CN204063513U - A kind of heat exchanger assembly - Google Patents

Abstract

The utility model discloses a kind of heat exchanger assembly, comprise heat exchanging part, it specifically comprises the header and multiple flat tube be plugged between described header that be arranged in parallel, described flat tube both sides are provided with fin, outermost described fin is connected with side plate, described side plate is provided with the buckle for assembling or draw-in groove.This heat exchanger assembly is directly or indirectly installed by buckle or notch and Air conditioner box, the mode of buckle engaging, to be more convenient for the installation or removal of heat exchanger, and damage can not to be caused by heat exchanger core body during dismounting, be conducive to heat exchanger and carry out cleaning, detect or the operation such as maintenance.

Description

A kind of heat exchanger assembly

Technical field

The utility model relates to technical field of heat exchangers, particularly relates to a kind of heat exchanger assembly.

Background technology

At present, parallel-flow heat exchanger, particularly micro-channel heat exchanger, generally direct by the side plate of heat exchanger and Air conditioner box riveted joint, or adopt the installing plate and Air conditioner box riveted joint installation that are fixed on side plate.

After air-conditioner set runs a period of time, need heat exchanger to carry out cleaning, detect and the operation such as maintenance, now, need heat exchanger to dismantle, but above-mentioned two kinds of mounting means are when dismantling, often damage the core body of heat exchanger, increasing unnecessary cost.

In addition, heat exchanger is generally formed by welding procedure manufacture, can because of expand with heat and contract with cold effect there is certain deflection, above-mentioned two kinds of mounting means all cannot heat exchanger existence deflection make adjustment, make the installation of heat exchanger and Air conditioner box there is inconvenience and maybe cannot carry out.

In the application scenario that some installing space is limited, also needing heat exchanger to fold, often there is distortion in the heat exchanger after folding, above-mentioned two kinds of mounting means also cannot enable heat exchanger smoothly and Air conditioner box install.

Therefore, how to guarantee the easy accessibility of heat exchanger, avoiding the core body damaging heat exchanger, is the current technical issues that need to address of those skilled in the art.

Utility model content

The purpose of this utility model is to provide a kind of heat exchanger assembly, the easy accessibility of this heat exchanger assembly and Air conditioner box, and can not damage heat exchanger core body.

For solving the problems of the technologies described above, the utility model provides a kind of heat exchanger assembly, comprise heat exchanging part, it specifically comprises the header and multiple flat tube be plugged between described header that be arranged in parallel, described flat tube both sides are provided with fin, outermost described fin is connected with side plate, described side plate is provided with the buckle for assembling or draw-in groove.

This heat exchanger assembly, the side plate of its heat exchanging part is provided with buckle or notch, thus heat exchanger is directly or indirectly installed by this buckle or notch and Air conditioner box.Compared with the riveted structure in background technology, the mode of buckle engaging, the installation or removal of more convenient heat exchanger, and can not cause damage by heat exchanger core body during dismounting, are conducive to heat exchanger and carry out cleaning, detect or the operation such as maintenance.

Alternatively, also comprise the installing plate be connected with described side plate, described installing plate comprises the base plate and side plate that are fixedly connected with, and described base plate and described side plate snap fit, described side plate offers the installing hole for assembling.

In order to adapt to different installing spaces, can arrange the installing plate be connected together with side plate, heat exchanger is installed by installing plate and Air conditioner box, during dismounting, only need the snap-in structure removing installing plate and side plate, convenient and reliable, and also can not cause damage by heat exchanger core body.

Alternatively, described heat exchanging part comprises the first heat exchanging part and the second heat exchanging part; Described side plate comprises the first side plate being located at described first heat exchanging part and the second side plate being located at described second heat exchanging part, and described first side plate is provided with described buckle or draw-in groove;

Also comprise installing plate, it comprises the base plate and side plate that are fixedly connected with, described base plate and described first side plate snap fit; Described side plate offers the installing hole for assembling.

Alternatively, described first heat exchanging part and described second heat exchanging part be arranged in parallel.

Alternatively, described second side plate is also provided with described buckle or draw-in groove;

Also comprise connecting plate, it comprises the flat board and riser that are fixedly connected with, described flat board and described Second Edge plate snap fit.

Alternatively, described base plate is also connected with cant board, and it is located at the opposite side of described side plate;

Described cant board and described riser lay respectively at the inner side of described first side plate and described second side plate, and both are fixedly connected with.

Alternatively, described base plate is also connected with the cant board being located at described side plate opposite side, and it is positioned at the inner side of described first side plate.

Alternatively, the inner side of described second side plate is also connected with riser; Described riser is fixedly connected with described cant board.

Alternatively, described installing hole is slotted hole or cruciform vent.

Alternatively, described buckle is one-sided turnup structure or flanging at two sides structure.

Accompanying drawing explanation

Fig. 1 provides by the utility model the structural representation of heat exchanger assembly first embodiment;

Fig. 2 provides by the utility model the structural representation of the side plate of the heat exchanger assembly of the second embodiment;

Fig. 3 provides by the utility model the structural representation of heat exchanger assembly the 3rd embodiment;

Fig. 4 is the structural representation of the shape of L shown in Fig. 3 installing plate;

Fig. 5 provides by the utility model the structural representation of heat exchanger assembly the 4th embodiment;

Fig. 6 is the structural representation removing U-shaped installing plate in Fig. 5;

Fig. 7 shows a kind of concrete structure of U-shaped installing plate in Fig. 5;

Fig. 8 shows the another kind of concrete structure of U-shaped installing plate in Fig. 5.

In Fig. 1-8:

Header 101, flat tube 102, fin 103;

Side plate 20, buckle 21, flanging 22; First side plate 20-1, the second side plate 20-2;

Installing plate 30, L shape installing plate 30a, U-shaped installing plate 30b;

Base plate 31, draw-in groove 31a, side plate 32, installing hole 32a;

Cant board 41, riser 42.

Detailed description of the invention

Core of the present utility model is to provide a kind of heat exchanger assembly, the easy accessibility of this heat exchanger assembly and Air conditioner box, and can not damage heat exchanger core body.

In order to make those skilled in the art person understand the utility model scheme better, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

It is pointed out that being installed on Air conditioner box for heat exchanger herein illustrates, is appreciated that the installation of heat exchanger assembly and other equipment also can adopt this structure.

Please refer to Fig. 1, Fig. 1 provides by the utility model the structural representation of heat exchanger assembly first embodiment.

In this embodiment, heat exchanger assembly comprises heat exchanging part, and it specifically comprises two headers be arranged in parallel 101 and multiple parallel flat tube 102 be plugged between two headers 101, and the both sides of flat tube 102 are provided with fin 103.

Wherein, the outside of outermost fin 103 is also connected with side plate 20, and this side plate 20 can be arranged in parallel with flat tube 102, and side plate 20 abuts with outermost fin 103, to stop fin 103, avoids it to drop or lodges.

During manufacture, above-mentioned four assembling parts are formed core body, then send in soldering oven and weld.

In this embodiment, side plate 20 is provided with the buckle 21 for assembling, heat exchanger by the buckle 21 on side plate 20 directly and Air conditioner box install, obviously, both are assembled by snap fit; Be appreciated that the installation for the ease of heat exchanger, Air conditioner box be provided with the draw-in groove suitable with the buckle 21 of side plate 20.

Be appreciated that, for ensureing the stability that heat exchanger assembly and Air conditioner box are installed and reliability, side plate 20 can be arranged as required several buckles 21 (two buckles 21 are exemplarily shown in Fig. 1), the distance between each buckle 21 also can set according to actual needs.

In background technology, heat exchanger is riveted by side plate and Air conditioner box and is realized installing, or is riveted by the installing plate that is fixedly arranged on side plate and Air conditioner box and realize installing, and obviously, these two kinds of riveting methods are and are rigidly connected, and are not easy dismounting; When carrying out the operations such as necessary cleaning, detection or maintenance at heat exchanger, have to again dismantle, and when dismantling, not only need special removal tool, the also core body of inevitably heat exchanger, as side plate 20 or outermost fin 103, cause damage, thus increase unnecessary cost.

And in this programme, heat exchanger is coordinated with the draw-in groove on Air conditioner box by the buckle 21 on side plate 20, buckle 21 is also engaged through described draw-in groove and can complete installation, reliably easy.And this kind of snap fit, when dismantling, do not need extra aid, only need mobile heat exchanger, make buckle 21 depart from the draw-in groove on Air conditioner box, any damage can not be caused by heat exchanger core body, be conducive to heat exchanger and carry out cleaning, detect or the operation such as maintenance.

As shown in fig. 1, in concrete scheme, the buckle 21 of side plate 20 is one-sided turnup structure, should be appreciated that on this architecture basics, and for making several buckles 21 of side plate 20 all can engage with Air conditioner box, so several buckles 21 are all towards the same side flange.

In addition, above-mentioned snap fit, can avoid the heat exchanger because mismachining tolerance causes and Air conditioner box to install to a certain extent.

As the mounting means in background technology, if when mismachining tolerance appears in the riveted holes of side plate or installing plate and Air conditioner box, then cannot correspondence both can be caused to install because of riveted holes.

And in this programme, adopt the fit system of buckle 21 and draw-in groove, have certain cooperation nargin, even if the Working position of buckle 21, or there is certain mismachining tolerance in the Working position of draw-in groove, as long as buckle 21 can pass draw-in groove, can realize engaging and install.

Should be appreciated that and arrange draw-in groove at side plate 20, it is also feasible that Air conditioner box arranges the buckle coordinated with this draw-in groove.

Please refer to Fig. 2, Fig. 2 provides by the utility model the structural representation of the side plate of the heat exchanger assembly of the second embodiment.

In this embodiment compared with aforementioned first embodiment, difference is only that the concrete structure of buckle 21 on side plate 20 is different.

In this programme, buckle 21 is flanging at two sides structure, and as shown in Figure 2, its side is roughly in "T"-shaped, and this kind of structure is more convenient for coordinating of side plate 20 and Air conditioner box.

Should be appreciated that the buckle 21 on side plate 20 can also be set to other shapes or structure, as long as be convenient to the installation and removal of side plate 20 and Air conditioner box.

In addition, the two ends of side plate 20 are equipped with flanging 22, and flanging 22 can play the effect intercepting header 101 and fin 103, adhesion both when avoiding welding.

Please refer to Fig. 3 and Fig. 4; Fig. 3 provides by the utility model the structural representation of heat exchanger assembly the 3rd embodiment; Fig. 4 is the structural representation of the shape of L shown in Fig. 3 installing plate.

As can be seen from the figure, the heat exchanging part structure of this heat exchanger assembly is consistent with the first embodiment, repeats no more here.

In this embodiment, heat exchanger assembly also comprises the installing plate 30 be connected with side plate 20.

Wherein, installing plate 30 comprises the base plate 31 and side plate 32 that are fixedly connected with, and base plate 31 has the draw-in groove 31a coordinated with the buckle 21 of side plate 20, and side plate 32 offers the installing hole 32a for installing with Air conditioner box.

Certainly, side plate 20 arranges draw-in groove, it is also feasible that the base plate 31 of installing plate 30 arranges the buckle coordinated with draw-in groove.

In the program, heat exchanger is installed on Air conditioner box by installing plate 30.Particularly, installing plate 30 is engaged with side plate 20 by its base plate 31 to be installed, and is installed with Air conditioner box by its side plate 32.

Adopt this programme, during dismounting heat exchanger, only need remove the connection of installing plate 30 and side plate 20, and installing plate 30 adopt snap fit same with side plate 20 connects, and dismantles easy and can not cause damage by heat exchanger core body.

Be appreciated that in this kind of scheme, installing plate 30 is unrestricted with the mounting means of Air conditioner box, ensures reliable and secure.

Particularly, side plate 32 can adopt the mode of riveted joint with the mounting means of Air conditioner box, also can adopt other connected modes such as bolt.

The arranging of installing plate 30 can solve the limited problem of installing space between heat exchanger and Air conditioner box.So installing plate 30 and Air conditioner box preferably select dismountable connected mode, according to different installation occasions, to adjust installing plate 30.

In concrete scheme, base plate 31 and side plate 32 are set to integrative-structure, and its cross section is L-shaped, and the length adaptation of the length of installing plate 30 and side plate 20, as shown in Figure 4, L shape installing plate 30a can be referred to as.

Should be appreciated that number and the arrangement of installing hole 32a on side plate 32 can be arranged according to actual needs, be not limited to three shown in Fig. 4, as long as the security reliability that installing plate 30 is connected with Air conditioner box can be guaranteed; The number matches of buckle 21 on the number of draw-in groove 31a and side plate 20 on base plate 31.

The cross section of installing plate 30, except above-mentioned " L " shape, can also be " ⊥ " shape, or side plate 32 can turn down to side, makes the cross section of installing plate 30 substantially in serpentine.

In addition, the concrete structure of installing plate 30 also can be other forms.

As, side plate can arrange several buckles, and installing plate 30 comprises the same number of several point of installing plate with buckle, each point installing plate and each be clasped.That is, only arrange point installing plate of coupling in each snapped-in position, compared to aforementioned structure, obviously, this kind of scheme, can save material, reduce costs, and replaces conveniently.

Be appreciated that, this kind of scheme, each point installing plate and each be clasped, its base plate only offers a draw-in groove, correspondingly, its side plate also only offers an installing hole, that is, position and the number of installing hole depend on buckle, so, buckle offer number and installing plate and side plate will be taken into account in position, and the connection reliability of installing plate and Air conditioner box.

In contrast, there is not positive connection between the number of its draw-in groove 31a and the number of installing hole 32a, can arrange respectively according to actual needs in integrally-built installing plate 30 shown in Fig. 4, as in Fig. 4, draw-in groove 31a is set to two, and installing hole 32a is set to three.

And for example, only side plate 32 can be set to Split type structure, namely side plate 32 comprises several point of side plate, be arranged at each link position of installing plate 30 and Air conditioner box respectively, namely the length of base plate 31 still with side plate 20 length adaptation, each point of side plate is all affixed with base plate 31, and be equipped with installing hole 32a, so, can material be saved, reduce costs.Certainly, prerequisite is the reliability that will ensure that installing plate 30 is connected with Air conditioner box.

For another example, base plate 31 and side plate 32 can be arranged in split, and connected by fixed forms such as welding, just compare aforementioned integrative-structure, connecting portion increases, and correspondingly reliability decreases.

Please refer to Fig. 5 and Fig. 6, Fig. 5 provides by the utility model the structural representation of heat exchanger assembly the 4th embodiment; Fig. 6 is the structural representation removing U-shaped installing plate in Fig. 5.

Compared with heat exchanger assembly shown in Fig. 3, in this embodiment, the heat exchanging part of heat exchanger assembly comprises the first affixed heat exchanging part and the second heat exchanging part.In concrete scheme, the first heat exchanging part and the second heat exchanging part be arranged in parallel.

As shown in Figure 6, in the program, the heat exchanging part of heat exchanger is also folding along the length direction doubling of its flat tube 102, thus, form the first heat exchanging part and the second heat exchanging part that be arranged in parallel.So, the limited occasion of installing space can be applicable to by heat exchanger, and also can meet heat exchange demand simultaneously.

After folding, two headers 101 are fitted side by side, and correspondingly, side plate 20 comprises the first side plate 20-1 being located at the first heat exchanging part and the second side plate 20-2 being located at the second heat exchanging part; Wherein, the first side plate 20-1 is provided with buckle 21.

Hereafter for ease of describing, the side that the first heat exchanging part and the second heat exchanging part fit is referred to as inner side, side on the other side is referred to as outside.

This heat exchanger assembly also comprises installing plate 30, and this installing plate 30 comprises the base plate 31 and side plate 32 that are fixedly connected with equally; Wherein, base plate 31 has the draw-in groove 31a coordinated with the buckle 21 of the first side plate 20-1.That is, installing plate 30 and the first side plate 20-1 snap-fit, separately, for ease of the installation of installing plate 30 with Air conditioner box, its side plate 32 is positioned at the outside (can with reference to figure 5) of the first side plate 20-1, certainly, side plate 32 also offers the installing hole 32a for installing with Air conditioner box.

This heat exchanger assembly also comprises the fixture of restriction first heat exchanging part and the second heat exchanging part relative position.So, under can avoiding External Force Acting, the first heat exchanging part and the second heat exchanging part are opened in a certain angle, make heat exchanger be in suspended state, cause potential safety hazard.

This embodiment and the 3rd embodiment similar, heat exchanger is still installed on Air conditioner box by installing plate 30.

During dismounting heat exchanger, only need remove the connection of installing plate 30 and the first side plate 20-1, and installing plate 30 is same with the first side plate 20-1 adopts snap fit to connect, dismantles easy, and damage can not be caused by heat exchanger core body.

Please composition graphs 7 and Fig. 8 in the lump; Fig. 7 shows a kind of concrete structure of U-shaped installing plate in Fig. 5; Fig. 8 shows the another kind of concrete structure of U-shaped installing plate in Fig. 5.

In concrete scheme, the inner side of the first side plate 20-1 and the second side plate 20-2 is installed with cant board 41 and riser 42 respectively, and cant board 41 is fixedly connected with riser 42; So, can limit the relative position of the first side plate 20-1 and the second side plate 20-2, make it to be in the state of being parallel to each other, because side plate 20 and heat exchanger body are welded as a whole, thus the relative position of the first heat exchanging part and the second heat exchanging part is defined.

In concrete scheme, cant board 41 can be fixed in the base plate 31 of installing plate 30, and obviously, cant board 41 is located at the side relative with side plate 32.

Installing plate 30 and the first side plate 20-1 are fixed, and cant board 41 is fixed in installing plate 30, by coordinating of installing plate 30 and the first side plate 20-1, make cant board 41 be fixedly arranged on the inner side of the first side plate 20-1, not only easy but also reliable.

Particularly, cant board 41 and installing plate 30 can be set to integrative-structure, form U-shaped installing plate 30b as shown in Figure 5, and its concrete structure can be understood with reference to figure 7 and Fig. 8.

Certainly, it is also feasible for cant board 41 being directly fixed on the first side plate 20-1, can adopt the fixed forms such as welding.

In concrete scheme, riser 42 is directly fixed on the inner side of the second side plate 20-2, as shown in Figure 5, welding etc. can be adopted to be fixedly connected with mode, certainly also riser 42 and the second side plate 20-2 can be set to integrative-structure.

More specifically, riser 42 can adopt Split type structure, comprises multiple points of risers, and each point of riser is all affixed with cant board 41.As Fig. 6, that schematically shows three points of risers.

Be appreciated that cant board 41 equally also can adopt Split type structure, so, can material be saved, reduce costs.

In addition, riser 42 also can adopt the scheme similar with above-mentioned cant board 41 to be fixedly arranged on the inner side of the second side plate 20-2.

Particularly, the second side plate 20-2 is also provided with buckle 21, also comprises connecting plate, and this connecting plate comprises the flat board and riser that are fixedly connected with, and wherein, described flat board has the draw-in groove coordinated with the buckle 21 of the second side plate 20-2.

Be appreciated that and arrange draw-in groove on the second side plate 20-2, it is also feasible that flat board arranges the buckle coordinated with draw-in groove.

More specifically, described flat board and riser can be set to one.Be appreciated that on this basis, integrative-structure that is dull and stereotyped and riser is similar to the structure of installing plate 30 in the 3rd embodiment.

So, when the heat exchanger after folding exists the demand again opened and used, the first side plate 20-1 and the second side plate 20-2 is equipped with buckle 21, avoids occurring that buckle 21 concentrates on side plate 20 side, facilitate the installation of heat exchanger.

Particularly, cant board 41 and riser 42 by riveted joint, to be threaded or the mode such as welding is fixed.

Consider that the heat exchanger after folding exists the needs again opened and used, cant board 41 and riser 42 preferably select dismountable connected mode, and so, when can avoid dismantling cant board 41 and riser 42, heat exchanger causes damage.

Separately, the side plate 20 in this embodiment also can arrange the flanging intercepting header 101 and fin 103 in its end, in order to avoid heat exchanger core body header and fin adhesion when welding.

In this embodiment, the first heat exchanging part and the second heat exchanging part by the heat exchanging part of a heat exchanger by being folded to form, actual when arranging, it also can be the heat exchanging part of two independently heat exchangers, both fixed by connector, its mounting structure is similar to the above, repeats no more.

It is pointed out that above described " first " and " second " ordinal number, is the different structure in order to distinguish same names, only for convenience of description, does not represent certain order, more should not be construed as any restriction.

In the various embodiments described above, installing hole 32a can be set to slotted hole (as shown in Fig. 3-4,7), also cruciform vent (as shown in Figure 8) can be set to, so, the Form and position error that causes when can eliminate processing or folding heat exchanger, enable heat exchanger smoothly and Air conditioner box install.

It is pointed out that mentioned in this article several all represent two or more.

Above a kind of heat exchanger assembly provided by the utility model is described in detail.Apply specific case herein to set forth principle of the present utility model and embodiment, the explanation of above embodiment just understands method of the present utility model and core concept thereof for helping.Should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model principle, can also carry out some improvement and modification to the utility model, these improve and modify and also fall in the protection domain of the utility model claim.

Claims (10)

1. a heat exchanger assembly, comprise heat exchanging part, it specifically comprises the header (101) and multiple flat tube (102) be plugged between described header (101) that be arranged in parallel, described flat tube (102) both sides are provided with fin (103), outermost described fin (103) is connected with side plate (20), it is characterized in that, described side plate (20) being provided with the buckle (21) for assembling or draw-in groove.

2. heat exchanger assembly according to claim 1, it is characterized in that, also comprise the installing plate (30) be connected with described side plate (20), described installing plate (30) comprises the base plate (31) and side plate (32) that are fixedly connected with, described base plate (31) and described side plate (20) snap fit, described side plate (32) offers the installing hole (32a) for assembling.

3. heat exchanger assembly according to claim 1, is characterized in that, described heat exchanging part comprises the first heat exchanging part and the second heat exchanging part; Described side plate (20) comprises the first side plate (20-1) being located at described first heat exchanging part and the second side plate (20-2) being located at described second heat exchanging part, and described first side plate (20-1) is provided with described buckle (21) or draw-in groove;

Also comprise installing plate (30), it comprises the base plate (31) and side plate (32) that are fixedly connected with, described base plate (31) and described first side plate (20-1) snap fit, described side plate (32) offers the installing hole (32a) for assembling.

4. heat exchanger assembly according to claim 3, is characterized in that, described first heat exchanging part and described second heat exchanging part be arranged in parallel.

5. heat exchanger assembly according to claim 4, is characterized in that, described second side plate (20-2) is also provided with described buckle (21) or draw-in groove;

Also comprise connecting plate, it comprises the flat board and riser that are fixedly connected with, described flat board and described second side plate (20-2) snap fit.

6. heat exchanger assembly according to claim 5, is characterized in that, described base plate (31) is also connected with cant board (41), and it is located at the opposite side of described side plate (32);

Described cant board (41) and described riser lay respectively at the inner side of described first side plate (20-1) and described second side plate (20-2), and both are fixedly connected with.

7. heat exchanger assembly according to claim 4, it is characterized in that, described base plate (31) is also connected with the cant board (41) being located at described side plate (32) opposite side, and it is positioned at the inner side of described first side plate (20-1).

8. heat exchanger assembly according to claim 7, is characterized in that, the inner side of described second side plate is also connected with riser (42); Described riser (42) is fixedly connected with described cant board (41).

9. the heat exchanger assembly according to any one of claim 2 to 8, is characterized in that, described installing hole (32a) is slotted hole or cruciform vent.

10. the heat exchanger assembly according to any one of claim 1 to 8, is characterized in that, described buckle (21) is one-sided turnup structure or flanging at two sides structure.