JP4077239B2 - Heat exchange equipment for construction machinery - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a heat exchange device for a construction machine that is preferably used in construction machines such as a hydraulic excavator and a hydraulic crane.
[0002]
[Prior art]
In general, construction machines such as a hydraulic excavator and a hydraulic crane are provided with a self-propelled lower traveling body, an upper revolving body that is turnable on the lower traveling body, and an upper revolving structure that can be raised and lowered. And a working device.
[0003]
The upper swing body includes a swing frame as a base, a cab or canopy provided on the swing frame and covering a driver's seat, an exterior cover provided on the swing frame and accommodating an engine, and the rear end of the swing frame And a counterweight provided in the section, and a heat exchange device is provided on the revolving frame in the vicinity of the engine.
[0004]
Here, the heat exchanging device is mounted on the revolving frame and is provided facing the heat exchanger such as a radiator or an oil cooler for cooling a liquid such as engine cooling water or hydraulic oil, and the heat exchanger. A cooling fan that supplies cooling air and a dust-proof net that is provided on the upstream side of the heat exchanger in the middle of the cooling air by the cooling fan and captures dust in the cooling air (for example, Japanese Patent Laid-Open No. Hei 11). -190215 gazette etc.). The heat exchanger is roughly constituted by a frame body attached to the revolving frame and a heat radiating portion that is held by the frame body and radiates heat such as engine cooling water and hydraulic oil.
[0005]
When the cooling air from the cooling fan passes through the radiator, the heat exchanger cools the engine cooling water by exchanging heat of the engine cooling water flowing through the radiator at the heat radiating section. When the oil passes through the oil cooler, the heat of the working oil flowing through the oil cooler is heat-exchanged by the heat dissipating section to cool the working oil.
[0006]
The dust-proof net captures dust mixed in the cooling air supplied to the heat exchanger, thereby preventing the dust from adhering to a radiator, an oil cooler, and the like.
[0007]
In this case, since it is necessary to periodically clean the captured dust, the dust-proof net is provided so as to be attached to and removed from the heat exchanger. For this reason, in the heat exchanger, rail-shaped guide members are located on both sides in the width direction (left and right) of the frame so as to guide the dustproof net to the position facing the heat exchanger. Elongated and provided.
[0008]
[Problems to be solved by the invention]
Here, the above-described rail-shaped guide member according to the prior art is provided so as to extend upward and downward on both sides in the width direction of the frame constituting the heat exchanger, and the guide member has a width of the dustproof net. Grooves that are slidably engaged with the side edges in the direction are formed extending upward and downward.
[0009]
And when attaching and removing the dustproof net to the heat exchanger, with the side edge of the dustproof net in the width direction engaged with the groove of the guide member, It is configured to be inserted and removed downward.
[0010]
However, in the above-described prior art, the direction when the dustproof net is attached to and removed from the heat exchanger is limited to one direction (upward and downward) by the guide member. It is necessary to secure a space enough to move, and there is a problem that workability at the time of attaching and removing the dustproof net is deteriorated.
[0011]
In particular, in a hydraulic excavator having a small turning radius such as a small turning hydraulic excavator, the counterweight is arranged as close to the engine as possible, so the space in which the dustproof net can move is narrow, and the direction in which the dustproof net moves Is restricted in one direction, there is a problem that workability at the time of attaching and detaching the dustproof net is further deteriorated.
[0012]
The present invention has been made in view of the above-described problems of the prior art, and provides a heat exchange device for a construction machine that can improve workability when a dustproof net is attached to and removed from a heat exchanger. The purpose is that.
[0013]
[Means for Solving the Problems]
  In order to solve the above-described problems, the present invention is attached to a frame constituting a construction machine.Frame and the frameHeated liquidHeat ofTheHeat dissipationDoConsists of heat dissipation partA heat exchanger, a cooling fan provided facing the heat exchanger and supplying cooling air to the heat exchanger, and facing upstream from the heat exchanger in the course of the cooling air flow by the cooling fan And a dustproof net that captures dust in the cooling airA fixing member provided on the frame of the heat exchanger for fixing the upper portion of the dustproof net;It is applied to a heat exchange device for a construction machine comprising
[0014]
  The feature of the configuration adopted by the invention of claim 1 is that a holding member is provided on the upstream side of the heat exchanger to hold the lower part of the dustproof net at a position facing the heat exchanger.The clamping member includes a bracket whose proximal end is fixed to the frame or the heat exchanger and whose distal end extends to the upstream side of the heat exchanger, and before and after the cooling air flow direction on the distal end of the bracket. A pair of insertion guides that protrude upwardly in a state of facing each other with a certain gap and serve as a guide when sandwiching the lower part of the dustproof net, and the flow of cooling air through the lower part of the dustproof net Cushioning materials mounted on the pair of insertion guides for elastically supporting the front and rear of the direction.It is to have done.
[0015]
  With this configuration,The lower part and the upper part of the dust-proof net are fixed by fixing the upper part of the dust-proof net with the fixing member while the lower part of the dust-proof net is sandwiched between the front and rear of the cooling air flow direction by the clamping member. And can be attached stably at two locations. AndWhen the dustproof net is attached to and removed from the heat exchanger, the movement direction of the dustproof net is not limited by the clamping member while the lower part of the dustproof net is detached from the clamping member.The For this reason, Dust-proof net as a clamping memberImprisonmentHowever, it can be moved in any direction, and workability when attaching and removing the dustproof net can be improved.
[0016]
  in this caseThe clamping member includes a bracket whose proximal end is fixed to the frame or the heat exchanger and whose distal end extends to the upstream side of the heat exchanger;Before and after the flow direction of the cooling airProtruding upward and serving as a guide when inserting to hold the lower part of the dustproof netA pair ofInsert guide and lower part of dustproof netHold it before and after the cooling air flow directionTo support elasticallyThe pair ofInsert guideEach fittedWith cushioned materialHaveThe
[0017]
  With this configuration, when the lower part of the dustproof net is inserted into the insertion guide on the bracket tip side, the dustproof net isA pair ofIt is guided by the insertion guide and is arranged at a position facing the heat exchanger. Also,SaidInsert guideRespectivelyThe provided cushion material covers the lower part of the dust-proof net.Hold it before and after the cooling air flow directionSince it is elastically supported, the cushioning material can suppress the dustproof net from fluttering under the wind pressure of the cooling air.
[0020]
  Claim2According to the invention, the lower part of the dustproof net is provided with a concave groove that opens at the lower end and extends downward, and the clamping member is provided with an engaging member that engages the concave groove of the dustproof net. There is.
[0021]
By configuring in this way, the lower part of the dust-proof net is sandwiched by the clamping member, and the heat exchanger can be obtained simply by engaging the concave groove provided in the lower part of the dust-proof net with the engaging member of the clamping member. It is possible to easily position the dustproof net with respect to.
[0022]
  Claim3According to the present invention, the dustproof net is constituted by a plurality of divided dustproof nets arranged in parallel on the upstream side of the heat exchanger in substantially the same plane.
[0023]
With this configuration, the space required for attaching and removing the dustproof net to / from the heat exchanger can be reduced according to the size of each dustproof net segment, and installation and removal of the dustproof net Work can be done easily.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a heat exchanging device for a construction machine according to the present invention will be described in detail with reference to FIG. 1 to FIG.
[0025]
In the figure, reference numeral 1 denotes a small-swivel hydraulic excavator to which the present embodiment is applied. The hydraulic excavator 1 can swing on a self-propelled track-type lower traveling body 2 and the lower traveling body 2. And a work device (not shown) provided on the front side of the upper swing body 3 so as to be able to move up and down.
[0026]
The upper swing body 3 includes, for example, a swing frame 4 serving as a base formed using a thick steel plate and the like, and a canopy 5 provided on the swing frame 4 and covering a driver's seat (not shown) from above. The outer cover 6 is provided on the right side and the rear side of the canopy 5 so as to be openable and closable and accommodates an engine 8, a heat exchange device 11 and the like which will be described later, and a counterweight 7 provided at the rear end of the revolving frame 4. And is roughly composed.
[0027]
Here, as shown in FIG. 3 and the like, the revolving frame 4 is provided on the left and right vertical plates 4A and 4A, the bottom plate 4B provided on the lower surface side of each vertical plate 4A, and the bottom plate 4B. The radiator support base 4C and the like are included.
[0028]
An engine 8 is located on the front side of the counterweight 7 and is provided on the bottom plate 4B of the revolving frame 4. The engine 8 is arranged in a horizontal state extending in the left and right directions. A hydraulic pump 9 is attached to the left end side of the engine 8, and the hydraulic pump 9 is driven by the engine 8 to discharge hydraulic oil toward a hydraulic actuator (not shown) mounted on the hydraulic excavator. is there.
[0029]
Here, in order to reduce the turning radius, the upper swing body 3 is formed in a substantially circular shape when viewed from above, and the counterweight 7 is arranged as close to the engine 8 as possible. For this reason, the space in the exterior cover 6 is narrow, and various apparatuses, such as the engine 8, the hydraulic pump 9, and the heat exchange device 11, are accommodated in the exterior cover 6 in a compact state.
[0030]
Reference numeral 11 denotes a heat exchange device that is provided in the outer cover 6 and is provided on the revolving frame 4. The heat exchange device 11 includes a radiator 12, an oil cooler 18, a cooling fan 24, a clamping member 26, and a fixing member 32, which will be described later. , Each dustproof net divided body 35, 39 and the like.
[0031]
Reference numeral 12 denotes a radiator that constitutes a heat exchanger together with the oil cooler 18, and the radiator 12 is, as shown in FIGS. 4 to 7, a radiator support base 4C fixed on the bottom plate 4B constituting the revolving frame 4 by welding or the like. Installed on top.
[0032]
Here, the radiator 12 is attached to the radiator support base 4C using bolts 13 and is held at the upper and lower intermediate portions of the frame body 14 extending upward and downward, and the engine coolant flows. A heat dissipating part 15 comprising a flow pipe and a large number of heat dissipating fins, an upper tank 16 disposed above the heat dissipating part 15 and communicating with the flow pipe of the heat dissipating part 15, and disposed below the heat dissipating part 15. The lower tank 17 communicates with the flow pipe of the section 15.
[0033]
The frame body 14 includes a bottom frame 14A mounted on the radiator support 4C, and left and right side frames 14B and 14C extending upward from both left and right sides of the bottom frame 14A. Yes.
[0034]
The upper tank 16 and the lower tank 17 of the radiator 12 are connected to the water jacket of the engine 8 via piping (both not shown), and the radiator 12 heats the engine cooling water circulating between the engine 8 and the radiator 12. The engine cooling water is cooled by exchanging heat with the heat radiating section 15 and releasing it into the cooling air.
[0035]
Reference numeral 18 denotes an oil cooler that constitutes a heat exchanger together with the radiator 12, and the oil cooler 18 includes four support arms 20 fixed to the left and right side frames 14 B and 14 C of the frame body 14 using bolts 19, Are disposed upstream of the radiator 12 with respect to the flow direction of the cooling air by the cooling fan 24 described later (in the direction of arrow A in FIGS. 5 and 6).
[0036]
Here, the oil cooler 18 is disposed on the left and right sides of the heat radiating portion 21 with a rectangular heat radiating portion 21 including a flow tube through which hydraulic oil circulates and a large number of heat radiating fins. The tanks 22 and 23 communicated with each other, and these tanks 22 and 23 are supported by the support arm 20 described above.
[0037]
One tank 22 is connected to a return pipe from the hydraulic actuator, the other tank 23 is connected to a hydraulic oil tank (both not shown) via the pipe, and the oil cooler 18 is connected to the hydraulic oil from the hydraulic actuator. The operating oil is cooled by exchanging heat of the operating oil flowing back to the tank in the heat radiating section 21 and releasing it into the cooling air.
[0038]
Reference numeral 24 denotes a suction-type cooling fan provided to face the radiator 12, and the cooling fan 24 is driven to rotate by the engine 8, so that the exterior cover 6 passes through a plurality of vent holes 6 </ b> A formed in the exterior cover 6. Outside air (cooling air) is sucked into the air and supplied to the oil cooler 18 and the radiator 12. A fan shroud 25 that covers the cooling fan 24 over the entire circumference is provided between the cooling fan 24 and the radiator 12.
[0039]
A clamping member 26 is provided on the upstream side of the oil cooler 18 with respect to the flow direction of the cooling air. The clamping member 26 includes lower edge portions 37A and 41A (lower sides) of the respective dustproof net divided bodies 35 and 39 described later. The dust-proof net divided bodies 35 and 39 are made to face the radiator 12 and the like by sandwiching the part). Here, as shown in FIGS. 7 to 13, the clamping member 26 includes a bracket 27 described later, insertion guides 28 and 29, a molding 30, an engagement pin 31, and the like.
[0040]
Reference numeral 27 denotes a bracket serving as a base of the clamping member 26. The bracket 27 is formed by bending a rectangular plate body extending in the width direction (left and right directions) of the radiator 12. As shown in FIG. 7, the base end side of the bracket 27 is fixed to the radiator support base 4 </ b> C integrally with the bottom frame 14 </ b> A of the frame body 14 using the above-described bolt 13, and the front end side thereof is in the cooling air flow direction. On the other hand, the oil cooler 18 extends obliquely upward.
[0041]
Reference numerals 28 and 29 denote a pair of insertion guides protruding upward on the distal end side of the bracket 27. The insertion guide 28 is formed by bending the distal end portion of the bracket 27 vertically upward. On the other hand, the insertion guide 29 is a plate body having an L-shaped cross section that is fixed to the upper surface of the bracket 27 by welding or the like. The insertion guides 28 and 29 extend in parallel along the width direction of the radiator 12 in a state where they face each other with a certain gap before and after the flow direction of the cooling air. It serves as a guide when inserting the lower edge portions 37A and 41A so as to be sandwiched between before and after the flow direction of the cooling air.
[0042]
30, 30,... Are a plurality of moldings as cushion materials mounted on the upper edges of the insertion guides 28, 29. Each molding 30 is made of, for example, rubber or felt as shown in FIGS. It is formed in a U-shaped cross section by a soft material such as the like, and is mounted on the upper edges of the insertion guides 28 and 29 so as to cover it.
[0043]
Each molding 30 elastically supports the lower edge portions 37A and 41A when the lower edge portions 37A and 41A of the dustproof net divided bodies 35 and 39 are inserted between the insertion guides 28 and 29, respectively. The dust net divided bodies 35 and 39 are prevented from fluttering by the wind pressure of the cooling air.
[0044]
Reference numerals 31 and 31 denote two engaging pins as engaging members fixed to the upper edge portions of the respective insertion guides 28 and 29 by welding or the like. The respective engagement pins 31 are installed between the insertion guides 28 and 29. , Extending along the flow direction of the cooling air. Each engaging pin 31 engages with the lower concave grooves 37E and 41E described later formed in the lower edge portions 37A and 41A of the dust-proof net divided bodies 35 and 39, so that the dust-proof net divided bodies 35 and 39 are engaged. Positioning with respect to the radiator 12 and the like.
[0045]
Reference numeral 32 denotes a fixing member provided between the left and right side frames 14B and 14C of the frame body 14 so as to be spaced upward from the clamping member 26. The upper edge portions 37B and 41B (upper part) are fixed.
[0046]
Here, as shown in FIGS. 5 to 8, the fixing member 32 is formed by bending an elongated plate body into a substantially U-shape, and has a bracket 33 extending in the width direction of the radiator 12. Then, two fixing plates 33A and 33A that are spaced apart in the left and right directions and extend in the upper and lower directions are fixed to the bracket 33 by welding or the like, and a butterfly bolt (described later) is attached to the upper end side of each fixing plate 33A. A screw seat 33B to which 38 is screwed is provided.
[0047]
The fixing member 32 is screwed to the left and right side frames 14B and 14C of the frame body 14 by screwing the both ends of the bracket 33 to the frame body 14 of the radiator 12 together with the support arm 20. The upper edge portions 37B and 41B of the respective dustproof net divided bodies 35 and 39 are fixed by butterfly bolts 38 attached to the screw plate 33B of the fixing plate 33A.
[0048]
Reference numeral 34 denotes a dust-proof net that is attached to the upstream side of the radiator 12 and the oil cooler 18 with respect to the flow direction of the cooling air, and is detachable. The dust-proof net 34 includes first and second dust-proof net divided bodies described later. 35 and 39, and prevents dust from adhering to the radiator 12 and the like by capturing the dust in the cooling air.
[0049]
Reference numeral 35 denotes a first dust-proof net divided body constituting the dust-proof net 34. The dust-proof net divided body 35 is constituted by a net 36 and a net support frame 37, which will be described later, as shown in FIG. The dust inside is captured by the net 36.
[0050]
Reference numeral 36 denotes a net forming the main body of the dust-proof net divided body 35. The net 36 is formed in a rectangular shape extending upward and downward by weaving a wire made of, for example, a metal material or a resin material. The mesh size of the net 36 is set so coarse that the cooling air can pass without resistance.
[0051]
Reference numeral 37 denotes a net support frame that forms an outer frame of the dust-proof net divided body 35. The net support frame 37 is formed by bending a thin metal plate and sandwiching the outer peripheral edge of the net 36, for example. Are formed in a rectangular frame shape that surrounds the entire circumference, and a lower edge portion 37A serving as a lower portion in the upper and lower directions (length direction) and an upper edge portion 37B serving as an upper portion in the upper and lower directions. A left side edge 37C located on the left side in the left and right direction (width direction), a right side edge part 37D located on the right side in the left and right direction, a lower groove 37E provided in the lower edge part 37A, It is comprised by the upper concave groove 37F provided in the upper edge part 37B.
[0052]
Here, the lower edge portion 37A of the net support frame 37 is inserted between the insertion guides 28 and 29 of the holding member 26, and the upper edge portion 37B is fixed to the fixing plate 33A of the fixing member 32. Yes. Further, the left edge 37C is bent at a substantially right angle from the upper edge 37B and the lower edge 37A, protrudes toward the upstream side in the cooling air flow direction (the direction away from the radiator 12), and the right edge 37D. Is bent at a substantially right angle from the upper edge portion 37B and the lower edge portion 37A, and protrudes toward the downstream side in the flow direction of the cooling air, contrary to the left edge portion 37C.
[0053]
On the other hand, the lower concave groove 37E provided in the lower edge portion 37A of the net support frame 37 is formed in a long groove shape having an opening at the lower end and extending upward and downward, and engages with the engagement pin 31 of the holding member 26. Thus, each dustproof net divided body 35 can be easily positioned with respect to the width direction of the radiator 12 or the like.
[0054]
Further, the upper concave groove 37F provided in the upper edge portion 37B of the net support frame 37 is formed in a long groove shape having an upper end opened and extending upward and downward, and the butterfly bolt 38 inserted through the upper concave groove 37F is inserted into the upper concave groove 37F. The upper edge portion 37 </ b> B of each dustproof net segment 35 is fixed to the fixing member 32 by being screwed onto a screw seat 33 </ b> B provided on the fixing plate 33 </ b> A of the fixing member 32.
[0055]
Reference numeral 39 denotes a second dust-proof net divided body that constitutes the dust-proof net 34 together with the first dust-proof net divided body 35. The dust-proof net divided body 39, like the dust-proof net divided body 35, captures dust in the cooling air. And a net support frame 41 that surrounds the entire outer periphery of the net 40.
[0056]
Here, the net support frame 41 includes a lower edge portion 41A that is a lower portion in the upper and lower directions, an upper edge portion 41B that is an upper portion in the upper and lower directions, and a left side that is located on the left side in the left and right directions. An edge 41C, a right edge 41D located on the right side in the left and right directions, a lower groove 41E provided in the lower edge 41A, and an upper groove 41F provided in the upper edge 41B. ing.
[0057]
Further, the left edge 41C of the net support frame 41 projects toward the downstream side in the cooling air flow direction, and the right edge 41D faces the upstream side in the cooling air flow direction opposite to the left edge 41C. Protruding.
[0058]
And each dustproof net | network division | segmentation body 35 and 39 is in the state which faced | matched the left side edge part 37C of the net support frame 37, and the right side edge part 41D of the net support frame 41 mutually as shown in FIG.5 and FIG.8. In addition, they are arranged side by side in the same plane on the upstream side of the radiator 12 and the like.
[0059]
In this case, each of the dustproof net divided bodies 35, 39 has the upper edge portions 37B, 41B in a state where the lower concave grooves 37E, 41E provided in the lower edge portions 37A, 41A are engaged with the engaging pins 31 of the holding member 26. Is fixed to the fixing member 32 by using one butterfly bolt 38, each dustproof net divided body 35, 39 can be stably attached at two locations of the clamping member 26 and the fixing member 32.
[0060]
The heat exchanging device 11 according to the present embodiment has the above-described configuration. Hereinafter, an operation of attaching the dustproof net divided bodies 35 and 39 on the upstream side of the radiator 12 and the like will be described.
[0061]
First, the exterior cover 6 is opened, for example, as shown in FIG. 8, the first dustproof net divided body 35 is brought close to the radiator 12, and only the lower edge portion 37 </ b> A of the dustproof net divided body 35 is inserted into each clamping member 26. Insert between guides 28 and 29.
[0062]
Next, the dustproof net divided body 35 is slid along the insertion guides 28 and 29 in the width direction of the radiator 12, and the lower concave groove 37 </ b> E provided in the lower edge portion 37 </ b> A is engaged with the engagement pin 31 of the holding member 26. Let Thereby, positioning of the dust-proof net division body 35 with respect to the radiator 12 can be performed quickly and accurately.
[0063]
When the dustproof net segment 35 is positioned with respect to the radiator 12 as described above, the upper concave groove 37F provided in the upper edge portion 37B of the dustproof net segment 35 is a screw seat provided in the fixing plate 33A of the fixing member 32. 33B, the butterfly bolt 38 is inserted into the upper concave groove 37F, and the butterfly bolt 38 is screwed into the screw seat 33B of the fixing plate 33A, whereby the dustproof net divided body 35 is fixed to the holding member 26 and the fixing member. 32 can be fixed.
[0064]
Further, the second dust-proof net segment 39 can be fixed between the clamping member 26 and the fixing member 32 by the same procedure as the first dust-proof net segment 35 described above. The dustproof net divided bodies 35 and 39 can be arranged side by side in the same plane on the upstream side of the radiator 12 or the like.
[0065]
In this way, each dustproof net divided body 35, 39 supports the net in a state where only the lower edge portions 37 A, 41 A of the net support frames 37, 41 are sandwiched between the insertion guides 28, 29 of the clamping member 26. The upper edge portions 37B and 41B of the frames 37 and 41 are fixed to the fixing member 32 by the butterfly bolt 38. For this reason, when the dustproof net divided bodies 35 and 39 are attached, the moving direction of the dustproof net divided bodies 35 and 39 is not limited by the clamping member 26, and the narrow space in the exterior cover 6 is effectively used. Installation work of the dustproof net divided bodies 35 and 39 can be performed, and workability at this time can be improved.
[0066]
Further, since the dust-proof net is constituted by the two dust-proof net divided bodies 35 and 39, the space required for mounting the dust-proof net divided bodies 35 and 39 can be reduced, and this removal work is easy. Can be done.
[0067]
Furthermore, each of the dustproof net divided bodies 35 and 39 has the upper edge portions 37B and 41B in a state where the lower concave grooves 37E and 41E provided in the lower edge portions 37A and 41A are engaged with the engaging pins 31 of the holding member 26. Since it is fixed to the fixing member 32 by using one butterfly bolt 38, each dustproof net divided body 35, 39 can be stably attached at two locations of the clamping member 26 and the fixing member 32.
[0068]
Next, the operation of the heat exchange device 11 according to the present embodiment configured as described above will be described.
[0069]
First, when the engine 8 is operated and the cooling fan 24 is driven to rotate, outside air is sucked into the exterior cover 6 through the vent 6A, and this outside air becomes cooling air and passes through the dust-proof net 34, and the oil cooler 18 , Supplied to the radiator 12.
[0070]
The radiator 12 cools the engine coolant by exchanging heat of the engine coolant circulated with the engine 8 through the heat radiating unit 15 and releasing it into the cooling air. Further, the oil cooler 18 cools the hydraulic oil by exchanging heat of the hydraulic oil returning from the hydraulic actuator to the hydraulic oil tank and releasing it into the cooling air by the heat radiating unit 21.
[0071]
At this time, the respective dustproof net divided bodies 35 and 39 arranged on the upstream side of the radiator 12 and the like capture the dust mixed in the cooling air with the nets 36 and 40, and these dusts are received by the radiator 12, the oil cooler 18 and the like. Suppresses adhesion.
[0072]
In this case, since the lower edge portions 37A and 41A of the dustproof net divided bodies 35 and 39 are elastically supported by the molding 30 attached to the respective insertion guides 28 and 29 of the holding member 26, the dustproof net divided body 35 is provided. , 39 can be suppressed by the molding 30 from fluttering by the wind pressure of the cooling air.
[0073]
Since each dustproof net segment 35 and 39 is contaminated by trapping the dust in the cooling air, it is necessary to periodically remove and clean the dustproof net segment 35. Hereinafter, the dustproof net segment 35 is removed during this cleaning. Is described.
[0074]
First, with the exterior cover 6 open, the butterfly bolt 38 is removed from the fixing plate (screw seat 33B) of the fixing member 32, and the dust-proof net segment 35 is lifted slightly upward.
[0075]
As a result, the lower edge portion 37A of the dust-proof net segment 35 is separated from between the insertion guides 28 and 29 of the clamping member 26, so that the dust-proof net segment 35 is not limited by the clamping member 26 and the radiator. It can be moved freely upward, downward, leftward, rightward, cooling air flow direction, etc. with respect to 12 etc.
[0076]
For this reason, it is possible to easily remove the dust-proof net divided body 35 by effectively using the narrow space in the exterior cover 6, and it is also possible to easily remove the dust-proof net divided body 39. it can.
[0077]
After cleaning the dust adhering to the removed dust-proof net segments 35 and 39, the cleaned dust-proof net segments 35 and 39 can be easily moved upstream of the radiator 12 and the like by the same procedure as described above. Can be installed on.
[0078]
Note that the dust-proof net divided body according to the present invention is not limited to the dust-proof net divided bodies 35 and 39 according to the above-described embodiment, and for example, a dust-proof net divided body 35'39 'shown in the modification of FIG. It may be configured. That is, a dust-proof net divided body 35 ′ having a flat net support frame 37 ′ in which the lower edge portion 37 A ′, the upper edge portion 37 B ′, and the left and right side edge portions 37 C ′ and 37 D ′ form substantially the same plane, A dust-proof net segment 39 'having a flat net support frame 41' in which the lower edge portion 41A ', the upper edge portion 41B', and the left and right side edge portions 41C 'and 41D' are substantially in the same plane is used. It is good also as a structure.
[0079]
In the above-described embodiment, the case where the base end side of the bracket 27 constituting the clamping member 26 is attached to the radiator support base 4 </ b> C of the turning frame 4 is taken as an example. However, the present invention is not limited to this. For example, as in other modifications shown in FIGS. 15 and 16, a clamping member 26 ′ having a bracket 27 having a bent portion 27 </ b> A that is bent upward on the base end side. The bent portion 27A of the bracket 27 may be attached to the frame body 14 of the radiator 12 using the bolt 42.
[0080]
In the above-described embodiment, a case where a dustproof net is configured by two dustproof net divided bodies 35 and 39 is described as an example. However, the present invention is not limited to this. For example, the dust-proof net may be constituted by three or more dust-proof net divided bodies, or a single dust-proof net that is not divided may be used.
[0081]
Further, in the above-described embodiment, the case where the suction-type cooling fan 24 that sucks outside air into the exterior cover 6 is used as an example. However, the present invention is not limited to this, and the air inside the exterior cover 6 is transferred to the outside. A discharge-type cooling fan that discharges the air may be used.
[0082]
Furthermore, in the above-described embodiment, a hydraulic excavator has been described as an example of a construction machine. However, the present invention is not limited to this, and may be applied to other construction machines such as a wheel loader, a hydraulic crane, and a bulldozer. May be.
[0083]
【The invention's effect】
  As described above in detail, according to the first aspect of the present invention, in order to arrange the dust-proof net at a position facing the heat exchanger, a clamping member for clamping the lower part of the dust-proof net is provided on the upstream side of the heat exchanger.The clamping member includes a bracket whose proximal end is fixed to a frame or a heat exchanger and whose distal end extends to the upstream side of the heat exchanger, and is fixed to the distal end of the bracket before and after the cooling air flow direction. A pair of insertion guides that project upward and face each other with a gap between them, and serve as a guide when sandwiching the lower part of the dustproof net, and the lower part of the dustproof net in the flow direction of the cooling air And a cushion material mounted on each of the pair of insertion guides for elastically supporting the front and rear sidesis doing. As a result, when the dustproof net is attached to and removed from the heat exchanger, the moving direction of the dustproof net is limited by the clamping member while the lower part of the dustproof net is detached from the clamping member. The dustproof net is used as a clamping memberImprisonmentHowever, it can be moved in any direction. For this reason, the dust-proof net can be removed and removed by effectively utilizing the narrow space in the exterior cover, and the workability at this time can be improved.In addition, since the frame of the heat exchanger is provided with a fixing member that is spaced upward from the clamping member and fixes the upper part of the dust-proof net, the lower part of the dust-proof net is directed to the cooling air flow direction by the clamping member. By fixing the upper part of the dust-proof net with a fixing member in a state of being sandwiched from before and after, the dust-proof net can be stably attached at the two parts of the lower part and the upper part.
[0084]
  in this case,SaidThe clamping member includes a bracket whose proximal end is fixed to the frame or the heat exchanger and whose distal end extends to the upstream side of the heat exchanger;Before and after the flow direction of the cooling airProtruding upwardA pair of guides for insertion so as to sandwich the lower part of the dustproof netAn insertion guide,In order to elastically support the lower part of the dustproof net sandwiched from the front and rear of the cooling air flow direction,Insert guideEach fittedIt is composed of cushioned material. Therefore, by inserting the lower part of the dustproof net into the insertion guide on the bracket tip side,A pair ofIt can guide to the position which faces a heat exchanger with an insertion guide. Also,SaidInsert guideRespectivelySince the provided cushion material elastically supports the lower part of the dustproof net, the cushion material can suppress the dustproof net from fluttering under the wind pressure of the cooling air.
[0086]
  Claims2According to the invention, the lower part of the dust-proof net is provided with a groove that opens at the lower end and extends upward and downward, and the holding member is provided with an engaging member that engages the groove of the dust-proof net. Yes. As a result, the dustproof net is positioned relative to the heat exchanger simply by sandwiching the lower part of the dustproof net with the clamping member and engaging the groove provided in the lower part of the dustproof net with the engaging member of the clamping member. Can be easily performed.
[0087]
  And claims3According to the invention, the dustproof net is constituted by a plurality of dustproof net divided bodies arranged in parallel on the upstream side of the heat exchanger, so that a space necessary for attaching and removing the dustproof net is obtained. It can be made smaller according to the size of each dustproof net divided body, so that the dustproof net can be removed and removed more easily.
[Brief description of the drawings]
FIG. 1 is a partially broken front view showing a hydraulic excavator to which a heat exchanging device according to an embodiment of the present invention is applied, with a working device removed.
FIG. 2 is a plan view of the hydraulic excavator as seen from the direction of arrows II-II in FIG.
FIG. 3 is a rear view of the hydraulic excavator as seen from the direction of arrows III-III in FIG.
FIG. 4 is an enlarged front view showing the heat exchange device in FIG. 1;
5 is a plan view obtained by enlarging a radiator, an oil cooler, a dustproof net divided body, and the like from a direction indicated by arrows V-V in FIG. 4;
6 is a rear view of a radiator, an oil cooler, a dustproof net divided body, and the like when viewed from the direction of arrows VI-VI in FIG. 4;
7 is a rear view showing a state in which a fixing member and a clamping member are attached to the radiator in FIG. 6. FIG.
FIG. 8 is an exploded perspective view showing a state where a dustproof net divided body is attached to the upstream side of the radiator.
FIG. 9 is a perspective view showing a clamping member as a single unit.
FIG. 10 is a perspective view showing a dustproof net divided body alone.
11 is an enlarged view of a main part showing an enlarged view of a clamping member, a molding, an engaging pin, a dustproof net divided body, and the like in FIG. 4;
12 is an enlarged cross-sectional view of a clamping member, a molding, a dustproof net divided body, and the like as seen from the direction of arrows XII-XII in FIG.
13 is an enlarged cross-sectional view of the holding member, the engaging pin, the dustproof net divided body, the lower concave groove, and the like as seen from the direction of arrows XIII-XIII in FIG.
14 is an exploded perspective view similar to FIG. 8 showing a modified example of the dustproof net divided body. FIG.
15 is a perspective view similar to FIG. 9, showing a modification of the clamping member. FIG.
16 is a rear view similar to FIG. 6, showing a state where the clamping member of FIG. 15 is attached to the radiator.
[Explanation of symbols]
8 engine
11 Heat exchange device
12 Radiator (heat exchanger)
18 Oil cooler (heat exchanger)
24 Cooling fan
26, 26 'clamping member
27 Bracket
28, 29 Insertion guide
30 Mall (cushion material)
31 Engagement pin (engagement member)
34 Dust-proof net
35, 39, 35 ', 39' Dust-proof net segment (Dust-proof net)
36,40 net
37, 41, 37 ', 41' Net support frame
37A, 41A, 37A ', 41A' Lower edge (lower part)
37B, 41B, 37B ', 41B' Upper edge (upper part)
37E, 41E Lower groove

Claims (3)

A heat exchanger comprising a heat radiating portion is retained in mounted frame and the frame body frame constituting the construction machine for radiating heat of the heated liquid,
A cooling fan for supplying cooling air to the heat exchanger is provided so as to face with said heat exchanger,
A dust-proof net that is provided facing the upstream side of the heat exchanger in the middle of the flow of cooling air by the cooling fan and that captures dust in the cooling air ;
In a heat exchange device for a construction machine comprising a fixing member provided on a frame body of the heat exchanger and fixing an upper part of the dustproof net ,
Provided on the upstream side of the heat exchanger is a clamping member that clamps the lower part of the dust-proof net ,
The clamping member includes a bracket whose proximal end is fixed to the frame or the heat exchanger and whose distal end extends to the upstream side of the heat exchanger, and is fixed to the distal end of the bracket before and after the cooling air flow direction. A pair of insertion guides that are projected upward in a state of facing each other with a gap between them and serve as a guide when sandwiching the lower part of the dustproof net, and the lower part of the dustproof net flows in the flow direction of the cooling air A heat exchanging device for a construction machine, comprising: a cushion member mounted on each of the pair of insertion guides so as to be elastically supported by being sandwiched from before and after . The lower part of the dust-proof net is provided with a groove that opens at the lower end and extends upward and downward, and the holding member is provided with an engaging member that engages with the groove of the dust-proof net. Item 2. The heat exchange device for a construction machine according to Item 1 . The heat exchanger for a construction machine according to claim 1 or 2 , wherein the dustproof net is constituted by a plurality of dustproof net divided bodies arranged in parallel on the upstream side of the heat exchanger in substantially the same plane.

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