CN108361536B

CN108361536B - hydrology cableway tanker aircraft

Info

Publication number: CN108361536B
Application number: CN201810141031.7A
Authority: CN
Inventors: 姚圣勇; 朱孝务
Original assignee: Nanping Hydrology And Water Resources Survey Branch Fujian Province
Current assignee: Nanping Hydrology And Water Resources Survey Branch Fujian Province
Priority date: 2018-02-11
Filing date: 2018-02-11
Publication date: 2019-12-13
Anticipated expiration: 2038-02-11
Also published as: CN108361536A

Abstract

The invention relates to a hydrological cable channel oiling machine, which comprises an oiling device and an oil container; the oil container comprises a container, a pressure plate and an air pressure rod; the container comprises a cylindrical inner cavity, the pressure plate is connected to a piston rod of the air pressure rod, and the edge of the pressure plate is connected with the lower end of the inner cavity of the container in a sealing and slidable manner; the upper end of the inner cavity is provided with a discharge hole, the cavity of the oiler is sleeved on the cable channel, one end of the cavity is hermetically connected with the cable channel, and the other end of the cavity is in clearance fit with the cable channel. The hydrological cable channel oiling machine provided by the invention realizes automation of cable channel high-altitude oiling, reduces the consumption of labor cost compared with the traditional oiling mode depending on manual high-altitude operation, is safer in oiling operation, saves about 50% of working hours, is more uniform in oiling, saves about 60% of butter amount, effectively avoids pollution caused by butter falling into a river, and is more environment-friendly.

Description

Hydrology cableway tanker aircraft

Technical Field

The invention relates to the technical field of hydrological cableway flow measurement facilities, in particular to a hydrological cableway oiling machine.

Background

the hydrological cableway is the most common flow measuring facility of the hydrological stations in China, is a main means for monitoring the flow of a river channel by a hydrological department, is widely popularized and applied and is developed rapidly by an automatic flow measuring system of the hydrological cableway, and various novel intelligent cableways are popularized and used in each hydrological station in each area; no matter the common hydrologic cable channel or the intelligent hydrologic cable channel needs to be oiled and maintained before or after flood, the traditional oiling and maintenance adopts manual cleaning and oiling, belongs to high-altitude operation, and is long in time, so that the cleaning and oiling of the cable channel become heavy and dangerous work in hydrologic work. It is therefore desirable to develop an apparatus that can automatically clean and refuel the cableway.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the hydrology cableway oiling machine can automatically clean and oil a cableway.

In order to solve the technical problems, the invention adopts the technical scheme that: the hydrological cable channel oiling machine comprises an oiler and an oil container;

The oil container comprises a container, a pressure plate and an air pressure rod;

The container comprises a cylindrical inner cavity, the pressure plate is connected to a piston rod of the air pressure rod, and the edge of the pressure plate is connected with the lower end of the inner cavity of the container in a sealing and slidable manner; a discharge hole is formed in the upper end of the inner cavity;

The oil feeder is in a cuboid shape, a strip-shaped cavity is arranged in the oil feeder, and the inner cavity of the container is communicated with the cavity of the oil feeder through a discharge hole; the cavity of the oiler is sleeved on the cable channel, one end of the cavity is hermetically connected with the cable channel, and the other end of the cavity is in clearance fit with the cable channel.

The invention has the beneficial effects that: in the hydrological cableway oiling machine structure, a pressure plate connected with an air pressure rod is hermetically and slidably connected with an inner cavity of an oil container; the grease in the grease container is pressed into the strip-shaped cavity of the grease filler by the pressure plate driven by the slow and uniform upward movement of the air pressure rod, the strip-shaped cavity of the grease filler is sleeved on the cable channel, one end of the strip-shaped cavity is sealed, so that when the grease filler is pushed to move forwards by a cable channel travelling crane, the grease is not coated on the cable channel by the grease filler, and only when the grease filler returns, the grease is uniformly coated on the cable channel through a gap at the other end of the strip-shaped cavity, thereby avoiding the waste of the grease. The hydrological cable channel oiling machine provided by the invention realizes automation of cable channel high-altitude oiling, reduces the consumption of labor cost compared with the traditional oiling mode depending on manual high-altitude operation, is safer in oiling operation, saves about 50% of working hours, is more uniform in oiling, saves about 60% of butter amount, effectively avoids pollution caused by butter falling into a river, and is more environment-friendly.

Drawings

Figure 1 is a schematic illustration of a hydrographic cableway fuel dispenser according to an embodiment of the present invention;

Figure 2 is a front view of a hydrographic cableway fuel dispenser according to an embodiment of the present invention;

Description of reference numerals:

1. An oiler; 11. a main body; 12. a cover body; 13. a hinge; 14. locking; 15. a rubber ring;

2. An oil container; 21. a container; 22. pressing a plate; 23. a pneumatic rod; 24. a first vertical bar; 25. a second vertical bar; 26. a connecting plate; 261. buckling; 27. a rack; 271. a through hole; 28. a gear; 29. an inner four-angle bar; 210. locking bar mount pad.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The most key concept of the invention is as follows: the pressure plate connected with the air pressure rod is connected with the inner cavity of the oil container in a sealing and sliding way; the pressure plate is driven to press the grease in the grease container into the strip-shaped cavity of the grease feeder by the slow and uniform upward movement of the air pressure rod.

referring to fig. 1 and 2, the invention relates to a hydrologic cableway oiling machine, which comprises an oiler 1 and an oil container 2;

the oil container 2 comprises a container 21, a pressure plate 22 and an air pressure rod 23;

The container 21 comprises a cylindrical inner cavity, the pressure plate 22 is connected with a piston rod of the air pressure rod 23, and the edge of the pressure plate 22 is connected with the lower end of the inner cavity of the container 21 in a sealing and sliding way; a discharge hole is formed in the upper end of the inner cavity;

The oil feeder 1 is in a cuboid shape, a strip-shaped cavity is arranged in the oil feeder 1, and the inner cavity of the container 21 is communicated with the cavity of the oil feeder 1 through a discharge hole; the cavity of the oiler 1 is sleeved on the cable channel, one end of the cavity is hermetically connected with the cable channel, and the other end of the cavity is in clearance fit with the cable channel.

The working principle of the hydrological cableway oiling machine is explained as follows: grease for smearing the cable channel is loaded in the grease container 2 in advance, the inner cavity of the grease container 2 is sealed by a pressing plate 22 connected with a pneumatic rod 23 at the lower part, the pneumatic rod 23 moves upwards slowly to drive the pressing plate 22 to continuously and uniformly press the grease in the grease container 2 into the grease filler 1, the cavity of the grease filler 1 is sleeved on the cable channel, the hydrologic cable channel oiling machine is driven to slide along the cable channel by a cable channel travelling crane, so that the grease in the grease filler 1 is uniformly smeared on the cable channel, because one end of the cavity is connected with the cable channel in a sealing mode, the grease is not smeared on the cable channel when the cable channel travelling crane moves forwards, and the grease is evenly smeared in a gap between the other end of the grease container 2 and the cable channel only when the cable channel travelling crane returns.

The beneficial effects of above-mentioned hydrology cableway tanker aircraft lie in: in the hydrological cableway oiling machine structure, a pressure plate 22 connected with an air pressure rod 23 is hermetically and slidably connected with the inner cavity of an oil container 2; the air pressure rod 23 slowly moves upwards at a constant speed to drive the pressing plate 22 to press the grease in the grease container 2 into the strip-shaped cavity of the grease feeder 1, the strip-shaped cavity of the grease feeder 1 is sleeved on the cable channel, one end of the strip-shaped cavity is sealed, so that when the grease feeder 1 is pushed to move forwards in a cable channel travelling crane, the grease feeder 1 does not coat the cable channel with grease, and the grease is uniformly coated on the cable channel through the gap at the other end of the strip-shaped cavity only when the grease feeder 1 returns, so that the grease waste is avoided. The hydrological cable channel oiling machine provided by the invention realizes automation of cable channel high-altitude oiling, reduces the consumption of labor cost compared with the traditional oiling mode depending on manual high-altitude operation, is safer in oiling operation, saves about 50% of working hours, is more uniform in oiling, saves about 60% of butter amount, effectively avoids pollution caused by butter falling into a river, and is more environment-friendly.

Further, in the above structure of the hydrographic cableway fuel charger, the fuel charger 1 includes a main body 11 and a cover 12, the main body 11 is connected to a discharge port of an inner cavity of the container 21, one side of the main body 11 is connected to one side of the cover 12 through a hinge 13, and the other side of the main body 11 is connected to the other side of the cover 12 through a latch 14.

The oil container 2 is designed into a structure capable of being turned over, so that the oil feeder 1 can be conveniently mounted and dismounted on the cable channel.

Further, in the above hydrographic cable channel oiling machine structure, rubber rings 15 are respectively arranged at two ends of a cavity of the oiler 1, and the oiler 1 is connected to the cable channel through the rubber rings 15.

The rubber rings 15 are respectively arranged at the two ends of the cavity of the oil container 2, so that firstly, the abrasion of the cable way steel wire rope caused by direct contact with the aluminum oiling device 1 can be avoided, and secondly, the cable way steel wire rope can adapt to cable way steel wire ropes of different specifications by replacing the rubber rings 15 with different sizes.

Further, in the above hydrological cableway oiling machine structure, the outer side wall of the lower end of the oil container 2 is provided with a first vertical rod 24 which is parallel to the axial direction of the oil container 2, the first vertical rod 24 is rotatably connected with a connecting plate 26, and the connecting plate 26 is connected with a pneumatic rod 23.

The connecting plate 26 is rotatably connected through the first vertical rod 24, the air pressure rod 23 is arranged on the connecting plate 26, when the grease container 2 needs to be filled with grease, the air pressure rod 23 is controlled to contract, the pressing plate 22 is separated from the inner cavity of the grease container 2, the inner cavity of the grease container 2 is exposed by rotating the connecting plate 26, and the grease can be conveniently injected into the grease container 2.

Further, in the above-mentioned hydrological cableway oiling machine structure, the outer side wall of the lower end of the oil container 2 is provided with a second vertical rod 25 parallel to the first vertical rod 24 relative to the other side of the first vertical rod 24, the connecting plate 26 is provided with a buckle 261 relative to the other side of the first vertical rod 24, and the second vertical rod 25 is provided with a clamping groove matched with the buckle 261.

When the buckle 261 on the connecting plate 26 is matched with the clamping groove on the second vertical rod 25, the pressing plate 22 is just aligned with the inner cavity of the oil container 2, and the pressing plate 22 and the inner cavity of the oil container 2 are in slidable sealing connection under the driving of the air pressure rod 23.

Further, in the above-mentioned hydrology cableway tanker aircraft structure, the draw-in groove sets up at second montant 25 lower extreme, second montant 25 lower extreme threaded connection has hexagon nut.

When the buckle 261 of the connecting plate 26 is connected to the slot at the lower end of the second vertical rod 25, the connecting plate 26 can be locked by screwing the hexagonal nut.

Further, in the above structure of the hydrographic cableway fuel charger, the lower end of the pressure plate 22 is connected with a rack 27 parallel to the pneumatic rod 23, the connecting plate 26 is provided with a gear 28 engaged with the rack 27, and the shaft of the gear 28 is fixedly connected with an inner four-corner rod 29.

after oiling is finished, the inner quadrangular rod 29 can be pulled by a wrench to rotate, so that the gear 28 is driven to rotate, the gear 28 rotates to enable the rack 27 to move towards the connecting plate 26 due to the meshing of the gear 28 and the rack 27, and the pressing plate 22 is driven to move towards the connecting plate 26 until the inner cavity of the oil container 2 is moved out, so that butter can be filled into the inner cavity of the oil container 2.

Further, in the above structure of the hydrographic cableway fuel dispenser, a through hole 271 is provided at the upper portion of the side wall of the rack 27, a locking bar mounting seat 210 is provided on the connecting plate 26, and the locking bar mounting seat 210 is connected with a locking bar through a spring.

When the grease container 2 needs to be filled with grease, after the rack 27 drives the pressure plate 22 to move out of the inner cavity of the grease container 2, the locking bar automatically pops into the through hole 271 of the rack 27 under the action of the spring, so that the relative displacement between the rack 27 and the connecting plate 26 is limited, and the movement of the pressure plate 22 is limited.

Further, in the above structure of the hydrographic cableway fuel dispenser, the number of the pneumatic rods 23 is 2, and the specification of the pneumatic rods 23 is 40N.

In the selection of the pneumatic rod 23, if the pressure is too low, the pressure is insufficient for the grease, so that the oiling effect is poor, and if the pressure is too high, the pressing plate 22 is difficult to shrink and return during oil filling. After many tests, two 40N pneumatic rods 23 are selected and installed.

example 1

A hydrologic cableway oiling machine comprises an oiler 1 and an oil container 2; the oil container 2 comprises a container 21, a pressure plate 22 and an air pressure rod 23; the container 21 comprises a cylindrical inner cavity, the pressure plate 22 is connected with a piston rod of the air pressure rod 23, and the edge of the pressure plate 22 is connected with the lower end of the inner cavity of the container 21 in a sealing and sliding way; the upper end of the inner cavity is provided with a discharge hole, the oiler 1 is cuboid, a strip-shaped cavity is arranged in the oiler 1, and the inner cavity of the container 21 is communicated with the cavity of the oiler 1 through the discharge hole; the cavity of the oiler 1 is sleeved on the cableway, one end of the cavity is hermetically connected with the cableway, and the other end of the cavity is in clearance fit with the cableway; the fuel charger 1 comprises a main body 11 and a cover body 12, wherein the main body 11 is connected to a discharge hole in an inner cavity of a container 21, one side edge of the main body 11 is connected to one side edge of the cover body 12 through a hinge 13, and the other side edge of the main body 11 is connected to the other side edge of the cover body 12 through a lock catch 14; two ends of a cavity of the oiler 1 are respectively provided with a rubber ring 15, and the oiler 1 is connected with a cable channel through the rubber rings 15; the outer side wall of the lower end of the oil container 2 is provided with a first vertical rod 24 which is parallel to the axial direction of the oil container 2, the first vertical rod 24 is rotatably connected with a connecting plate 26, and the connecting plate 26 is connected with an air pressure rod 23; a second vertical rod 25 parallel to the first vertical rod 24 is arranged on the other side, opposite to the first vertical rod 24, of the outer side wall of the lower end of the oil container 2, a buckle 261 is arranged on the other side, opposite to the first vertical rod 24, of the connecting plate 26, and the second vertical rod 25 is provided with a clamping groove matched with the buckle 261; the clamping groove is formed in the lower end of the second vertical rod 25, and a hexagonal nut is connected to the lower end of the second vertical rod 25 in a threaded mode; the lower end of the pressure plate 22 is connected with a rack 27 parallel to the air pressure rod 23, the connecting plate 26 is provided with a gear 28 meshed with the rack 27, and the shaft part of the gear 28 is fixedly connected with an inner four-corner rod 29; further, in the above structure of the hydrographic cableway fuel dispenser, the upper portion of the side wall of the rack 27 is provided with a through hole 271, the connecting plate 26 is provided with a locking bar mounting seat 210, and the locking bar mounting seat 210 is connected with a locking bar through a spring; the number of the air pressure rods 23 is 2, and the specification of the air pressure rods 23 is 40N; the side wall of the container 21 is connected to the cableway travelling crane through a connecting rod.

Instructions for use of the hydrographic cableway fuel dispenser described in example 1: when the oil container is used, a locking strip for fixing the rack 27 is pulled up, the inner quadrangular rod 29 is sleeved with a hexagonal wrench, the gear 28 is controlled to rotate, so that the rack 27 moves towards the connecting plate 26, the air pressure rod 23 is shaken up, the pressure plate 22 is shaken up, after the rack 27 drives the pressure plate 22 to move out of the inner cavity of the oil container 2, the locking strip automatically pops into the through hole 271 of the rack 27 under the action of the spring, the relative displacement between the rack 27 and the connecting plate 26 is limited, and the movement of the pressure plate 22 is limited; then the connecting plate 26 is rotated 120 degrees to separate the pressing plate 22 from the oil container 2, at this time, the required butter can be added into the oil container 2, and then the pressing plate 22 is rotated back to the clamping groove for fixing. Then the cover body 12 of the oiler 1 is opened, two ends of the oiler 1 are aligned to the cable channel steel wire rope, the oiler 1 is sleeved on the cable channel and is fixed by the cover body 12, the oil container 2 is connected to the cable channel traveling crane, and when the oiler 1 is fixed, an oil outlet port (one end of the oiler 1 in clearance fit with the cable channel) faces to the traveling direction of the traveling crane, so that the traveling crane does not add oil when the traveling crane advances, and the oil is added when the traveling crane returns, so that grease added when the traveling crane advances is prevented from being scraped by the returned oiling machine to; when the cable channel travelling crane is started, the locking bar is pulled out, so that the pressing plate 22 is driven by the air pressure rod 23 to slowly and uniformly move towards the inner cavity of the oil container 2, and the butter is slowly pressed into the oil filler 1 for filling oil.

Example 2

a hydrographic cableway fuel dispenser as in embodiment 1, further comprising the following features: the oiler 1 and the oiler 2 are made of aluminum, the whole height is 60cm, the width is 35cm, the net weight is 11.3kg, and the full load is 19.3 kg; wherein the oiler 1 is 32cm long, 6.5cm wide and 4.8cm high; the inner diameter of the inner cavity of the oil container 2 is 23.6cm, and the height is 21.4 cm; the rack 27 is 33cm long.

in conclusion, in the hydrological cableway oiling machine structure, the pressure plate connected with the air pressure rod is hermetically and slidably connected with the inner cavity of the oil container; the grease in the grease container is pressed into the strip-shaped cavity of the grease filler by the pressure plate driven by the slow and uniform upward movement of the air pressure rod, the strip-shaped cavity of the grease filler is sleeved on the cable channel, one end of the strip-shaped cavity is sealed, so that when the grease filler is pushed to move forwards by a cable channel travelling crane, the grease is not coated on the cable channel by the grease filler, and only when the grease filler returns, the grease is uniformly coated on the cable channel through a gap at the other end of the strip-shaped cavity, thereby avoiding the waste of the grease. The hydrological cable channel oiling machine provided by the invention realizes automation of cable channel high-altitude oiling, reduces the consumption of labor cost compared with the traditional oiling mode depending on manual high-altitude operation, is safer in oiling operation, saves about 50% of working hours, is more uniform in oiling, saves about 60% of butter amount, effectively avoids pollution caused by butter falling into a river, and is more environment-friendly.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims

1. a hydrologic cableway oiling machine is characterized by comprising an oiling device and an oil container;

2. The hydrographic cableway fuel dispenser according to claim 1, wherein said fuel dispenser comprises a body and a cover, said body being connected to the discharge opening of the container interior, one side of said body being connected to one side of the cover by a hinge, the other side of said body being connected to the other side of the cover by a latch.

3. the hydrologic cable channel fuel dispenser of claim 1, wherein said fuel charger is connected to the cable channel by rubber rings provided at both ends of the cavity of said fuel charger, respectively.

4. The hydrologic cable channel oiling machine as defined in claim 1 wherein the outer side wall of the lower end of the oil container is provided with a first vertical rod which is parallel to the axial direction of the oil container, the first vertical rod is rotatably connected with a connecting plate, and the connecting plate is connected with a pneumatic rod.

5. the hydrologic cable channel oiling machine as defined in claim 4, wherein the outer side wall of the lower end of the oil container is provided with a second vertical rod parallel to the first vertical rod opposite to the first vertical rod, the connecting plate is provided with a buckle opposite to the first vertical rod, and the second vertical rod is provided with a clamping groove matched with the buckle.

6. The hydrologic cable channel fuel dispenser of claim 5 wherein said neck is provided at the lower end of a second vertical rod, said lower end of said second vertical rod being threadedly connected with a hex nut.

7. The hydrologic cable channel oiling machine as defined in claim 4, wherein the lower end of said pressure plate is connected with a rack parallel to the pneumatic rod, said connecting plate is provided with a gear engaged with the rack, and the shaft of said gear is fixedly connected with an inner four-angle rod.

8. The hydrologic cable channel fuel dispenser of claim 7, wherein said rack side wall is provided at an upper portion thereof with a through hole, said connecting plate is provided with a locking bar mounting seat, and said locking bar mounting seat is connected with a locking bar by a spring.

9. the hydrographic cableway fuel dispenser according to claim 4, wherein said pneumatic rods are 2 in number and 40N in gauge.