CN208031698U - Cooler and fire-fighting robot - Google Patents

Abstract

The utility model provides a kind of cooler and fire-fighting robot, is related to the technical field of cooling system, including hydraulic oil cooling component, cooling water assembly and cooling component；Hydraulic oil cooling component and cooling water assembly are arranged side by side；It is connect with cooling water assembly by hydraulic oil cooling component, so as to simultaneously for hydraulic oil cooling component and cool down the hydraulic oil and cooling water that circulate in water assembly by a cooling component, so that hydraulic system and engine are cooled down commonly through a cooling component, the accommodating cavity volume for alleviating hydraulic system existing in the prior art and engine pack is big, cause equipment overall compactness not strong, structure setting is complicated, the technical issues of influencing to use；Compact-sizedization of compact apparatus is realized, space service efficiency, radiating efficiency higher are improved.

Description

Cooler and fire-fighting robot

Technical field

The utility model is related to cooling system technical fields, more particularly, to a kind of cooler and fire-fighting robot.

Background technology

For in mechanical equipment hydraulic system and engine-driven equipment in, will produce considerable heat, generally In the case of hydraulic system and can be started with realizing by heat exchanger, to take away heat out of hydraulic system or engine pack The cooling procedure of thermomechanical components.

Hydraulic system in the prior art and engine pack possess respective cooling system, pass through respective cooling system Cooling treatment is carried out for the equipment.

But hydraulic system in the prior art and engine pack are in the same accommodating cavity, can lead to accommodating cavity Volume increases, and equipment overall compactness can be caused not strong, and structure setting is complicated, for small equipment, influences equipment Whole use.

Utility model content

The purpose of this utility model is to provide cooler and fire-fighting robots, to alleviate hydraulic pressure existing in the prior art The accommodating cavity volume of system and engine pack is big, causes equipment overall compactness not strong, and structure setting is complicated, influences to use Technical problem.

A kind of cooler provided by the utility model, including：Hydraulic oil cooling component, cooling water assembly and cooling component；

Hydraulic oil cooling component and cooling water assembly are arranged side by side, and along the width direction of hydraulic oil cooling component with along cold But the width direction connection of water assembly；

Cooling component is set to the side of hydraulic oil cooling component and cooling water assembly, is used for inside hydraulic oil cooling component The hydraulic oil for the external hydraulic system that circulates, cooling water of the cooling water component internal for the outer that circulates, to pass through cooling Component reduces the temperature of the hydraulic oil and cooling water that circulate in hydraulic oil cooling component and cooling water assembly.

Further, the hydraulic oil cooling component includes hydraulic oil cooling fin, oil inlet and oil outlet；

Hydraulic oil cooling fin is internally provided with the oil pocket for the hydraulic oil that circulates, and oil inlet is set to hydraulic oil cooling fin Top, oil outlet are set to the bottom of hydraulic oil cooling fin, and cooling component is set to the side of cooling fin, to pass through the component that cools down Hydraulic oil cooling fin cooling to hydraulic oil cooling fin.

Further, hydraulic oil cooling fin includes oil inlet passage, multiple oil circuit cooling fins and oil discharge passage；

Oil inlet is set in oil inlet passage, and oil outlet is set to oil discharge passage；

Multiple oil circuit cooling fins are arranged in parallel, and the both ends of multiple oil circuit cooling fins respectively with oil inlet passage and oil discharge passage Connection, oil inlet passage is for multiple oil circuit cooling fins circulation hydraulic oil, oil discharge passage to be used for multiple oil circuit cooling fins respectively Hydraulic oil after cooling is back to external hydraulic system.

Further, cooling water assembly includes cooling water cooling fin, inlet and outlet；

Cooling water cooling fin is internally provided with the water cavity for the cooling water that circulates, and water inlet is set to cooling water cooling fin Top, water outlet are set to the bottom of cooling water cooling fin, and cooling component is set to the side of cooling water cooling fin, to pass through drop Cooling water radiating and cooling of the warm component to cooling water cooling fin.

Further, cooling water cooling fin includes intake tunnel, multiple water route cooling fins and exhalant canal；

Water inlet is set in intake tunnel, and water outlet is set to exhalant canal；

Multiple water route cooling fins are arranged in parallel, and the both ends of multiple water route cooling fins respectively with intake tunnel and exhalant canal Connection, cooling water of the intake tunnel for the outer that circulates respectively to multiple water route cooling fins, exhalant canal is used for will be more Cooling water after a water route cooling fin cooling is back to outer.

Further, it is provided with water filling port at the top of intake tunnel.

Further, the volume of cooling water cooling fin is more than the volume of hydraulic oil cooling fin.

Further, cooler provided by the utility model further includes first shell and second shell；

It is provided with the first accommodating cavity in first shell, the second accommodating cavity, first shell and second are provided in second shell Shell connects, and the first accommodating cavity and the connection of the second accommodating cavity, and hydraulic oil cooling component and cooling water assembly are arranged side by side in the In one accommodating cavity, cooling component is set in the second accommodating cavity.

Further, cooling component includes radiator fan and motor；

Radiator fan and motor are respectively provided with in the second accommodating cavity, and radiator fan is connect with motor drive, and motor is used for band Dynamic radiator fan rotation, radiator fan are flowed for accelerating, to pass through hydraulic oil cooling component and cooling water assembly by cold wind Between, the temperature of the cooling water of hydraulic oil and cooling water assembly circulation for reducing the circulation of hydraulic oil cooling component respectively.

A kind of fire-fighting robot provided by the utility model, including the cooler.

A kind of cooler provided by the utility model, including：Hydraulic oil cooling component, cooling water assembly and cooling component； Hydraulic oil cooling component and cooling water assembly are arranged side by side, and along the width direction of hydraulic oil cooling component and along cooling water assembly Width direction connection；Cooling component is set to the side of hydraulic oil cooling component and cooling water assembly, hydraulic oil cooling component Hydraulic oil of the inside for the external hydraulic system that circulates, cooling water of the cooling water component internal for the outer that circulates, with The temperature of the hydraulic oil and cooling water that circulate in hydraulic oil cooling component and cooling water assembly is reduced by the component that cools down；Pass through liquid Pressure oil cooling component connect with cooling water assembly, so as to by a cooling component simultaneously for hydraulic oil cooling component with The hydraulic oil and cooling water to circulate in cooling water assembly so that hydraulic system and engine are cold commonly through a cooling component But, the accommodating cavity volume for alleviating hydraulic system existing in the prior art and engine pack is big, leads to equipment overall compact Property it is not strong, structure setting is complicated, the technical issues of influencing to use；Compact-sizedization of compact apparatus is realized, sky is improved Between service efficiency, radiating efficiency higher.

Description of the drawings

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific implementation mode or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, other drawings may also be obtained based on these drawings.

Fig. 1 is the overall structure diagram for the cooler that the utility model embodiment provides；

Fig. 2 is the structural schematic diagram under the first visual angle of the cooler that the utility model embodiment provides；

Fig. 3 is the structural schematic diagram under the second visual angle of the cooler that the utility model embodiment provides；

Fig. 4 is the cross-sectional view for the fire-fighting robot that the utility model embodiment provides.

Icon：100- hydraulic oil cooling components；101- hydraulic oil cooling fins；111- oil inlet passages；121- oil circuit cooling fins； 131- oil discharge passages；102- oil inlets；103- oil outlets；200- cools down water assembly；201- cooling water cooling fins；211- water inlets are logical Road；The water routes 221- cooling fin；231- exhalant canals；202- water inlets；203- water outlets；300- cooling components；301- radiation airs Fan；302- motors；400- water filling ports；500- first shells；600- second shells.

Specific implementation mode

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality Novel protected range.

In the description of the present invention, it should be noted that such as occur term "center", "upper", "lower", " left side ", " right side ", "vertical", "horizontal", "inner", "outside" etc., indicated by orientation or positional relationship be orientation based on ... shown in the drawings or Position relationship is merely for convenience of describing the present invention and simplifying the description, and does not indicate or imply the indicated device or member Part must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention. In addition, such as there is term " first ", " second ", " third " are used for description purposes only, be not understood to indicate or imply opposite Importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, such as there is term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or one Connect to body；It can be mechanical connection, can also be electrical connection；It can be directly connected, it can also be indirect by intermediary It is connected, can is the connection inside two elements.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

Fig. 1 is the overall structure diagram of cooler provided in this embodiment；Wherein, hydraulic oil cooling component 100 and cold But water assembly 200 is arranged side by side, and along the width direction of hydraulic oil cooling component 100 and along the width side of cooling water assembly 200 To connection.

Fig. 2 is the structural schematic diagram under the first visual angle of cooler provided in this embodiment；Wherein, the first visual angle be along The positive apparent direction of cooling component 300.

Fig. 3 is the structural schematic diagram under the second visual angle of cooler provided in this embodiment；Wherein, the second visual angle be along The direction of oil circuit cooling fin 121.

Fig. 4 is the cross-sectional view of fire-fighting robot provided in this embodiment；Wherein, cooler is set to fire tower Inside device people, and radiator fan 301 and motor 302 be respectively provided with in the second accommodating cavity.

As shown in Figs 1-4, a kind of cooler provided in this embodiment, including：Hydraulic oil cooling component 100, cooling water group Part 200 and cooling component 300；Hydraulic oil cooling component 100 and cooling water assembly 200 are arranged side by side, and along hydraulic oil cooling group The width direction of part 100 is connect with the width direction along cooling water assembly 200；Cooling component 300 is set to hydraulic oil cooling group The side of part 100 and cooling water assembly 200, hydraulic oil of 100 inside of hydraulic oil cooling component for the external hydraulic system that circulates, Cooling water of 200 inside of cooling water assembly for the outer that circulates, to reduce hydraulic oil cooling group by the component 300 that cools down The temperature of the hydraulic oil and cooling water that circulate in part 100 and cooling water assembly 200.

Wherein, hydraulic oil cooling component 100 and the connection type of cooling water assembly 200 can be a variety of, such as：Welding, It rivets, be connected by screw, preferably, hydraulic oil cooling component 100 and the connection type of cooling water assembly 200 are welding.

Specifically, it is arranged side by side when hydraulic oil cooling component 100 with water assembly 200 is cooled down, at this time a cooling component 300 Hydraulic oil cooling component 100 and cooling water assembly 200 can be covered simultaneously, so as to simultaneously to hydraulic oil cooling component 100 Cooling heat exchange processing is carried out with cooling water assembly 200, in addition, due to 100 internal circulation external hydraulic system of hydraulic oil cooling component The hydraulic oil of system, the cooling water of 200 internal circulation outer of cooling water assembly, when cooling component 300 carries out cooling processing Afterwards, hydraulic oil can be back to external hydraulic system, and cooling water can be back in engine.

Further, further include first shell 500 and second shell 600；It is accommodating that first is provided in first shell 500 Chamber is provided with the second accommodating cavity in second shell 600, and first shell 500 is connect with second shell 600, and the first accommodating cavity and Second accommodating cavity is connected to, and hydraulic oil cooling component 100 and cooling water assembly 200 are arranged side by side in the first accommodating cavity, cooling group Part 300 is set in the second accommodating cavity.

The material of first shell 500 and second shell 600 can be a variety of, such as：Aluminium alloy, stainless steel, cast iron etc., compared with Goodly, the material of first shell 500 and second shell 600 is aluminium alloy, more convenient hydraulic oil cooling component 100 and cooling water The internal flow of component 200 exchanges heat.

A kind of cooler provided in this embodiment, including：Hydraulic oil cooling component 100, cooling water assembly 200 and cooling group Part 300；Hydraulic oil cooling component 100 and cooling water assembly 200 are arranged side by side, and along the width side of hydraulic oil cooling component 100 It is connect to the width direction along cooling water assembly 200；Cooling component 300 is set to hydraulic oil cooling component 100 and cooling water The side of component 200, hydraulic oil of 100 inside of hydraulic oil cooling component for the external hydraulic system that circulates, cooling water assembly 200 Cooling water of the inside for the outer that circulates, to reduce hydraulic oil cooling component 100 and cooling water by the component 300 that cools down The temperature of the hydraulic oil and cooling water that circulate in component 200；It is connect with cooling water assembly 200 by hydraulic oil cooling component 100, So as to the liquid by a cooling component 300 simultaneously for circulation in hydraulic oil cooling component 100 and cooling water assembly 200 Pressure oil and cooling water so that hydraulic system and engine are cooled down commonly through a cooling component 300, are alleviated in the prior art The accommodating cavity volume of existing hydraulic system and engine pack is big, causes equipment overall compactness not strong, and structure setting is complicated, The technical issues of influencing to use；Compact-sizedization of compact apparatus is realized, improves space service efficiency, radiating efficiency is more It is high.

On the basis of the above embodiments, further, the hydraulic oil cooling component 100 of cooler provided in this embodiment Including hydraulic oil cooling fin 101, oil inlet 102 and oil outlet 103；Hydraulic oil cooling fin 101 is internally provided with for the liquid that circulates The oil pocket of pressure oil, oil inlet 102 are set to the top of hydraulic oil cooling fin 101, and oil outlet 103 is set to hydraulic oil cooling fin 101 bottom, cooling component 300 are set to the side of cooling fin, with by the component 300 that cools down to hydraulic oil cooling fin 101 Hydraulic oil cooling fin 101 cools down.

Wherein, the hydraulic oil of external hydraulic system is flowed into liquid by oil inlet 102 by being connected to external hydraulic system In the oil pocket of pressure oil cooling fin 101, after being handled by cooling down, external hydraulic system is flow back into through oil outlet 103.

Further, hydraulic oil cooling fin 101 includes oil inlet passage 111, multiple oil circuit cooling fins 121 and oil discharge passage 131；Oil inlet 102 is set in oil inlet passage 111, and oil outlet 103 is set to oil discharge passage 131；Multiple oil circuit cooling fins 121 It is arranged in parallel, and the both ends of multiple oil circuit cooling fins 121 are connected to oil inlet passage 111 and oil discharge passage 131 respectively, oil inlet passage 111 for multiple oil circuit cooling fins 121 circulation hydraulic oil, oil discharge passage 131 to be for dropping multiple oil circuit cooling fins 121 respectively Hydraulic oil after temperature is back to external hydraulic system.

Wherein, oil inlet 102 and oil outlet 103 are located at oil inlet passage 111 and the diagonal position of oil discharge passage 131, So as to gradually be entered to hydraulic oil in multiple oil circuit cooling fins 121 by oil inlet 102, so as to pass through cooling group Part 300 cools down hydraulic oil.

The material of oil circuit cooling fin 121 can be a variety of, such as：Aluminium alloy, stainless steel, cast iron etc., preferably, oil circuit dissipates The material of backing 121 is aluminium alloy, and the hydraulic oil in more convenient oil circuit cooling fin 121 is cooled down.

In addition, multiple oil circuit cooling fins 121 can also pass through the serpentine-like connection of multiple interconnecting pieces so that multiple oil circuit heat dissipations Piece 121 is in the channel of a connection so that the time that hydraulic oil can circulate in oil circuit cooling fin 121 increases, and more preferably realizes cold But.

Further, cooling water assembly 200 includes cooling water cooling fin 201, water inlet 202 and water outlet 203；Cooling water Cooling fin 201 is internally provided with the water cavity for the cooling water that circulates, and water inlet 202 is set to the top of cooling water cooling fin 201, Water outlet 203 is set to the bottom of cooling water cooling fin 201, and cooling component 300 is set to the side of cooling water cooling fin 201, With the cooling water radiating and cooling by cooling component 300 to cooling water cooling fin 201.

Water inlet 202 is connected to by the cooling water system with outer, and the cooling water of outer is flowed into To the water cavity of cooling water cooling fin 201, after being handled by cooling down, outer is flow back into through water outlet 203.

Further, cooling water cooling fin 201 includes intake tunnel 211, multiple water route cooling fins 221 and exhalant canal 231；Water inlet 202 is set in intake tunnel 211, and water outlet 203 is set to exhalant canal 231；Multiple water route cooling fins 221 It is arranged in parallel, and the both ends of multiple water route cooling fins 221 are connected to intake tunnel 211 and exhalant canal 231 respectively, intake tunnel 211 cooling water for the outer that circulates respectively to multiple water route cooling fins 221, exhalant canal 231 are used for multiple water Cooling water after road cooling fin 221 cools down is back to outer.

Wherein, water inlet 202 and water outlet 203 are located at intake tunnel 211 and the diagonal position of exhalant canal 231, So as to gradually be entered to cooling water in multiple water route cooling fins 221 by water inlet 202, so as to pass through cooling group Part 300 cools down hydraulic pressure water.

The material of water route cooling fin 221 can be a variety of, such as：Aluminium alloy, stainless steel, cast iron etc., preferably, water route dissipates The material of backing 221 is aluminium alloy, and the cooling water in more convenient water route cooling fin 221 is cooled down.

In addition, multiple water route cooling fins 221 can also pass through the serpentine-like connection of multiple interconnecting pieces so that multiple water route heat dissipations Piece 221 is in the channel of a connection so that the time that cooling water can circulate in water route cooling fin 221 increases, and more preferably realizes cold But.

Further, the top of intake tunnel 211 is provided with water filling port 400.

Wherein, after engine is in exsiccosis, give supplementing water by cooling water assembly 200 by water filling port 400.

Further, the volume of cooling water cooling fin 201 is more than the volume of hydraulic oil cooling fin 101.

Specifically, the volume of cooling water cooling fin 201 accounts for the 2/3 of integral heat sink area, and hydraulic oil cooling fin 101 accounts for entirety The 1/3 of heat dissipation area.Furthermore it is possible to which different occupation proportions can be selected for different equipment.

Further, cooling component 300 includes radiator fan 301 and motor 302；Radiator fan 301 and motor 302 are all provided with It sets in the second accommodating cavity, radiator fan 301 is sequentially connected with motor 302, and motor 302 is used to that radiator fan 301 to be driven to rotate, Radiator fan 301 is flowed for accelerating, across hydraulic oil cooling component 100 and cooling water assembly 200, to be used by cold wind In the temperature for the cooling water that the hydraulic oil and cooling water assembly 200 that reduce by 100 circulation of hydraulic oil cooling component respectively circulate.

Wherein, radiator fan 301 carries out air-cooled cooling for hydraulic oil cooling component 100 and cooling water assembly 200.

In addition, the one end of second shell 600 far from first shell 500 is provided with protective cover, radiator fan 301 passes through protection It covers and transmits cold wind into the second accommodating cavity and the first accommodating cavity.

Protective cover influences the rotation of radiator fan 301 for preventing sundries from entering in the second accommodating cavity.

The connection type of protective cover and second shell 600 can be a variety of, such as：It is connected by screw, is clamped, screw thread connects It connects；Preferably, the connection type of protective cover and second shell 600 is to be connected by screw.

Cooler provided in this embodiment, by cooling down the integration of hydraulic oil cooling component 100 and cooling water assembly 200 System designs, cold for the cooling of hydraulic oil and cooling water by multiple oil circuit cooling fins 121 and multiple water route cooling fins 221 But, compact-sizedization of compact apparatus is realized, space service efficiency, radiating efficiency higher are improved.

A kind of fire-fighting robot provided in this embodiment, including above-mentioned cooler；Due to fire-fighting provided in this embodiment The technique effect of robot is identical as the technique effect of the cooler of above-mentioned offer, and details are not described herein again.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should Understand：It still can be with technical scheme described in the above embodiments is modified, either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of cooler, which is characterized in that including：Hydraulic oil cooling component, cooling water assembly and cooling component；

The hydraulic oil cooling component and the cooling water assembly are arranged side by side, and along the width side of the hydraulic oil cooling component It is connect to the width direction along the cooling water assembly；

The cooling component is set to the side of the hydraulic oil cooling component and the cooling water assembly, the hydraulic oil cooling Hydraulic oil of the component internal for the external hydraulic system that circulates, the cooling water component internal is for the cold of outer that circulate But water, with by the cooling component reduce the hydraulic oil to circulate in the hydraulic oil cooling component and the cooling water assembly and The temperature of cooling water.

2. cooler according to claim 1, which is characterized in that the hydraulic oil cooling component includes hydraulic oil heat dissipation Piece, oil inlet and oil outlet；

The hydraulic oil cooling fin is internally provided with the oil pocket for the hydraulic oil that circulates, and the oil inlet is set to the hydraulic oil The top of cooling fin, the oil outlet are set to the bottom of the hydraulic oil cooling fin, and the cooling component is set to cooling fin Side, cooled down to the hydraulic oil cooling fin of the hydraulic oil cooling fin with passing through the cooling component.

3. cooler according to claim 2, which is characterized in that the hydraulic oil cooling fin includes oil inlet passage, multiple Oil circuit cooling fin and oil discharge passage；

The oil inlet is set in the oil inlet passage, and the oil outlet is set to the oil discharge passage；

Multiple oil circuit cooling fins are arranged in parallel, and the both ends of multiple oil circuit cooling fins respectively with the oil inlet passage and The oil discharge passage connection, the oil inlet passage is used for respectively to multiple oil circuit cooling fins circulation hydraulic oil, described fuel-displaced Channel is used to the hydraulic oil after multiple oil circuit cooling fin coolings being back to external hydraulic system.

4. cooler according to claim 2, which is characterized in that the cooling water assembly include cooling water cooling fin, into The mouth of a river and water outlet；

The cooling water cooling fin is internally provided with the water cavity for the cooling water that circulates, and the water inlet is set to the cooling water The top of cooling fin, the water outlet are set to the bottom of the cooling water cooling fin, and the cooling component is set to described cold But the side of water-cooled piece, with the cooling water radiating and cooling by the cooling component to the cooling water cooling fin.

5. cooler according to claim 4, which is characterized in that the cooling water cooling fin includes intake tunnel, multiple Water route cooling fin and exhalant canal；

The water inlet is set in the intake tunnel, and the water outlet is set to the exhalant canal；

Multiple water route cooling fins are arranged in parallel, and the both ends of multiple water route cooling fins respectively with the intake tunnel and The exhalant canal connection, cooling of the intake tunnel for the outer that circulates respectively to multiple water route cooling fins Water, the exhalant canal are used to the cooling water after multiple water route cooling fin coolings being back to outer.

6. cooler according to claim 5, which is characterized in that be provided with water filling port at the top of the intake tunnel.

7. cooler according to claim 4, which is characterized in that the volume of the cooling water cooling fin is more than the hydraulic pressure The volume of oily cooling fin.

8. according to claim 1-7 any one of them coolers, which is characterized in that further include first shell and second shell；

It is provided with the first accommodating cavity in the first shell, the second accommodating cavity, the first shell are provided in the second shell Body is connect with the second shell, and first accommodating cavity is connected to second accommodating cavity, the hydraulic oil cooling component It is arranged side by side in first accommodating cavity with the cooling water assembly, the cooling component is set to second accommodating cavity It is interior.

9. cooler according to claim 8, which is characterized in that the cooling component includes radiator fan and motor；

The radiator fan and the motor be respectively provided with in second accommodating cavity, the radiator fan and the motor drive Connection, the motor is for driving the radiator fan to rotate, and the radiator fan is flowed for accelerating, to be passed through by cold wind Between the hydraulic oil cooling component and the cooling water assembly, the liquid for reducing the hydraulic oil cooling component circulation respectively The temperature of pressure oil and the cooling water of the cooling water assembly circulation.

10. a kind of fire-fighting robot, which is characterized in that including such as claim 1-9 any one of them cooler.