CN216368718U - Pipe fitting antirust oil injection equipment - Google Patents

Abstract

The application discloses pipe fitting antirust oil injection equipment, it includes: the bottom of the bracket is provided with a plurality of rollers; the oil tank is used for storing anti-rust oil and is arranged on the support, and the oil tank is provided with a first oil outlet; the oil injection pump is arranged on the support and is provided with an oil pumping port and a second oil outlet; one end of the oil suction pipe is communicated with the first oil outlet, and the other end of the oil suction pipe is communicated with the oil pumping port; and the oil outlet pipe, one end of the oil outlet pipe is communicated with the second oil outlet, and the other end of the oil outlet pipe is a pipe fitting connecting end. The problem of inconvenient operation that traditional pipe fitting rust-resistant mode exists can be solved to this scheme.

Description

Pipe fitting antirust oil injection equipment

Technical Field

The application belongs to the technical field of pipeline corrosion prevention, and particularly relates to pipe fitting antirust oil injection equipment.

Background

The pipe fitting during operation need contact with working medium, can contact with the air when out of work, because working medium and air all have certain humidity, consequently the pipe fitting appears the corrosion problem easily with working medium or air contact for a long time, can lead to the pipe fitting to block up even when the corrosion is serious, causes the unable normal use of pipe fitting. Therefore, in order to perform rust prevention treatment on the pipe, it is necessary to inject rust preventive oil into the pipe.

The currently adopted pipe fitting rust preventive oil injection equipment is large-scale equipment, and the pipe fitting rust preventive oil injection equipment is fixed at a preset position, so that rust preventive oil is injected into the pipe fitting. However, the distribution range of the pipe fittings is wide, and the part of the pipe fittings which needs to be filled with the rust preventive oil often changes, and meanwhile, the use scene of the pipe fittings also changes, so that the distance between the rust preventive oil filling position of the pipe fittings and the rust preventive oil filling equipment of the pipe fittings is different, and the rust preventive oil filling equipment of the pipe fittings is fixed, so that an operator needs to connect the rust preventive oil filling equipment of the pipe fittings and the rust preventive oil filling position of the pipe fittings in a peripheral connecting pipe or the like. Therefore, the traditional pipe fitting rust prevention mode has the problem of inconvenient operation.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide a pipe fitting antirust oil injection device which can solve the problem that the traditional pipe fitting antirust mode is inconvenient to operate.

In order to solve the technical problem, the present application is implemented as follows:

the embodiment of the application provides a pipe fitting antirust oil injection equipment, which includes:

the bottom of the bracket is provided with a plurality of rollers;

the oil tank is used for storing anti-rust oil and is arranged on the support, and the oil tank is provided with a first oil outlet;

the oil injection pump is arranged on the support and is provided with an oil pumping port and a second oil outlet;

one end of the oil suction pipe is communicated with the first oil outlet, and the other end of the oil suction pipe is communicated with the oil pumping port;

and the oil outlet pipe, one end of the oil outlet pipe is communicated with the second oil outlet, and the other end of the oil outlet pipe is a pipe fitting connecting end.

In this application embodiment, parts such as oil tank, oiling pump can be supported to the support of pipe fitting antirust oil injection equipment, because the bottom of support is equipped with a plurality of gyro wheels, when consequently need inject antirust oil into the pipe fitting, can remove pipe fitting antirust oil injection equipment to the place nearer apart from antirust oil injection site, then will go out oil pipe and pipe connection, just later can be through in the antirust oil injection pipe fitting of oiling pump in with the oil tank. The position of the pipe fitting antirust oil injection equipment can be changed according to the position change of the antirust oil injection part, so that the pipe fitting antirust oil injection equipment is not required to be connected with the antirust oil injection part in a mode of externally arranging a connecting pipe and the like, and the pipe fitting antirust oil injection equipment is more convenient to operate.

Drawings

FIG. 1 is a schematic structural diagram of a pipe fitting rust preventive oil injection apparatus disclosed in an embodiment of the present application.

Description of reference numerals:

110-bracket, 120-roller, 130-oil tank, 140-oil pump, 150-oil suction pipe, 160-oil discharge pipe, 161-oil delivery pipe section, 162-union, 170-protection piece, 180-flowmeter, 191-first handle, 192-second handle.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in sequences other than those illustrated or described herein. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The pipe fitting rust preventive oil injection apparatus provided by the embodiment of the present application is described in detail below with reference to the accompanying drawings by way of specific embodiments and application scenarios thereof.

Referring to fig. 1, the embodiment of the present application discloses a pipe fitting rust preventive oil injection apparatus, which includes a bracket 110, rollers 120, an oil tank 130, a filling pump 140, an oil suction pipe 150, and an oil discharge pipe 160.

The bracket 110 may serve as a base member of the pipe rust preventive oil injection apparatus, thereby providing a mounting base for other components. The bracket 110 may adopt a frame-type structure, thereby reducing the weight of the bracket 110, making the pipe rust preventive oil injection apparatus lighter, so that the operator can move the pipe rust preventive oil injection apparatus. The bottom of the bracket 110 is provided with a plurality of rollers 120, and optionally, in order to improve the stability of the pipe fitting rust preventive oil injection device, the number of the rollers 120 may be set to four, and the outer diameters of the rollers 120 may be equal, so that the cost of the pipe fitting rust preventive oil injection device is reduced. Alternatively, the roller 120 may be provided as a universal wheel to facilitate the operator to flexibly change the traveling direction of the pipe rust preventive oil feeding apparatus. Further, at least one roller 120 is a lockable roller, and when the pipe fitting rust preventive oil injection device moves to the target position, the pipe fitting rust preventive oil injection device can be prevented from moving continuously by the lockable roller, so that the reliability and safety of the pipe fitting rust preventive oil injection device during operation are improved.

The oil tank 130 is used for storing rust preventive oil, the oil tank 130 is arranged on the bracket 110, and the oil tank 130 is provided with an oil filling port and a first oil outlet. The oil filler hole can be used for an operator to add anti-rust oil into the oil tank 130, and a sealing cover can be arranged at the oil filler hole to prevent impurities in the external environment from entering the oil tank 130 to influence the quality of the anti-rust oil. The first oil outlet can supply the rust preventive oil in the oil tank 130 to flow out of the oil tank 130. For convenience of operation, both the oil filler port and the first oil outlet port may be provided at the top of the oil tank 130. In addition, in order to reduce the weight of the pipe rust preventive oil injection apparatus, the oil tank 130 may be made of a lightweight material such as plastic.

Oiling pump 140 may be disposed on bracket 110 by means of bolt connection, and oiling pump 140 has an oil pumping port for communicating oiling pump 140 with oil tank 130 and a second oil outlet for allowing rust preventive oil in oiling pump 140 to flow out of oiling pump 140. Alternatively, the oiling pump 140 may employ a pump that can be used electrically while being manually operated, so that the rust preventive oil filling operation can be still performed in a power-off state or without power supply. Alternatively, the oil filling pump 140 may be a pneumatic pump, an electric pump, or a hydraulic drive pump, which is not limited by the embodiment of the present application. The oiling pump 140 may be provided at one side of the oil tank 130 to lower the center of gravity of the pipe rust preventive oil injection apparatus, thereby improving the stability of the pipe rust preventive oil injection apparatus.

The oil suction pipe 150 is used for connecting the oil tank 130 and the oil filling pump 140, one end of the oil suction pipe 150 is communicated with the first oil outlet, the other end of the oil suction pipe 150 is communicated with the oil pumping port, and the rust preventive oil in the oil tank 130 can enter the oil suction pipe 150 through the first oil outlet and enter the oil filling pump 140 through the oil pumping port. Alternatively, the oil suction pipe 150 may be provided as a hard pipe, thereby preventing the oil suction pipe 150 from being positionally changed to interfere with other components.

The oil outlet pipe 160 may be connected to a pipe fitting into which rust preventive oil is to be injected, one end of the oil outlet pipe 160 is communicated with the second oil outlet, and the other end of the oil outlet pipe 160 is a pipe fitting connection end, so that the rust preventive oil in the oil injection pump 140 enters the pipe fitting. Alternatively, the oil outlet pipe 160 may be provided as a flexible pipe, and an operator may adjust the position of the pipe connecting end of the oil suction pipe 150 according to the different rust preventive oil injection portions.

When the anti-rust oil needs to be injected into the pipe fitting, the pipe fitting anti-rust oil injection device can be moved to a position close to the anti-rust oil injection position, then the oil outlet pipe 160 is connected with the pipe fitting, and then the anti-rust oil in the oil tank 130 can be injected into the pipe fitting through the oil injection pump 140. The position of the pipe fitting antirust oil injection equipment can be changed according to the position change of the antirust oil injection part, so that the pipe fitting antirust oil injection equipment is not required to be connected with the antirust oil injection part in a mode of externally arranging a connecting pipe and the like, and the pipe fitting antirust oil injection equipment is more convenient to operate.

Optionally, the pipe rust preventive oil injection apparatus further includes a guard 170, the guard 170 may protect the oil tank 130, the guard 170 is disposed on the bracket 110, and the guard 170 surrounds at least a portion of the sidewall of the oil tank 130, in other words, the guard 170 may surround at least a bottom of the sidewall of the oil tank 130. The structural strength of the shielding member 170 may be higher than that of the oil tank 130 to protect the oil tank 130, and thus, the oil tank 130 may be made of a lighter material after the shielding member 170 is provided, thereby reducing the weight of the pipe rust preventive oil injection apparatus and extending the lifespan of the oil tank 130. Alternatively, the guard 170 may be fixed to the bracket 110 by welding or the like. Since the shielding member 170 surrounds at least a portion of the sidewall of the fuel tank 130, it can prevent the sidewall of the fuel tank 130 from being deformed or even damaged due to the external force, thereby extending the lifespan of the fuel tank 130.

In an alternative embodiment, the shielding member 170 includes a shielding portion facing a sidewall of the oil tank 130, and the shielding portion surrounds at least a portion of the sidewall, and the shielding portion has a mesh structure. Since the shielding part is a part of the shielding part 170 that mainly protects the oil tank 130, the shielding part is provided in a mesh structure, which not only prevents other objects from directly contacting the oil tank 130 to apply external force to the oil tank 130, but also reduces the weight of the shielding part 170, thereby making the pipe antirust oil injection apparatus more portable.

The guard 170 may include only the above-described guard portion, and in this case, the guard portion may limit the position of the oil tank 130, so that the oil tank 130 may be directly placed on the bracket 110, but since the bracket 110 has a frame structure, a large gap may exist in a portion of the bracket 110 facing the oil tank 130, resulting in easy tilting of the oil tank 130. To solve this problem, in a further embodiment, the guard 170 further includes a support portion disposed around an edge of the support portion, and the oil tank 130 is in contact with the support portion. The support portion may support the oil tank 130 so as to separate the bracket 110 from the oil tank 130 to prevent the oil tank 130 from being inclined.

Alternatively, the support portion may have a plate-shaped structure, and the support portion may be in contact with the oil tank 130 over a large area, thereby more reliably preventing the oil tank 130 from being tilted. Further, a lightening hole may be provided in a central region of the plate-shaped support portion, which is not easily opposed to an edge of the oil tank 130, and thus a problem of inclination of the oil tank 130 may not occur, and this scheme may also reduce the weight of the guard 170. Alternatively, the support portion may have a net structure to make the protection member 170 lighter, and of course, in this embodiment, the mesh size of the support portion may be controlled to a small range to prevent the fuel tank 130 from being inclined.

The shield may have a gap with the sidewall of the oil tank 130, such that the operator can easily insert the oil tank 130 into the shield 170. However, since the pipe fitting rust preventive oil injection device often needs to be moved, the oil tank 130 is easily shaken during the movement of the pipe fitting rust preventive oil injection device, so that the oil tank 130 is easily abraded, and meanwhile, serious noise is also brought. Based on this, can make protection portion and lateral wall contact to through the position of protection portion restriction oil tank 130 more effectively, prevent that oil tank 130 from appearing rocking in the process of removing pipe fitting antirust oil injection equipment. Further, the shape of the protection portion may be the same as the shape of the sidewall of the fuel tank 130 to increase the contact area between the protection portion and the fuel tank 130, so that not only the shaking of the fuel tank 130 may be better restricted, but also the indentation and even deformation of the fuel tank 130 due to the pressing of the protection portion may be prevented.

Further optionally, the pipe antirust oil injection device further includes a flow meter 180, and the flow meter 180 is disposed on the oil outlet pipe 160. The flow meter 180 can detect the total flow rate of the rust preventive oil flowing through the oil outlet pipe 160 so that the operator can control the opening and closing of the oiling pump 140. Specifically, an operator can calculate the required amount of the anti-rust oil according to the length, the pipe diameter and other dimensions of the pipe fitting into which the anti-rust oil is required to be injected, then the anti-rust oil can be added into the oil tank 130, the total amount of the anti-rust oil in the oil tank 130 is ensured to be larger than the calculated required amount of the anti-rust oil, then the oil outlet pipe 160 can be connected with the pipe fitting, the flow meter 180 is opened and cleared, then the oiling pump 140 is opened, the flow meter 180 can be observed in the oiling process, and when the total flow of the anti-rust oil measured by the flow meter 180 reaches the required amount of the anti-rust oil, the oiling pump 140 can be closed. The flow meter 180 can accurately detect the total flow of the rust preventive oil, thereby realizing accurate oil injection and preventing the redundant rust preventive oil from causing environmental pollution and waste.

To facilitate the connection of the oil outlet pipe 160 with the pipe, the oil outlet pipe 160 may include an oil delivery pipe segment 161 and a union 162, the oil delivery pipe segment 161 being mainly supplied with the rust preventive oil, and the union 162 being used for the connection with the pipe to achieve the connection between the oil outlet pipe 160 and the pipe. Union 162 is a type of fitting that can be threaded or otherwise connected to a tubular member so that an operator can quickly and easily connect flowline 160 to the tubular member. The flow meter 180 may be disposed in the middle of the oil pipe section 161, at this time, the oil pipe section 161 is divided into at least two parts, and when the pipe fitting rust preventive oil injection device is assembled, an operator needs to connect the at least two parts, the flow meter 180, and the union 162, which results in an excessively complicated assembly operation of the pipe fitting rust preventive oil injection device. To this end, one end of the oil delivery pipe section 161 may be in communication with the second oil outlet, the other end of the oil delivery pipe section 161 may be in communication with one end of the flow meter 180, and the other end of the flow meter 180 may be in communication with the union 162. That is, the flow meter 180 is not disposed on the oil delivery pipe section 161, but disposed between the oil delivery pipe section 161 and the union 162, and when the pipe fitting rust preventive oil injection apparatus is assembled, an operator may assemble the oil delivery pipe section 161, the flow meter 180, and the union 162 together, so that the assembly of the pipe fitting rust preventive oil injection apparatus is simpler by this embodiment.

In order to facilitate the movement of the pipe rust preventive oil injection apparatus by the operator, a handle may be provided on the bracket 110, and the handle may be provided on one side of the bracket 110, but in order to not limit the position of the pipe rust preventive oil injection apparatus pushed by the operator with respect to the bracket 110, a first handle 191 and a second handle 192 may be provided on both sides of the bracket 110, respectively, and the operator may push the pipe rust preventive oil injection apparatus from both sides of the bracket 110. In addition, when the road on which the pipe rust preventive oil injection apparatus travels is bumpy, two operators can respectively hold the first handle 191 and the second handle 192 to lift the pipe rust preventive oil injection apparatus, so that the pipe rust preventive oil injection apparatus can be moved to the target position more quickly.

The second outlet port may be provided at any position of the oil feed pump 140, but if the position of the second outlet port is too low, the operator may have to squat down to connect the oil feed pipe 160 and the pipe fitting together. In view of this, the second oil outlet may be provided at the top of the oil filling pump 140, so that the oil outlet pipe 160 as a whole may be maintained at a high position to facilitate the operator to connect the oil outlet pipe 160 with the pipe fitting, and at the same time, the oil outlet pipe 160 does not need to be too long to make up for the difference between the height at which the second oil outlet is located and the height at which the operator is located, so that the cost of the oil outlet pipe 160 may be reduced.

After the oil injection operation is completed, the oil outlet pipe 160 is disconnected from the pipe fitting, the oil outlet pipe 160 easily drops on the ground at the moment, the pipe fitting connecting end of the oil outlet pipe 160 is polluted, dust at the pipe fitting connecting end easily enters rust preventive oil in the subsequent oil injection operation, and finally the quality of the rust preventive oil is reduced. To solve this problem, optionally, the support 110 is provided with a fixing portion to which the oil outlet pipe 160 is detachably connected, and when the oil outlet pipe 160 needs to be connected to a pipe, the oil outlet pipe 160 can be separated from the fixing portion to connect the oil outlet pipe 160 to the pipe; when the oil outlet pipe 160 is separated from the pipe member, the oil outlet pipe 160 can be connected to the fixing portion, thereby preventing the oil outlet pipe 160 from contacting the ground, thereby preventing the rust preventive oil from being contaminated. Further alternatively, the fixation portion may be a tube clamp to facilitate a faster connection and disconnection of the oil outlet from the fixation portion.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A pipe fitting rust preventive oil injection apparatus, characterized by comprising:

the device comprises a bracket (110), wherein the bottom of the bracket (110) is provided with a plurality of rollers (120);

an oil tank (130) for storing rust preventive oil, wherein the oil tank (130) is arranged on the bracket (110), and the oil tank (130) is provided with a first oil outlet;

the oil filling pump (140), the oil filling pump (140) is arranged on the bracket (110), and the oil filling pump (140) is provided with an oil pumping port and a second oil outlet;

one end of the oil suction pipe (150) is communicated with the first oil outlet, and the other end of the oil suction pipe (150) is communicated with the oil pumping port;

and the oil outlet pipe (160), one end of the oil outlet pipe (160) is communicated with the second oil outlet, and the other end of the oil outlet pipe (160) is a pipe fitting connecting end.

2. The pipe fitting rust preventive oil injection apparatus according to claim 1, characterized in that the pipe fitting rust preventive oil injection apparatus further comprises a guard (170), the guard (170) is provided to the bracket (110), and the guard (170) surrounds at least a portion of a side wall of the oil tank (130).

3. The pipe fitting rust preventive oil pouring apparatus according to claim 2, wherein the guard (170) includes a guard portion which faces the side wall and which surrounds at least a portion of the side wall, the guard portion being a mesh structure.

4. The pipe rust preventive oil injection apparatus according to claim 3, wherein the guard (170) further comprises a support portion, the guard being disposed around an edge of the support portion, the oil tank (130) being in contact with the support portion.

5. The pipe antirust oil injection apparatus according to claim 4, wherein the support portion is a plate-like structure or a mesh-like structure.

6. The pipe antirust oil injection apparatus according to claim 3, wherein the guard portion is in contact with the side wall.

7. The pipe fitting rust preventive oil injection apparatus according to claim 1, further comprising a flow meter (180), the flow meter (180) being provided to the oil outlet pipe (160).

8. The pipe fitting rust preventive oil injection apparatus according to claim 7, wherein the oil outlet pipe (160) includes an oil delivery pipe section (161) and a union (162), one end of the oil delivery pipe section (161) communicates with the second oil outlet, the other end of the oil delivery pipe section (161) communicates with one end of the flow meter (180), and the other end of the flow meter (180) communicates with the union (162).

9. The pipe rust preventive oil injection apparatus according to claim 1, wherein the bracket (110) is provided at both sides thereof with a first handle (191) and a second handle (192), respectively; and/or the presence of a gas in the gas,

the second oil outlet is arranged at the top of the oil filling pump (140).

10. The pipe fitting rust preventive oil feeding apparatus as claimed in claim 1, wherein said bracket (110) is provided with a fixing portion to which said oil outlet pipe (160) is detachably connected.

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