CN206600946U - A kind of freezer aluminium arranges evaporator - Google Patents

Abstract

Evaporator is arranged the utility model discloses a kind of freezer aluminium, its drip irrigation device is the multiple aluminum wrapped calandrias for including being arranged side by side, heat exchange fin is symmetrically arranged with the outer wall of aluminum wrapped calandria, the one end of heat exchange fin away from aluminum wrapped calandria is fixedly connected with water leg along the length direction of aluminum wrapped calandria, it is provided with below the delivery port at water leg two ends and collects disk to collect the current that every water leg is flowed down, the bottom for collecting disk offers pod apertures, mozzle is communicated with below pod apertures, mozzle is away from storage tank of one end connection positioned at ground for collecting disk, having reached more can effectively receive the water droplet produced after defrost and it is collected, avoid falling to the effect in freezer.

Description

A kind of freezer aluminium arranges evaporator

Technical field

The utility model is related to a kind of freezer refrigerating equipment, more particularly to a kind of freezer aluminium row evaporator.

Background technology

With the development and the continuous improvement of people's living standard of society, agricultural and sideline products are enriched constantly, are used as agricultural production The freezer demand cumulative year after year that product are preserved.Because aluminum pipe has good heat conductivility, cryogenic property, corrosion resistance Can, and lightweight, cost is low, largely instead of copper pipe, steel pipe, is widely used on freezer branch seat apparatus.Freezer Aluminum wrapped calandria refrigeration be by hang over freezer inner top straight tube S type structures aluminium section bar produce cold air be formed down airflow stack effect so as to Realize freezer cooling-down effect.

The existing utility model patent for referring to the U of Publication No. CN 204718193, its technical side is by main points by multiple Evaporator is formed in parallel, and evaporator includes U-tube and multiple aluminum alloy finned tubes set laterally side by side, each aluminium alloy wing Piece pipe is connected into a path by U-tube, so that finned tube refrigeration is more uniform by way of adduction connection of connecting so that wing Frosting is uniform outside piece pipe.

But it is due to that frosting can cause finned tube and fin smoothly to carry out heat exchange, causes in freezer at temperature Drop is slow, and power consumption is big, therefore employs a variety of Defrost methods in the prior art, and wherein electricity-heated defrosting method effect more shows Write, its using aluminium row on arrangement electric heating wire to frosting progress thermalization, but the water droplet after frosting thermalization can fall to it is cold On the ground in storehouse, the article deposited in freezer is polluted.

Utility model content

The purpose of this utility model, which is to provide, a kind of more can effectively receive the water droplet that is produced after defrost and right It is collected, it is to avoid a kind of freezer aluminium row's evaporator fallen in freezer.

Above-mentioned technical purpose of the present utility model technical scheme is that：

A kind of freezer aluminium is arranged to be symmetrically arranged with evaporator, including the multiple aluminum wrapped calandrias being arranged side by side, the outer wall of aluminum wrapped calandria Exchange heat fin, and length direction of the one end of heat exchange fin away from aluminum wrapped calandria along aluminum wrapped calandria is fixedly connected with water leg, water leg It is provided with below the delivery port at two ends and collects disk to collect the current that every water leg is flowed down, the bottom for collecting disk Offer and mozzle is communicated with below pod apertures, pod apertures, mozzle is away from storage of one end connection positioned at ground for collecting disk Water tank.

By using above-mentioned technical proposal, by setting water leg in the lower section of heat exchange fin, aluminium can be arranged to upper defrost The water droplet formed afterwards is all received, and the water droplet concentrated in water leg can be slowly flowed to positioned at the water side of water leg Lower section is collected in disk, is finally pooled to out of each water leg and collects white water in disk by collecting the mozzle quilt below disk Centralized collection, which collects disk in storage tank, by the water leg and cooperation of setting and can reduce the water droplet that defrost formed, to be fallen to On storage product in freezer, it is ensured that the quality of goods in freezer, while reducing the pollution to freezer ground.

Preferably, the aluminum wrapped calandria evaporator also includes connecting two adjacent aluminum wrapped calandrias with the bridge piece of one end, institute Aluminum wrapped calandria is stated to be sequentially communicated to form a path by the bridge piece.

By using above-mentioned technical proposal, multiple aluminum wrapped calandrias are linked to be by a path by bridge piece so that refrigerant It can be freezed in aluminum wrapped calandria internal circulation flow.

Preferably, on the heat exchange fin, by symmetry axis of the aluminum wrapped calandria, equal spacings are provided with the longitudinal direction Vertical loading board is plugged with hole for hoist between multigroup hole for hoist, the multiple aluminum wrapped calandrias being arranged side by side.

, can be by multiple aluminum wrapped calandrias simultaneously by multigroup vertical loading board on aluminum wrapped calandria by using above-mentioned technical proposal An entirety is unified into, correspondence be arranged in parallel between adjacent aluminum wrapped calandria and heat exchange fin, constitutes several parallel channels, When being freezed, cold air forms airflow stack effect in passage, accelerates to sink, convection velocity is accelerated, and can accelerate the drop of freezer Warm speed, is conducive to saving electric energy.

Preferably, aluminium is arranged is fixedly connected with the water side for extending to the water leg on two aluminum wrapped calandrias on the outside of evaporator Hanger bar, the bracing pieces for being vertically fixedly connected on described two suspension boom ends, the remittance are fixedly connected between hanger bar Catch basin is provided at both ends with hasp and is overlapped on the side of the hanger bar, and the disk that collects is positioned at the water side of water leg Lower section.

, can be right by the disk that collects set respectively in the both sides of the water side of water leg by using above-mentioned technical proposal Water droplet progress concentration is formed after multiple rows of aluminum wrapped calandria defrost to collect, handle, and collects disk is fixed by the way of hasp overlap joint In the lower section of the delivery port of water leg, it can facilitate and be cleared up collecting disk, safeguarded, dismount more convenient.

Preferably, the water leg includes bottom plate and is respectively fixedly connected with bottom plate both sides and is symmetricly set in the heat exchange The water fender of the end both sides of fin, the water fender is obliquely installed to the side away from aluminum wrapped calandria respectively.

By using above-mentioned technical proposal, water leg both sides water fender is obliquely installed, and knife aluminium can be received to greatest extent The water droplet that defrost is formed on comb and heat exchange fin, it is to avoid water droplet is fallen in freezer.

Preferably, the aluminum wrapped calandria is molded with the heat exchange fin integrated die-casting.

By using above-mentioned technical proposal, aluminum wrapped calandria is molded with heat exchange fin integrated die-casting, improves production efficiency, simultaneously It is integrally formed to be designed to more effectively solve to overlap docking and welding manner the problem of seam crossing exchanges heat difference so that Aluminum wrapped calandria and fin radiating are more uniform.

Preferably, be provided with the diversion column of arc on the heat exchange fin, diversion column is extended to pair from heat exchange flap apex The bottom of the heat exchange fin of title.

By using above-mentioned technical proposal, due to heat exchange flap surface defrost, water droplet easily the diffusion of heat exchange flap surface, Be difficult to drop, by heat exchange flap surface open up longitudinal direction and extend to least significant end arc diversion column, water can be accelerated The whereabouts of drop.

Preferably, the diversion column along heat exchange fin length direction be equidistantly arranged at intervals with it is a plurality of.

It is a plurality of in the length direction spaced set of heat exchange fin by using above-mentioned technical proposal, enable to defrost The water droplet falling speed formed afterwards is accelerated so that the frosting defrost on heat exchange fin is uniform.

In summary, the utility model has the advantages that：

1st, by below heat exchange fin the water leg that sets can immediately to defrost after the water droplet that is formed receive And coordinate collector groove, concentration can be carried out to the water droplet on multiple rows of aluminum wrapped calandria and collect processing, it is to avoid water droplet falls to freezer It is interior, it is ensured that the storage environment of freezer；

2nd, water droplet can be accelerated by the diversion column of the arc set on heat exchange fin, increases defrost speed.

Brief description of the drawings

Fig. 1 is a kind of freezer aluminium row evaporator overall structure diagram；

Fig. 2 is the structural representation of aluminum wrapped calandria and the fin that exchanges heat;

Fig. 3 is the enlarged diagram of A in Fig. 1;

Fig. 4 is the enlarged diagram of B in Fig. 2；

Fig. 5 is the side view that a kind of freezer aluminium arranges evaporator.

In figure, 1, aluminum wrapped calandria；2nd, bridge piece；3rd, water inlet；4th, delivery port；5th, exchange heat fin；6th, diversion column；7th, catchment Groove；71st, bottom plate；72nd, water fender；73rd, water side；8th, disk is collected；82nd, mozzle；83rd, storage tank；9th, hole for hoist；91st, lift Bar；10th, hanger bar；101st, bracing piece；102nd, hasp.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.Wherein identical parts identical accompanying drawing Mark is represented.It should be noted that the word "front", "rear", "left", "right", the "up" and "down" that are used below in description refer to It is the direction in accompanying drawing, word " bottom surface " and " top surface ", " interior " and " outer " are referred respectively to towards or away from particular elements geometry The direction at center.

A kind of freezer aluminium arranges evaporator, as shown in Figures 1 and 2, including the multiple aluminum wrapped calandrias 1 and connecting bending being arranged side by side Pipe 2, two adjacent aluminum wrapped calandrias 1 are welded with bridge piece 2 with one end, are connected multiple aluminum wrapped calandrias 1 in one by bridge piece 2 Bar path, aluminium row's evaporator, which is formed with to be symmetrically arranged with along aluminum wrapped calandria 1 on water inlet 3 and delivery port 4, the outer wall of aluminum wrapped calandria 1, to be grown Spend the heat exchange fin 5 of direction integrated die-casting shaping.

As shown in figures 2 and 5, the one end of heat exchange fin 5 away from aluminum wrapped calandria 1 is fixedly connected with water leg 7, and water leg 7 is wrapped Include the bottom plate 71 for being fixedly connected on heat exchange fin 5 end and be respectively fixedly connected with two ends of bottom plate 71 and inclined to both sides Water fender 72, water fender 72 is symmetrical arranged in face on the basis of the fin 5 that exchanges heat.

As best shown in figs. 1 and 4, heat exchange fin 5 is provided with a plurality of diversion column 6 along its length direction equal spacings, leads The curved fin shape of fluidization tower 6, diversion column 6 is from the heat exchange top of fin 5 away from water leg 7 to the heat exchange fin 5 close to water leg 7 Bottom extends, and is parallel to each other between diversion column 6.

As shown in Figures 1 and 2, on the heat exchange fin 5 of the top and bottom of aluminum wrapped calandria 1 with aluminum wrapped calandria 1 be symmetry axis pair Title offers hole for hoist 9, and length direction equal spacings of the hole for hoist 9 along heat exchange fin 5 are provided with multiple, each aluminum wrapped calandria Hole for hoist 9 on 1 is corresponding and is arranged concentrically, and vertical loading board 91 is plugged with the hole for hoist 9 being arranged concentrically, and vertical loading board 91, which stretches out, to be changed The two ends of hot fin 5 are fixed by nut.

As shown in Figure 1, Figure 2 with shown in Fig. 3, hanger bar 10, hanger bar are fixedly connected with the outermost side of aluminum wrapped calandria 1 10 extend the top of the water side 73 of water leg 7 along the length direction of aluminum wrapped calandria 1, are provided with bracing piece 101 between hanger bar 10, Bracing piece 101 is separately fixed at the end of hanger bar 10.

As shown in Figures 1 and 2, positioned at the water side 73 of water leg 7 side and be provided with the lower section of water leg 7 and collect disk 8, for collecting the defrosting water that the water leg 7 from the lower section of each aluminum wrapped calandria 1 flows out, the bottom for collecting disk 8 offers pod apertures Mozzle 82 is fixedly connected with below (not shown), pod apertures, mozzle 82 is placed away from one end connection for collecting disk 8 In the storage tank 83 on ground.

As shown in Figure 2 and Figure 3, the two ends for collecting the length direction of disk 8 are fixedly connected with hasp 102, and hasp 102 is overlapped on outstanding On peg 10 and the projection of water side 73 of water leg 7 is incident upon on the central axis of water leg 7.

Correspondence be arranged in parallel between aluminum wrapped calandria 1 and heat exchange fin 5, constitutes several parallel channels, is being freezed When, cold air forms airflow stack effect in passage, accelerates to sink, convection velocity is accelerated, and can accelerate the cooling rate of freezer, have Beneficial to saving electric energy；

Current after defrost pass through the water conservancy diversion of diversion column 6 from the water leg 7 on heat exchange fin 5 below inflow, Duo Geji Translateral water side 73 is flowed to and collected in disk 8 respectively for current in tank 7, and afterwards, the defrosting water in water-collecting tray is by leading Flow tube 82 imported into the storage tank 83 of lower section and focused on.

This specific embodiment is only to explain of the present utility model, and it is not to limitation of the present utility model, ability Field technique personnel can make the modification without creative contribution to the present embodiment as needed after this specification is read, but As long as all being protected in right of the present utility model by Patent Law.

Claims (8)

1. a kind of freezer aluminium arranges evaporator, it is characterised in that:Including the multiple aluminum wrapped calandrias (1) being arranged side by side, aluminum wrapped calandria (1) it is outer Heat exchange fin (5), length side of the one end of heat exchange fin (5) away from aluminum wrapped calandria (1) along aluminum wrapped calandria (1) are symmetrically arranged with wall Collect disk (8) to collect to being fixedly connected with to be provided with below water leg (7), the delivery port (4) at water leg (7) two ends The current that every water leg (7) flows down, the bottom for collecting disk (8), which offers to be communicated with below pod apertures, pod apertures, leads Flow tube (82), mozzle (82) is away from storage tank (83) of one end connection positioned at ground for collecting disk (8).

2. freezer aluminium according to claim 1 arranges evaporator, it is characterised in that：The aluminum wrapped calandria evaporator also includes connection Two adjacent aluminum wrapped calandrias (1) are with the bridge piece (2) of one end, and the aluminum wrapped calandria (1) connected successively by the bridge piece (2) It is logical.

3. freezer aluminium according to claim 1 arranges evaporator, it is characterised in that：With the aluminium on the heat exchange fin (5) Comb (1) is that equal spacings are provided with multigroup hole for hoist (9), the multiple aluminium being arranged side by side to symmetry axis in the longitudinal direction Vertical loading board (91) is plugged with hole for hoist (9) between comb (1).

4. freezer aluminium according to claim 1 arranges evaporator, it is characterised in that：Two aluminum wrapped calandrias on the outside of aluminium row's evaporator (1) it is fixedly connected between the hanger bar (10) for the water side (73) for extending to the water leg (7), hanger bar (10) fixed The bracing piece (101) for being vertically fixedly connected on described two hanger bars (10) end is connected with, the two ends for collecting disk (8) are set It is equipped with hasp (102) and is overlapped on the side of the hanger bar (10), it is described to collect the water outlet that disk (8) is located at water leg (7) Hold the lower section of (73).

5. freezer aluminium according to claim 1 arranges evaporator, it is characterised in that：The water leg (7) includes bottom plate (71) Be respectively fixedly connected with bottom plate (71) both sides and be symmetricly set in it is described heat exchange fin (5) end both sides water fender (72), the water fender (72) is obliquely installed to the side away from aluminum wrapped calandria (1) respectively.

6. freezer aluminium according to claim 1 arranges evaporator, it is characterised in that：The aluminum wrapped calandria (1) and the heat exchange wing Piece (5) integrated die-casting is molded.

7. freezer aluminium according to claim 1 arranges evaporator, it is characterised in that：Arc is provided with the heat exchange fin (5) The diversion column (6) of shape, diversion column (6) extends to the bottom of symmetrical heat exchange fin (5) from heat exchange fin (5) top.

8. freezer aluminium according to claim 6 arranges evaporator, it is characterised in that：The diversion column (6) along heat exchange fin (5) length direction is equidistantly arranged at intervals with a plurality of.