JP7041926B2 - Protective structure in the sampling tube of the tank truck - Google Patents

Description

The present invention relates to the technical field of a protective structure in a sampling tube of a tank lorry, and more particularly to a protective structure in a sampling tube of a tank lorry that can facilitate the use of the sampling tube.

As shown in FIGS. 1 and 2, the tank lorry that transports petrochemical substances such as gasoline is transported to the destination, and then the acceptor confirms whether the petrochemical products transported by sampling are correct. Therefore, the trader connects the sampling pipe 1 between the transport pipe PS of the tank truck and the receiving pipe PR of the receiving company. A flow hole 11 is penetrated in the center of the sampling tube 1, a holding surface portion 12 for fixing is provided around the flow hole 11 in the sampling tube 1, and a sampling output connection portion is provided at the upper end portion of the sampling tube 1. 13 is convexly provided, and a sampling output tube SP can be screwed into the sampling output connection portion 13 of the sampling tube 1.

As shown in FIGS. 1 and 2, the sampling tube 1 is formed by drilling and screwing the drilling hole PR11 in the flange portion PR1 of the receiving pipe PR and the drilling hole PS11 in the flange PS1 of the transport pipe PS by the bolt S. Can be stably held between the flange portion PR1 of the receiving pipe PR and the flange PS1 of the transport pipe PS. At the time of sampling, the trader can perform sampling only by controlling a control valve (not shown) on the sampling tube SP, whereby the petrochemical product ordered by the petrochemical product in the tank lorry is a petrochemical substance ordered. You can check if it is.

The purpose of sampling is certainly achieved by the above-mentioned conventional tank lorry sampling method. However, in the above-mentioned conventional sampling method, when the sampling tube 1 is held and positioned between the flange portion PR1 of the receiving tube PR and the flange PS1 of the transport tube PS, first, the flange in the receiving tube PR is positioned by the bolt S. After the drilling hole PR11 of the portion PR1 and the drilling hole PS11 of the flange PS1 in the transport pipe PS are drilled, they are connected by a screw. Therefore, when the sampling tube 1 is held and connected by the receiving tube PR and the transport tube PS, the sampling tube 1 often falls directly, so that the sampling output connection unit 13 located at the upper end of the sampling tube 1 is provided. Upon receiving an impact, the base of the connection between the sampling output connection 13 and the sampling tube 1 is damaged, and in the worst case, a leak occurs at the base of the connection between the sampling output connection 13 and the sampling tube 1 during sampling. Further, the leakage of the petrochemical product has a serious effect on the human body or the environment.

Therefore, the trader wants a solution on how to provide a protective structure in the sampling tube of a tank lorry that can prevent damage to the sampling output connection by providing a favorable positioning effect before the sampling tubes are connected. It is an issue.

It is an object of the present invention to provide a protective structure in a sampling tube of a tank lorry that can solve the drawback that the sampling output connection portion in a conventional sampling tube easily falls and is damaged during transportation and connection and leaks. And.

In order to solve the above-mentioned problems, the main technical means of claim 1 of the present invention provides a protective structure in a sampling tube of a tank lorry, and a positioning protection table is provided on the outer peripheral edge of the sampling tube. The sampling tube is provided with a sampling output connection portion for connecting a sampling output tube, the positioning protection base is provided with a through hole, and the sampling output connection portion is outside the positioning protection base from the portion of the through hole. Can be penetrated up to.

One of the effects achieved by the main technical means of claim 1 in the present invention is that the rigidity and strength of the overall impact resistance of the sampling output connection portion can be increased, and further, the sampling output can be increased. By not affecting the ease of connecting the connection portion and the sampling output tube, the ease of use of the sampling tube can be further improved.

It is a perspective view of the conventional sampling tube. It is a figure which showed the operation of sampling in a conventional sampling tube. It is an exploded view of the protection structure in the sampling tube of this invention. It is a perspective view of the sampling tube of this invention. It is sectional drawing of the protection structure in the sampling tube of this invention. It is a figure which showed the operation of sampling in the protection structure of the sampling tube of this invention. It is another embodiment in the protection structure of the sampling tube of this invention. It is sectional drawing of another Example in the protection structure of the sampling tube of this invention.

FIGS. 3, 4, and 5 for reference are protection structures in the sampling tube of the tank lorry of the present invention, and the positioning protection base 3 is fixed in the radial direction of the sampling tube 2.

As shown in FIGS. 3, 4, and 5, the sampling tube 2 includes a tube main body 21, and a flow hole 22 penetrating in the axial direction is provided in the center of the tube main body 21 in the axial direction of the tube main body 21. A ring-shaped convex edge portion 23 and a convex edge portion 24 are respectively projected on both ends, and at least one cut positioning is provided between the convex edge portions 23 and the convex edge portions 24 on both sides of the pipe body 21. A surface 25 is provided, and a sampling output connection unit 26 is provided on the upper end side in the radial direction of the tube body 21, and the sampling output tube 27 can be connected by the sampling output connection unit 26.

As shown in FIGS. 3, 4, and 5, the positioning protection base 3 includes a first protection base 31 and a second protection base 32. The upper end of the first protection base 31 is formed on a faceted flat surface, a through hole 311 is provided near the center, and a sampling output connection portion 26 of the sampling tube 2 is formed by the through hole 311. A semicircular stopper groove 312 is recessed inside the 1 protection base 31, and a faceted surface-shaped positioning portion 313 is provided in the stopper groove 312, and the positioning portion 313 and the positioning surface 25 of the sampling tube 2 are provided. The positioning unit 313 and the positioning surface 25 form a stopper effect and a positioning effect, whereby the sampling tube 2 can obtain a positioning effect in the positioning protection base 3. The bottom surfaces of both ends of the stopper groove 312 in the first protection base 31 are provided with a planar connecting surface 314, and the two connecting surfaces 314 are provided with positioning pinholes 315 and positioning holes 316, respectively. , The blind hole, the positioning hole 316 is a through hole, and the positioning hole 316 penetrates the first protection base 31. On the connecting surface 314 side above the first protection table 31, at least one perforation 317 penetrating in the axial direction is provided, and the present invention is carried out by two perforations 317.

As shown in FIGS. 3, 4, and 5, a semicircular stopper groove 321 is recessed inside the second protection base 32, and the stopper groove 321 and the first protection base 31 of the second protection base 32 are recessed. The stopper groove 312 is provided so as to face each other, so that when the first protection base 31 and the second protection base 32 are fixed, the stopper groove 312 and the stopper groove 321 can form a circular mounting positioning hole. .. A faceted surface-shaped positioning portion 322 is provided in the stopper groove 321. The positioning portion 322 and the positioning surface 25 of the sampling tube 2 correspond to each other, so that the positioning portion 322 and the positioning surface 25 have a stopper effect and positioning. An effect can be formed, whereby a positioning effect can be obtained in the positioning protection base 3 of the sampling tube 2. The upper end surfaces on both sides of the stopper groove 321 in the second protection base 32 are provided with a planar connecting surface 323, and the two connecting surfaces 323 and the two connecting surfaces 314 of the first protection base 31 correspond to each other and two. The connecting surface 323 is provided with a positioning conical portion 324 and a positioning keyhole 325, respectively. The positioning conical portion 324 and the positioning pinhole 315 of the first protection base 31 correspond to each other, so that the positioning conical portion 324 is a positioning pin. The positioning effect is formed by being able to be inserted into the hole 315, and the positioning keyhole 325 comprises a screw hole. A perforation 326 penetrating at least one axial direction is provided on the connecting surface 323 from the bottom surface of the second protection base 32, and the present invention is carried out by the two perforations 326. The positioning keyhole 325 of the second protection base 32 and the positioning hole 316 of the first protection base 31 correspond to each other. Therefore, the positioning keyhole 325 of the second protection base 32 is fixed by drilling the positioning hole 316 of the first protection base 31 by the lock component T, whereby the first protection base 31 and the second protection base 32 are fixed. By being connected by screws, the positioning protection base 3 can be formed, and the sampling tube 2 can cover the fixed position in the positioning protection base 3.

As shown in FIGS. 4, 5 and 6, in the embodiment of the present invention, the sampling tube 2 is placed in the stopper groove 321 of the second protection base 32, so that the positioning surface 25 and the second of the sampling tube 2 are placed. The positioning portion 322 of the protection base 32 forms a positioning effect by the stopper, and further, the connection surface 314 of the first protection base 31 and the connection surface 323 of the second protection base 32 are connected to each other so as to face each other. The positioning conical portion 324 of the protection base 32 is inserted into the positioning pinhole 315 of the first protection base 31, whereby the first protection base 31 and the second protection base 32 are fixed in a fixed position before connection. .. At the same time, the sampling output connection portion 26 of the sampling tube 2 can penetrate the through hole 311 of the first protection base 31, and the sampling output connection portion 26 causes the thread portion to be outside the first protection base 31. Slight exposure can effectively shorten the damaged and exposed parts of the sampling output connection 26, in part because of the overall impact resistance of the sampling output connection 26. The rigidity and strength of the property can be increased, and the ease of connecting the sampling output connection unit 26 and the sampling output tube 27 is not affected. At this time, when the lock component T is bored in the positioning hole 316 of the first protection base 31, it is fixed in the positioning keyhole 325 of the second protection base 32, so that the first protection base 31 and the second protection base 31 and the second protection base are fixed. 32 forms a positioning protection base 3 that is fixed and can cover the outer peripheral edge of the sampling tube 2, whereby the positioning protection base 3 forms a rigid protection effect on the outer periphery of the sampling tube 2, and further, sampling is performed. The sampling output connection portion 26 of the tube 2 is formed with an impact-resistant protective effect. After stably covering the outer periphery of the sampling pipe 2, the positioning protection base 3 is bored in the perforation 326 of the second protection base 32 and the flange 41 of the export pipe 4 of the tank lorry by the bolt S1, and further, the first protection base 3 is provided. The perforation 317 of 31 and the flange 51 of the receiving pipe 5 of the trader form a connection for sampling and export, and the control valve (not shown) of the control sampling output pipe 27 enables sampling operation and further oil. The operation of transporting and receiving chemicals is carried out.

As shown in FIGS. 7 and 8, the present invention can be further implemented by making the cross section of the positioning portion 313 of the stopper groove 312 in the first protection table 31 slightly U-shaped, and at the same time, the second protection table 32. The cross section of the positioning portion 322 of the stopper groove 321 in the above can be made slightly U-shaped, and the positioning surface 25 provided between the convex edge portions 23 and the convex edge portions 24 on both sides of the tube main body 21 of the sampling tube 2 Is carried out on a polygonal surface, for example, by a positioning surface 25 such as a square, a hexagon, or an octagon, whereby a preferable positioning effect for mounting is formed in the positioning protection base 3 of the sampling tube 2. Will be done.

As a main effect of the present invention, the sampling output connection portion 26 of the sampling tube 2 penetrates to the outside of the positioning protection table 3 by the positioning protection table 3 provided on the outer peripheral edge of the sampling tube 2. As a result, it is possible to increase the rigidity and strength of the overall impact resistance of the sampling output connection unit 26, and further affect the ease of connecting the sampling output connection unit 26 and the sampling output tube 27. The ease of use of the sampling tube 2 can be further improved by not affecting the above.

1 Sampling tube 11 Flow hole 12 Holding surface 13 Sampling output connection 2 Sampling tube 21 Tube body
22 Distribution hole 23 Convex edge
24 Convex edge 25 Positioning surface 26 Sampling output connection part 27 Sampling output tube 3 Positioning protection base 31 First protection base 311 Through hole 312 Stopper groove 313 Positioning part 314 Connecting surface 315 Positioning pin hole 316 Positioning hole 317 Drilling 32 Second protection Base 321 Stopper groove 322 Positioning part 323 Connecting surface 324 Positioning cone part 325 Positioning keyhole 326 Drilling 4 Transport pipe 41 Flange 5 Receiving pipe 51 Flange
PS transport pipe PS1 flange
PS11 Drilling hole PR Receiving pipe PR1 Flange
PR11 Drilling hole SP Sampling output tube S bolt
S1 bolt T lock parts

Claims (8)

It is a protective structure in the sampling tube of the tank truck.
A positioning protection stand is provided on the outer peripheral edge of the sampling tube.
The sampling tube includes a sampling output connection portion for connecting the sampling output tubes.
The positioning protection base has a through hole and
The sampling output connection portion is penetrated from the portion of the through hole to the outside of the positioning protection base.
A protective structure in the sampling tube of a tank truck characterized by that . In the protection structure in the sampling tube of the tank truck according to claim 1.
The sampling tube includes a tube body and has a tube body.
A flow hole penetrating in the axial direction is provided in the center of the pipe body.
Ring-shaped convex edges are convexly provided at both ends of the tube body in the axial direction.
At least one machined positioning surface is provided between the convex edges on both sides of the tube body.
A protective structure in the sampling tube of a tank truck characterized by that . In the protection structure in the sampling tube of the tank truck according to claim 1.
The positioning protection base includes a first protection base and a second protection base.
A protective structure in the sampling tube of a tank truck characterized by that . In the protection structure in the sampling tube of the tank truck according to claim 3.
The upper end of the first protection table is formed on a faceted flat surface, and the through hole is provided near the center.
A semi-circular stopper groove is recessed inside the first protection table.
A faceted surface-shaped positioning portion is provided in the stopper groove.
The bottom surfaces of both ends of the stopper groove in the first protection table are provided with a flat connecting surface.
A protective structure in the sampling tube of a tank truck characterized by that . In the protection structure in the sampling tube of the tank truck according to claim 4.
A positioning pinhole and a positioning hole are provided on the connecting surface of the first protection table, respectively.
At least one axially penetrating perforation is provided on the side surface of the first protection table orthogonal to the connecting surface.
A protective structure in the sampling tube of a tank truck characterized by that . In the protection structure in the sampling tube of the tank truck according to claim 3.
A semi-circular stopper groove is recessed inside the second protection base.
A faceted surface-shaped positioning portion is provided in the stopper groove.
The upper end surfaces on both sides of the stopper groove are provided with a planar connecting surface.
A protective structure in the sampling tube of a tank truck characterized by that . In the protection structure in the sampling tube of the tank truck according to claim 6.
A positioning cone and a positioning keyhole are provided on the connecting surface of the second protection base, respectively.
At least one axially penetrating perforation is provided on the side surface of the second protection table orthogonal to the connecting surface.
A protective structure in the sampling tube of a tank truck characterized by that . In the protection structure in the sampling tube of the tank truck according to claim 3.
The positioning protection base includes a first protection base and a second protection base.
The first protection base is provided with a stopper groove, the stopper groove is provided with a positioning portion, and the cross section of the positioning portion is slightly U-shaped.
The second protection base is provided with a stopper groove, the stopper groove is provided with a positioning portion, and the cross section of the positioning portion is slightly U-shaped.
The sampling tube includes a positioning surface, and the positioning surface is a polygonal positioning surface.
A protective structure in the sampling tube of a tank truck characterized by that .

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