CN113880034A

CN113880034A - Operating mechanism for robot refueling or gas filling system

Info

Publication number: CN113880034A
Application number: CN202010620643.1A
Authority: CN
Inventors: 黄志洪; 袁君伟; 徐森; 黄瑞娟; 张仁鹏
Original assignee: Jiangyin Furen High Tech Co Ltd
Current assignee: Jiangyin Furen High Tech Co Ltd
Priority date: 2020-07-01
Filing date: 2020-07-01
Publication date: 2022-01-04
Anticipated expiration: 2040-07-01
Also published as: CN113880034B

Abstract

The invention relates to an operating mechanism for a robot refueling or gas filling system, which comprises a cover opening system (2) and a refueling or gas filling mechanism (3) arranged below the cover opening system (2) through a suspension assembly (6); uncap system (2) and include shell body (2.1) of installing on joint system (5), pneumatic or electric putter (2.2) and pneumatic or electric motor (2.3) have been erect in shell body (2.1), pneumatic or electric putter (2.2) are stretched and are put in one of shell body (2.1) outer and are served and install contact (2.4), the rotating shaft of pneumatic or electric motor (2.3) is stretched and is put in one of shell body (2.1) outer and serve and install jack catch (2.5). The operating mechanism for the robot refueling or gas filling system can realize mechanical opening and closing of the fuel tank cover and refueling and gas filling operations.

Description

Operating mechanism for robot refueling or gas filling system

Technical Field

The invention relates to an operating mechanism for a refueling or gas filling system, in particular to an operating mechanism applied to a full-automatic refueling or gas filling system based on a robot, and belongs to the technical field of refueling or gas filling machines.

Background

At present, with the high-speed development and the improvement of living standard of the country, the automobile keeping quantity is increased year by year, and the station building of a gas station matched with the automobile is increased year by year (in order to reduce energy consumption, the number of oil-to-gas vehicles is also increased continuously); meanwhile, in consideration of cost reduction, a self-service refueling mode is greatly popularized in a present gas station (or gas station), but for first-time refueling (or gas filling) personnel, old drivers with a large age or weak female drivers, the gun is lifted for self-service refueling (or gas filling), so that the self-service refueling (or gas filling) is forbidden once the tedious operation is performed, and the fuel gun (or gas filling gun) and an oil pipe (or an air pipe) are wound so that the fuel gun (or gas filling gun) and the oil pipe (or the air pipe) cannot be left behind.

Meanwhile, after the new crown epidemic situation of 2020, the fuel (or gas) is added in an unmanned contact mode and is further supported by vast drivers and friends. Therefore, the research and development of a robot refueling or gas filling system are more urgent. The company developed and applied for a Chinese patent CN201910821469.4 'robot-based intelligent oiling machine and an oiling method thereof' in 2019, and the robot oiling system has a semi-automatic oiling function, and further develops a full-automatic robot oiling system by combining market demands on the basis of the semi-automatic oiling function, wherein an action control mechanism for opening a cover and inserting an oil gun becomes the important point of research and development.

Disclosure of Invention

The invention aims to overcome the defects and provides an operating mechanism for a robot refueling or gas filling system, which is simple in structure, convenient to use and capable of flexibly opening and closing a fuel tank cover.

The purpose of the invention is realized as follows:

an operating mechanism for a robot refueling or gas filling system comprises a cover opening system and a refueling or gas filling mechanism connected with the cover opening system;

the cover opening system comprises an outer shell arranged on the joint system, a pneumatic or electric push rod and a pneumatic or electric motor are erected in the outer shell, a contact element (at least one of a sucker or a thumb wheel) is arranged at one end, extending out of the outer shell, of the pneumatic or electric push rod, and a clamping jaw is arranged at one end, extending out of the outer shell, of a rotating shaft of the pneumatic or electric motor;

the invention relates to an operating mechanism for a robot refueling or gas filling system, which is connected with a cover opening system, and the refueling or gas filling mechanism and the cover opening system are not interfered with each other; one preferred embodiment described in this patent is (the scope of protection of this patent includes but is not limited to this installation position mode, and the user can select the appropriate installation position according to the actual requirement): the refueling or gas filling mechanism is installed below the cover opening system through the suspension assembly, the suspension assembly comprises an upper connecting disc fixed on the outer bottom surface of the shell and a lower connecting disc used for fixing the refueling or gas filling mechanism, a hanging plate is installed on the lower connecting disc, and the hanging plate is connected with the bottom surface of the upper connecting disc through a joint bearing.

The invention relates to an operating mechanism for a robot refueling or gas filling system.

The invention relates to an operating mechanism for a robot refueling or gas filling system, which further comprises a visual recognition device, wherein the visual recognition device is positioned above the refueling or gas filling mechanism and a cover opening system.

The invention relates to a fuel filling gun of an operating mechanism for a robot fuel filling or gas filling system, which comprises a first fuel pipe connected between a first gun pipe connector and a first gun pipe, wherein a first gas pipe fixing sleeve rotates on the first gun pipe connector, the left end of the first gun pipe is provided with a step hole, the first fuel pipe is inserted into the small-bore end of the step hole, two ends of an outer gas pipe sleeved outside the first fuel pipe are respectively placed on the step surface of the first gas pipe fixing sleeve and the step surface of the first gun pipe, and a first fuel pipe is sleeved with a return spring which is positioned in a gap between the first fuel pipe and the outer gas pipe; the first oil pipe is a hose, and the outer air pipe is a hose or a corrugated pipe. A sealing ring is arranged between the large-hole-diameter end of the stepped hole of the air pipe fixing sleeve and the outer pipe wall of the left end of the outer air pipe, and a sealing ring is arranged between the large-hole-diameter end of the stepped hole of the gun barrel I and the outer pipe wall of the right end of the outer air pipe. And two ends of the return spring are respectively placed on the step surface of the air pipe fixing sleeve and the step surface of the gun barrel I. The right end of the first gun barrel is pressed with a first guide sleeve through a first locking sleeve. The first guide sleeve is made of flexible materials, and the first gun barrel is made of flexible materials.

The invention relates to a fuel gun of an operating mechanism for a robot fuel or gas filling system, which comprises a second fuel pipe connected between a second gun barrel joint and the second gun barrel, wherein a first gas pipe fixing sleeve, a second gas pipe fixing sleeve and a third gas pipe fixing sleeve are sleeved on the second fuel pipe; the second oil pipe is a hose, and the air pipe is a hose or a corrugated pipe; meanwhile, the device is provided with a second gun barrel which still keeps an air pressure hole as a conventional oil gun, and when oil in an oil tank is filled fully, automatic gun jumping can be realized, and excessive oil filling is avoided; a spring fixing sleeve is screwed on the barrel second or third air pipe fixing sleeve, a convex ring is arranged on the outer wall of the second air pipe fixing sleeve, the left end of the spring is clamped on the convex ring, and the right end of the spring abuts against the spring fixing sleeve; two ends of the oil pipe II are respectively embedded in the gun barrel joint II and the gun barrel II through two oil pipe fixing sleeves; the second end part of the gun barrel is pressed with a second guide sleeve through a first locking sleeve; the second gun barrel is a hose; the second guide sleeve is made of a flexible material.

The invention relates to a fuel gun of an operating mechanism for a robot fuel or gas filling system, which comprises a third fuel pipe connected between a third barrel joint and a third barrel joint, wherein a fixed bushing is sleeved on the third fuel pipe, the left end of the fixed bushing is screwed on the third barrel joint, a movable bushing and a return spring are embedded in a gap between the third fuel pipe and the fixed bushing, the return spring is positioned between the third barrel joint and the movable bushing, and a gas collecting hood is arranged on the excircle at the right end of the movable bushing; the third oil pipe is a hose or a corrugated pipe; the third gun barrel is a hose; the third end part of the gun barrel is pressed with a third guide sleeve through a first locking sleeve, and the guide material is a flexible material; the right end of the fixed bushing is provided with a sealing ring; and a plurality of rollers are arranged on the inner wall of the right end of the movable bushing and are in rolling contact with the outer circular surface of the oil pipe III.

Compared with the prior art, the invention has the beneficial effects that:

the invention can be conveniently applied to a robot refueling or gas filling system, and realizes the opening of an outer fuel tank cover and an inner fuel tank cover and the insertion of a refueling gun or a gas filling gun in a mechanical mode, thereby facilitating the realization of full-automatic unmanned operation in a gas station or a gas filling station, and also needing no driver to get off for operation, thereby conveniently and rapidly realizing the refueling or gas filling operation, realizing the mechanical action mode in the whole operation process, greatly improving the operation efficiency, reducing the expenditure of labor cost and improving the refueling or gas filling experience of customers.

Drawings

Fig. 1 is a schematic structural diagram of an operating mechanism for a robot refueling or gas filling system (a side plate and a top plate are removed).

Fig. 2 is a schematic structural diagram of an operating mechanism for a robot refueling or gas filling system.

Fig. 3 is a front view of fig. 1 of an operating mechanism for a robotic refueling or gas filling system of the present invention.

Fig. 4 to 6 show three structural forms of a fuel nozzle in an operating mechanism for a robot fuel or gas filling system according to the present invention.

Fig. 7 is a schematic structural diagram of a robot refueling or gas filling system constructed according to the invention.

Fig. 8 is a partial schematic view of a three-axis motion system of a robotic refueling or refueling system constructed in accordance with the present invention.

Wherein:

the gun tube comprises a gun tube connector I101, an oil tube I102, a gun tube I103, a trachea fixing sleeve 104, an outer air tube 105, a return spring 106, a locking sleeve I107 and a guide sleeve I108;

a second barrel joint 201, a second oil pipe 202, a second barrel 203, an air pipe 204, a first air pipe fixing sleeve 205, a second air pipe fixing sleeve 206, a third air pipe fixing sleeve 207, a spring 208, a spring fixing sleeve 209, a second locking sleeve 210, a second guide sleeve 211, a convex ring 212 and an oil pipe fixing sleeve 213;

a barrel joint III 301, an oil pipe III 302, a barrel III 303, a fixed bushing 304, a movable bushing 305, a return spring 306, a gas collecting hood 307, a roller 308, a locking sleeve III 309 and a guide sleeve III 310;

the device comprises a three-axis moving system 1, a cover opening system 2, an oil or gas filling mechanism 3, a connecting plate 4, a joint system 5 and a suspension assembly 6;

the device comprises a base 1.1, a movable bedplate 1.2, a translation frame 1.3 and a lifting bedplate 1.4;

the device comprises an outer shell 2.1, a pneumatic or electric push rod 2.2, a pneumatic or electric motor 2.3, a contact element 2.4, a jaw 2.5, a pneumatic slip ring 2.6 and an encoder 2.7;

an upper connecting disc 6.1, a lower connecting disc 6.2, a hanging plate 6.3 and a spring 6.4.

Detailed Description

Referring to fig. 1 to 6, the operating mechanism for a robot refueling or gas filling system according to the present invention includes a lid opening system 2 and a refueling or gas filling mechanism 3 installed below the lid opening system 2 through a suspension assembly 6 (the refueling or gas filling mechanism 3 may be connected to the left side, right side, or upper side, etc. of the lid opening system 2); when the oiling or air-filling mechanism 1 is an oiling gun or an air-filling gun, the oiling gun or the air-filling gun is controlled by a wrench pushed by a pneumatic or electric push rod; when the refueling or gas filling mechanism 1 is an oil pipe or a gas pipe, the refueling or gas filling mechanism is controlled by a solenoid valve connected in series on the oil pipe or the gas pipe, and a sensor is arranged on the oil pipe or the gas pipe and used for detecting whether filling in an oil tank or a gas storage tank is finished;

the cover opening system 2 comprises an outer shell 2.1 arranged on a joint system 5, a pneumatic or electric push rod 2.2 and a pneumatic or electric motor 2.3 are erected in the outer shell 2.1, a contact element 2.4 is arranged at one end, extending out of the outer shell 2.1, of the pneumatic or electric push rod 2.2 (when in use, a sucker in the contact element 2.4 is used for sucking the oil tank cover and then opening the outer oil tank cover, or a poking wheel in the contact element 2.4 is used for poking the outer oil tank cover), and a claw 2.5 is arranged at one end, extending out of the outer shell 2.1, of a rotating shaft of the pneumatic or electric oil tank motor 2.3;

the suspension assembly 6 comprises an upper connecting disc 6.1 fixed on the outer bottom surface of the outer shell 2.1 and a lower connecting disc 6.2 used for fixing the oiling or aerating mechanism 3, a hanging plate 6.3 is mounted on the lower connecting disc 6.2, and the hanging plate 6.3 is connected with the bottom surface of the upper connecting disc 6.1 through a joint bearing;

furthermore, a plurality of springs 6.4 are connected between the upper connecting disc 6.1 and the lower connecting disc 6.2; thereby playing a role of buffering;

further, the pneumatic or electric motor 2.3 is connected with the jaw 2.5 through a pneumatic slip ring 2.6 so as to prevent the air pipe from winding, and an encoder 2.7 is sleeved on a rotating shaft of the pneumatic or electric motor 2.3 and used for recording the rotating angle of the encoder 2.7;

further, the jaw 2.5 is a pneumatic jaw or an electric jaw;

referring to fig. 4, when the refueling or gas filling mechanism 3 is a refueling gun, the refueling or gas filling mechanism comprises a first oil pipe 102 connected between a first gun pipe connector 101 and a first gun pipe 103, a first gas pipe fixing sleeve 104 rotates relative to the first gun pipe connector 101, the left end of the first gun pipe 103 is provided with a step hole, the first oil pipe 102 is inserted into the small-bore end of the step hole, two ends of an outer gas pipe 105 sleeved outside the first oil pipe 102 are respectively placed on the step surface of the first gas pipe fixing sleeve 104 and the step surface of the first gun pipe 103, a return spring 106 is sleeved on the first oil pipe 102, and the return spring 106 is positioned in a gap between the first oil pipe 102 and the outer gas pipe 105;

further, the first oil pipe 102 is a hose, and the outer air pipe 105 is a hose or a corrugated pipe;

further, a sealing ring is arranged between the large-aperture end of the stepped hole of the air tube fixing sleeve 104 and the outer tube wall of the left end of the outer air tube 105, and a sealing ring is arranged between the large-aperture end of the stepped hole of the gun tube I103 and the outer tube wall of the right end of the outer air tube 105;

furthermore, two ends of the return spring 106 are respectively placed on the step surface of the air tube fixing sleeve 104 and the step surface of the gun barrel I103;

furthermore, the right end of the first gun barrel 103 is pressed with a first guide sleeve 108 through a first locking sleeve 107;

further, the first guide sleeve 108 is made of a flexible material, and the first gun barrel 103 is made of a flexible material;

referring to fig. 5, when the refueling or aerating mechanism 3 is a refueling gun, the refueling or aerating mechanism includes a second oil pipe 202 connected between a second barrel connector 201 and a second barrel 203, the second oil pipe 202 is sleeved with a first air pipe fixing sleeve 205, a second air pipe fixing sleeve 206 and a third air pipe fixing sleeve 207, the first air pipe fixing sleeve 205 is in threaded connection with the second barrel connector 201, the second air pipe fixing sleeve 206 is screwed on the first air pipe fixing sleeve 205, the third air pipe fixing sleeve 207 is screwed on the second barrel 203, the left end of an air pipe 204 sleeved outside the second oil pipe 202 is pressed between the first air pipe fixing sleeve 205 and the second air pipe fixing sleeve 206, the right end of the air pipe 204 is pressed between the third air pipe fixing sleeve 207 and the outer wall of the second barrel 203, and the air pipe 204 is sleeved with a spring 208;

further, the second oil pipe 202 is a hose, and the air pipe 204 is a hose or a corrugated pipe;

further, a spring fixing sleeve 209 is screwed on the second barrel 203 or the third air tube fixing sleeve 207, a convex ring 212 is arranged on the outer wall of the second air tube fixing sleeve 206, the left end of the spring 208 is clamped on the convex ring 212, and the right end of the spring 208 abuts against the spring fixing sleeve 209;

furthermore, two ends of the second oil pipe 202 are respectively embedded in the second gun barrel connector 201 and the second gun barrel 203 through two oil pipe fixing sleeves 213;

furthermore, a second guide sleeve 211 is pressed on the end part of the second barrel 203 through a second locking sleeve 210;

further, the second barrel 203 is a hose; the second guide sleeve 211 is made of a flexible material;

when oil is filled, the oil filling gun is inserted into the oil tank by the automatic oil filling system, the oil filling angle of the second gun barrel 203 is automatically adjusted along the two-way direction of the oil inlet pipe of the oil tank under the guiding action of the second guide sleeve 211, the second oil pipe 202, the second air pipe 204 and the second spring 208 are automatically bent and matched with the two-way angle of the oil inlet pipe along with the continuous pushing of the oil filling gun, and when the oil filling gun stops being inserted, the second oil pipe 202, the second air pipe 204 and the second spring 208 are matched; then, starting oiling, and when the oil gun is fully filled with oil, automatically detecting the oil gun and stopping to close an oil way; the automatic oiling system then pulls the oil gun away from the oil tank, and drives the oil pipe two 202 and the air pipe 204 to restore the straightness while the elastic force of the spring 208 is restored.

Referring to fig. 6, when the refueling or aerating mechanism 3 is a refueling gun, it includes a barrel joint three 302 connected between a barrel joint three 301 and a barrel joint three 303, a fixed bushing 304 is sleeved on the barrel joint three 302, and the left end of the fixed bushing 304 is screwed on the barrel joint three 301, a movable bushing 305 and a return spring 306 are nested in the gap between the barrel joint three 302 and the fixed bushing 304, and the return spring 306 is located between the barrel joint three 301 and the movable bushing 305, and a gas collecting hood 307 is arranged on the excircle of the right end of the movable bushing 305;

further, the third oil pipe 302 is a hose or a corrugated pipe; the third gun barrel 303 is a hose;

further, a third guide sleeve 310 is pressed at the end part of the third barrel 303 through a third locking sleeve 309, and the third guide sleeve 310 is made of a flexible material;

further, a sealing ring is arranged at the right end of the fixed bushing 304;

further, a plurality of rollers 308 are arranged on the inner wall of the right end of the movable bushing 305, and the rollers 308 are in rolling contact with the outer circular surface of the oil pipe III 302;

when the automatic oiling system works, an oiling gun is inserted into an oil tank by the automatic oiling system, the gas collecting hood 307 covers an oil tank opening, the oiling angle of the third gun barrel 303 is automatically adjusted along the three-way direction of an oil inlet pipe of the oil tank under the guiding action of the third guide sleeve 310, the return spring 306 is compressed along with the continuous pushing of the oiling gun, the third oil pipe 302 automatically bends and adapts to the three-way angle of the oil inlet pipe along with the third gun barrel 303, and when the oil gun stops being inserted, the adaptation of the three oil pipe 302 is finished; then, starting oiling, and when the oil gun is fully filled with oil, automatically detecting the oil gun and stopping to close an oil way; the automatic refueling system then pulls the gun away from the tank and the return spring 306 pushes out the movable bushing 305 as it recovers, and the roller 308 on the inner wall of the movable bushing 305 returns the bent tube 302 to straight.

Referring to fig. 7 and 8, the robot refueling or gas filling system manufactured based on the operating mechanism comprises a three-axis moving system 1, a cover opening system 2 and a refueling or gas filling mechanism 3, wherein a joint system 5 is mounted on a connecting plate 4 mounted on the three-axis moving system 1; the cover opening system 2 is arranged on the joint system 5, and the oil or gas filling mechanism 3 is arranged below the cover opening system 2 through a suspension assembly 6; the oil or gas filling mechanism 1 is pushed and controlled by a cylinder, an electric push rod or an electromagnetic valve;

further, the joint system 5 is a mechanical arm; or the joint system 5 is formed by sequentially cascading a plurality of joint modules; specifically, the joint system 5 includes a first joint module 5.1, a second joint module 5.2, and a third joint module 5.3; the first joint module 5.1 is installed on the connecting plate 4, the second joint module 5.2 is connected to the first joint module 5.1, the third joint module 5.3 is connected to the second joint module 5.2, and the outer shell 2.1 of the cover opening system 2 is fixedly connected to the third joint module 5.3 through a flange;

referring to fig. 7 and 8, the robot refueling or air-entrapping system which can be formed by the operating mechanism for the robot refueling or air-entrapping system according to the present invention comprises a three-axis moving system 1, a cover opening system 2, and a refueling or air-entrapping mechanism 3, wherein a joint system 5 is installed on a connecting plate 4 installed on the three-axis moving system 1; the cover opening system 2 is arranged on the joint system 5, and the oil or gas filling mechanism 3 is connected to the cover opening system 2; when the oiling or air-filling mechanism 1 is an oiling gun or an air-filling gun, the oiling gun or the air-filling gun is controlled by a wrench pushed by a pneumatic or electric push rod; when the refueling or gas filling mechanism 1 is an oil pipe or a gas pipe, the refueling or gas filling mechanism is controlled by a solenoid valve connected in series on the oil pipe or the gas pipe, and a sensor is arranged on the oil pipe or the gas pipe and used for detecting whether filling in an oil tank or a gas storage tank is finished;

the three-axis moving system 1 comprises a base 1.1, a moving bedplate 1.2 is arranged on the base 1.1 in a sliding mode along the length direction of the base, a translation frame 1.3 is arranged on the moving bedplate 1.2 in a sliding mode along the length direction of the moving bedplate, a lifting bedplate 1.4 is arranged on the translation frame 1.3 in a vertical sliding mode, and the connecting plate 4 is fixedly installed on the lifting bedplate 1.4;

further, the system also comprises a visual recognition device which is positioned above the refueling or gas filling mechanism 3 and the cover opening system 2;

and the robot refuels or the use step of gas system:

step 1, vehicle identification, namely identifying a license plate or a vehicle type of a vehicle to be refueled or aerated through a camera, further acquiring information (such as vehicle type specification, length and width including the vehicle, the position of a fuel tank cover on a vehicle body and the type of the fuel tank cover) of the vehicle to be refueled or aerated, inputting vehicle type information corresponding to the license plate when a customer registers, and further directly identifying the vehicle type through a 3D camera;

step 2, guiding the vehicle to enter an area to be refueled or aerated;

step 3, uncovering:

3.1, the cover opening system 2 moves to be opposite to the external fuel tank cover of the vehicle under the guidance of the visual recognition device, and the external fuel tank cover is opened by using the contact element 2.4 after the pneumatic or electric push rod 2.2 on the cover opening system 2 acts;

3.2, clamping the inner oil tank cover by a clamping claw 2.5 of the cover opening system 2 under the guidance of a visual recognition device, and then driving the clamping claw 2.5 to rotate by a pneumatic or electric motor 2.3 until the clamping claw is opened and removed;

step 4, gun insertion: the joint system 5 rotates to lead the oil filling or air filling mechanism 3 to advance and is inserted into an opening of an oil tank or an air storage tank under the guidance of the visual identification device;

step 5, filling: the wrench is pushed by the air cylinder or the electric push rod, or the oil or gas filling mechanism 3 is opened by the electromagnetic valve to start oil or gas filling, and after the oil or gas filling is finished, the oil or gas filling mechanism 3 is closed and moved away;

step 6, closing the cover:

6.1, inserting the inner fuel tank cover grasped by the claw 2.5 of the cover opening system 2 into the fuel tank opening under the guide of the visual identification device, rotating the inner fuel tank cover under the driving of the movable or electric motor 2.3 until locking, and judging whether the inner fuel tank cover is locked by a torque sensor arranged on a rotating shaft of the movable or electric motor 2.3;

6.2, the cover opening system 2 pushes and closes the outer oil tank cover after the guidance of the visual recognition device;

and 7, reminding the vehicle of leaving after the step 6 is finished.

In addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.

Claims

1. The utility model provides an operating device for robot refuels or gas filling system which characterized in that: comprises a cover opening system (2) and an oil or gas filling mechanism (3) connected with the cover opening system (2);

uncap system (2) and include shell body (2.1) of installing on joint system (5), pneumatic or electric putter (2.2) and pneumatic or electric motor (2.3) have been erect in shell body (2.1), pneumatic or electric putter (2.2) are stretched and are put in shell body (2.1) outer one and are served and install contact (2.4), pneumatic or electric motor's (2.3) rotating shaft stretches and installs jack catch (2.5) in shell body (2.1) outer one, contact (2.4) are at least one in sucking disc or the thumb wheel.

2. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 1, wherein: the oiling or aerating mechanism (3) is connected with the cover opening system (2) through a suspension assembly (6); the suspension assembly (6) comprises an upper connecting disc (6.1) fixed on the outer shell (2.1) and a lower connecting disc (6.2) used for fixing the oiling or aerating mechanism (3), a hanging plate (6.3) is installed on the lower connecting disc (6.2), and the hanging plate (6.3) is connected with the bottom surface of the upper connecting disc (6.1) through a joint bearing.

3. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 2, wherein: and a plurality of springs (6.4) are connected between the upper connecting disc (6.1) and the lower connecting disc (6.2).

4. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 1, wherein: the pneumatic or electric motor (2.3) is connected with the jaw (2.5) through a pneumatic slip ring (2.6), and an encoder (2.7) is sleeved on a rotating shaft of the pneumatic or electric motor (2.3).

5. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 1, wherein: the jaw (2.5) is a pneumatic jaw or an electric jaw.

6. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 1, wherein: the operating mechanism also comprises a visual recognition device which is positioned above the refueling or gas filling mechanism (3) and the cover opening system (2).

7. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 1, wherein: when the oiling or air-filling mechanism (3) is an oiling gun: the oil filling gun comprises a first oil pipe (102) connected between a first gun pipe connector (101) and a first gun pipe (103), a first air pipe fixing sleeve (104) rotates on the first gun pipe connector (101), the left end of the first gun pipe (103) is provided with a step hole, the first oil pipe (102) is inserted into the small-bore end of the step hole, two ends of an outer air pipe (105) sleeved outside the first oil pipe (102) are respectively placed on the step surface of the first air pipe fixing sleeve (104) and the step surface of the first gun pipe (103), a return spring (106) is sleeved on the first oil pipe (102), and the return spring (106) is located in a gap between the first oil pipe (102) and the outer air pipe (105); the first oil pipe (102) is a hose, and the outer air pipe (105) is a hose or a corrugated pipe.

8. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 1, wherein: when the oiling or air-filling mechanism (3) is an oiling gun: the oil gun comprises an oil pipe II (202) connected between a gun barrel joint II (201) and a gun barrel II (203), wherein a first air pipe fixing sleeve (205), a second air pipe fixing sleeve (206) and a third air pipe fixing sleeve (207) are sleeved on the oil pipe II (202), the first air pipe fixing sleeve (205) is in threaded connection with the gun barrel joint II (201), the second air pipe fixing sleeve (206) is arranged on the first air pipe fixing sleeve (205) in a rotating mode, the third air pipe fixing sleeve (207) is arranged on the gun barrel II (203) in a rotating mode, the left end of an air pipe (204) sleeved outside the oil pipe II (202) is pressed between the first air pipe fixing sleeve (205) and the second air pipe fixing sleeve (206), the right end of the air pipe (204) is pressed between the third air pipe fixing sleeve (207) and the outer wall of the gun barrel II (203), and a spring (208) is sleeved outside the air pipe (204); the second oil pipe (202) is a hose, and the air pipe (204) is a hose or a corrugated pipe; a spring fixing sleeve (209) is screwed on the second gun barrel (203) or the third air pipe fixing sleeve (207), a convex ring (212) is arranged on the outer wall of the second air pipe fixing sleeve (206), the left end of the spring (208) is clamped on the convex ring (212), and the right end of the spring (208) abuts against the spring fixing sleeve (209).

9. An operating mechanism for a robotic fuel or gas dispensing system as claimed in claim 1, wherein: when the oiling or air-filling mechanism (3) is an oiling gun: the oil gun comprises a third oil pipe (302) connected between a third barrel joint (301) and a third barrel joint (303), a fixed bushing (304) is sleeved on the third oil pipe (302), the left end of the fixed bushing (304) is screwed on the third barrel joint (301), a movable bushing (305) and a return spring (306) are embedded in a gap between the third oil pipe (302) and the fixed bushing (304), the return spring (306) is positioned between the third barrel joint (301) and the movable bushing (305), and a gas collecting hood (307) is arranged on an excircle at the right end of the movable bushing (305); the third oil pipe (302) is a hose or a corrugated pipe; the third gun barrel (303) is a hose.