CN216767897U - Non-contact fuel conveying device - Google Patents

Abstract

The utility model discloses a non-contact fuel conveying device, in particular to the technical field of fuel conveying, which comprises a high-level tank for storing fuel and a control cabinet for controlling fuel conveying in the fuel conveying process; the top end of the high-level tank is inserted with a pressure pipe and a pressure pipe which extend to the interior of the high-level tank, the bottom end of the pressure pipe extends to the bottom of the inner cavity of the high-level tank, and the pressure pipe extends to the top of the inner cavity of the high-level tank; the top end of the pressure pipe is connected with a hose, the other end of the hose is connected with a stainless steel pipe, and the top end of the stainless steel pipe is connected with the control cabinet. When the fuel conveying device is used for conveying fuel, the fuel is not required to be in direct contact with the fuel, the indirect conveying of the fuel is completed in a pressure control mode, the phenomena of leakage, pollution and the like cannot occur, and meanwhile, the whole structural component is simple and efficient, convenient to use, low in failure rate and convenient to disassemble and replace.

Description

Non-contact fuel conveying device

Technical Field

The utility model relates to the technical field of fuel conveying, in particular to a non-contact type fuel conveying device.

Background

In the prior art, fuel is generally conveyed by adopting a contact type structure. However, such structures have some problems in the use process, for example, the joint of the contact structure is easy to leak and cause potential safety hazard due to long-term contact with fuel, and on the other hand, the contact structure has more parts and has higher failure rate in the long-term use process.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a non-contact fuel conveying device, which comprises a high-level tank for storing fuel in the fuel conveying process and a control cabinet for controlling fuel conveying;

the top end of the high-level tank is inserted with a pressure pipe and a pressure pipe which extend to the interior of the high-level tank, the bottom end of the pressure pipe extends to the bottom of the inner cavity of the high-level tank, and the pressure pipe extends to the top of the inner cavity of the high-level tank;

the top end of the pressure pipe is connected with a hose, the other end of the hose is connected with a stainless steel pipe, and the top end of the stainless steel pipe is connected with the control cabinet;

the switch board internally mounted has and is used for carrying out the force (forcing) pump that pressurizes to the forcing pipe, the force (forcing) pump pressurizes to high-order jar inside through nonrust steel pipe, hose and forcing pipe, extrudes fuel to high-order jar outside from the pressure-out pipe and carries.

In a preferred embodiment, the other end of the pressure-discharge pipe is provided with a connecting flange for connecting with an external conveying pipe.

In a preferred embodiment, a controller for controlling the operation of the pressurizing pump is installed inside the control cabinet, and a control button for sending a control command to the controller is installed on the outer wall of the control cabinet.

In a preferred embodiment, a plurality of fixing plates are connected to the side wall of the control cabinet, mounting screws penetrate through the fixing plates, and the control cabinet is mounted on a wall surface through the fixing plates and the mounting screws.

In a preferred embodiment, the top end of the high-level tank is further provided with a pressure display extending to the inside of the high-level tank, and the pressure display is used for acquiring and displaying pressure data inside the high-level tank.

In a preferred embodiment, an indicator light for displaying the working state is further mounted on the outer wall of the control cabinet.

The utility model has the technical effects and advantages that:

when the fuel conveying device is used for conveying fuel, the fuel conveying device does not need to be in direct contact with the fuel, the indirect conveying of the fuel is completed in a pressure control mode, the phenomena of leakage, pollution and the like cannot occur, and meanwhile, the whole structural component is simple and efficient, convenient to use, low in failure rate and convenient to detach and replace.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention.

Description of reference numerals: 1 high-order jar, 2 switch boards, 3 pressure-out pipes, 4 forcing pipes, 5 hoses, 6 stainless steel pipes, 7 force (forcing) pumps, 8 flange connections, 9 controllers, 10 control buttons, 11 fixed plates, 12 pressure displays, 13 pilot lamps.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

A non-contact fuel delivery apparatus as shown in fig. 1-2, comprising a high-level tank 1 for storing fuel during fuel delivery and a control cabinet 2 for controlling fuel delivery;

the fuel to be delivered is stored in the high-level tank 1 for temporary storage, and when the fuel is required to be used later, the fuel in the high-level tank 1 is delivered to a use place.

The top end of the high-level tank 1 is spliced with a press-out pipe 3 and a pressurizing pipe 4 which extend to the interior of the high-level tank 1, the bottom end of the press-out pipe 3 extends to the bottom of the inner cavity of the high-level tank 1, and the pressurizing pipe 4 extends to the top of the inner cavity of the high-level tank 1.

Further, the bottom end of the pressure pipe 4 is not in contact with the liquid level of the fuel, a certain distance is left, the bottom end of the pressure pipe 3 is inserted into the fuel, and when the liquid level is pressurized, the fuel is conveyed from the pressure pipe 3 to the outside of the high-level tank 1.

The joint of the pressure pipe 3 and the pressure pipe 4 with the high-level tank 1 is welded and sealed, so that the sealing performance inside the high-level tank 1 is ensured.

The top end of the pressurizing pipe 4 is connected with a hose 5, the other end of the hose 5 is connected with a stainless steel pipe 6, and the top end of the stainless steel pipe 6 is connected with the control cabinet 2.

The hose 5 is connected with the stainless steel pipe 6 through the internal thread pipe, sealing structures such as rubber sealing rings are arranged in an auxiliary mode for auxiliary sealing, the sealing performance of connection between pipelines is guaranteed, and the possibility of leakage is reduced.

The switch board 2 internally mounted has the force (forcing) pump 7 that is used for pressurizeing 4 to the forcing pipe, the force (forcing) pump 7 pressurizes the high-order jar 1 inside through stainless steel pipe 6, hose 5 and forcing pipe 4, extrudes fuel from the pressure-discharge pipe 3 to high-order jar 1 outside and carries.

In the working process, the control cabinet 2 controls the pressurizing pump 7 to work, the stainless steel pipe 6, the hose 5 and the pressurizing pipe 4 act in the high-level tank 1, the fuel stored in the high-level tank 1 is pressurized, and the fuel is conveyed to the outside of the high-level tank 1 from the pressure outlet pipe 3.

And the other end of the pressure outlet pipe 3 is provided with a connecting flange 8 for connecting with an external conveying pipeline.

When the fuel is output from the extrusion pipe 3, the fuel enters an external conveying pipeline through the connecting flange 8 and then is conveyed to a using device.

The control cabinet 2 internally mounted has the controller 9 that is used for controlling the pressure pump 7 to work, install the control button 10 that sends control command to the controller 9 on the 2 outer walls of control cabinet, the user passes through the control button 10 and controls the controller 9 and the pressure pump, accomplishes the transport of fuel.

Be connected with a plurality of fixed plates 11 on the 2 lateral walls of switch board, it has the mounting screw to run through on the fixed plate 11, switch board 2 passes through fixed plate 11 and mounting screw installs on the wall.

1 top of high-order jar still installs and extends to the inside pressure display 12 of high-order jar 1 for obtain the inside pressure data of high-order jar and show, when the phenomenon of jam appears in pressurization pipe 4 and pressure-discharge tube 3, the inside pressure data of high-order jar 1 then can appear unusually, and pressure display 12 still is connected with controller 9, while controller 9 still is connected with an audible-visual annunciator, when pressure data is unusual, controller 9 can receive unusual data, and control audible-visual annunciator reports to the police and reminds the user.

And an indicator light 13 for displaying the working state is further installed on the outer wall of the control cabinet 2.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (6)

1. The non-contact fuel conveying device is characterized by comprising a high-level tank for storing fuel in the fuel conveying process and a control cabinet for controlling fuel conveying;

a pressure pipe and a pressurizing pipe which extend into the high-position tank are inserted at the top end of the high-position tank, the bottom end of the pressure pipe extends to the bottom of the inner cavity of the high-position tank, and the pressurizing pipe extends to the top of the inner cavity of the high-position tank;

the top end of the pressure pipe is connected with a hose, the other end of the hose is connected with a stainless steel pipe, and the top end of the stainless steel pipe is connected with the control cabinet;

the switch board internally mounted has and is used for carrying out the force (forcing) pump that pressurizes to the forcing pipe, the force (forcing) pump pressurizes to high-order jar inside through nonrust steel pipe, hose and forcing pipe, extrudes fuel to high-order jar outside from the pressure-out pipe and carries.

2. A non-contact fuel delivery apparatus according to claim 1, wherein: and the other end of the pressure outlet pipe is provided with a connecting flange for connecting with an external conveying pipeline.

3. A non-contact fuel delivery apparatus according to claim 1, wherein: the control cabinet is internally provided with a controller for controlling the pressure pump to work, and the outer wall of the control cabinet is provided with a control button for sending a control command to the controller.

4. A non-contact fuel delivery apparatus according to claim 1, wherein: the wall-mounted control cabinet is characterized in that a plurality of fixing plates are connected to the side wall of the control cabinet, mounting screws penetrate through the fixing plates, and the control cabinet is mounted on the wall surface through the fixing plates and the mounting screws.

5. A non-contact fuel delivery apparatus according to claim 1, wherein: and the top end of the high-position tank is also provided with a pressure display extending to the inside of the high-position tank and used for acquiring and displaying pressure data inside the high-position tank.

6. A non-contact fuel delivery apparatus according to claim 1, wherein: and an indicator light for displaying the working state is further installed on the outer wall of the control cabinet.

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