, the pellet sampler. According to claim 1 or claim 3,
A pellet sampler further comprising a safety cover 160 installed to surround the movable part of the actuator 140 and the part protruding from the main body 110 and 120 in the sampling pipe 130. delete

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