CN110948217A - Assembly production line for double-cylinder hydraulic drive tower - Google Patents

Abstract

The invention discloses an assembly production line for a double-cylinder type hydraulic drive tower, wherein a carrier jacking station comprises a support base and a support frame, a rotating shaft is arranged at the bottom of the support frame, two ends of the rotating shaft are respectively installed on the support base through rotating bases, a driving device is installed on the support base, the output end of the driving device is connected with the rotating shaft, a positioning clamping plate is installed on the support frame, a hydraulic cylinder bearing assembly station comprises a support base and an installation platform, a connecting lug assembly station comprises a containing support, a containing plate is arranged on the containing support, a first limiting plate is installed on the containing plate, and two second limiting plates are symmetrically arranged on the inner side of the top end of the containing support. The lifting device has the advantages that the supporting legs of the driving tower are placed in advance at the jacking station of the carrier, the position of a part to be installed is determined, the supporting frame is driven to overturn through the rotating shaft and the driving device so as to be erected on the ground, the limiting plates are arranged in the containing support, and the connecting lugs are placed at intervals so as to be convenient to take.

Description

Assembly production line for double-cylinder hydraulic drive tower

Technical Field

The invention belongs to the technical field of solar photo-thermal power generation, and particularly relates to an assembly production line for a double-cylinder hydraulic drive tower.

Background

Along with the development of economy and the progress of society, the demand on energy is higher and higher in the current society, and the traditional energy resources such as coal, petroleum and natural gas are exhausted day by day and are seriously polluted, so that the search of new clean energy is an urgent subject to be faced by human beings. Solar energy is absolutely clean and pollution-free as a novel energy source, is inexhaustible, and can be used in a large range, so that various products based on solar energy, such as a solar water heater, a solar panel, solar power generation and the like, are produced. Among them, solar power generation is one of the solar energy utilization technologies, and the vast amount of electricity resources generated by the solar power generation is superior. The principle of the solar photo-thermal power generation is that sunlight is converged to a solar collecting device through a reflector, heat transfer media (liquid or gas) in the collecting device are heated by the solar energy, and then hot water is formed to steam or directly drive a generator to generate power.

At present, the solar photo-thermal power generation technology enters a rapid development period, and the solar parabolic trough power generation technology is a technology for collecting solar radiation to a heat absorption pipe positioned at a focal line of a paraboloid by a linear parabolic reflector tracking the movement of the sun to heat a heat transfer fluid to generate power. The key equipment of the trough power station mainly comprises a heat collector, a heat absorption pipe and a heat reservoir, wherein the heat collector has a sun-tracking driving core and is a guarantee for fully utilizing solar energy by a photo-thermal collector. By driving the tracking system, the photothermal collector can track the sun from sunrise to sunset. The tracking driving system usually adopts a hydraulic driving mode, and the hydraulic driving tower has the characteristics of high load resisting rigidity and strong operation stability.

Because the volume and the weight of hydraulic drive tower are big, the staff installs very hard when the equipment drive tower to the installation accuracy that requires the drive tower is high, leads to production efficiency low.

Disclosure of Invention

The invention aims to provide an assembly production line for a double-cylinder hydraulic drive tower, which has the advantages of simple structure, convenience for quick assembly, simplicity in operation, manpower and material resource saving and high production efficiency.

The technical scheme of the invention is as follows:

an assembly production line for a double-cylinder hydraulic drive tower comprises a carrier jacking station, a hydraulic cylinder bearing assembly station and an auxiliary hoisting mechanism, wherein the hydraulic cylinder bearing assembly station is positioned at the downstream of the carrier jacking station, and the auxiliary hoisting mechanism is arranged right above the carrier jacking station;

the carrier jacking station comprises a supporting base and a supporting frame, a rotating shaft is arranged at the bottom of the supporting frame and rotatably connected with the supporting base, a driving device is arranged on the supporting base, the output end of the driving device is connected with the supporting frame and used for driving the supporting frame to turn over, a positioning clamping plate is arranged on the supporting frame and used for positioning two supporting legs of a driving tower, and a supporting bottom plate is arranged at the bottom end of the supporting frame and used for ensuring the stability of the supporting legs of the driving tower placed in the supporting frame and corresponds to the position of the hydraulic cylinder bearing assembling station;

the hydraulic cylinder bearing assembling station comprises a supporting base and an installing platform, the supporting base comprises a supporting cross beam and a supporting vertical rod perpendicular to the supporting cross beam, the installing platform is installed at the top end of the supporting vertical rod, and a positioning pin is arranged on the installing platform and used for positioning the position of a hydraulic cylinder bearing;

the auxiliary hoisting mechanism comprises a guide rail and a hoisting device, and the hoisting device moves on the guide rail to be matched with the support frame to complete overturning.

In the technical scheme, the low reaches of pneumatic cylinder bearing equipment station are equipped with engaging lug equipment station in order to be used for holding the engaging lug, engaging lug equipment station includes the splendid attire support, be equipped with the splendid attire board on the splendid attire support, install first limiting plate on this splendid attire board, the inboard symmetry in top of splendid attire support is equipped with two second limiting plates and places in order to be used for the block engaging lug in the splendid attire support.

In the above technical scheme, two ends of the rotating shaft penetrate into the rotating base.

In the above technical scheme, a protrusion is formed at the front end of the positioning clamping plate and used for limiting the top end of the supporting leg.

In the technical scheme, the number of the supporting beams is two, two supporting vertical rods are arranged on each supporting beam, and the mounting platform is arranged between the two supporting vertical rods.

In the technical scheme, the number of the positioning pins is at least 2, and the positioning pins are arranged on each mounting platform along diagonal positions to be used for positioning the hydraulic cylinder bearing seat to be assembled.

In the above technical scheme, the first limiting plate is provided with a plurality of first limiting grooves.

In the above technical scheme, each second limiting plate is provided with a second limiting groove, and the first limiting groove and the second limiting groove have the same size.

In the above technical scheme, the bottom of splendid attire support is equipped with the universal wheel.

Another object of the present invention is to provide an assembling method for an assembling line of a double-cylinder type hydraulic drive tower, comprising the steps of:

(1) two supporting legs of the driving tower are placed on the supporting frame, the positions of the supporting legs of the driving tower are positioned through the supporting bottom plate and the positioning clamping plate, and the base of the hydraulic driving cylinder is installed on the corresponding positions of the supporting legs;

(2) assembling the hydraulic driving cylinder and the bearing seat thereof into a hydraulic cylinder bearing assembly at a hydraulic cylinder bearing assembly station;

(3) adjusting the auxiliary hoisting mechanism to move right above the support frame, starting the driving device, enabling a lifting hook of the auxiliary hoisting mechanism to extend downwards to be hooked tightly with the support frame, driving the support frame to turn over for 90 degrees along a rotating shaft under the action of the driving device and the auxiliary hoisting mechanism so as to enable the support leg of the driving tower to be vertically upright on the ground, turning over to a hydraulic cylinder bearing assembly station, and installing the assembled hydraulic cylinder bearing assembly to the corresponding position of the support leg of the driving tower upright on the ground;

(4) and taking out the connecting lugs, and respectively installing the connecting lugs on two sides of the hydraulic cylinder bearing assembly so as to finish the assembly work.

The invention has the advantages and positive effects that:

1. the carrier jacking station positions the supporting legs of the driving tower which is placed on the supporting frame in advance through the supporting base plate so as to determine the position of the part to be installed, and the supporting frame is driven to overturn through the rotating shaft and the driving device so as to be upright on the ground, so that the subsequent installation is facilitated.

2. The connecting lugs arranged in the containing bracket are arranged at equal intervals, so that on one hand, the mounting and taking of parts are facilitated, and on the other hand, the mutual friction damage between the connecting lugs is effectively avoided; and can guarantee the neatness of the connecting lug and improve the installation efficiency.

Drawings

FIG. 1 is a schematic structural view of an assembly line for a double-cylinder hydraulic drive tower of the present invention;

FIG. 2 is a schematic structural diagram of a vehicle lift-up station according to the present invention;

FIG. 3 is a top view of a fluid cylinder bearing assembly station of the present invention;

fig. 4 is a plan view of the holding rack of the present invention.

In the figure:

1. carrier jacking station 2, hydraulic cylinder bearing assembling station 3 and connecting lug assembling station

4. Auxiliary hoisting mechanism 5, supporting base 6 and supporting frame

7. Rotating shaft 8, rotating base 9, and driving device

10. Positioning clamping plate 11, supporting base 12 and mounting platform

13. Supporting cross beam 14, supporting vertical rod 15 and positioning pin

16. Containing support 17, containing plate 18 and first limiting plate

19. Second limiting plate 20, guide rail 21 and hoisting device

22. Supporting bottom plate 23, first spacing groove 24, second spacing groove

Detailed Description

The present invention will be described in further detail with reference to specific examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the scope of the invention in any way.

Example 1

As shown in the figure, the assembly production line for the double-cylinder hydraulic drive tower comprises a carrier jacking station 1, a hydraulic cylinder bearing assembly device 2 and an auxiliary hoisting mechanism 4, wherein the hydraulic cylinder bearing assembly device 2 is arranged on the right side of the carrier jacking station 1, the carrier jacking station 1 comprises a support base 5 and a support frame 6, a rotating shaft 7 is arranged at the bottom of the support frame 6, two ends of the rotating shaft 7 are respectively installed on the support base 5 through a rotating base 8, two ends of the rotating shaft 7 are installed in the rotating base 8 in a penetrating manner, a drive device 9 (such as a turnover cylinder) is installed on the support base 5, an output shaft of the turnover cylinder 9 is connected with the support frame 6, when the support frame 6 is in a vertical state, a support bottom plate 22 is arranged at the bottom of the support frame 6, and the support bottom plate 22 is used for ensuring the stability of a, and the length of the supporting bottom plate 22 is greater than that of the supporting frame 6; the support frame 6 is driven by the overturning cylinder 9 and matched with the auxiliary hoisting mechanism 4, and the support frame 6 is driven to rotate by 90 degrees by taking the rotating shaft 7 as an axis so as to realize that the support leg of the drive tower placed in the support frame 6 is upright on the ground; the hydraulic cylinder bearing assembling station 2 comprises a supporting base 11 and a mounting platform 12, the supporting base 11 comprises a supporting cross beam 13 mounted on the ground and a supporting vertical rod 14 perpendicular to the supporting cross beam 13, the mounting platform 12 is mounted on the top end of the supporting vertical rod 25, the mounting platform is mounted on the ground and provided with two supporting cross beams 13, two supporting vertical rods 14 are mounted on each supporting cross beam 13, the mounting platform 12 is mounted between the two supporting vertical rods 14, the upper surface of each mounting platform 12 is provided with two positioning pins 15 at diagonal positions, the position of a hydraulic cylinder bearing is used for positioning, the positioning of the hydraulic cylinder bearing is improved, and the hydraulic cylinder bearing seat is convenient to accurately mount.

Further say, install location cardboard 10 on the support frame 6 for two supporting legs of location driving tower, the front end of location cardboard 10 is formed with a arch, is used for the top of the supporting leg of spacing driving tower, and better spacing to the supporting leg prevents to break away from in the supporting leg of upset in-process driving tower from support frame 6.

When the assembly production line is used, the method specifically comprises the following steps:

(1) two supporting legs of the driving tower are placed on the supporting frame 6, the positions of the supporting legs of the driving tower are positioned through the supporting bottom plate 22 and the positioning clamping plate 10, and the base of the hydraulic driving cylinder is installed on the corresponding positions of the supporting legs;

(2) assembling the hydraulic driving cylinder and the bearing seat thereof into a hydraulic cylinder bearing assembly at a hydraulic cylinder bearing assembling station 2;

(3) adjusting the auxiliary hoisting mechanism 4 to move right above the support frame 6, starting the driving device 9, extending a hoisting device 21 of the auxiliary hoisting mechanism 4 downwards to be hooked with the support frame 6, driving the support frame 6 to turn over for 90 degrees along a rotating shaft 7 under the action of the driving device 9 and the auxiliary hoisting mechanism 4 so as to realize that the support leg of the driving tower is vertically erected on the ground and is turned over to a hydraulic cylinder bearing assembly station 2, and installing the assembled hydraulic cylinder bearing assembly to the corresponding position of the support leg of the driving tower erected on the ground;

(4) and taking out the connecting lugs, and respectively installing the connecting lugs on two sides of the hydraulic cylinder bearing assembly so as to finish the assembly work.

The hydraulic driving cylinder and the hydraulic cylinder bearing assembly are installed on the carrier jacking station 1 and the hydraulic cylinder bearing assembly station 2 respectively in advance, then the connecting lugs are installed, workpieces to be assembled are accurately assembled in groups, and then the driving tower is turned over to enable the workpieces assembled in groups to be installed respectively, so that the assembling precision is improved, and meanwhile, the installation efficiency is improved.

Example 2

On the basis of embodiment 1, the engaging lug assembling station 3 comprises a containing support 16, a containing plate 17 is arranged on the containing support 16, a first limiting plate 18 is arranged on the containing plate 17, two second limiting plates 19 are symmetrically arranged on the inner side of the top end of the containing support 16 and used for clamping and limiting the engaging lugs placed in the containing support 16, 6 first limiting grooves 23 are formed in the first limiting plate 18, second limiting grooves 24 are formed in the second limiting plates, and the first limiting grooves 23 and the second limiting grooves 24 are the same in size and used for clamping and limiting the positions of the engaging lugs, so that workers can take out the engaging lugs quickly when assembling; the auxiliary hoisting mechanism 4 comprises a guide rail 20 and a hoisting device 21, wherein the hoisting device 21 (such as an electric hoist) moves on the guide rail 20 and is used for matching with the support frame 6 to complete overturning.

A plurality of spacing grooves make the engaging lug equidistant place hold support 16 in, be convenient for take out the engaging lug on the one hand, and on the other hand effectively avoids the friction between a plurality of engaging lugs, reduces the damage to the work piece, has guaranteed the clean and tidy of engaging lug simultaneously.

Example 3

On embodiment 2's basis, the bottom of splendid attire support 16 is equipped with the universal wheel, conveniently takes the engaging lug, and it is convenient to remove, need not artifical transport engaging lug, labour saving and time saving improves work efficiency.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (10)

1. The utility model provides an assembly line for two cylinder type hydraulic drive towers which characterized in that: the lifting device comprises a carrier jacking station, a hydraulic cylinder bearing assembling station and an auxiliary lifting mechanism, wherein the hydraulic cylinder bearing assembling station is positioned at the downstream of the carrier jacking station, and the auxiliary lifting mechanism is arranged right above the carrier jacking station;

the carrier jacking station comprises a supporting base and a supporting frame, a rotating shaft is arranged at the bottom of the supporting frame and rotatably connected with the supporting base, a driving device is arranged on the supporting base, the output end of the driving device is connected with the supporting frame and used for driving the supporting frame to turn over, a positioning clamping plate is arranged on the supporting frame and used for positioning two supporting legs of a driving tower, and a supporting bottom plate is arranged at the bottom end of the supporting frame and used for ensuring the stability of the supporting legs of the driving tower placed in the supporting frame and corresponds to the position of the hydraulic cylinder bearing assembling station;

the hydraulic cylinder bearing assembling station comprises a supporting base and an installing platform, the supporting base comprises a supporting cross beam and a supporting vertical rod perpendicular to the supporting cross beam, the installing platform is installed at the top end of the supporting vertical rod, and a positioning pin is arranged on the installing platform and used for positioning the position of a hydraulic cylinder bearing;

the auxiliary hoisting mechanism comprises a guide rail and a hoisting device, and the hoisting device moves on the guide rail to be matched with the support frame to complete overturning.

2. The assembly line of claim 1, wherein: the low reaches of pneumatic cylinder bearing equipment station are equipped with engaging lug equipment station in order to be used for holding the engaging lug, engaging lug equipment station includes the splendid attire support, be equipped with the splendid attire board on the splendid attire support, install first limiting plate on this splendid attire board, the inboard symmetry in top of splendid attire support is equipped with two second limiting plates and places in order to be used for the block engaging lug in the splendid attire support.

3. The assembly line of claim 2, wherein: and two ends of the rotating shaft penetrate into the rotating base.

4. The assembly line of claim 3, wherein: the front end of the positioning clamping plate is provided with a bulge for limiting the top end of the supporting leg.

5. The assembly line of claim 4, wherein: the number of the supporting beams is two, two supporting vertical rods are arranged on each supporting beam, and the mounting platform is arranged between the two supporting vertical rods.

6. The assembly line of claim 5, wherein: the quantity of locating pin is 2 at least, every set up along diagonal position on the mounting platform the locating pin is in order to be used for the location to treat the pneumatic cylinder bearing frame of equipment.

7. The assembly line of claim 6, wherein: a plurality of first limiting grooves are formed in the first limiting plate.

8. The assembly line of claim 7, wherein: each second limiting plate is provided with a second limiting groove, and the first limiting groove and the second limiting groove are the same in size.

9. The assembly line of claim 8, wherein: the bottom of the containing support is provided with universal wheels.

10. An assembling method of an assembling line according to any one of claims 1 to 9, comprising the steps of:

(1) two supporting legs of the driving tower are placed on the supporting frame, the positions of the supporting legs of the driving tower are positioned through the supporting bottom plate and the positioning clamping plate, and the base of the hydraulic driving cylinder is installed on the corresponding positions of the supporting legs;

(2) assembling the hydraulic driving cylinder and the bearing seat thereof into a hydraulic cylinder bearing assembly at a hydraulic cylinder bearing assembly station;

(3) adjusting the auxiliary hoisting mechanism to move right above the support frame, starting the driving device, enabling a lifting hook of the auxiliary hoisting mechanism to extend downwards to be hooked tightly with the support frame, driving the support frame to turn over for 90 degrees along a rotating shaft under the action of the driving device and the auxiliary hoisting mechanism so as to enable the support leg of the driving tower to be vertically upright on the ground, turning over to a hydraulic cylinder bearing assembly station, and installing the assembled hydraulic cylinder bearing assembly to the corresponding position of the support leg of the driving tower upright on the ground;

(4) and taking out the connecting lugs, and respectively installing the connecting lugs on two sides of the hydraulic cylinder bearing assembly so as to finish the assembly work.

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