CN108759219A - A kind of cooling device - Google Patents

Abstract

A kind of cooling device, including supporting rack, at least one wind turbine and the exhaust outlet being arranged on supporting rack；Include at least one accommodation chamber inside supporting rack, for placing object to be cooled；Air inlet and air outlet are provided on the siding of accommodation chamber, wind turbine is connected to supporting rack；Air outlet is connected to wind turbine, and the air-flow for flowing to air outlet accelerate and is discharged from exhaust outlet by wind turbine；The inside of supporting rack forms from air inlet in the effect of wind turbine suction and to air outlet and extends to exhaust outlet gas channel.By the way that accommodation chamber and wind turbine are arranged on supporting rack, under the action of the pressure difference of wind turbine manufacture, the air port being arranged on two sidings is made to form air-flow, surface flow of the air-flow in object to be cooled, heat exchange is formed with object to be cooled, is cooled down to rapidly and uniformly treat cooling thing.Cooling rate is not only increased, cooling effect is also enhanced.

Description

A kind of cooling device

Technical field

This application involves solar cell technical field of processing equipment more particularly to a kind of cooling devices.

Background technology

The cooling means to battery chip in currently available technology substantially there are four types of.The first is filled directly to open heating It sets, in the natural environment, is cooled down by natural wind；Second is to be removed from heating device, is placed in the natural environment, It is cooled down by natural wind；The third is placed to be removed from heating device in the natural environment, by fan apparatus to electricity Chamber chip is cooled down；4th kind, to be removed from heating device, is placed in the natural environment, is dried to battery by wind turbine Piece is cooled down.But above-mentioned cooling means is natural air cooled or quenching, there is cooling speed in production application The poor cooling effects such as degree is slow, inhomogeneous cooling is even.

Invention content

(1) goal of the invention

The purpose of the application is to provide a kind of cooling device, by the way that cooling chamber and wind turbine are arranged on supporting rack, in wind turbine Under the suction of offer, make the air port being arranged on two sidings formed air-flow, air-flow object to be cooled surface flow, with Object to be cooled forms heat exchange, is cooled down to rapidly and uniformly treat cooling thing.Cooling rate is not only increased, is also enhanced Cooling effect.

(2) technical solution

To solve the above problems, the first aspect of the present invention provides a kind of cooling device, including at least one accommodation chamber, At least one wind turbine and exhaust outlet；It is provided with air inlet and air outlet on the siding of the accommodation chamber；The accommodation chamber is for putting Set object to be cooled；The wind turbine is connected to the accommodation chamber；The exhaust outlet is connected to the accommodation chamber；The air outlet and institute Wind turbine connection is stated, the air-flow for flowing to the air outlet is accelerated to be discharged from the exhaust outlet by the wind turbine；Described accommodating Indoor formation is from the air inlet to the air outlet and extends to the gas channel of the exhaust outlet.

Optionally, cooling device further includes supporting rack and installation room；The exhaust outlet is arranged on support frame as described above；Institute Installation room is stated to connect with the accommodation chamber, and the installation room is connected to by the air outlet with the accommodation chamber；The air inlet Mouth is located at the air outlet on the siding of the accommodation chamber opposite sides.

Optionally, cooling device further includes the first guide layer, and first guide layer is vertically set on support frame as described above It is interior；The installation room is connected to first guide layer.

Optionally, cooling device further includes the first guide layer, and first guide layer is horizontally set on support frame as described above Interior, the installation room is stacked up and down with first guide layer；The installation room is connected to first guide layer.

Optionally, cooling device further includes the second guide layer；Second guide layer be set to the installation room with it is described Between accommodation chamber, and the installation room is connected to the accommodation chamber.

Optionally, at least two exhaust outlets and at least two wind turbines are provided on support frame as described above；The installation interior is set It is equipped at least one partition board, forms multiple installation spaces；There are one the exhaust outlet and one for each installation space setting The wind turbine.

Optionally, the wind turbine is centrifugal fan, and the motor side of the centrifugal fan is located at the outside of installation room, institute The fan end for stating centrifugal fan is located at installation interior.

Optionally, the wind turbine is centrifugal fan, and the motor side of the centrifugal fan is located at the outside of installation room, institute The fan end for stating centrifugal fan is located at installation interior；The junction of second guide layer and the installation room is provided with logical Hole, the air intake of the fan end are connect with the through-hole.

Optionally, the wind turbine is axial fan, and the axial fan is installed to the inside of the installation room.

Optionally, the wind turbine is axial fan, and the axial fan is installed to the inside of the installation room；It is described Second guide layer and the junction of the installation room are provided with through-hole, and the air intake of the axial fan is set close to the through-hole It sets.

Optionally, the accommodation chamber is internally provided at least two tracks；The track is respectively along accommodation chamber bottom phase The other end is extended to from one end to both sides；The direction that the track extends is vertical with the flow direction of the cooling air-flow.

Optionally, the air inlet side of support frame as described above is additionally provided with protective layer；It is provided on the outer wall of the protective layer more A ventilation hole.

A kind of laminating apparatus, including any one of them cooling device as above are provided according to the second aspect of the invention.

Technical solution brief summary：

By the way that accommodation chamber and wind turbine are arranged on supporting rack, and wind turbine is connected to air outlet.In blower fan work, Make to generate difference, under the action of pressure difference, cooling device with external wind pressure inside entire cooling device by wind turbine rotation External gas, is inhaled by the air inlet being in communication with the outside in accommodation chamber, and be sucked out from air outlet, the shape in accommodation chamber At the air-flow for flowing to the other side from side.Air-flow flows to offside from the side of accommodation chamber, with the object to be cooled for being placed on accommodation chamber Heat exchange is carried out, the thermal current after heat exchange is sent to the external world from exhaust outlet again.To be formed from the external world to accommodation chamber An extraneous circulating current channel is arrived again, and the air-flow flowed in gas channel is completed with object heat exchange to be cooled in accommodation chamber Object cooling procedure to be cooled.

(3) advantageous effect

The above-mentioned technical proposal of the present invention has following beneficial technique effect：

By the way that accommodation chamber and wind turbine are arranged on supporting rack, under the action of the pressure difference of wind turbine manufacture, make setting two Air-flow is formed between air inlet and air outlet on a siding, air-flow is formed in the surface flow of object to be cooled with object to be cooled Heat exchange, then by the outside of the cooling device of the thermal current conveying of the formation after heat exchange, the gas channel of cycle is constantly defeated Stream of supplying gas forms heat exchange with object to be cooled, moves in circles, is cooled down to rapidly and uniformly treat cooling thing.Not only improve Cooling rate, also enhances cooling effect.

Description of the drawings

Fig. 1 is the structural schematic diagram according to the embodiment of the present application cooling device；

Fig. 2 is according to the embodiment of the present application cooling device cross section structure figure；

Fig. 3 is that a kind of centrifugal fan effect the of lower bracing frame internal gas flow flows to schematic diagram；

Fig. 4 is that the another kind of centrifugal fan effect lower bracing frame internal gas flow flows to schematic diagram；

Fig. 5 be centrifugal fan effect lower bracing frame internal gas flow another flow to schematic diagram；

Fig. 6 is that the another kind of centrifugal fan effect lower bracing frame internal gas flow flows to schematic diagram；

Fig. 7 is that a kind of centrifugal fan effect the of lower bracing frame internal gas flow flows to schematic diagram；

Fig. 8 is that the another kind of centrifugal fan effect lower bracing frame internal gas flow flows to schematic diagram；

Fig. 9 be centrifugal fan effect lower bracing frame internal gas flow another flow to schematic diagram；

Figure 10 is that a kind of axial fan effect the of lower bracing frame internal gas flow flows to schematic diagram；

Figure 11 is that the another kind of axial fan effect lower bracing frame internal gas flow flows to schematic diagram；

Figure 12 be axial fan effect lower bracing frame internal gas flow another flow to schematic diagram；

Figure 13 is that the another kind of axial fan effect lower bracing frame internal gas flow flows to schematic diagram；

Figure 14 is that a kind of axial fan effect the of lower bracing frame internal gas flow flows to schematic diagram；

Figure 15 is that the another kind of axial fan effect lower bracing frame internal gas flow flows to schematic diagram；

Figure 16 be axial fan effect lower bracing frame internal gas flow another flow to schematic diagram；

Figure 17 is the overall structure diagram according to the embodiment of the present application cooling device；

Figure 18 is the ventilation hole of the amplification at A and air inlet perspective relation schematic diagram in Figure 17.

Reference numeral：

1：Supporting rack；11：Accommodation chamber；12：Air inlet；13：Air outlet；2：Wind turbine；3：Exhaust outlet；4：Room is installed；41：Every Plate；42：Installation space；5：First guide layer；51：Ventilating duct；6：Second guide layer；61：Through-hole；7：Track；8：Protective layer； 81：Ventilation hole；9：Recovery layer.

Specific implementation mode

In order to make the objectives, technical solutions and advantages of the present invention clearer, With reference to embodiment and join According to attached drawing, the present invention is described in more detail.It should be understood that these descriptions are merely illustrative, and it is not intended to limit this hair Bright range.In addition, in the following description, descriptions of well-known structures and technologies are omitted, to avoid this is unnecessarily obscured The concept of invention.

Obviously, described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on the present invention In embodiment, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that term " first ", " second ", " third " are used for description purposes only, It is not understood to indicate or imply relative importance.

As long as in addition, technical characteristic involved in invention described below different embodiments non-structure each other It can be combined with each other at conflict.

Hereinafter reference will be made to the drawings is more fully described the present invention.In various figures, identical element is using similar attached Icon is remembered to indicate.For the sake of clarity, the various pieces in attached drawing are not necessarily to scale.

It should be noted that embodiment is described with reference to each attached drawing in order to help to understand, in wherein Fig. 3-Figure 16 The arrow of " → " i.e. laterally or longitudinally indicates the flow direction of air-flow, no longer to explain in the description of subsequent embodiment.

Referring to Fig. 1, Fig. 1 is the structural schematic diagram according to the embodiment of the present application cooling device.

According to an embodiment of the invention, as shown in Figure 1, providing a kind of cooling device, including at least one accommodation chamber 11, At least one wind turbine 2 and exhaust outlet 3；Air inlet 12 and air outlet 13 are provided on the siding of the accommodation chamber 11；It is described accommodating Room 11 is for placing object to be cooled；The wind turbine 2 is connected to the accommodation chamber 11；The exhaust outlet 3 connects with the accommodation chamber 11 It is logical；The air outlet 13 is connected to the wind turbine 2, and the wind turbine 2 accelerates the air-flow for flowing to the air outlet 13 from institute State the discharge of exhaust outlet 3；It is formed from the air inlet 12 in the accommodation chamber 11 and to the air outlet 13 and extends to the row The gas channel in air port 3.The exhaust outlet 3 of the application, which can be selected, carries flange port air duct, in order to be connect with external air duct, from And by air-flow from cooling device delivered inside to outdoor.In the present embodiment, accommodation chamber 11, which may include multiple industry, can only have 1 It is a, when only there are one when accommodation chamber 11, exhaust outlet 2 and air outlet 13 can be same ventilation opening, and wind turbine 2 is configured in accommodation chamber 11 With on the siding where air outlet 13, when rotating in order to wind turbine 2, can make to form pressure difference with external in accommodation chamber 11, from And form gas channel from air inlet 12 at air outlet 13 in accommodation chamber 11, the air-flow in gas channel treat cooling thing into Row uniformly, quickly cools down.

In the present embodiment, the cooling device of the application is suitable for laminating apparatus, but is not limited to laminating apparatus.Wherein, originally Apply in alternative embodiment, is provided with one or more wind turbines 2, after wind turbine 2 rotates, the external and internal pressure of cooling device is made to occur Variation, by the pressure difference inside and outside cooling device, makes the gas outside cooling device enter appearance from air inlet with certain speed Room 11 is set, accelerates or at the uniform velocity flow to air outlet in accommodation chamber 11, forms the gas from air inlet to air outlet in accommodation chamber 11 Circulation road controls the flow direction of air-flow by 2 installation position of wind turbine；Controlled by 2 rotating speed of wind turbine and gas channel in gas The flow velocity of stream, to accelerate the cooling velocity of object to be cooled in accommodation chamber 11.

The application cooling device overall structure is light-weight, structural strength is high；By to 11 distinctive gas channel of accommodation chamber Layout, makes can have average air drag in one or more accommodation chambers 11, cooling object is treated faster to reach Speed, the cooling effect being more uniformly distributed.In addition, optional use of the connection type addressed in the embodiment of the present application is detachably connected, example It is such as spirally connected, is clamped, replaced when being damaged in order to section components, to save cost, but be not limited to the above-mentioned limitation enumerated, The connection type welded or riveted may be used.

Fig. 2, Fig. 3-Fig. 6 and Figure 10-13 are please referred to, Fig. 2 is according to the embodiment of the present application cooling device cross section structure figure； Three kinds of Fig. 3-Fig. 6 centrifugal fans effect lower bracing frame internal gas flow flow to schematic diagram；Under the effect of Figure 10-13 axial fans Three kinds of supporting rack internal gas flow flow to schematic diagram.

In an alternative embodiment, as shown in Fig. 2-5 and Figure 10-12, cooling device further includes supporting rack 1 and installation room 4；Exhaust outlet 3 is arranged on supporting rack 1；Installation room 4 is placed in supporting rack 1, for configuring wind turbine 2；Room 4 and accommodation chamber 11 are installed Connection, and room 4 is installed and is connected to accommodation chamber 11 by air outlet 13；Air inlet 12 is located at accommodation chamber 11 opposite two with air outlet 13 On the siding of side.Optionally, wind turbine 2 is axial fan, and axial fan is installed to the inside of installation room 4；It is another optional, Wind turbine 2 is centrifugal fan, and the motor side of centrifugal fan is located at the outside of installation room 4, and the fan end of centrifugal fan is located at It installs in room 4.

In the present embodiment, installation room 4 can be placed in interior a side of supporting rack 1, can also be installed on the top of supporting rack 1 End, or it can be installed on 1 bottom of supporting rack, as long as can be connected to air outlet 13, formed from air outlet 13 to exhaust outlet 3 Gas channel is the protection domain in the application.A kind of alternative of the present embodiment is that air inlet 12 and air outlet 13 are distinguished It is arranged in the two side walls in supporting rack 1 perpendicular to horizontal plane, and two side walls are oppositely arranged, when wind turbine 2 operates, accommodating The straight air flow passage of horizontal direction is formed in room 11.It should be noted that in the optional scheme, air-flow uniformly exists The upper surface of object to be cooled is passed through, and carries out heat exchange with object to be cooled, takes away the heat of object to be cooled.In the alternative, Installation room 4 is installed on the outside of air outlet 13, and size matches with the siding where air outlet 13, directly collects from air outlet The air-flow of 13 outflows.Wherein, air inlet 12 and air outlet 13 could be provided as the first through hole of multigroup array arrangement respectively, should First through hole can be square hole, round hole, but be not limited to above-mentioned enumerate.Air inlet 12 and air outlet 13 can be optionally disposed on appearance On the opposite position for setting 11 opposite sides siding of room, but it is not limited to the set-up mode enumerated.In addition, the supporting rack 1 of the application It is optional to be set as the cubic with stabilizer blade, it may be set to be with the cylindric of stabilizer blade, but be not limited to above-mentioned enumerate.

It should be noted that supporting rack 1 could be provided as include skeleton, laminate and siding assembling structure, pass through by Siding, intermediate interlayer and skeleton connect to form accommodation chamber 11.Or one the cavity body structure that matches with supporting rack shape it is solid It is scheduled on supporting rack.Wherein, detachable connection, example can be used in the connection type between siding, intermediate interlayer and skeleton It is such as clamping, is spirally connected, but not limited to this.Supporting rack 1 could be provided as multilayered structure, may be set to be single layer structure, optional It is set as multilayered structure.When supporting rack 1 is set as multilayered structure, supporting rack 1 can be made in such a way that intermediate interlayer is set Inside is formed as multiple accommodation chambers 11；Or the cavity body structure that multiple and supporting rack shape matches is separately fixed at support On each layer of frame.

In an alternative embodiment, as shown in fig 6 and fig 13, cooling device further includes the first guide layer 5, the first guide layer 5 are vertically set in supporting rack 1；Installation room 4 is connected to the first guide layer 5.Specifically, air inlet 12 is located at branch with air outlet 13 The both sides opposite in the horizontal direction of support 1；It is stacked with about 11 accommodation chamber that room 4 is installed；Room 4 is installed and the first guide layer 5 connects It is logical.Wind turbine 2 on the installation room 4 is axial fan, and axial fan is installed to the inside of installation room 4；Or the installation Wind turbine 2 on room 4 is centrifugal fan, and the motor side of centrifugal fan is located at the outside of installation room 4, the wind turbine of centrifugal fan End is located in installation room 4.

In the present embodiment, the first guide layer 5 is vertically set on an interior side for supporting rack 1, and with air outlet 13 The siding at place is connected；First side of the guide layer 5 far from air outlet 13, bottom can be provided with stabilizer blade, to support One guide layer 5 or the first guide layer 5 can cover at the side of the separate air inlet 12 of 13 place siding of air outlet, bottom end Can be contour with the bottom end of supporting rack 1, the bottom end of supporting rack 1 can be higher than.Installation room 4 can be arranged on the top of accommodation chamber 11 End, can also be arranged in the bottom end of accommodation chamber 11, an installation room 4 can also respectively be arranged on the top of accommodation chamber 11 and bottom end. Here it is illustrated on 11 top of accommodation chamber with installing the setting of room 4：In the first guide layer 5 close to the position on top, and and outlet air The side of 13 place sidings connection of mouth is provided with ventilating duct 51, and installation room 4 is connected to by ventilating duct 51 with the first guide layer 5.From And external air can be formed air-flow in accommodation chamber 11 under the action of 2 suction of wind turbine, and by the heat Jing Guo heat exchange Air-flow is delivered to installation room 4 by the first guide layer 5.Wherein, ventilating duct 51 can be to connect with the first guide layer 5 and installation room 4 Connect the equal-sized opening in place, or multiple air duct holes in junction are set, and air duct hole can also with random arrangement Display arrangement.Here, the shape of air duct hole is not construed as limiting.When wind turbine 2 is axial fan 2, wind turbine 2 is arranged in its wind passage mouth Close to the position of air duct hole.The application makes external air form gas in accommodation chamber 11 by the design of the first guide layer 5 Stream is oriented by the first guide layer 5 and is exported, and not only strengthens gas channel cycle, air-flow and the contact surface of object to be cooled is made to reach To maximum, heat transfer effect is improved；And reduce the occupation of land of entire cooling device, area.

7 and 18 are please referred to Fig.1, Figure 17 is the overall structure diagram according to the embodiment of the present application cooling device；Figure 18 is The ventilation hole of amplification in Figure 17 at A and air inlet perspective relation schematic diagram.

In an alternative embodiment, as shown in figure 17,12 side of air inlet of supporting rack 1 is additionally provided with protective layer 8；Protective layer Multiple ventilation holes 81 are provided on 8 outer wall.Protective layer 8 covers at the outside of 12 place siding of air inlet, and protective layer 8 is 12 corresponding position of air inlet is provided with ventilation hole 81, which is used for air circulation so that when wind turbine 2 operates, outside Air inlet 12 that the air in portion can be entered by ventilation hole 81 simultaneously forms air-flow.It should be noted that being arranged on protective layer 8 Ventilation hole 81 can random alignment on the protection layer, corresponding array arrangement, ventilation hole can also be carried out with air inlet 12 Flow in accommodation chamber 11 of 81 quantity and arrangement mode not influence extraneous gas entrance.The hole can be circular hole, Square hole or long lumbar hole, preferably long lumbar hole.As shown in figure 18, it is looked at straight from a side of protective layer to the inside of cooling device, it can be with See the air inlet with ventilation hole corresponding position through ventilation hole 81.Pass through the setting of protective layer 8 so that operating personnel are working Make, prevents finger to be caught in air inlet 12, cause danger.Specifically, wind turbine 2 can be axial fan or centrifugal fan, wind The mounting means of machine is same as the previously described embodiments, and which is not described herein again.

In the present embodiment, installation room 4 can be installed on the side of supporting rack 1, can also be installed on the top of supporting rack 1 End, or it can be installed on 1 bottom of supporting rack, as long as can be connected to air outlet 13, formed from air outlet 13 to exhaust outlet 3 Gas channel is the protection domain in the application.Protective layer 8 covers at the outside of 12 place siding of air inlet, and protective layer 8 exists 12 corresponding position of air inlet is provided with ventilation hole 81, which is used for air circulation so that when wind turbine 2 operates, Air inlet 12 that external air can be entered by ventilation hole 81 simultaneously forms air-flow.The hole can be circular hole, square hole or long waist Hole, preferably long lumbar hole.

Referring to Fig. 2, Fig. 2 is according to the embodiment of the present application cooling device cross section structure figure.

In an alternative embodiment, as shown in Fig. 2, cooling device further includes recovery layer 9；It is set to support frame as described above 1 Bottom, the bottom end of the recovery layer 9 are higher than the bottom end of support frame as described above 1.

In the present embodiment, recovery layer 9 and transmission band connection, in production line, the product progress being located in pallet is next After step processing, pallet is conveyed with conveyer belt front-end-of-line, by recovery layer, finally transfers to the first working procedure using pallet, in case It uses next time.By the setting of recovery layer 9, the space of equipment is on the one hand saved；Two one side reduce work people The workload of member.

Please refer to two kinds of streams of Fig. 7, Fig. 8 and 14,15, Fig. 7 and Fig. 8 centrifugal fans effect lower bracing frame internal gas flow To schematic diagram；Figure 14 and 15 axial fans effect two kinds of lower bracing frame internal gas flow flow to schematic diagram.

In an alternative embodiment, as shown in Fig. 7, Fig. 8,14 and 15, cooling device further includes the first guide layer 5, and first Guide layer 5 is horizontally set in supporting rack 1, installs room 4 and the first about 5 guide layer is stacked；Room 4 and the first guide layer 5 are installed Connection.Specifically, the first guide layer 5 is arranged above or below accommodation chamber 11；Air inlet 12 is located at support with air outlet 13 The opposite both sides in the vertical direction of frame 1；Installation room 4 is correspondingly arranged above or below the first guide layer 5.

In the present embodiment, when supporting rack 1 is set as multilayer, the inside of supporting rack 1 is separated into multiple cooling chambers, often Multiple first through hole are provided between the accommodation chamber 11 of about two stacked connections, multiple first through hole can be arranged in array-like Joint face can also be arranged in joint face in any way.As long as reaching enables external air to be formed in accommodation chamber 11 Air-flow, and flowed by gas channel.

In an alternative embodiment, as shown in Fig. 7 and Figure 14, cooling device further includes the first guide layer 5, the first guide layer 5 are horizontally set in supporting rack 1, and are arranged in the top of accommodation chamber 11；Air inlet 12 is located at supporting rack 1 perpendicular with air outlet 13 The upward opposite both sides of histogram；Room 4 is installed to be arranged above the first guide layer 5.In the present embodiment, pass through the suction of wind turbine 2 Effect forms the gas channel from bottom end to top in accommodation chamber 11.

In another alternative embodiment, as shown in Fig. 8 and Figure 15, cooling device further includes the first guide layer 5, the first water conservancy diversion Layer 5 is horizontally set in supporting rack 1, and is arranged in the lower section of accommodation chamber 11；Air inlet 12 is located at supporting rack 1 with air outlet 13 and exists Opposite both sides on vertical direction；Room 4 is installed to be arranged below the first guide layer 5.In the present embodiment, pass through the suction of wind turbine 2 Force effect forms the gas channel from top to bottom end in accommodation chamber 11.

Fig. 9 and Figure 16 are please referred to, Fig. 9 is another flow direction signal of centrifugal fan effect lower bracing frame internal gas flow Figure；Figure 16 be axial fan effect lower bracing frame internal gas flow another flow to schematic diagram.

In an alternative embodiment, as shown in Fig. 9 and Figure 16, cooling device further includes the second guide layer 6；Second guide layer 6 are set between installation room 4 and accommodation chamber 11, and installation room 4 is connected to accommodation chamber 11.

In the present embodiment, the second guide layer 6 can be arranged on the top of accommodation chamber 11, can also be arranged in accommodation chamber 11 Bottom end, no matter the second guide layer 6 is arranged on the top or bottom end of accommodation chamber 11, and the second guide layer 6 is arranged at accommodation chamber Between 11 and installation room 4.In addition, when accommodation chamber 11 is set as multiple, and accommodation chamber 11 is stacked more above and below being A accommodation chamber 11, or longitudinally connected multiple accommodation chambers 11.Each opposite both sides of accommodation chamber 11 are respectively arranged with Air inlet 12 and air outlet 13.Second guide layer 6 is arranged in the position being stacked with about 11 accommodation chamber.

Now with about three stacked accommodation chambers 11, and the second guide layer 6 is arranged in first accommodation chamber 11 from up to down Top, and illustrated for being connect with the accommodation chamber 11：The air outlet that accommodation chamber 11 is arrived at three is arranged in first guide layer 5 13 sides, and be provide on the siding where being connected to air outlet 13.In the first guide layer 5 close to the position on top, and and outlet air The side of 13 place sidings connection of mouth is provided with ventilating duct 51, and the second guide layer 6 passes through ventilating duct 51 and the first guide layer 5 connects It is logical.Second guide layer 6 is connect with installation room 4, and is provided with through-hole 61 in the plate layer of the two connection to which air-flow can be by logical Hole 61 flows to installation room 4 from the second guide layer 6.Wherein, through-hole 61 could be provided as with the big through-holes such as the air duct port of wind turbine, It might be less that air duct port, the port in air duct can also be more than.In addition through-hole 1 could be provided as round, rectangular or polygon Through-hole 61.Also a kind of situation, through-hole 61 can be multiple small ventilation hole random arrangements or display arrangement composition.When beginning work When making, external air air-flow can be formed, and will be by heat exchange in accommodation chamber 11 under the action of 2 suction of wind turbine Thermal current is delivered to installation room 4 by the first guide layer 5 and the second guide layer 6.Wherein, ventilating duct 51 can be and the first water conservancy diversion Layer 5 and the equal-sized opening in 6 junction of the second guide layer, or multiple air duct holes in junction, air duct hole are set Arrangement can also be displayed with random arrangement.Here, the shape of air duct hole is not construed as limiting.By the design of the second guide layer 6, The gas channel that two guide layers 6 are formed after being connected to the first guide layer 5 can play uniformly each 11 air flow rate of layer accommodation chamber The effect of distribution, to reinforce cooling effect, cooling is evenly.Other second guide layer 6 is finally by air-flow bout to top And exclude, the space of gas channel is saved in such design, reduces the volume of entire cooling device.

In the present embodiment, accommodation chamber 11 is the cooling space for including skeleton, siding and laminate formation, this skeleton knot Structure building form keeps the light-weight of entire cooling device, structural strength high；And cooling device is designed as being formed in accommodation chamber 11 Distinctive gas channel layout, makes have average air drag, the heat after object heat exchange to be cooled in each accommodation chamber 11 It measures outside with air-flow bleeder, enhances cooling effect；Air-flow uniform flows each surface of object to be cooled, to be cooled The cooling of object is more uniformly distributed.

It is structural schematic diagram according to the embodiment of the present application cooling device to please refer to Fig.1 with 2, Fig. 1；Fig. 2 is according to this Shen It please embodiment cooling device cross section structure figure.

In an alternative embodiment, in conjunction with shown in Fig. 1 and Fig. 2, at least two exhaust outlets 3 and extremely are provided on supporting rack 1 Few two wind turbines 2；Installation is provided at least one partition board 41 in room 4, forms multiple installation spaces 42；Each installation space 42 is set Exhaust outlet 3 and a wind turbine 2 there are one setting.

In the present embodiment, it when wind turbine 2 is set as multiple, installs in room 4 and is provided with multiple second through-holes 61, set respectively It sets and connects one to one with multiple installation spaces 42, the air-flow of formation is transported to difference by the second through-hole 61 of different location Installation space 42, then from setting 42 exhaust outlet 3 of each installation space be discharged.In the present embodiment, partition board 41 will install room 4 It is divided into multiple installation spaces 42, when wind turbine 2 is in running, the bottom suction airflow from its 2 end of wind turbine, and by air-flow from wind turbine The opening of the side wall at 2 ends is thrown away in corresponding installation space 42, then is discharged to equipment from the exhaust outlet 3 of the installation space 42 Outside.Prevent influences gas channel and generates and airflow circulating between two wind turbines 2 occurring to interfere air-flow while while throwing away Impacted phenomenon occurs.

In an alternative embodiment, wind turbine 2 is centrifugal fan 2, and the motor side of centrifugal fan 2 is located at installation room 4 2 end of wind turbine of outside, centrifugal fan 2 is located in installation room 4.Specific installation room 4 is close to the side of air outlet 13 to far The distance for separating out 13 side of air port is preferably identical as the height at 2 end of wind turbine, can also be more than the height at 2 end of wind turbine.But it is unlimited It is enumerated in above-mentioned.The application makes cooling device be formed outside device to device when wind turbine 2 works by the setting of wind turbine 2 Inside again to the airflow circulating outside device, formed in accommodation chamber 11 by the lower air of external temperature air-flow and with it is to be cooled The heat exchange of object, air-flow are even outdoor by the outside of the heat of object to be cooled conveyer belt cooling device again.It is cold to strengthen But effect.

Referring to Fig. 9, Fig. 9 be centrifugal fan effect lower bracing frame internal gas flow another flow to schematic diagram.

In an alternative embodiment, as shown in figure 9, wind turbine 2 is centrifugal fan 2, the motor side of centrifugal fan 2 is located at The outside of room 4 is installed, 2 end of wind turbine of centrifugal fan 2 is located in installation room 4；The junction of second guide layer 6 and installation room 4 It is provided with through-hole 61, the air intake at 2 end of wind turbine is connect with through-hole 61.

In the present embodiment, with about three stacked accommodation chambers 11, and the second guide layer 6 is arranged in the from up to down One 11 top of accommodation chamber, and illustrated for being connect with the accommodation chamber 11：First guide layer 5, which is arranged, arrives accommodation chamber at three 11 13 side of air outlet, and be provide on the siding where being connected to air outlet 13.In the first guide layer 5 close to the position on top The side set, and connect with 13 place siding of air outlet is provided with ventilating duct 51, and the second guide layer 6 passes through ventilating duct 51 and first Guide layer 5 is connected to.Second guide layer 6 is connect with installation room 4, and is provided with through-hole 61 in the intermediate interlayer of the two connection to gas Stream can flow to installation room 4 by through-hole 61 from the second guide layer 6.Wind turbine 2 selects centrifugal fan 2, the electricity of centrifugal fan 2 Generator terminal is located at the outside of installation room 4, and 2 end of wind turbine of centrifugal fan 2 is located in installation room 4；Second guide layer 6 and installation room 4 Junction be provided with through-hole 61, the air intake at 2 end of wind turbine is connect with through-hole 61.When starting to work, centrifugal fan 2 is transported Make, external air air-flow can be formed, and will be by heat exchange in accommodation chamber 11 under the suction of wind turbine 2 Thermal current is delivered to installation room 4 by the first guide layer 5 and the second guide layer 6.Wherein, ventilating duct 51 can be and the first water conservancy diversion Layer 5 and the equal-sized opening in 6 junction of the second guide layer, or multiple air duct holes in junction, air duct hole are set Arrangement can also be displayed with random arrangement.Here, the shape of air duct hole is not construed as limiting.The port at through-hole 61 and 2 end of wind turbine can To be connected by sealing element, to improve orientation drainage of the centrifugal fan 2 to air-flow.Wherein sealing element can be wind-guiding Circle, but not limited to this.By the design of the second guide layer 6, air-flow that the second guide layer 6 is formed after being connected to the first guide layer 5 Channel can play the role of evenly distributing to each 11 air flow rate of layer accommodation chamber, and to reinforce cooling effect, cooling is more equal It is even.Other second guide layer 6 finally by air-flow bout to top and excludes, and the space of gas channel is saved in such design, Reduce the volume of entire cooling device.

In the present embodiment, accommodation chamber 11 is the cooling space for including skeleton, siding and laminate formation, this skeleton knot Structure building form keeps the light-weight of entire cooling device, structural strength high；And cooling device is designed as being formed in accommodation chamber 11 Distinctive gas channel layout, makes have average air drag, the heat after object heat exchange to be cooled in each accommodation chamber 11 It measures outside with air-flow bleeder, enhances cooling effect；Air-flow uniform flows each surface of object to be cooled, to be cooled The cooling of object is more uniformly distributed.

Please refer to Fig.1 6, Figure 16 be axial fan effect lower bracing frame internal gas flow another flow to schematic diagram.

In an alternative embodiment, as shown in figure 16, wind turbine 2 is axial fan, and axial fan is installed to installation room 4 Inside.

Specific installation room 4 is preferably and axis stream to the distance far from 13 side of air outlet close to the side of air outlet 13 The height of formula wind turbine is identical, can also be more than axial fan height, but be not limited to it is above-mentioned enumerate, as long as installation room 4 can hold Receive axial fan body.The application makes cooling device be formed from device when wind turbine 2 works by the setting of wind turbine 2 Again to the airflow circulating outside device in outside to device, air-flow is formed in accommodation chamber 11 by the lower air of external temperature And with the heat exchange of object to be cooled, air-flow is even outdoor by the outside of the heat of object to be cooled conveyer belt cooling device again.From And strengthen cooling effect.In an alternative embodiment, wind turbine 2 is axial fan, and axial fan is installed to installation room 4 It is internal；Second guide layer 6 and the junction of installation room 4 are provided with through-hole 61, and the air intake of axial fan is set close to through-hole 61 It sets.

In the present embodiment, with about three stacked accommodation chambers 11, and the second guide layer 6 is arranged in the from up to down One 11 top of accommodation chamber, and illustrated for being connect with the accommodation chamber 11：First guide layer 5, which is arranged, arrives accommodation chamber at three 11 13 side of air outlet, and be provide on the siding where being connected to air outlet 13.In the first guide layer 5 close to the position on top The side set, and connect with 13 place siding of air outlet is provided with ventilating duct 51, and the second guide layer 6 passes through ventilating duct 51 and first Guide layer 5 is connected to.Second guide layer 6 is connect with installation room 4, and is provided with through-hole 61 in the intermediate interlayer of the two connection to gas Stream can flow to installation room 4 by through-hole 61 from the second guide layer 6.Wind turbine 2 selects axial fan 2, axial fan 2 to install To the inside of installation room 4；Second guide layer 6 and the junction of installation room 4 are provided with through-hole 61, and the air intake of axial fan leans on Nearly through-hole 61 is arranged.When starting to work, centrifugal fan running can will be outer under the action of the leeway that wind turbine 2 manufactures The air in portion forms air-flow in accommodation chamber 11, and the thermal current Jing Guo heat exchange is passed through the first guide layer 5 and the second water conservancy diversion Floor 6 is delivered to installation room 4.Wherein, ventilating duct 51 can be equal in magnitude with the first guide layer 5 and 6 junction of the second guide layer Opening, or multiple air duct holes in junction are set, and air duct hole can also display arrangement with random arrangement.This In, the shape of air duct hole is not construed as limiting.By the design of the second guide layer 6, after the second guide layer 6 is connected to the first guide layer 5 The gas channel of formation can play the role of evenly distributing to each 11 air flow rate of layer accommodation chamber, to reinforce cooling effect, Cooling is evenly.Other second guide layer 6 finally by air-flow bout to top and excludes, and gas channel is saved in such design Space, reduce the volume of entire cooling device.

Referring to Fig. 2, Fig. 2 is according to the embodiment of the present application cooling device cross section structure figure.

In an alternative embodiment, as shown in Fig. 2, accommodation chamber 11 is internally provided at least two tracks 7；Track 7 divides The other end is not extended to from one end along 11 bottom opposite sides of accommodation chamber；The flow direction in the direction and cooling air-flow that track 7 extends Vertically.

In an alternative embodiment, accommodation chamber 11 is internally provided at least two tracks 7；Track 7 is respectively along accommodation chamber The siding of 11 opposite sides is arranged in parallel；The plane that two tracks 7 are constituted is higher than the bottom surface of the accommodation chamber 11.

In the present embodiment, the product of production line is transported to this process, when product enters accommodation chamber 11 with pallet, support Disk is after sliding rail enters accommodation chamber 11, under the action of wind turbine 2, lower surface of the air-flow from the upper surface of object to be cooled and pallet It evenly and rapidly flows, carries out heat exchange.To complete to treat the cooling of cooling thing.

In an alternative embodiment, the siding in the side of accommodation chamber 11 is provided with feeding door, and feeding door is cut with scissors with supporting rack 1 It connects in succession；Optionally, feeding door is set as the rectangular harden structure of strip, and any one end and the supporting rack 1 of square plate are articulated and connected, can Choosing, feeding door top is articulated and connected with supporting rack 1, when being sent into pallet, can pull up certain angle and feeding can be realized. The certain angle is 60 ° -90 °, but is not limited to above-mentioned enumerate.

According to another embodiment of the present invention, a kind of laminating apparatus is provided, including as above described in any one embodiment Cooling device.

The present invention is directed to protect a kind of cooling device, by the way that accommodation chamber 11 and wind turbine 2 are arranged on supporting rack 1, in wind turbine 2 Under the suction of offer, make the air port being arranged on two sidings formed air-flow, air-flow object to be cooled surface flow, with Object to be cooled forms heat exchange, is cooled down to rapidly and uniformly treat cooling thing.Cooling rate is not only increased, is also enhanced Cooling effect.

It should be understood that the above-mentioned specific implementation mode of the present invention is used only for exemplary illustration or explains the present invention's Principle, but not to limit the present invention.Therefore, that is done without departing from the spirit and scope of the present invention is any Modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.In addition, appended claims purport of the present invention Covering the whole variations fallen into attached claim scope and boundary or this range and the equivalent form on boundary and is repairing Change example.

Claims (13)

1. a kind of cooling device, which is characterized in that including at least one accommodation chamber (11), at least one wind turbine (2) and exhaust outlet (3)；

It is provided with air inlet (12) and air outlet (13) on the siding of the accommodation chamber (11)；The accommodation chamber (11) is for placing Object to be cooled；

The wind turbine (2) is connected to the accommodation chamber (11)；

The exhaust outlet (3) is connected to the accommodation chamber (11)；

The air outlet (13) is connected to the wind turbine (2), and the air-flow that the wind turbine (2) will flow to the air outlet (13) carries out Accelerate to be discharged from the exhaust outlet (3)；It is formed from the air inlet (12) to the air outlet in the accommodation chamber (11) (13) and the gas channels of the exhaust outlet (3) is extended to.

2. cooling device according to claim 1, which is characterized in that further include supporting rack (1) and installation room (4)；

The exhaust outlet (3) is arranged on support frame as described above (1)；

The installation room (4) is placed in support frame as described above (1), for configuring the wind turbine (2)；

The installation room (4) connect with the accommodation chamber (11), and the installation room (4) by the air outlet (13) with it is described Accommodation chamber (11) is connected to；

The air inlet (12) is located at the air outlet (13) on the siding of the accommodation chamber (11) opposite sides.

3. cooling device according to claim 2, which is characterized in that further include the first guide layer (5), first water conservancy diversion Layer (5) is vertically set in support frame as described above (1)；

The installation room (4) is connected to first guide layer (5).

4. cooling device according to claim 2, which is characterized in that further include the first guide layer (5), first water conservancy diversion Layer (5) is horizontally set in support frame as described above, and the installation room (4) is stacked up and down with first guide layer；

The installation room (4) is connected to first guide layer (5).

5. cooling device according to claim 3, which is characterized in that further include the second guide layer (6)；

Second guide layer (6) is set between the installation room (4) and the accommodation chamber (11), and by the installation room (4) it is connected to accommodation chamber (11).

6. according to claim 2-5 any one of them cooling devices, which is characterized in that

At least two exhaust outlets (3) and at least two wind turbines (2) are provided on support frame as described above (1)；

It is provided at least one partition board (41) in the installation room (4), forms multiple installation spaces (42)；

There are one the exhaust outlet (3) and a wind turbines (2) for each installation space (42) setting.

7. according to claim 2-4 any one of them cooling devices, which is characterized in that

The wind turbine (2) is centrifugal fan, and the motor side of the centrifugal fan is located at the outside of installation room (4), it is described from The fan end of core type wind turbine is located in installation room (4).

8. cooling device according to claim 5, which is characterized in that

The wind turbine (2) is centrifugal fan, and the motor side of the centrifugal fan is located at the outside of installation room (4), it is described from The fan end of core type wind turbine is located in installation room (4)；

Second guide layer (6) and the junction of installation room (4) are provided with through-hole (61), the air intake of the fan end and institute State through-hole (61) connection.

9. according to claim 2-4 any one of them cooling devices, which is characterized in that

The wind turbine (2) is axial fan, and the axial fan is placed in the inside of installation room (4).

10. cooling device according to claim 5, which is characterized in that

The wind turbine (2) is axial fan, and the axial fan is placed in the inside of installation room (4)；

Second guide layer (6) and the junction of installation room (4) are provided with through-hole (61), the air intake of the axial fan It is arranged close to the through-hole (61).

11. cooling device according to claim 1, which is characterized in that cooling chamber (11) are internally provided at least Two tracks (7)；

The track (7) extends to the other end along one end of accommodation chamber (11) bottom opposite sides respectively；

The direction that the track (7) extends is vertical with the flow direction of the cooling air-flow.

12. cooling device according to claim 2, which is characterized in that air inlet (12) side of support frame as described above (1) is also set It is equipped with protective layer (8)；

It is provided with multiple ventilation holes (81) on the outer wall of the protective layer (8).

13. a kind of laminating apparatus, which is characterized in that including such as claim 1-12 any one of them cooling device.