CN208187219U - Heat source box and heat-conducting plate for heat-conducting plate - Google Patents

Abstract

The application discloses the heat source box and heat-conducting plate for heat-conducting plate.Wherein, the heat-conducting plate (1000) includes working plate (100) and heat source box (600).The working plate (100) includes board body part (20) and seal edge portion (40).The inside of the board body part (20) is filled with heat exchange medium, and the heat exchange medium is enclosed in board body part (20) by the seal edge portion (40).The heat source box (600) is the component independently of heat-conducting plate, the first surface (20a) that may be provided at the board body part (20), including bottom wall (62) and the side wall (64) being connected with bottom wall (62).The bottom wall (62) and side wall (64) surround one for accommodating the space (60) of heat source.The heat source box (600) is additionally provided with supplying heat source and fills to the opening of the space (60) (608).When needing, heat source, such as boiling water can be filled in heat source box.Heat source can be transmitted by the heat of working plate, further speed up the heating rate of cryogenic object.

Description

Heat source box and heat-conducting plate for heat-conducting plate

Technical field

This application involves field of heat exchange, more particularly, to the heat source box and heat-conducting plate of heat-conducting plate.

Background technique

Heat-conducting plate has universal application in heat-exchange apparatus, and its heat transfer efficiency and even temperature effect are to judge its performance One of key factor.Such as in the quick-frozen of food and/fast deforst technique field, quick-frozen plate/speed defrosting plate is exactly a kind of heat-conducting plate, It can be used to the waiting time for reducing defrosting, improve the speed and efficiency of refrigeration.

Quick-frozen plate/speed defrosting plate is general using seperated molding upper layer aluminium as disclosed in patent document CN204694130U Alloy sheets, lower layer's aluminium alloy plate and heat pipe combination form.Quick-frozen plate/speed defrosting plate in process of production, general upper layer aluminium alloy After plate, lower layer's aluminium alloy plate first individually form, it is reloaded into heat pipe and assembles.Above-mentioned quick-frozen plate/speed defrosting plate heat conduction rate Slowly.

Utility model content

The application provides the heat source box and heat-conducting plate for being used for heat-conducting plate, can improve heat exchanger effectiveness.

According to the one aspect of the application, a kind of heat source box for heat-conducting plate is provided.The heat source box is independently of leading The component of hot plate, the heat source box include bottom wall and the side wall that is connected with bottom wall, and the bottom wall surrounds one for holding with side wall Receive the space of heat source, the heat source box is additionally provided with supplying heat source and fills to the opening in the space.

Optionally, it is provided with heat transfer muscle in the heat source box, the heat transfer muscle is integrally attached to the bottom wall of heat source box Or side wall.

Optionally, the heat transfer muscle is plate-like, and the space is divided into multiple regions.

Optionally, the heat transfer muscle is provided with the notch of connection adjacent area.

Optionally, the upper end or lower end of the heat transfer muscle is arranged in the notch.

Optionally, the heat transfer muscle is connected；

Alternatively, the heat transfer muscle includes the multiple cylinders or prism being spaced apart from each other.

Optionally, the heat-conducting plate further includes box cover, and the top of heat source box can be arranged in the box cover, and covers space The opening.

Optionally, the box cover is provided with handle.

According to the another aspect of the application, a kind of heat-conducting plate is provided.The heat-conducting plate include working plate and as previously described Heat source box, the working plate includes board body part and seal edge portion, and the inside of the board body part is filled with heat exchange medium, the envelope The heat exchange medium is enclosed in board body part by edge；

The first surface of the board body part can either be arranged in the heat source box, can also remove from the first surface.

Optionally, it is not provided with locker between the heat source box and the board body part, when in use, the heat source box is only It is located in the top of the first surface.

Optionally, the board body part is internally provided with multiple channels, and the multiple channel extends in a first direction, the heat Exchange media is filled in the channel, is provided with convex ribs between adjacent channel；

At least one convex ribs is provided with the notch of connection adjacency channel.

Optionally, all convex ribs are provided with notch, and all channels are interconnected.

Optionally, there are spacing between each convex ribs and an at least seal edge portion, as the notch.

Optionally, the inner wall in the channel is provided with multiple micro- toothings, and micro- toothing extends in a first direction, packet Include micro- tooth and the tooth socket between adjacent micro- tooth.

Optionally, each side of micro- tooth and tooth socket is straight flange.

Optionally, the seal edge portion and board body part integrally connected.

Optionally, the heat source is the fluid that temperature exceeds the working plate.

Optionally, the heat exchange medium includes alcohol or R134a.

Optionally, the heat-conducting plate is quick-frozen plate or fast defrosting plate.

In the heat source box and heat-conducting plate for heat-conducting plate of technical scheme, the heat source box suitable for filling heat source can It is used in heat-conducting plate.When needing, heat source, such as boiling water can be filled in heat source box.Heat source can pass through the work in heat-conducting plate The heat transmitting of plate, further speeds up the heating rate of cryogenic object.

Detailed description of the invention

Fig. 1 is the Three-dimensional combination diagram of one exemplary embodiment heat-conducting plate of the application；

Fig. 2 to Fig. 5 is the stereoscopic schematic diagram of several change embodiments for the heat source box that can be applicable in Fig. 1 heat-conducting plate；

Fig. 6 is the stereoscopic schematic diagram for the box cover that can be applicable in Fig. 1 heat-conducting plate, and box cover can be covered on above heat source box；

Fig. 7 to Figure 11 is the structural schematic diagram for the working plate that can be applicable in Fig. 1 heat-conducting plate, wherein Fig. 7 is working plate Three-dimensional combination diagram, Fig. 8 be working plate three view schematic diagrames, Fig. 9 is schematic cross-sectional view of the working plate at A-A, Figure 10 It is schematic cross-sectional view of the working plate at B-B, Figure 11 is the partial enlargement diagram in Figure 10 at the c of region；

Figure 12 and Figure 13 is the change embodiment schematic diagram of heat-conducting plate shown in Fig. 7 to Figure 11；Wherein, Figure 12 is heat-conducting plate A diagrammatic cross-section, Figure 13 is the partial enlargement diagram in Figure 12 at the D of region；

Figure 14 and Figure 15 is the another change embodiment schematic diagram of heat-conducting plate shown in Fig. 7 to Figure 11；Wherein, Figure 14 is thermally conductive One diagrammatic cross-section of plate, Figure 15 are the partial enlargement diagrams in Figure 14 at the E of region.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they be only with it is such as appended The example of the consistent device and method of some aspects be described in detail in claims, the application.

It is only to be not intended to be limiting the application merely for for the purpose of describing particular embodiments in term used in this application. It is also intended in the application and the "an" of singular used in the attached claims, " described " and "the" including majority Form, unless the context clearly indicates other meaning.

It should be appreciated that " first ", " second " and similar word used in present specification and claims Language is not offered as any sequence, quantity or importance, and is used only to distinguish different component parts.Equally, "one" or The similar word such as person " one " does not indicate that quantity limits yet, but indicates that there are at least one；Similar, " multiple " or " multilayer " etc. Indicate two and more than two quantity.Unless otherwise noted, the similar word such as " front ", " rear portion ", " lower part " and/or " top " Language is only to facilitate illustrate, and be not limited to a position or a kind of spatial orientation." comprising " or "comprising" etc. are similar The element or object that word means to appear in front of " comprising " or "comprising" are covered appear in " comprising " or "comprising" after The element or object and its be equal that face is enumerated, it is not excluded that other elements or object.

With reference to the accompanying drawing, the application embodiment is described in detail.In the absence of conflict, following Feature in embodiment and embodiment can be complementary to one another or be combined with each other.

Fig. 1 is the Three-dimensional combination diagram of one exemplary embodiment heat-conducting plate of the application.Fig. 2 is that can be applicable to Fig. 1 to Fig. 5 The stereoscopic schematic diagram of several change embodiments of heat source box in heat-conducting plate.Fig. 6 is the box cover that can be applicable in Fig. 1 heat-conducting plate Stereoscopic schematic diagram, box cover can be covered on above heat source box.Fig. 7 to Figure 11 is the knot for the working plate that can be applicable in Fig. 1 heat-conducting plate Structure schematic diagram；Wherein, Fig. 7 is the Three-dimensional combination diagram of working plate, and Fig. 8 is three view schematic diagrames of working plate, and Fig. 9 is working plate Schematic cross-sectional view at A-A, Figure 10 are schematic cross-sectional view of the working plate at B-B, and Figure 11 is the partial enlargement signal of Figure 10 Figure.Figure 12 and Figure 13 is the change embodiment schematic diagram of heat-conducting plate shown in Fig. 7 to Figure 11.Figure 14 and Figure 15 is Fig. 7 to Figure 11 institute Show the another change embodiment schematic diagram of heat-conducting plate.

Here heat-conducting plate can be applied to multiple technical fields, a variety of occasions.For example, being used as quick-frozen and/or fast solution The quick-frozen plate of jelly food and/or fast defrosting plate.

As shown in Fig. 1 to Figure 15, heat-conducting plate 1000 includes working plate 100 and heat source box 600.First direction X is working plate 100 length direction, second direction Y are the width direction of working plate 100, and third direction Z is the thickness direction of working plate 100.

Working plate 100 may include the seal edge portion 40 positioned at the board body part 20 of intermediate region and positioned at fringe region.Make In, a plastic frame 50 can be also arranged outside seal edge portion 40.Wherein, seal edge portion 40 is covered by plastic frame 50.Board body part 20 It can be integrally formed by Heat Conduction Materials such as aluminium alloys.The inside of board body part 20 can encapsulate the heat exchange medium of flow-like.Heat exchange is situated between It is of fine quality to be selected as being easy vaporization and/or liquefied material by latent heat of phase change effect quickly adjusting the temperature of neighbouring object.Plate Body portion 20 includes the first surface 20a and second surface 20b back to setting.First surface 20a, second surface 20b each parallel to First direction X and second direction Y.The area of first surface 20a and second surface 20b is greater than other surfaces of board body part 20.? In use, object can be placed on to the top of board body part 20, it is made to contact or be bonded with first surface 20a.Biggish contact surface Product is conducive to improve heat exchanger effectiveness, quickly adjusts the temperature of object.

Heat source box 600 may be provided at the top of first surface 20a or second surface 20b.Heat source box 600 can be by aluminium alloy The high material of equal heat transfer efficiencies is made, metal or plastics.Heat source box 600 may include bottom wall 62 and side wall 64.Bottom wall 62 with Side wall 64 surrounds a space 60, and the top in space 60 has opening 608.It, can be by low temperature object in heating or defrosting cryogenic object It shows consideration for and closes first surface 20a placement.By with the contact of working plate 100, cryogenic object can absorb heat, is rapidly heated.For into One step enhances heating rate, can fill heat source, such as high temperature fluid in heat source box 600, for another example boiling water.Heat source can pass through work The heat transmitting of plate 100, further speeds up the heating rate of cryogenic object.The heat source is preferably that temperature exceeds working plate 100 Fluid.

Heat source box 600 can be integrally formed with working plate 100.The two is made of same material, and there is no obvious between the two Gap.This helps to improve the heat transference efficiency between heat source box 600 and working plate 100.At this point, the bottom wall of heat source box 600 It is served as by the roof of working plate 100.

In other embodiments, heat source box 600 can also be mounted on working plate 100 by way of welding or mechanical lock buckle First surface 20a or second surface 20b.In addition, heat source box 600 can also be only placed in working plate 100 first surface 20a or Above second surface 20b, and it is not provided with the fixed heat source box 600 of any locker and working plate 100.No matter which kind of method, It should make heat source box 600 that can keep sufficiently tight with working plate 100 as far as possible to be bonded, increase the contact area between them.Wherein, Have solely in the way of heat source box 600 or simple placement heat source box 600 to working plate 100 are installed in such a way that mechanical lock buckle is simultaneously dismountable Special advantage: when being without the use of other heat source (for example, high-temperature water) accelerated warming object, it can remove heat source box 600, make to lead Hot plate 1000 is lighter.

Also settable heat transfer muscle 66 in heat source box 600 increases the contact area of heat source and heat source box 600, promotes heat source To the heating rate of working plate 100 and object.Heat transfer muscle 66 can be various forms, for example, plate, bulk, column, salient point Shape etc. can only increase contact area.Heat transfer muscle 66 is preferably with the bottom wall 62 of heat source box 600 or side wall 64 etc. It is integrally formed.

Heat transfer muscle 66 can join together, and space 60 is divided for multiple regions, as shown in Figures 1 and 2.Adjacent region It can be connected to by the notch 660 through heat transfer muscle 66.Notch 660 both may be provided at the upper end of heat transfer muscle 66, such as Fig. 1 institute Show；It may also be arranged on the lower end of heat transfer muscle 66, as shown in Figure 2.When filling heat source, notch 660 can make heat source automatically from one A region flow to other regions.

Heat transfer muscle 66 can also spiral from the central region in space 60 to perimeter in the shape of a spiral；It can also be in such as Fig. 3 institute The broken line coil-shape shown.Heat transfer muscle 66 can also be the multiple cylinders or prism being spaced apart, as shown in figs. 4 and 5.

The also settable box cover 70 in the top of heat source box 600.The settable handle 72 in the upper surface of box cover 70.When needing, it can incite somebody to action Box cover 70 is mounted on the top of heat source box 600, covers space 60.

The inside of board body part 20 can have multiple channels 22.It can be used for accommodating heat exchange medium in each channel 22.Channel In 22 heat exchange medium can (especially first surface 20a and second surface 20b) be with foreign object (for example, putting by board body part 20 Set the food on 20 first surface 20a of board body part) carry out heat exchange.Heat exchange medium generally can be the stream for capableing of quick conductive Body, for example, alcohol or R134a (full name is HFA 134a) etc..As in preferably embodiment, each channel 22 Width (corresponding to second direction Y) can be no more than 2.5 millimeters, and the height in channel 22 can be no more than 3.0 millimeters.

In such as figure embodiment, each channel 22 can be arranged to slender type and extend the (length in channel along first direction X It is parallel with first direction X to spend direction).Heat exchange medium when working plate 100 is for quick-frozen and fast defrosting food, in channel 22 Hot transmitting can be carried out along first direction X, to accelerate exchange rate.

In addition, multiple channels 22 can Y be parallel in a second direction and equably arranges inside board body part 20.In this way, a side Exchange rate can be improved to accelerate freezing and thawing rate in face, on the other hand can also improve even temperature effect.

Settable micro- toothing 26 in each channel 22.Micro- toothing 26 is preferentially arranged in channel 22 adjacent to first surface The inner wall of 20a and second surface 20b.Certainly, micro- toothing 26 may also be arranged on other inner walls in channel 22.Micro- toothing 26 include micro- tooth 262 and the tooth socket 264 between two neighboring micro- tooth 262.Micro- tooth 262 is preferably disposed to tooth socket 264 Extend (micro- tooth 262 is parallel with the length direction of tooth socket 264 and first direction X) along first direction X, so that heat exchange medium can Capillary phenomenon is formed along the flowing of tooth socket 264, to further speed up exchange rate and improve even temperature effect.

On the longitudinal cross-section for being parallel to second direction Y, each side of micro- tooth 262 and tooth socket 264 is preferably straight flange, such as Fig. 9 Shown in.Micro- tooth 262 of its profile is limited by each straight flange and tooth socket 264 can be in the shapes such as rectangle, triangle, trapezoidal.It practises in the industry Inertially think, the profile being made of circular arc constant current contour type is usually more advantageous to the flowing of fluid than straight outline and heat is handed over It changes.But found after inventor of utility model (s) research, here set each side of micro- tooth 262 and tooth socket 264 to Linear type, heat exchanger effectiveness and even temperature effect be not defeated in arc-shaped micro- tooth 262 and tooth socket 264.In certain usage scenarios Under, heat exchanger effectiveness and even temperature effect even can obviously win.Certainly, in other embodiments, micro- tooth 262 is most deep logical The one end in road 22 can be tip or arc-shaped.

Convex ribs 24 are provided between adjacent channel 22.The setting of convex ribs 24 is equally beneficial for improving heat exchanger effectiveness.? On longitudinal (i.e. the thickness direction of board body part 20, both perpendicular to first direction X and second direction Y), one end of convex ribs 24 connects It is connected to the roof (wall where first surface 20a) of board body part 20, the other end is connected to the bottom wall (second surface of board body part 20 Wall where 20b).Convex ribs 24 equally extend along first direction X, i.e., the length direction of convex ribs 24 is parallel with first direction X.? On first direction X, board body part 20 has first end 20c and second end 20d.Convex ribs 24 are at first end 20c or second end 20d Place's setting jagged 28.By notch 28, adjacent channel 22 can be connected to.Connection between adjacency channel 22 can significantly improve Even temperature effect.

As preferably embodiment, the directly or indirectly connection of all channels 22.Realize the side that all channels 22 are connected to Formula has very much.It can be the formula of joining end to end, as shown in Figure 10 and Figure 11, positioned at each channel 22 of intermediate region, pass through its left side Notch 28 of the convex ribs 24 of side at first end 20c, is connected to the channel 22 on the left of it；By the convex ribs 24 on the right side of it second The notch 28 at 20d is held, is connected to the channel 22 on the right side of it.

It is also possible to one end communication type, as shown in Figure 12 and Figure 13.All convex ribs 24 are formed at first end 20c Notch 28, all notches 28 form a space G at first end 20c, and space leads to as common interconnecting part with all Road 22 is connected to.Certainly, in other embodiments, can also only be formed at second end 20d as the common interconnecting part in all channels 22 Space G.

It can also be both ends formula.As shown in Figure 14 and Figure 15, all convex ribs 24 form notch at first end 20c 28, all notches 28 form a space G at first end 20c, and space is as common interconnecting part, with all channels 22 Connection.All convex ribs 24 also form notch 28 at second end 20d, and all notches 28 form one at second end 20d Space G, space are connected to as common interconnecting part with all channels 22.

In other embodiments, convex ribs can also be not arranged in or are not positioned only at for being connected to the notch 28 of adjacency channel 22 At 24 first end 20c and/or second end 20d.For example, can last part technology 24 intermediate region of convex ribs perforation by way of come Form the notch 28 of connection adjacency channel 22.That is, it is integrally formed with channel 22 and convex ribs 24 to first pass through extrusion forming process Board body part 20, then using puncher, from the side wall of board body part 20, Y successively punchinges in convex ribs 24 in a second direction.Finally, passing through The mode of welding blocks the eyelet of 20 side-walls of board body part.

Moreover, also it is contemplated that forming the notch 28 in the height direction.For example, all convex ribs 24 can be arranged For end in the height direction does not contact the roof or bottom wall of board body part 20, and forms notch.In this way, convex ribs 24 is upper The common interconnecting part for being connected to all channels 22 is formed at end or lower end between the roof of board body part 20 or bottom wall.

Certainly, in other embodiments, notch 28 can also be not provided at convex ribs 24, each channel 22 is isolated from each other.

Can the both ends by way of suppressing edge sealing in board body part 20 on first direction X respectively form seal edge portion 40.Edge sealing All channels 22 are closed together with heat exchange medium, are isolated from the outside world in portion 40.Heat exchange medium only can by channel 22 and Heat exchange medium in notch 28 and board body part 20 carries out direct heat exchange, and can not flow to outside board body part 20.

In the manufacturing process of working plate 100, during especially compacting edge sealing forms seal edge portion 40, it is easy to occur Heat exchange medium distributes in channel 22 that is uneven, even having the not situation of heat exchange medium in each channel 22.If It mutually isolates, be isolated from each other between each channel 22, will lead to heat exchanger effectiveness reduction, and cause the heat exchange rate in each region obvious It is uneven.In the various embodiments described above, due to being not at complete isolated state between each channel 22, thus heat exchange can be passed through The flowing of medium and eliminate drawbacks described above automatically.

The above is only the preferred embodiment of the application, not does limitation in any form to the application, though Right the application has been disclosed in a preferred embodiment above, however is not limited to the application, any technology people for being familiar with this profession Member, in the range of not departing from technical scheme, when the technology contents using the disclosure above are modified or are repaired Decorations are the equivalent embodiment of equivalent variations, but all contents without departing from technical scheme, the technology according to the application are real Matter any simple modification, equivalent change and modification to the above embodiments, still fall within the range of technical scheme It is interior.

Claims (19)

1. a kind of heat source box for heat-conducting plate, which is characterized in that the heat source box (600) is the component independently of heat-conducting plate, The heat source box (600) includes bottom wall (62) and the side wall (64) being connected with bottom wall (62), the bottom wall (62) and side wall (64) one is surrounded for accommodating the space (60) of heat source, and the heat source box (600) is additionally provided with supplying heat source and fills to the space (60) opening (608).

2. heat source box as described in claim 1, which is characterized in that heat transfer muscle (66) are provided in the heat source box (600), The heat transfer muscle (66) is integrally attached to the bottom wall (62) or side wall (64) of heat source box (600).

3. heat source box as claimed in claim 2, which is characterized in that the heat transfer muscle (66) is plate-like, and by the space (60) it is divided into multiple regions.

4. heat source box as claimed in claim 3, which is characterized in that the heat transfer muscle (66) is provided with connection adjacent area Notch (660).

5. heat source box as claimed in claim 4, which is characterized in that the notch (660) is arranged in the heat transfer muscle (66) Upper end or lower end.

6. heat source box as claimed in claim 2, which is characterized in that the heat transfer muscle (66) is connected；

Alternatively, the heat transfer muscle (66) includes the multiple cylinders or prism being spaced apart from each other.

7. heat source box as described in claim 1, which is characterized in that the heat source box (600) further includes box cover (70), the box The top of heat source box (600) can be arranged in lid (70), and covers the opening (608).

8. heat source box as claimed in claim 7, which is characterized in that the box cover (70) is provided with handle (72).

9. a kind of heat-conducting plate, which is characterized in that the heat-conducting plate (1000) includes working plate (100) and such as claim 1 to 8 times Heat source box (600) described in one, the working plate (100) include board body part (20) and seal edge portion (40), the board body part (20) inside is filled with heat exchange medium, and the heat exchange medium is enclosed in board body part (20) by the seal edge portion (40)；

The first surface (20a) of the board body part (20) can either be arranged in the heat source box (600), also can be from described first Surface (20a) removes.

10. heat-conducting plate as claimed in claim 9, which is characterized in that between the heat source box (600) and the board body part (20) It is not provided with locker, when in use, the heat source box (600) is only located in the top of the first surface (20a).

11. heat-conducting plate as claimed in claim 9, which is characterized in that the board body part (20) is internally provided with multiple channels (22), the multiple channel (22) extends along first direction (X), and the heat exchange medium is filled in the channel (22), phase Convex ribs (24) are provided between adjacent channel (22)；

At least one convex ribs (24) is provided with the notch (28) of connection adjacency channel (22).

12. heat-conducting plate as claimed in claim 11, which is characterized in that all convex ribs (24) are provided with notch (28), institute Some channels (22) are interconnected.

13. heat-conducting plate as claimed in claim 12, which is characterized in that between each convex ribs (24) and an at least seal edge portion (40) There are spacing, as the notch (28).

14. heat-conducting plate as claimed in claim 11, which is characterized in that the inner wall of the channel (22) is provided with multiple micro- tooth knots Structure (26), micro- toothing (26) extend along first direction (X), micro- toothing include micro- tooth (262) with positioned at adjacent Tooth socket (264) between micro- tooth (262).

15. heat-conducting plate as claimed in claim 14, which is characterized in that each side of micro- tooth (262) and tooth socket (264) is straight Side.

16. heat-conducting plate as claimed in claim 9, which is characterized in that the seal edge portion (40) and board body part (20) integrally connected.

17. heat-conducting plate as claimed in claim 9, which is characterized in that the heat source is that temperature exceeds the working plate (100) Fluid.

18. heat-conducting plate as claimed in claim 9, which is characterized in that the heat exchange medium includes alcohol or R134a.

19. heat-conducting plate as claimed in claim 9, which is characterized in that the heat-conducting plate is quick-frozen plate or fast defrosting plate.