CN203637558U - Flexible assembling type radiator assembly - Google Patents

Abstract

The utility model relates to a flexible assembling type radiator assembly which comprises a radiator core body, a radiator water chamber and a radiator guard board. A damping block is respectively arranged between a radiator water chamber and the radiator guard board and between the radiator core body and the radiator guard board. At least a pair of positioning protruding columns are symmetrically arranged on one side surface of the damping blocks, and positioning holes matching with the positioning protruding column are arranged in the radiator guard board. One side surface of the damping block is connected to the inner side surface of the radiator guard board through cooperatively positioning of the positioning protruding columns and the positioning holes, and the other side surface of the damping block is in contacting connection with the outer side surface of the radiator water chamber or the side end face of the radiator core body. The flexible assembling type radiator assembly is reasonable and simple in structural design, easy and convenient for assembling and solid and reliable in structure. Damping blocks respectively arranged between the radiator water chamber and the radiator guard board and between the radiator core body and the radiator guard board improve the damping effect of the radiator assembly, prevent failure of the radiator assembly and prolong the service lifetime of the radiator assembly.

Description

Flexible fabricated heat radiator assembly

Technical field

The utility model relates to automobile radiators technical field, relates in particular to a kind of flexible fabricated heat radiator assembly.

Background technology

Automobile radiators belongs to a heat exchanger, modal failure mode is to reveal because of radiator the afunction or the function that cause to reduce, thereby affect normally travelling of vehicle, trace it to its cause is that the difference of car radiator and fixed heat sink is that vehicle exercises, and the impact that this driving process brings radiator is vibration and torsional oscillation, especially domestic current most of bus engine all adopts postposition, and radiator system is followed engine at extreme rear, this vibration torsional oscillation impacts more very, and this long vibration and torsional oscillation can cause the weld failure of radiator, reveal thereby produce, cause its function to reduce to have very person until lose.

Given this, in Chinese patent 201120481838.9, mention a kind of damping type automobile radiators, comprise the heat radiator assembly that includes radiator water chamber and radiator side plate, four angles of this radiator water chamber are all welded with triangular supports, and this triangular supports is connected with radiator side plate by bolt.Although this radiator also can protect radiator not damaged to a certain extent, but the rubber sheet gasket of triangular supports inner side can only play cushioning effect between radiator water chamber and radiator side plate, and between radiator core body and radiator side plate, still have hard collision, cannot play damping effect, therefore, the damping effect of this radiator is general; Meanwhile, the assembly connection between triangular supports, radiator side plate and rubber sheet gasket three relatively bothers, and efficiency of assembling is lower, and the parts of using are also more.

Mention a kind of vibration-damping radiator 201120551053.4 kinds of another Chinese patents, comprise radiator body, framework and shock absorption device, shock absorption device comprises upper and lower bumper, front and back bumper, upper and lower bumper and front and back bumper comprise respectively the first cushion blocking, the second cushion blocking, and the first cushion blocking, the second cushion blocking are arranged on the inside and outside both sides of framework; Sleeve is through the second cushion blocking, framework and the first cushion blocking, by fixing to the first cushion blocking, framework and the second cushion blocking suit; Stationary member is fixedly connected with the second cushion blocking, framework and the first cushion blocking through sleeve with radiator body; Framework is fixed between the first cushion blocking, the second cushion blocking, and passage stationary member is combined framework, cushion blocking and radiator body.Although this radiator arranges shock absorption device in the upper and lower and front and back of radiator, can play certain damping effect, but the both sides of radiator body do not arrange shock absorption device, vibrations and torsional oscillation just inevitably make the left and right sides of radiator body be subject to the hard collision of radiator rim to automobile for a long time in the process of moving like this, also can cause the damage of radiator, meanwhile, the parts that the assembly connection of the heat sink arrangement of this radiator adopts are more, assemble too complexity and efficiency low.

In sum, be necessary the further Improvement and perfection of prior art.

Summary of the invention

The utility model is poor in order to solve existing automobile radiators anti seismic efficiency, in vehicle traveling process, under long-time vibration and torsional oscillation, the welding of radiator was easily lost efficacy, reveal thereby produce, cause the problem such as radiator afunction or function reduction and propose a kind of structure design simply, rationally, anti seismic efficiency is good, and use is stable, reliable, the life-span is long and the flexible fabricated heat radiator assembly of good heat dissipation effect.

The utility model is achieved through the following technical solutions:

Above-mentioned flexible fabricated heat radiator assembly, comprises radiator core body, is fixedly arranged on the radiator water chamber at the upper and lower two ends of described radiator core body and is installed in respectively described radiator core body left and right sides end and the radiator protecting plate of described radiator water outside; Between described radiator water chamber and radiator protecting plate and between described radiator core body and radiator protecting plate, be also equiped with respectively snubber block; Described snubber block one side is arranged with at least one pair of positioning convex column; Described radiator protecting plate is provided with the knock hole matching with positioning convex column; Described snubber block one side was located by connecting in the medial surface of described radiator protecting plate by described positioning convex column and coordinating of knock hole; The another side contact of described snubber block is connected in the side end face of lateral surface or the described radiator core body of described radiator water chamber.

Described flexible fabricated heat radiator assembly, wherein: described radiator water chamber comprises the upper tank that is fixedly arranged on described radiator core body top and the lower header that is fixedly arranged on described radiator core body bottom; Described upper tank one end is protruding has filler pipe, its outer top to be provided with multiple the first cavitys and top, the left and right sides structure that all takes the form of inclined plane; Described lower header and described upper tank are symmetrical set; Described lower header one end is protruding has coolant outlet pipe, its outer bottom to be provided with multiple the second cavitys and bottom, the left and right sides structure that all takes the form of inclined plane.

Described flexible fabricated heat radiator assembly, wherein: described radiator protecting plate comprises upper guard board, lower backplate, left backplate and right backplate; Described upper guard board, lower backplate, left backplate and right backplate be all rectangle plate structure and each other adopt be rigidly connected form a quadra; Entirety after described radiator core body and radiator water chamber assembling is confined in the quadra being connected to form in described upper guard board, lower backplate, left backplate and right backplate; Described upper guard board is fixedly arranged on the outer end face of described upper tank and is provided with multiple the first knock holees; Described lower backplate and described upper guard board are symmetrical set, and described lower backplate is fixedly arranged on the outer bottom of described lower header and is provided with multiple the second knock holees that are symmetry with the first knock hole; Described left backplate is fixedly arranged on the left-hand end of described radiator core body and is provided with multiple the 3rd knock holees; Described right backplate and described left backplate are symmetrical set, and described right backplate is fixedly arranged on the right-hand end of described radiator core body and is provided with multiple the 4th knock holees that are symmetry with the 3rd knock hole.

Described flexible fabricated heat radiator assembly, wherein: the described snubber block blocks structure that is rectangle, it comprises the first snubber block, the second snubber block, the 3rd snubber block and the 4th snubber block; Described the first snubber block is installed between the outer end face and the medial surface of described upper guard board of described upper tank; Described the first snubber block one side was located by connecting in the medial surface of described upper guard board by positioning convex column and coordinating of described the first knock hole, and the another side contact of described the first snubber block is connected in the outer end face of the described upper tank between adjacent a pair of described the first cavity; Described the second snubber block and described the first snubber block are symmetrical set, and described the second snubber block is installed between the outer bottom of described lower header and the medial surface of described lower backplate; Described the second snubber block one side was located by connecting in the medial surface of described lower backplate by positioning convex column and coordinating of described the second knock hole, and the another side contact of described the second snubber block is connected in the outer bottom of the described lower header between adjacent a pair of described the second cavity; Described the 3rd snubber block is installed between the left end face of described radiator core body and the medial surface of described left backplate; Described the 3rd snubber block one side was located by connecting in the medial surface of described left backplate by positioning convex column and coordinating of described the 3rd knock hole, and the another side contact of described the 3rd snubber block is connected in the left end face of described radiator core body; Described the 4th snubber block and described the 3rd snubber block are symmetrical set, and described the 4th snubber block is installed between its right end face of described radiator core body and the medial surface of described right backplate; Described the 4th snubber block one side was located by connecting in the medial surface of described right backplate by positioning convex column and coordinating of described the 4th knock hole, and the another side contact of described the 4th snubber block is connected in its right end face of described radiator core body.

Described flexible fabricated heat radiator assembly, wherein: described filler pipe and coolant outlet pipe stretch out in diagonal position and to same side direction.

Beneficial effect:

The utility model flexible fabricated heat radiator assembly structure design is simple, reasonable, assemble simple, convenient and sound construction, reliable, especially between radiator water chamber and radiator protecting plate and between radiator core body and radiator protecting plate, be equiped with respectively snubber block, not only can improve the overall anti seismic efficiency of heat radiator assembly, can effectively solve automobile weld failure of heat radiator assembly under vibration and torsional oscillation in long-time driving process, produce and reveal, cause the problem such as radiator afunction or function reduction; Wherein, because snubber block one side is arranged with at least one pair of positioning convex column, also can make snubber block be connected with radiator protecting plate more firm, prevent automobile coming off and play due to the severe snubber block of vibrations in long-time driving process, avoid the elastic failure of snubber block, simultaneously the assembly connection of snubber block of the present utility model compares that the assembly connection of traditional shock absorption device is simpler, convenient and efficiency is higher, and the parts of using also still less; Moreover, because backplate and left-and-right guard board adopt the quadra of formation that is rigidly connected up and down, therefore the entirety of radiator water chamber after being connected with radiator core body is confined in quadra, simultaneously because the pretension elastic force side of damping cushion exists, can make the entirety after radiator water chamber and radiator core body welding in framework, rock, make whole heat radiator assembly safer in vehicle traveling process, reliable, extended the service life of heat radiator assembly, be suitable for propagation and employment.

Accompanying drawing explanation

Fig. 1 is the birds-eye view of the utility model flexible fabricated heat radiator assembly;

Fig. 2 is the cutaway view of A-A direction in Fig. 1 of the utility model flexible fabricated heat radiator assembly;

Fig. 3 is the cutaway view of B-B direction in Fig. 1 of the utility model flexible fabricated heat radiator assembly;

Fig. 4 is that the utility model flexible fabricated heat radiator assembly removes the structural representation after snubber block.

The specific embodiment

As shown in Figures 1 to 4, the utility model flexible fabricated heat radiator assembly, comprises radiator core body 1, radiator water chamber 2, radiator protecting plate 3 and snubber block 4.

Radiator core body 1 entirety is rectangular structure, and wherein, in the present embodiment, this radiator core body 1 adopts main leaf, radiator and heat-radiation belt to assemble, and heat delivery surface is large, good heat dissipation effect.

Radiator water chamber 2 symmetries are installed in the two ends up and down of radiator core body 1, and it comprises upper tank 21 and lower header 22; Wherein, this upper tank 21 is fixedly arranged on the top of radiator core body 1, and the outside level in its one end is extended with filler pipe 211, can in this upper tank 21, add water by this filler pipe 211; Also be provided with multiple the first cavitys 212 at the outer top of upper tank 21, its top, left and right sides structure that all takes the form of inclined plane, in the present embodiment, the cross section of this cavity 212 is suitable for reading large lower young trapezoidal; In the present embodiment, this upper tank 21 is the rectangular tubular body structure in cross section.This lower header 22 is symmetrical set with this upper tank 21; This lower header 22 is fixedly arranged on the bottom of radiator core body 1, and its one end also outside level is extended with coolant outlet pipe 221, can make the water in lower header 22 be released by this coolant outlet pipe 221; Be provided with multiple the second cavitys 222 at the outer bottom of lower header 22,, its bottom, left and right sides structure that all takes the form of inclined plane, in the present embodiment, this second cavity 222 and the first cavity 212 are symmetrical structure each other; Meanwhile, this filler pipe 211 and this coolant outlet pipe 221 stretch out in diagonal position and to same side direction; In the present embodiment, this lower header 22 is also the rectangular tubular body structure in cross section.

Radiator protecting plate 3 is installed in the outside of radiator core body 1 and radiator water chamber 2, and it comprises the upper guard board 31, lower backplate 32, left backplate 33 and the right backplate 34 that are all cuboid plate structure; This upper guard board 31, lower backplate 32, left backplate 33 and right backplate 34 adopt to be rigidly connected and form a quadra.This upper guard board 31 be fixedly arranged on radiator water chamber 2 upper tank 21 outer end face and be provided with multiple the first knock holees 311, in the present embodiment, the middle part of this upper guard board 31 is arranged with two pairs of the first knock holees 311.This lower backplate 32 is symmetrical set with upper guard board 31, this lower backplate 32 be fixedly arranged on radiator water chamber 2 lower header 22 outer bottom and be provided with multiple the second knock holees 321, this second knock hole 321 and the first knock hole 311 are symmetrical set each other, and in the present embodiment, the middle part of this lower backplate 32 is arranged with two pairs of the second knock holees 321.This left backplate 33 is fixedly arranged on the left-hand end of radiator core body 1 and is provided with multiple the 3rd knock holees 331, and in the present embodiment, these left backplate 33 two ends symmetries are respectively provided with a pair of the 3rd knock hole 331.This right backplate 34 is symmetrical set with this left backplate 33, this right backplate 34 is fixedly arranged on the right-hand end of radiator core body 1 and is provided with multiple the 4th knock holees 341, the 4th knock hole 341 and the 3rd knock hole 331 are symmetrical set each other, and in the present embodiment, these right backplate 34 two ends symmetries are respectively provided with a pair of the 4th knock hole 341.

Snubber block 4 is installed in respectively between radiator water chamber 2 and radiator protecting plate 3 and between radiator core body 1 and radiator protecting plate 3; This snubber block 4 blocks structure that is rectangle, one side is provided with at least one pair of positioning convex column; Can prevent that by positioning convex column snubber block 4 from coming off and play, avoid snubber block 4 elastic failures, safety and reliability in Vehicle Driving Cycle process.Wherein, this snubber block 4 comprises the first snubber block 41, the second snubber block 42, the 3rd snubber block 43 and the 4th snubber block 44.

This first snubber block 41 is installed between the outer end face of upper tank 21 of radiator water chamber 2 and the medial surface of the upper guard board 31 of radiator protecting plate 3; These the first snubber block 41 1 sides are by the medial surface being located by connecting in upper guard board 31 that coordinates of the positioning convex column of the first snubber block 41 and the first knock hole 311 of upper guard board 31, and the another side contact of this first snubber block 41 is connected in the outer end face of the upper tank 21 between adjacent a pair of the first cavity 212; In the present embodiment, this first snubber block 41 is at least one pair of between end face and the upper guard board 31 middle part medial surfaces of radiator protecting plate 3 outside symmetrical upper tank 21 middle parts that are installed in radiator water chamber 2.

This second snubber block 42 is symmetrical set with this first snubber block 41, and this second snubber block 42 is installed between the outer bottom of lower header 22 and lower backplate 32 medial surfaces of radiator protecting plate 3 of radiator water chamber 2; These the second snubber block 42 1 sides are by the medial surface being located by connecting in lower backplate 32 that coordinates of the positioning convex column of the second snubber block 42 and the second knock hole 321 of lower backplate 32, and the another side contact of this second snubber block 42 is connected in the middle part outer bottom of the lower header 22 between adjacent a pair of the second cavity 222; In the present embodiment, this second snubber block 42 is symmetrical at least one pair of between the lower header 22 middle part outer bottoms of radiator water chamber 2 and the lower backplate 32 middle part medial surfaces of radiator protecting plate 3 that be installed in.

The 3rd snubber block 43 is installed between the medial surface of left backplate 33 of radiator core body 1 left end face and radiator protecting plate 3; The 3rd snubber block 43 1 sides are by the medial surface being located by connecting in left backplate 33 that coordinates of the positioning convex column of the 3rd snubber block 43 and the 3rd knock hole 331 of left backplate 33, and the another side contact of the 3rd snubber block 43 is connected in the left end face of radiator core body 1; In the present embodiment, the 3rd snubber block 43 is at least one pair of between the symmetrical left backplate 33 upper and lower two ends of medial surface that are installed in the radiator core body 1 upper and lower two ends of left end face and radiator protecting plate 3.

The 4th snubber block 44 is installed between the medial surface of right backplate 34 of radiator core body 1 its right end face and radiator protecting plate 3; The 4th snubber block 44 1 sides are by the medial surface being located by connecting in right backplate 34 that coordinates of the positioning convex column of the 4th snubber block 44 and the 4th knock hole 341 of right backplate 34, and the another side contact of the 4th snubber block 44 is connected in its right end face of radiator core body 1; In the present embodiment, the 4th snubber block 44 is at least one pair of between the symmetrical right backplate 34 upper and lower two ends of medial surface that are installed in the radiator core body 1 upper and lower two ends of its right end face and radiator protecting plate 3.

Wherein, owing to being equiped with respectively snubber block 44 between radiator water chamber 2 and radiator protecting plate 3 and between radiator core body 1 and radiator protecting plate 3, therefore, radiator protecting plate 3 is connected to each other by snubber block 44 at medium position with 2 of radiator water chambers, and other positions all keep isolation; Meanwhile, radiator protecting plate 3 is connected to each other by snubber block 44 in end positions with 1 of radiator core body, and other positions all keep isolation.

The utility model structure design is simple, reasonable, structure is connected firmly, reliably and easily assembles, by snubber block being set between radiator water chamber and radiator protecting plate and between radiator core body and radiator protecting plate, can effectively improve the anti seismic efficiency of heat radiator assembly, extend the service life of heat radiator assembly.

Claims (5)

1. a flexible fabricated heat radiator assembly, comprises radiator core body, is fixedly arranged on the radiator water chamber at the upper and lower two ends of described radiator core body and is installed in respectively described radiator core body left and right sides end and the radiator protecting plate of described radiator water outside; It is characterized in that: between described radiator water chamber and radiator protecting plate and between described radiator core body and radiator protecting plate, be also equiped with respectively snubber block;

Described snubber block one side is arranged with at least one pair of positioning convex column;

Described radiator protecting plate is provided with the knock hole matching with positioning convex column;

Described snubber block one side was located by connecting in the medial surface of described radiator protecting plate by described positioning convex column and coordinating of knock hole; The another side contact of described snubber block is connected in the side end face of lateral surface or the described radiator core body of described radiator water chamber.

2. flexible fabricated heat radiator assembly as claimed in claim 1, is characterized in that: described radiator water chamber comprises the upper tank that is fixedly arranged on described radiator core body top and the lower header that is fixedly arranged on described radiator core body bottom;

Described upper tank one end is protruding has filler pipe, its outer top to be provided with multiple the first cavitys and top, the left and right sides structure that all takes the form of inclined plane;

Described lower header and described upper tank are symmetrical set; Described lower header one end is protruding has coolant outlet pipe, its outer bottom to be provided with multiple the second cavitys and bottom, the left and right sides structure that all takes the form of inclined plane.

3. flexible fabricated heat radiator assembly as claimed in claim 2, is characterized in that: described radiator protecting plate comprises upper guard board, lower backplate, left backplate and right backplate;

Described upper guard board, lower backplate, left backplate and right backplate be all rectangle plate structure and each other adopt be rigidly connected form a quadra; Entirety after described radiator core body and radiator water chamber assembling is confined in the quadra being connected to form in described upper guard board, lower backplate, left backplate and right backplate;

Described upper guard board is fixedly arranged on the outer end face of described upper tank and is provided with multiple the first knock holees;

Described lower backplate and described upper guard board are symmetrical set, and described lower backplate is fixedly arranged on the outer bottom of described lower header and is provided with multiple the second knock holees that are symmetry with the first knock hole;

Described left backplate is fixedly arranged on the left-hand end of described radiator core body and is provided with multiple the 3rd knock holees;

Described right backplate and described left backplate are symmetrical set, and described right backplate is fixedly arranged on the right-hand end of described radiator core body and is provided with multiple the 4th knock holees that are symmetry with the 3rd knock hole.

4. flexible fabricated heat radiator assembly as claimed in claim 3, is characterized in that: the described snubber block blocks structure that is rectangle, and it comprises the first snubber block, the second snubber block, the 3rd snubber block and the 4th snubber block;

Described the first snubber block is installed between the outer end face and the medial surface of described upper guard board of described upper tank; Described the first snubber block one side was located by connecting in the medial surface of described upper guard board by positioning convex column and coordinating of described the first knock hole, and the another side contact of described the first snubber block is connected in the outer end face of the described upper tank between adjacent a pair of described the first cavity;

Described the second snubber block and described the first snubber block are symmetrical set, and described the second snubber block is installed between the outer bottom of described lower header and the medial surface of described lower backplate; Described the second snubber block one side was located by connecting in the medial surface of described lower backplate by positioning convex column and coordinating of described the second knock hole, and the another side contact of described the second snubber block is connected in the outer bottom of the described lower header between adjacent a pair of described the second cavity;

Described the 3rd snubber block is installed between the left end face of described radiator core body and the medial surface of described left backplate; Described the 3rd snubber block one side was located by connecting in the medial surface of described left backplate by positioning convex column and coordinating of described the 3rd knock hole, and the another side contact of described the 3rd snubber block is connected in the left end face of described radiator core body;

Described the 4th snubber block and described the 3rd snubber block are symmetrical set, and described the 4th snubber block is installed between its right end face of described radiator core body and the medial surface of described right backplate; Described the 4th snubber block one side was located by connecting in the medial surface of described right backplate by positioning convex column and coordinating of described the 4th knock hole, and the another side contact of described the 4th snubber block is connected in its right end face of described radiator core body.

5. flexible fabricated heat radiator assembly as claimed in claim 2, is characterized in that: described filler pipe and coolant outlet pipe stretch out in diagonal position and to same side direction.

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