CN215485931U - Injection head for continuous pipe operation machine - Google Patents

Abstract

The utility model belongs to the technical field of petroleum drilling and production equipment, and particularly relates to an injection head for a coiled tubing unit. The utility model comprises an injection head main body, wherein an injection head integrated valve group and an actuating element controlled by hydraulic transmission are arranged on the injection head main body, the injection head integrated valve group is connected with the actuating element through a hydraulic pipeline, and the injection head integrated valve group is used for controlling the action of the actuating element. The injection head integrated valve group is arranged on the injection head main body, so that the distance between an injection head execution element and the injection head integrated valve group can be greatly shortened, and a hydraulic pipeline can be greatly simplified; meanwhile, the response time of the injection head actuator can be shortened to a greater extent; in addition, the execution element is controlled through hydraulic transmission, so that after the distance between the injection head integrated valve group and the execution element is shortened, the problem of exhaust caused by overlong hydraulic pipelines can be solved, and the action accuracy of the injection head execution element can be improved.

Description

Injection head for continuous pipe operation machine

Technical Field

The utility model belongs to the technical field of petroleum drilling and production equipment, and particularly relates to an injection head for a coiled tubing unit.

Background

The injection head is the core equipment of a continuous pipe operation machine or a continuous pipe drilling machine in an oil and gas field, and is widely applied to the production increase of petroleum and natural gas or the drilling construction process.

Existing injector heads generally include a drive assembly, a tensioning mechanism, and a clamping mechanism. The driving device drives the transmission assembly to move, and the continuous pipe is lifted or lowered through the movement of the transmission assembly; and in the process of lifting or lowering the coiled tubing, the transmission assembly is tensioned through the tensioning mechanism, and the coiled tubing is clamped through the clamping mechanism. The existing injection heads are generally hydraulically driven, and only actuators and pipelines are arranged on the existing injection heads, while control elements and pump sets of the injection heads are arranged at a hydraulic station. The control element of the injection head comprises an injection head integrated valve group, and the injection head integrated valve group can control the action of the actuating element.

The existing injection head integrated valve group is connected with an injection head through a hydraulic pipeline, the part of the hydraulic pipeline can be retracted and extended through a roller with a multi-channel rotary joint, but the number of channels of the roller rotary joint of the hydraulic pipeline is large, so that the risk of oil leakage of the rotary joint is large; and the swivel joint is expensive, which can result in high overall manufacturing costs. In addition, the existing injection head integrated valve group is far away from the actuator, and the actuator of the existing injection head is mostly driven by hydraulic pressure, so that the response of the actuator of the injection head is slow.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: to among the prior art, be through hydraulic line connection between current injection head integrated valve group and the injection head, but hydraulic line cylinder rotary joint's passageway number is more, and the risk that makes the rotary joint cluster oil is great, and current injection head integrated valve group keeps away from executive component, and the executive component of current injection head carries out the transmission through hydraulic pressure mostly, and then the slow problem of executive component response that can make the injection head provides an injection head for coiled tubing operation machine.

In order to realize the purpose of the utility model, the utility model provides the following technical scheme:

the utility model provides an injection head for coiled tubing machine, includes the injection head main part, be provided with the executive component by hydraulic drive control in the injection head main part, still be provided with the integrated valves of injection head in the injection head main part, the integrated valves of injection head pass through hydraulic line with the executive component is connected, just the integrated valves of injection head is used for controlling the executive component action.

In the utility model, the actuating element of the injection head refers to an element capable of realizing the action of the injection head, and the actuating element can be a clamping mechanism, a tensioning mechanism, a transmission mechanism for driving the continuous pipe to lift or descend and the like in the injection head.

In the injection head provided by the utility model, the injection head integrated valve group is arranged on the injection head main body, and compared with the existing injection head structure, the injection head structure provided by the utility model breaks through the traditional mode that all control elements and pump groups of the injection head are all placed in a hydraulic station. In addition, the injection head integrated valve group is arranged on the injection head main body, so that the distance between the injection head execution element and the injection head integrated valve group can be greatly shortened, and a hydraulic pipeline can be greatly simplified; meanwhile, the response time of the injection head actuator can be shortened to a greater extent; in addition, the execution element is controlled through hydraulic transmission, so that after the distance between the injection head integrated valve group and the execution element is shortened, the problem of exhaust caused by overlong hydraulic pipelines can be solved, and the action accuracy of the injection head execution element can be improved.

Further, the injection head comprises a base with a rectangular pipe, and the injection head main body is installed on the base; the rectangular pipe is used for loading hydraulic oil and/or lubricating oil. According to the utility model, the hydraulic oil and/or the lubricating oil are/is arranged in the rectangular tube of the base, so that the rectangular tube space of the base can be effectively utilized, and the overall layout of the utility model is more compact and beautiful. In the present invention, hydraulic oil is used for hydraulic transmission, and lubricating oil is used for lubricating the actuating element on the injection head.

Furthermore, both ends of the rectangular tube are respectively provided with a sealing plate, and a closed space for loading hydraulic oil and/or lubricating oil is formed between the sealing plates at both ends and the rectangular tube. Through the structure, the hydraulic oil and/or the lubricating oil can be stored by directly utilizing the rectangular pipe, so that the rectangular pipe space of the base can be effectively utilized, and the overall layout of the hydraulic oil and/or the lubricating oil is more compact and attractive.

Further, a first liquid level meter is arranged on at least one sealing plate. Through the first liquid level meter, an operator can know the liquid level of hydraulic oil and/or the liquid level of lubricating oil in the rectangular pipe at any time conveniently.

Further, a first air filter is arranged on the rectangular pipe; the rectangular tube is provided with a cover plate capable of opening or closing the rectangular tube. Through the structure, an operator can open the cover plate conveniently, and then the inside of the rectangular tube can be cleaned conveniently.

Furthermore, an oil tank for storing hydraulic oil and/or lubricating oil is arranged in the rectangular pipe. Through the structure, the oil tank for storing and storing hydraulic oil and/or lubricating oil can be stored by utilizing the internal space of the rectangular pipe, so that the rectangular pipe space of the base can be effectively utilized, and the overall layout of the oil tank is more compact and attractive.

Further, a second air filter is mounted on the oil tank, and a notch is formed in the rectangular pipe; when the oil tank is installed inside the rectangular pipe, the second air filter is located in the gap; and a second liquid level meter is arranged on the oil tank.

The rectangular pipe is provided with the notch, so that the oil tank is convenient to mount, and the second air filter on the oil tank is not interfered with the rectangular pipe; in addition, the second liquid level meter is arranged on the oil tank, so that an operator can know the liquid level of the hydraulic oil and/or the liquid level of the lubricating oil in the oil tank at any time.

Further, the injection head also comprises a lubricating pump group arranged on the injection head main body; the lubricating pump set is an electric lubricating pump set.

The existing injection head is generally provided with pneumatic lubrication on an injection head main body, while the utility model is provided with an electric lubrication pump set on the injection head main body, compared with the existing injection head structure, the utility model reduces gas source pipelines and reduces the dependence on a gas source.

Furthermore, the actuating element comprises a clamping mechanism for clamping the continuous pipe, the clamping mechanism comprises a clamping oil cylinder, and the injection head integrated valve group comprises a clamping mechanism switch, a clamping mechanism control valve and a clamping mechanism pressure reducing valve.

Furthermore, at least one clamping electro-hydraulic cylinder is arranged in the clamping mechanism, the clamping electro-hydraulic cylinder comprises a first cylinder body and a first electro-hydraulic cylinder control valve group connected with the first cylinder body, and a first motor pump group and a first energy accumulator are mounted on the first electro-hydraulic cylinder control valve group.

In the utility model, at least one clamping electro-hydraulic cylinder is arranged in the clamping mechanism, so that the injection head provided by the utility model adopts an electro-hydraulic hybrid driving mode, the response speed of a clamping system can be further improved, and the oil leakage risk and the environmental pollution risk can be reduced.

Further, a driving device and a chain transmission assembly are arranged on the injection head main body, the driving device is used for driving the chain transmission assembly to move, and the chain transmission assembly moves to lift or lower the continuous pipe; the actuating element comprises a tensioning mechanism, the tensioning mechanism comprises a tensioning oil cylinder, and the tensioning mechanism can tension the chain transmission assembly; the injection head integrated valve group comprises a tensioning mechanism switch, a tensioning mechanism control valve and a tensioning mechanism pressure reducing valve.

Furthermore, at least one tensioning electro-hydraulic cylinder is arranged in the tensioning mechanism, the tensioning electro-hydraulic cylinder comprises a second cylinder body and a second electro-hydraulic cylinder control valve group connected with the second cylinder body, and a second motor pump group and a second energy accumulator are mounted on the second electro-hydraulic cylinder control valve group.

In the utility model, at least one tensioning electro-hydraulic cylinder is arranged in the tensioning mechanism, so that the injection head provided by the utility model adopts an electro-hydraulic hybrid driving mode, the response speed of a tensioning system can be further improved, and the oil leakage risk and the environmental pollution risk can be reduced.

Furthermore, the driving device is a motor, and an electric cabinet is arranged on the injection head main body.

The motor has no problem of low-speed instability of the liquid motor, and can theoretically run at the speed of 0. Therefore, the lifting speed and the lowering speed of the injection head provided by the utility model can approach to 0 so as to adapt to the complex continuous pipe operation working condition; meanwhile, the injection head provided by the utility model does not need a large-caliber hydraulic pipeline, so that a hydraulic hose roller can be made very small, and the space on a vehicle can be saved; in addition, the motor can realize frequency conversion digital control, and the adjustment precision is high, so that the injection head provided by the utility model can be accelerated and decelerated more stably; and the motor replaces a hydraulic motor, so that the hidden danger points of site oil leakage are reduced, and the site pollution is reduced.

Moreover, the motor can be conveniently provided with an encoder, the data conversion can be carried out through the encoder to calculate the well-entering depth of the continuous pipe, the calibration can be compared with a continuous pipe well-entering depth counter on the injection head, even a counter device on the injection head can be omitted, and the structure is simplified; compared with a hydraulic motor, the motor can output a torque value more conveniently and accurately, the torque value can be converted into a lifting or injection load value of the coiled tubing, the value can be compared and calibrated with an injection head load sensor, and even the load sensor can be replaced, so that the structure is simplified.

Further, an interface valve group is arranged on the injection head main body, and a joint used for being connected with a hydraulic station is arranged on the interface valve group; the joint is a quick-change joint.

The interface valve group is arranged on the injection head main body and connected with the hydraulic station through the joint on the interface valve group, so that the situation that the injection head integrated valve group cannot work normally due to damage of the injection head integrated valve group can be prevented through the structure provided by the utility model. When the injection head integrated valve bank can be normally used, the interface valve bank is in a closed state; when the injection head integrated valve group cannot be normally used, the interface valve group is in an open state, and the injection head main body is connected with the hydraulic station through a connector on the interface valve group, so that the utility model can conveniently cope with certain emergency situations.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the injection head provided by the utility model, the injection head integrated valve group is arranged on the injection head main body, and compared with the existing injection head structure, the injection head structure provided by the utility model breaks through the traditional mode that all control elements and pump groups of the injection head are all placed in a hydraulic station. In addition, the injection head integrated valve group is arranged on the injection head main body, so that the distance between the injection head execution element and the injection head integrated valve group can be greatly shortened, and a hydraulic pipeline can be greatly simplified; meanwhile, the response time of the injection head actuator can be shortened to a greater extent; in addition, the execution element is controlled through hydraulic transmission, so that after the distance between the injection head integrated valve group and the execution element is shortened, the problem of exhaust caused by overlong hydraulic pipelines can be solved, and the action accuracy of the injection head execution element can be improved.

2. According to the utility model, the hydraulic oil and/or the lubricating oil are/is arranged in the rectangular tube of the base, so that the rectangular tube space of the base can be effectively utilized, and the overall layout of the utility model is more compact and beautiful. In the present invention, hydraulic oil is used for hydraulic transmission, and lubricating oil is used for lubricating the actuating element on the injection head.

3. The existing injection head is generally provided with pneumatic lubrication on an injection head main body, while the utility model is provided with an electric lubrication pump set on the injection head main body, compared with the existing injection head structure, the utility model reduces gas source pipelines and reduces the dependence on a gas source.

4. In the utility model, at least one clamping electro-hydraulic cylinder is arranged in the clamping mechanism, so that the injection head provided by the utility model adopts an electro-hydraulic hybrid driving mode, the response speed of a clamping system can be further improved, and the oil leakage risk and the environmental pollution risk can be reduced; at least one tensioning electro-hydraulic cylinder is arranged in the tensioning mechanism, so that the injection head provided by the utility model adopts an electro-hydraulic hybrid driving mode, the response speed of a tensioning system can be further improved, and the oil leakage risk and the environmental pollution risk can be reduced.

5. The interface valve group is arranged on the injection head main body and connected with the hydraulic station through the joint on the interface valve group, so that the situation that the injection head integrated valve group cannot work normally due to damage of the injection head integrated valve group can be prevented through the structure provided by the utility model. When the injection head integrated valve bank can be normally used, the interface valve bank is in a closed state; when the injection head integrated valve group cannot be normally used, the interface valve group is in an open state, and the injection head main body is connected with the hydraulic station through a connector on the interface valve group, so that the utility model can conveniently cope with certain emergency situations.

Description of the drawings:

FIG. 1 is a schematic three-dimensional structure of the present invention.

Figure 2 is a schematic three-dimensional structure of the injector head body and the pedestal at a first angle in example 1.

Figure 3 is a schematic three-dimensional structure diagram of a second angle of the injector head body and the pedestal according to example 1.

Fig. 4 is a schematic three-dimensional structure of the base in embodiment 1.

Fig. 5 is a schematic three-dimensional structure of a base in embodiment 2.

Figure 6 is a schematic three-dimensional structure of the injector head body and the pedestal at a first angle in example 3.

Figure 7 is a schematic three-dimensional structure diagram of a second angle of the injector head body and the pedestal according to example 3.

Fig. 8 is an enlarged view of a portion a of fig. 7.

Figure 9 is a schematic three-dimensional structure of the injector head body and the base of example 4.

The labels in the figure are: 1-a filling head main body, 2-a filling head integrated valve group, 3-a base, 31-a rectangular pipe, 311-a notch, 32-a sealing plate, 33-a first liquid level meter, 34-a first air filter, 35-a cover plate, 36-an oil tank, 37-a second air filter, 38-a second liquid level meter, 4-a lubrication pump group, 5-a clamping mechanism, 51-a clamping oil cylinder, 52-a clamping electro-hydraulic cylinder, 521-a first cylinder body, 522-a first electro-hydraulic cylinder control valve group, 523-a first motor pump group, 524-a first energy accumulator, 6-a driving device, 7-a chain transmission component, 8-a tensioning mechanism, 81-a tensioning oil cylinder, 82-a tensioning electro-hydraulic cylinder, 9-an electric control box, 10-an interface valve group and 101-a joint, 102-speed reducer, 103-encoder, 104-brake, 105-recording device, 106-load sensor, 107-outer frame, 108-gooseneck component, 110-injector head pump group.

Detailed Description

The present invention will be described in further detail with reference to test examples and specific embodiments. It should be understood that the scope of the above-described subject matter is not limited to the following examples, and any techniques implemented based on the disclosure of the present invention are within the scope of the present invention.

Example 1

As shown in fig. 1 to 4, the present embodiment 1 provides an injector head for a continuous pipe working machine;

this embodiment 1 includes the base 3 and the injector head body 1, installs outer frame 107 on the base 3, and the injector head body 1 is installed on the base 3 to the injector head body 1 is located in outer frame 107, thereby can provide protection and be convenient for the hoist and mount operation of injector head for the injector head body 1 through outer frame 107. Specifically, the base 3 and the injector head body 1 may be connected by a pin. In this embodiment 1, a load sensor 106 is further installed between the base 3 and the injector head body 1, so that in the process of raising and lowering the coiled tubing, in this embodiment 1, the load sensor 106 can be used for measuring the weight of the coiled tubing in real time.

In this embodiment 1, the specific structure of the outer frame 107 is not limited, and a rectangular frame structure may be selected for convenience of implementation. As shown in fig. 1, the present embodiment 1 further provides a gooseneck 108 mounted on the outer frame 107, wherein the gooseneck 108 is used for guiding the coiled tubing into the injector head body 1.

In this embodiment 1, an actuator controlled by hydraulic transmission is disposed on the injector head body 1, as shown in fig. 2, in this embodiment 1, an injector head integrated valve group 2 is further disposed on the injector head body 1, the injector head integrated valve group 2 is connected to the actuator through a hydraulic pipeline, and the injector head integrated valve group 2 is used for controlling the actuator to operate.

In the injection head provided in this embodiment 1, the injection head integrated valve group 2 is installed on the injection head main body 1, and compared with the existing injection head structure, the injection head structure provided in this embodiment 1 breaks the conventional way of placing all the control elements and pump groups of the injection head at the hydraulic station. In addition, in the embodiment 1, the injection head integrated valve group 2 is arranged on the injection head main body 1, so that the distance between the injection head execution element and the injection head integrated valve group 2 can be greatly shortened, and further, the hydraulic pipeline can be greatly simplified; meanwhile, the response time of the injection head actuator can be shortened to a greater extent; in addition, the execution element is controlled through hydraulic transmission, so that after the distance between the injection head integrated valve group 2 and the execution element is shortened, the exhaust problem caused by overlong hydraulic pipelines can be solved, and the action accuracy of the injection head execution element can be improved.

In this embodiment 1, the injection head integrated valve group 2 may integrate an energy accumulator, a pressure sensor, an explosion-proof electromagnetic directional valve, and the like, and the explosion-proof electromagnetic directional valve may use a zero-leakage valve. After the injection head integrated valve group 2 integrates the energy accumulator, the pressure sensor and the electromagnetic directional valve, the pressure of the clamping mechanism 5 and the pressure of the tensioning mechanism 8 can be quickly and accurately automatically adjusted according to load changes in the embodiment 1, and the risk of manual operation errors is reduced. After the electromagnetic directional valve uses a zero-leakage electromagnetic valve and is combined with an energy accumulator, the long-time pressure maintaining function can be realized, and the safety of the injection head is enhanced.

The actuating element of the injection head refers to an element capable of realizing the action of the injection head, and the actuating element can be a clamping mechanism 5, a tensioning mechanism 8, a transmission mechanism for driving the continuous pipe to lift or descend and the like in the injection head.

Specifically, the actuator may be a clamping mechanism 5 for clamping the coiled tubing, the clamping mechanism 5 includes a clamping cylinder 51, and the injector head integrated valve assembly 2 includes a clamping mechanism 5 switch, a clamping mechanism 5 control valve, and a clamping mechanism 5 pressure reducing valve.

In this embodiment 1, as shown in fig. 2 and 3, a driving device 6 and a chain transmission assembly 7 are arranged on the injection head main body 1, the driving device 6 is used for driving the chain transmission assembly 7 to move, and the movement of the chain transmission assembly 7 is used for lifting or lowering the coiled tubing; the actuating element comprises a tensioning mechanism 8, the tensioning mechanism 8 comprises a tensioning oil cylinder 81, and the tensioning mechanism 8 can tension the chain transmission assembly 7; the injection head integrated valve group 2 comprises a tensioning mechanism 8 switch, a tensioning mechanism 8 control valve and a tensioning mechanism 8 pressure reducing valve.

In the present embodiment 1, both the clamping mechanism 5 and the tensioning mechanism 8 are hydraulically driven.

The present embodiment 1 further includes a speed reducer 102 and a brake 104, and the brake 104 is used for braking the driving device 6, and preferably, the brake 104 in the present embodiment 1 may be selected as an electromagnetic brake 104. The driving device 6 is connected with the chain transmission assembly 7 through a speed reducer 102. In this embodiment 1, the specific installation position of the stopper 104 is not limited, and for convenience of implementation, the stopper 104 may be installed at the rear of the driving device 6; of course, the brake 104 may be mounted at the rear of the reduction gear 102.

Preferably, the driving means 6 is a motor and an electric cabinet 9 is provided on the injector head body 1.

As shown in fig. 3, the motor is provided with an encoder 103, and the present embodiment 1 further includes a recording device 105. The encoder 103 can calculate the speed of the motor, the linear speed of the chain transmission assembly 7 can be obtained through the conversion of the transmission ratio, the linear speed of the continuous pipe can be calculated through the depth recording device 105, the speeds of the continuous pipe and the continuous pipe are compared in the lifting and lowering processes of the continuous pipe, and the continuous pipe can be used for monitoring whether the continuous pipe slips or not.

The motor has no problem of low-speed instability of the liquid motor, and can theoretically run at the speed of 0. Therefore, the lifting and lowering speed of the injection head provided by the embodiment 1 can approach 0 so as to adapt to the complex continuous pipe operation working condition; meanwhile, the injection head provided by the embodiment 1 does not need a large-caliber hydraulic pipeline, so that a hydraulic hose roller can be made very small, and the space on a vehicle can be saved; in addition, the motor can realize frequency conversion digital control, and the adjustment precision is high, so that the injection head provided by the embodiment 1 can be accelerated and decelerated more stably; and the motor replaces a hydraulic motor, so that the hidden danger points of site oil leakage are reduced, and the site pollution is reduced.

Moreover, the motor can be conveniently provided with the encoder 103, the data conversion can be carried out through the encoder 103 to calculate the well-entering depth of the continuous tube, the calibration can be compared with a continuous tube well-entering depth counter on the injection head, even a counter device on the injection head can be eliminated, and the structure is simplified; compared with a hydraulic motor, the motor can output a torque value more conveniently and accurately, the torque value can be converted into a lifting or injection load value of the coiled tubing, the value can be compared and calibrated with the injection head load sensor 106, and even the load sensor 106 can be replaced, so that the structure is simplified.

Further, an interface valve group 10 is arranged on the injection head main body 1, and a connector 101 for connecting with a hydraulic station is arranged on the interface valve group 10; preferably, the coupling 101 may be selected to be a quick-change coupling 101.

In this embodiment 1, the interface valve group 10 is disposed on the injector head body 1, and is connected to the hydraulic station through the joint 101 on the interface valve group 10, so that the structure provided in this embodiment 1 can prevent the situation that the injector head integrated valve group 2 is damaged and the injector head integrated valve group cannot work normally. When the injection head integrated valve group 2 can be normally used, the interface valve group 10 is in a closed state; when the injection head integrated valve group 2 cannot be normally used, the interface valve group 10 is in an open state, and the injection head main body 1 is connected with the hydraulic station through the connector 101 on the interface valve group 10, so that the embodiment 1 can cope with certain emergency situations.

As shown in fig. 3, the present embodiment 1 further includes an electric lubrication pump unit mounted on the injector head main body 1. The existing injection head is generally provided with pneumatic lubrication on the injection head main body 1, while the embodiment 1 is provided with an electric lubrication pump set on the injection head main body 1, compared with the existing injection head structure, the embodiment 1 reduces gas source pipelines and dependence on a gas source. Preferably, the electric lubricating pump group can be an explosion-proof servo motor combined lubricating pump, an explosion-proof variable frequency motor combined lubricating pump or a common explosion-proof motor combined lubricating pump and the like.

As shown in fig. 4, the base 3 of the present embodiment 1 has a rectangular tube 31. In the view shown in fig. 4, the number of the rectangular pipes 31 is four, and in the present embodiment 1, the rectangular pipes 31 may be used to load hydraulic oil and lubricating oil. In the embodiment 1, one of the rectangular pipes 31 may be used to load hydraulic oil, and the other rectangular pipe 31 may be used to load lubricating oil. Of course, the number of the rectangular pipes 31 loaded with hydraulic oil or lubricating oil is not limited, and is generally selected according to actual conditions.

In this embodiment 1, the hydraulic oil and the lubricating oil are stored in the rectangular tube 31 of the base 3, so that the space of the rectangular tube 31 of the base 3 can be effectively utilized, and the overall layout of this embodiment 1 can be more compact and beautiful. In this embodiment 1, hydraulic oil is used for the hydraulic transmission, and lubricating oil is used for lubricating the actuators on the injection head. Of course, the rectangular pipe 31 may be used to load only hydraulic oil or only lubricating oil.

In fig. 4, two ends of the rectangular tube 31 are respectively provided with a sealing plate 32, and a closed space for loading hydraulic oil or lubricating oil is formed between the sealing plates 32 at the two ends and the rectangular tube 31, so that the rectangular tube 31 can be directly used to store the hydraulic oil or the lubricating oil in this embodiment 1. Preferably, in fig. 4, in the present embodiment 1, a first liquid level meter 33 is arranged on one of the closing plates 32; furthermore, the first level gauge 33 facilitates the operator to know the level of the hydraulic oil or the level of the lubricating oil in the rectangular pipe 31 at any time. Of course, the first level gauge 33 may be provided on the closing plates 32 at both ends of the rectangular tube 31.

In fig. 4, a first air filter 34 is mounted on the rectangular pipe 31. In addition, in the embodiment 1, the rectangular tube 31 is further provided with a cover plate 35 capable of opening or closing the rectangular tube 31. Thus, the operator can clean the inside of the rectangular pipe 31 by opening the cover plate 35.

Specifically, as shown in fig. 2 and fig. 3, in this embodiment 1, the electric lubrication pump set and the interface valve set 10 may be disposed at the lower end of the injection head main body 1, the electric control box 9 and the injection head integrated valve set 2 may be disposed at the middle of the injection head main body 1, the electric lubrication pump set and the electric control box 9 may be disposed at the same side of the injection head main body 1, and the interface valve set 10 and the injection head integrated valve set 2 may be disposed at the same side of the injection head main body 1.

Example 2

Embodiment 2 provides an injector head for a continuous pipe working machine, and compared with embodiment 1, embodiment 2 is different only in the structure of the base 3 below the injector head body.

Specifically, as shown in fig. 5, in the present embodiment 2, an oil tank 36 for storing hydraulic oil and lubricating oil is provided inside the rectangular pipe 31. In fig. 5, the second air filter 37 and the second liquid level gauge 38 are mounted on the oil tank 36, a notch 311 is provided on the rectangular pipe 31, and the second air filter 37 is located in the notch 311 when the oil tank 36 is mounted inside the rectangular pipe 31.

In the embodiment 2, the notch 311 is formed on the rectangular pipe 31, so that the oil tank 36 is convenient to mount, and the second air filter 37 on the oil tank 36 is not interfered with the rectangular pipe 31; in addition, the second level gauge 38 is provided on the oil tank 36, so that an operator can know the level of the hydraulic oil or the level of the lubricating oil in the oil tank 36 at any time.

Example 3

Embodiment 3 provides an injector head for a continuous pipe working machine, and compared with embodiment 1, embodiment 3 is different only in the structure of the clamping mechanism 5 and the structure of the tensioning mechanism 8.

In the present embodiment 3, the clamping mechanism 5 and the tensioning mechanism 8 adopt an electro-hydraulic hybrid drive.

Specifically, as shown in fig. 6, the tensioning mechanism 8 includes a tensioning oil cylinder 81 and a tensioning electro-hydraulic cylinder 82, the tensioning electro-hydraulic cylinder 82 includes a second cylinder body and a second electro-hydraulic cylinder control valve group connected to the second cylinder body, and a second motor-pump group and a second energy accumulator are mounted on the second electro-hydraulic cylinder control valve group.

As shown in fig. 7 and 8, the clamping mechanism 5 includes a clamping cylinder 51 and a clamping electro-hydraulic cylinder 52, the clamping electro-hydraulic cylinder 52 includes a first cylinder 521 and a first electro-hydraulic cylinder control valve set 522 connected to the first cylinder 521, and the first electro-hydraulic cylinder control valve set 522 is mounted with a first motor-pump set 523 and a first accumulator 524.

In this embodiment 3, the first motor-pump group 523 and the second motor-pump group may both adopt an explosion-proof servo motor combined constant delivery pump, an explosion-proof variable frequency motor combined constant delivery pump, a common explosion-proof motor combined constant delivery pump, an explosion-proof servo motor combined variable delivery pump, an explosion-proof variable frequency motor combined variable delivery pump, or a common explosion-proof motor combined variable delivery pump.

In this embodiment 3, the clamping mechanism 5 and the tensioning mechanism 8 both adopt an electro-hydraulic hybrid driving method, so that the response speeds of the tensioning mechanism 8 and the clamping mechanism 5 can be increased, and the risk of oil leakage and the risk of environmental pollution can be reduced.

Example 4

Embodiment 4 provides a filling head for a continuous pipe working machine, and compared with embodiment 1, embodiment 4 only differs from embodiment 1 in that a filling head pump group 110 serving the filling head integrated valve group 2 is further arranged on the filling head for the continuous pipe working machine provided in embodiment 4;

as shown in fig. 9, injector head pump set 110 is disposed on the rectangular tube 31.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (14)

1. An injector head for a continuous pipe working machine, comprising an injector head body (1), said injector head body (1) being provided with an actuator controlled by hydraulic transmission, characterized in that: the injection head main body (1) is further provided with an injection head integrated valve group (2), the injection head integrated valve group (2) is connected with the execution element through a hydraulic pipeline, and the injection head integrated valve group (2) is used for controlling the execution element to act.

2. The injector head for a continuous pipe working machine according to claim 1, wherein: the injection head further comprises a base (3) with a rectangular pipe (31), and the injection head main body (1) is installed on the base (3);

the rectangular pipe (31) is used for loading hydraulic oil and/or lubricating oil.

3. The injector head for a continuous pipe working machine according to claim 2, wherein: both ends of quarter bend (31) are provided with shrouding (32) respectively, and both ends shrouding (32) with form the airtight space that is used for loading hydraulic oil and/or lubricating oil between quarter bend (31).

4. The injector head for a continuous pipe working machine according to claim 3, wherein: a first liquid level meter (33) is arranged on at least one sealing plate (32).

5. The injector head for a continuous pipe working machine according to claim 3, wherein: a first air filter (34) is arranged on the rectangular pipe (31); the rectangular tube (31) is provided with a cover plate (35) capable of opening or closing the rectangular tube (31).

6. The injector head for a continuous pipe working machine according to claim 2, wherein: an oil tank (36) used for storing hydraulic oil and/or lubricating oil is arranged in the rectangular pipe (31).

7. The injector head for a continuous pipe working machine according to claim 6, wherein: a second air filter (37) is installed on the oil tank (36), and a notch (311) is formed in the rectangular tube (31); and when the oil tank (36) is installed inside the rectangular pipe (31), the second air filter (37) is positioned in the notch (311); and a second liquid level meter (38) is arranged on the oil tank (36).

8. The injector head for a continuous pipe working machine according to any one of claims 1 to 7, characterized in that: the injection head also comprises a lubricating pump group (4) arranged on the injection head main body (1); the lubricating pump set (4) is an electric lubricating pump set.

9. The injector head for a continuous pipe working machine according to any one of claims 1 to 7, characterized in that: the actuating element comprises a clamping mechanism (5) for clamping the continuous pipe, the clamping mechanism (5) comprises a clamping oil cylinder (51), and the injection head integrated valve group (2) comprises a clamping mechanism switch, a clamping mechanism control valve and a clamping mechanism pressure reducing valve.

10. The injector head for a continuous pipe working machine according to claim 9, wherein: at least one clamping electro-hydraulic cylinder (52) is arranged in the clamping mechanism (5), the clamping electro-hydraulic cylinder (52) comprises a first cylinder body (521) and a first electro-hydraulic cylinder control valve group (522) connected with the first cylinder body (521), and a first motor pump group (523) and a first energy accumulator (524) are mounted on the first electro-hydraulic cylinder control valve group (522).

11. The injector head for a continuous pipe working machine according to any one of claims 2 to 7, characterized in that: the injection head main body (1) is provided with a driving device (6) and a chain transmission assembly (7), the driving device (6) is used for driving the chain transmission assembly (7) to move, and the chain transmission assembly (7) moves to lift or lower the continuous pipe;

the actuating element comprises a tensioning mechanism (8), the tensioning mechanism (8) comprises a tensioning oil cylinder (81), and the tensioning mechanism (8) can tension the chain transmission assembly (7); the injection head integrated valve group (2) comprises a tensioning mechanism switch, a tensioning mechanism control valve and a tensioning mechanism pressure reducing valve.

12. The injector head for a continuous pipe working machine according to claim 11, wherein: at least one tensioning electro-hydraulic cylinder (82) is arranged in the tensioning mechanism (8), the tensioning electro-hydraulic cylinder (82) comprises a second cylinder body and a second electro-hydraulic cylinder control valve group connected with the second cylinder body, and a second motor pump group and a second energy accumulator are mounted on the second electro-hydraulic cylinder control valve group.

13. The injector head for a continuous pipe working machine according to claim 11, wherein: the driving device (6) is a motor, and an electric cabinet (9) is arranged on the injection head main body (1).

14. The injector head for a continuous pipe working machine according to any one of claims 1 to 7, characterized in that: an interface valve group (10) is arranged on the injection head main body (1), and a joint (101) for connecting with a hydraulic station is arranged on the interface valve group (10); the connector (101) is a quick-change connector.

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