CN220596864U - High-efficient hydraulic crane equipment - Google Patents

Abstract

The utility model discloses a high-efficiency hydraulic crane device, which comprises: the hydraulic system comprises a crane base, a crane bracket, a crane hydraulic push rod, a hydraulic pump and a crane hydraulic box, wherein the crane bracket is arranged on the crane base, the crane hydraulic push rod is arranged on the crane bracket, the crane hydraulic box is arranged on the crane base, the hydraulic pump is arranged on the crane hydraulic box, the hydraulic pump is connected with the crane hydraulic push rod, and cooling structures are arranged on the crane hydraulic box and the crane hydraulic push rod; the utility model relates to the technical field of cranes, which cools liquid used by hydraulic pressure of a crane operation process shaft through a cooling structure, avoids the phenomenon that the temperature of hydraulic oil in a hydraulic system can be greatly increased after long-time operation, and achieves the effect of rapid heat dissipation by guiding heat to the inner side of high-speed wind.

Description

High-efficient hydraulic crane equipment

Technical Field

The utility model relates to the technical field of cranes, in particular to efficient hydraulic crane equipment.

Background

The crane is a multi-action hoisting machine for vertically hoisting and horizontally carrying heavy objects in a certain range, and the working characteristics of the hoisting machine are that the hoisting machine performs intermittent motion, namely corresponding mechanisms of taking materials, transporting, unloading and the like in one working cycle work alternately; however, after the hydraulic crane runs for a long time, the temperature of the hydraulic oil in the hydraulic system can be greatly increased, the temperature of the hydraulic oil can not be completely reduced to a safe temperature only by means of independent heat dissipation of the hydraulic oil, and aiming at the problems, the prior art may have a technical means for solving the problems, but the scheme is intended to provide an alternative or alternative technical scheme.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a high efficiency hydraulic crane apparatus comprising: the hydraulic system comprises a crane base, a crane bracket, a crane hydraulic push rod, a hydraulic pump and a crane hydraulic box, wherein the crane bracket is arranged on the crane base, the crane hydraulic push rod is arranged on the crane bracket, the crane hydraulic box is arranged on the crane base, the hydraulic pump is arranged on the crane hydraulic box, the hydraulic pump is connected with the crane hydraulic push rod, and cooling structures are arranged on the crane hydraulic box and the crane hydraulic push rod;

the cooling structure comprises: the cooling device comprises a coiled cooling pipe, a heat dissipation loop-shaped outer pipe, a circulating drainage pump, a drainage sleeve U-shaped pipe, a cooling assembly, a plurality of horn-shaped sleeve aggregation blocks, a plurality of cooling fins, a plurality of inclined drainage pipes and a plurality of aggregation diffusion circular rings;

the cooling device comprises a heat dissipation loop-shaped outer tube, a circulating drainage pump, a drainage sleeve U-shaped tube, a horn-shaped sleeve gathering block, a heat dissipation fin, a heat dissipation loop-shaped outer tube, a drainage sleeve U-shaped tube, a heat dissipation loop-shaped outer tube and a crane, wherein the coiled cooling tube is arranged on the inner side of the crane hydraulic box;

it should be noted that, in the above-mentioned, the inboard liquid drainage of coiling formula cooling tube of crane hydraulic tank is to the inboard of heat dissipation return shape outer tube through circulation drainage pump, the heat that will dispel the heat in the inboard liquid of heat dissipation return shape outer tube is given off to the gathering diffusion ring through a plurality of fin on the heat dissipation return shape outer tube, simultaneously carry out the drainage with the inboard air of drainage suit U type pipe through cooling module, thereby reach and give off the heat on a plurality of fin and the gathering extension ring, simultaneously carry out supplementary inflation to the drainage suit U type pipe through a plurality of slope drainage tube, simultaneously gather the air of drainage suit U type pipe inboard through a plurality of loudspeaker type suit gathering piece.

Preferably, the cooling assembly comprises: the device comprises a plurality of sleeve bearings, a plurality of heat dissipation and drainage discs, a plurality of heat dissipation and drainage blades, a plurality of conductive magnets, a plurality of conductive metal rods, a pair of conductive driving machines and a pair of conductive driving discs;

the heat dissipation and drainage disc is sleeved on the U-shaped tube through the sleeved bearing, the heat dissipation and drainage blade is installed on the heat dissipation and drainage disc, the conductive metal rod is inserted on the gathering and diffusion ring, the conductive driving machine is installed on the U-shaped tube, the conductive driving disc is installed on the driving end of the conductive driving machine, and the conductive magnet is respectively installed on the heat dissipation and drainage disc and the conductive driving disc;

in the above description, the conduction driving machine is driven to operate, the conduction driving disc is driven to rotate at the driving end of the conduction driving machine, the conduction driving disc is used for driving the plurality of conduction magnets thereon, the plurality of conduction magnets are used for conducting magnetism to the plurality of conduction metal rods on the plurality of aggregation expansion rings, the plurality of conduction metal rods are used for transmitting magnetism to the conduction magnets on the heat dissipation and drainage disc, the plurality of conduction magnets are used for respectively driving the heat dissipation and drainage disc thereon to rotate along the sleeve bearing, the heat dissipation and drainage disc is used for respectively driving the heat dissipation and drainage blades thereon to rotate, and the plurality of heat dissipation and drainage blades are used for conducting unidirectional drainage on air inside the U-shaped tube of the drainage sleeve, so that rapid cooling and heat dissipation are achieved.

Preferably, the crane hydraulic tank is provided with a plurality of U-shaped airflow drainage pipes, a plurality of U-shaped airflow drainage pipes are provided with a return-shaped auxiliary pipe, and the return-shaped auxiliary pipe is provided with a cooling auxiliary pump.

Preferably, the inner sides of the plurality of U-shaped airflow drainage tubes are respectively provided with a unidirectional horn sheet.

Preferably, a flow sensor is arranged on the inner side of the U-shaped tube of the drainage set.

Preferably, a temperature sensor is arranged on the inner side of the crane hydraulic tank.

Advantageous effects

The utility model provides high-efficiency hydraulic crane equipment. The high-efficiency hydraulic crane equipment has the following beneficial effects that compared with the prior art: the liquid used by the hydraulic pressure of the crane operation process shaft is cooled through the cooling structure, the phenomenon that the temperature of hydraulic oil in a hydraulic system can be greatly increased after long-time operation is avoided, and the heat is conducted to the inner side of high-speed wind, so that the effect of rapid heat dissipation is achieved.

Drawings

Fig. 1 is a schematic front cross-sectional view of a high-efficiency hydraulic crane apparatus according to the present utility model.

Fig. 2 is a schematic diagram of a cooling structure of the efficient hydraulic crane equipment according to the present utility model.

Fig. 3 is a three-dimensional schematic diagram of a drainage sleeved U-shaped pipe of the efficient hydraulic crane equipment.

Fig. 4 is a three-dimensional schematic diagram of a crane hydraulic tank of the high-efficiency hydraulic crane device.

In the figure: 1. a crane base; 2. a crane bracket; 3. a hydraulic push rod of the crane; 4. a hydraulic pump; 5. a crane hydraulic tank; 6. a coiled cooling tube; 7. a heat-radiating loop-shaped outer tube; 8. a circulation drainage pump; 9. the drainage is sleeved with a U-shaped tube; 10. the horn-shaped sleeve is provided with a gathering block; 11. a heat sink; 12. tilting the drainage tube; 13. gathering and diffusing the circular ring; 14. sleeving a bearing; 15. a heat dissipation drainage disc; 16. a heat dissipation drainage blade; 17. a conductive magnet; 18. a conductive metal rod; 19. a conductive drive; 20. the conduction drives the disc.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

The present utility model will be described in detail below with reference to the accompanying drawings, as shown in fig. 1-4, the crane bracket 2 is mounted on the crane base 1, the crane hydraulic push rod 3 is mounted on the crane bracket 2, the crane hydraulic tank 5 is mounted on the crane base 1, the hydraulic pump 4 is mounted on the crane hydraulic tank 5, and the hydraulic pump 4 is connected to the crane hydraulic push rod 3, and cooling structures are mounted on the crane hydraulic tank 5 and the crane hydraulic push rod 3; the cooling structure comprises: the cooling device comprises a coiled cooling pipe 6, a heat dissipation return-shaped outer pipe 7, a circulating drainage pump 8, a drainage sleeve U-shaped pipe 9, a cooling component, a plurality of horn-shaped sleeve aggregation blocks 10, a plurality of cooling fins 11, a plurality of inclined drainage pipes 12 and a plurality of aggregation diffusion circular rings 13; the spiral cooling pipe 6 is arranged on the inner side of the crane hydraulic tank 5, the heat dissipation return-shaped outer pipe 7 is sleeved on the outer side of the crane hydraulic tank 5, the circulating drainage pump 8 is connected to the spiral cooling pipe 6 and the heat dissipation return-shaped outer pipe 7, the drainage sleeve U-shaped pipe 9 is sleeved on the heat dissipation return-shaped outer pipe 7, the horn-shaped sleeve-shaped aggregation block 10 is uniformly arranged on the inner side of the drainage sleeve U-shaped pipe 9, the cooling fins 11 are uniformly arranged on the outer side of the heat dissipation return-shaped outer pipe 7, the inclined drainage pipe 12 is uniformly and obliquely inserted on the drainage sleeve U-shaped pipe 9, the aggregation diffusion circular ring 13 is sleeved on the spiral cooling pipe 6, and the crane is connected to the drainage sleeve U-shaped pipe 9; the cooling assembly comprises: the device comprises a plurality of sleeve bearings 14, a plurality of heat dissipation and drainage discs 15, a plurality of heat dissipation and drainage blades 16, a plurality of conductive magnets 17, a plurality of conductive metal rods 18, a pair of conductive driving machines 19 and a pair of conductive driving discs 20; the heat dissipation and drainage disc 15 is sleeved on the drainage sleeve U-shaped tube 9 through the sleeve bearing 14, the heat dissipation and drainage blades 16 are installed on the heat dissipation and drainage disc 15, the conductive metal rod 18 is inserted on the gathering and diffusion circular ring 13, the conductive driving machine 19 is installed on the drainage sleeve U-shaped tube 9, the conductive driving disc 20 is installed on the driving end of the conductive driving machine 19, and the conductive magnets 17 are respectively installed on the heat dissipation and drainage disc 15 and the conductive driving disc 20; a plurality of U-shaped airflow drainage pipes are arranged on the crane hydraulic tank 5, a plurality of U-shaped airflow drainage pipes are provided with a return-shaped auxiliary pipe, and a cooling auxiliary pump is arranged on the return-shaped auxiliary pipe; the inner sides of the U-shaped airflow drainage tubes are respectively provided with a unidirectional horn sheet; a flow sensor is arranged on the inner side of the U-shaped tube 9 of the drainage set; the inner side of the crane hydraulic tank 5 is provided with a temperature sensor.

According to the drawing 1-4, the liquid inside the coiled cooling pipe 6 inside the crane hydraulic tank 5 is guided to the inner side of the heat dissipation loop-shaped outer pipe 7 through the circulating guide pump 8, the heat in the liquid inside the heat dissipation loop-shaped outer pipe 7 is emitted to the gathering and diffusing circular ring 13 through the plurality of cooling fins 11 on the heat dissipation loop-shaped outer pipe 7, and meanwhile, the air inside the guide sleeve U-shaped pipe 9 is guided through the cooling component, so that the heat on the plurality of cooling fins 11 and the plurality of gathering and expanding circular rings is emitted, and meanwhile, the auxiliary inflation is carried out on the guide sleeve U-shaped pipe 9 through the plurality of inclined guide pipes 12, and meanwhile, the air inside the guide sleeve U-shaped pipe 9 is gathered through the plurality of horn-shaped sleeve gathering blocks 10; the conduction driving machine 19 is operated to drive the conduction driving disc 20 on the driving end of the conduction driving machine 19 to rotate, the conduction driving disc 20 is used for driving the conduction magnets 17 on the conduction driving machine 19, the conduction metal rods 18 on the aggregation expansion rings are conducted through the conduction magnets 17, the magnetism is transferred to the conduction magnets 17 on the heat dissipation and conduction disc 15 through the conduction metal rods 18, the heat dissipation and conduction disc 15 on the conduction and conduction disc is respectively driven to rotate along the sleeve bearing 14 through the conduction magnets 17, the heat dissipation and conduction blades 16 on the conduction and conduction disc are respectively driven to rotate through the heat dissipation and conduction disc 15, and the air led to the inner side of the U-shaped tube 9 of the sleeve is conducted through the heat dissipation and conduction blades 16 in a unidirectional mode, so that rapid cooling and heat dissipation are achieved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A high efficiency hydraulic crane apparatus comprising: the hydraulic system is characterized in that the crane support (2) is arranged on the crane base (1), the crane hydraulic push rod (3) is arranged on the crane support (2), the crane hydraulic push rod (3) is arranged on the crane base (1), the crane hydraulic box (5) is arranged on the crane base (1), the hydraulic pump (4) is arranged on the crane hydraulic box (5), the hydraulic pump (4) is connected to the crane hydraulic push rod (3), and cooling structures are arranged on the crane hydraulic box (5) and the crane hydraulic push rod (3);

the cooling structure comprises: the cooling device comprises a coiled cooling pipe (6), a heat dissipation return-shaped outer pipe (7), a circulating drainage pump (8), a drainage sleeve U-shaped pipe (9), a cooling assembly, a plurality of horn-shaped sleeve aggregation blocks (10), a plurality of cooling fins (11), a plurality of inclined drainage pipes (12) and a plurality of aggregation diffusion circular rings (13);

the utility model provides a heat dissipation hydraulic pressure case, including hoist hydraulic pressure case (5), coil type cooling tube (6), heat dissipation return shape outer tube (7) suit in the outside of hoist hydraulic pressure case (5), circulation drainage pump (8) connect in coil type cooling tube (6) and on heat dissipation return shape outer tube (7), drainage suit U type pipe (9) suit in on heat dissipation return shape outer tube (7), loudspeaker type suit gathering piece (10) even install in the inboard of drainage suit U type pipe (9), fin (11) even install in on the outside of heat dissipation return shape outer tube (7), slope drainage tube (12) even slope cartridge is on drainage suit U type pipe (9), gathering diffusion ring (13) suit in on coil type cooling tube (6), the hoist connect in on drainage suit U type pipe (9).

2. The efficient hydraulic crane apparatus according to claim 1, wherein the cooling assembly comprises: the device comprises a plurality of sleeved bearings (14), a plurality of heat dissipation and drainage discs (15), a plurality of heat dissipation and drainage blades (16), a plurality of conductive magnets (17), a plurality of conductive metal rods (18), a pair of conductive driving machines (19) and a pair of conductive driving discs (20);

the heat dissipation drainage disc (15) is sleeved on the drainage sleeve U-shaped tube (9) through the sleeve bearing (14), the heat dissipation drainage blades (16) are installed on the heat dissipation drainage disc (15), the conductive metal rods (18) are inserted on the gathering and diffusion circular ring (13), the conductive driving machine (19) is installed on the drainage sleeve U-shaped tube (9), the conductive driving disc (20) is installed on the driving end of the conductive driving machine (19), and the conductive magnets (17) are respectively installed on the heat dissipation drainage disc (15) and the conductive driving disc (20).

3. The efficient hydraulic crane equipment according to claim 2, wherein a plurality of U-shaped airflow drainage pipes are arranged on the crane hydraulic tank (5), a plurality of U-shaped airflow drainage pipes are provided with a return-shaped auxiliary pipe, and a cooling auxiliary pump is arranged on the return-shaped auxiliary pipe.

4. A high efficiency hydraulic crane apparatus according to claim 3, wherein the inner sides of the plurality of U-shaped draft tubes are respectively provided with unidirectional horn sheets.

5. The efficient hydraulic crane equipment according to claim 4, wherein a flow sensor is arranged on the inner side of the drainage sleeve U-shaped pipe (9).

6. A high efficiency hydraulic crane arrangement according to claim 5, characterized in that the inside of the crane hydraulic tank (5) is provided with a temperature sensor.