CN105954963A - Heat dissipation structure and projection device - Google Patents

Abstract

The invention discloses a heat dissipation structure and a projection device. The heat dissipation structure comprises a plurality of heat dissipation units, wherein a first heat dissipation unit and a second heat dissipation unit in the plurality of heat dissipation units are movably connected; when the second heat dissipation unit moves relative to the first heat dissipation unit towards the direction close to the first heat dissipation unit along the first direction, the heat dissipation structure is changed into a second state from a first state; the heat dissipation structure has a first width in the first direction in the first state and has a second width in the first direction in the second state; and the first width is greater than the second width, so that effective heat dissipation can be carried out when the heat dissipation structure is in the first state; the overall size of the heat dissipation structure is reduced when the heat dissipation structure is in the second state; and the heat dissipation structure can be conveniently stored and carried.

Description

Radiator structure and projection arrangement

Technical field

The present invention relates to a kind of radiator structure and projection arrangement, particularly relate to the radiator structure of a kind of flexible connection And there is the projection arrangement of this radiator structure.

Background technology

Projection arrangement is a kind of equipment on image or VIDEO PROJECTION to screen can be reached giant-screen Projection Display mode provides spectator splendid presenting and visual effect.

Projection arrangement has more heat-generating units, thus can produce higher heat, in order to control when projection The temperature of projection arrangement processed, so that projection arrangement can normally work, all can arrange heat radiating fin inside projection arrangement Sheet, to dispel the heat projection arrangement, and in order to carry out good heat radiating to projection arrangement, needs heat radiating fin It is relatively big that the overall dimensions of sheet designs, and, existing radiating fin is all rigid structure, so that throw The volume of the high lumen projection device that image device particularly heat production is higher is relatively big, is unfavorable for carrying and projecting dress The miniaturization put.

Therefore, it is necessary to design a kind of new radiator structure and projection arrangement, to overcome drawbacks described above.

Summary of the invention

It is an object of the invention to provide a kind of radiator structure and projection arrangement, set by the structure being flexibly connected Meter can also reduce volume while meeting good heat radiating, convenient for collecting and carrying.

For reaching above-mentioned purpose, the present invention provides a kind of radiator structure, and this radiator structure includes:

Multi-layer heat dissipation unit, this multi-layer heat dissipation unit is connected with each other, and this multi-layer heat dissipation unit includes that first dissipates Hot cell and the second heat-sink unit, this second heat-sink unit is flexibly connected with this first heat-sink unit；

When this second heat-sink unit relative to this first heat-sink unit in the first direction near this first heat-sink unit Direction when moving, this radiator structure is become the second state from the first state, and when this first state, this dissipates Heat structure has the first width in this first direction, and when this second state, this radiator structure is in this first party To having the second width, wherein, this first width is more than this second width.

It is also preferred that the left this second heat-sink unit is connected along this first direction is telescopic with this first heat-sink unit, When this radiator structure is in this first state, the first heat-sink unit is relative stretches with this for this second heat-sink unit, When this radiator structure is in this second state, the first heat-sink unit is relative compresses with this for this second heat-sink unit.

It is also preferred that the left be provided with the first fixture on this first heat-sink unit, this second heat-sink unit is provided with Second fixture, this first fixture and this second fixture clearance fit realize this second heat-sink unit and are somebody's turn to do The flexible connection of the first heat-sink unit.

It is also preferred that the left this first fixture has different primary importance and the second position, this second position relatively this One is located away from this second heat-sink unit, and when this second fixture coordinates with this primary importance, this heat radiation is tied Structure is in this first state, and when this second fixture coordinates with this second position, this radiator structure is in this Second state.

It is also preferred that the left this first fixture has the first groove and the second groove, this second fixture has protuberance, This second groove relatively this first groove is away from this second heat-sink unit, when this protuberance and this first groove fit, This radiator structure is in this first state, and when this protuberance and this second groove fit, this radiator structure is in This second state.

It is also preferred that the left this first fixture has guide groove, this first groove and this second groove are positioned at this guide groove, This guide groove is in order to guide the slip between this first groove and this second groove of this protuberance.

It is also preferred that the left this first fixture has draw-in groove, this draw-in groove has the first relative end and the second end, should Second end relatively this first end is away from this second heat-sink unit, and this second fixture has snap fit, and this snap fit can phase This draw-in groove is slidably matched between this first end and this second end realize this second heat-sink unit with this first dissipate The flexible connection of hot cell.

It is also preferred that the left this first fixture also has the first blocking part and the second blocking part, this first blocking part and This second blocking part lays respectively at this first end of this draw-in groove and this second end, when this snap fit first is kept out with this When portion abuts, this radiator structure is in this first state, when this snap fit abuts with this second blocking part, and should Radiator structure is in this second state.

It is also preferred that the left this first heat-sink unit has the first accommodation space, when this radiator structure is in this second shape During state, this second heat-sink unit is at least partly placed in this first accommodation space, when this radiator structure is in this During the first state, this second heat-sink unit is not placed in this first accommodation space.

It is also preferred that the left this first fixture is arranged on the inwall of this first accommodation space, this second fixture sets It is placed in the sidewall of this second heat-sink unit；Or, this second heat-sink unit has the second accommodation space, and this is years old One fixture is arranged at the inwall of this first accommodation space, and this second fixture is arranged at this second accommodation space Inwall on.

It is also preferred that the left this first heat-sink unit all includes joint portion and the plate being connected with this second heat-sink unit, This first accommodation space is positioned at the joint portion of this first heat-sink unit, when this radiator structure is in this first state Time, the joint portion of this second heat-sink unit is not placed in this first accommodation space, the plate of this first heat-sink unit There is between the plate of sheet and this second heat-sink unit the first distance；When this radiator structure is in this second state Time, the joint portion of this second heat-sink unit is at least partly placed in this first accommodation space, and this first heat radiation is single Unit plate and the plate of this second heat-sink unit between there is second distance, this first distance more than this second Distance.

It is also preferred that the left the most mutual telescopic connection between this multi-layer heat dissipation unit.

For reaching above-mentioned purpose, the present invention also provides for a kind of projection arrangement, including:

Housing, has the 3rd accommodation space, and this housing includes the first housing and the second housing, and this second Housing can stretch by this first housing relatively；

Heat-generating units, is arranged in the 3rd accommodation space；And

Radiator structure as above, this radiator structure is arranged at the 3rd accommodation space, and this radiator structure Having the 3rd relative end on this first direction and the 4th end, the 3rd end is fixedly installed on the 3rd appearance Between being empty, and the 3rd end is in order to match with this heat-generating units, and the 4th end is connected with this second housing, Wherein, this first direction is that this second heat-sink unit can this first heat-sink unit is interactive relatively direction；

Wherein, when this second housing stretches relative to this first housing, and this radiator structure is become from this second state This first state；When this second housing is become by this first state relative to this first housing compresses, this radiator structure For this second state.

It is also preferred that the left when this projection arrangement is in opening, this radiator structure is in this first state, when When this projection arrangement is closed, this radiator structure is in this second state.

Compared with prior art, the present invention provides a kind of radiator structure, and this radiator structure includes that multiple heat radiation is single Unit, the first heat-sink unit in the plurality of heat-sink unit and the second heat-sink unit are flexibly connected, when this second dissipates Hot cell relative to this first heat-sink unit in the first direction in time moving near the direction of this first heat-sink unit, This radiator structure is become the second state from the first state, when this first state, this radiator structure in this first Direction has the first width, and when this second state, this radiator structure has the second width in this first direction, Wherein, this first width is more than this second width.So, when this radiator structure is in this first state, Can effectively dispel the heat, when this radiator structure is in this second state, this radiator structure overall dimensions diminishes, Can convenient for collecting and carrying.

Accompanying drawing explanation

The radiator structure 100 that Fig. 1 is proposed by first embodiment of the invention is in the generalized section of the first state.

The radiator structure 100 that Fig. 2 is proposed by first embodiment of the invention is in the generalized section of the second state.

Fig. 3 be the radiator structure 100 shown in Fig. 1 in the first state in the structural representation of other direction.

Fig. 4 be the radiator structure 100 shown in Fig. 2 in the second state in the structural representation of other direction.

The structural representation of the subelement of the radiator structure 100 that Fig. 5 is proposed by first embodiment of the invention.

The radiator structure 100 that Fig. 6 is proposed by second embodiment of the invention is in the generalized section of the first state.

The radiator structure 100 that Fig. 7 is proposed by second embodiment of the invention is in the generalized section of the second state.

Fig. 8 be the radiator structure 100 shown in Fig. 6 in the first state in the structural representation of other direction.

Fig. 9 be the radiator structure 100 shown in Fig. 7 in the second state in the structural representation of other direction.

The structural representation of the subelement of the radiator structure 100 that Figure 10 is proposed by second embodiment of the invention Figure.

The radiator structure 100 that Figure 11 is proposed by third embodiment of the invention is in the structural representation of the first state Figure.

The radiator structure 100 that Figure 12 is proposed by third embodiment of the invention is in the structural representation of the second state Figure.

Detailed description of the invention

For making the purpose of the present invention, structure, feature and function thereof are had further understanding, hereby coordinate reality Execute example and describe in detail as follows.

See shown in Fig. 1 to Figure 10, the radiator structure 100 that Fig. 1 is proposed by first embodiment of the invention in The generalized section of the first state, the radiator structure 100 that Fig. 2 is proposed by first embodiment of the invention is in The generalized section of two-state, Fig. 3 be the radiator structure 100 shown in Fig. 1 in the first state in other direction Structural representation, Fig. 4 be the radiator structure 100 shown in Fig. 2 in the second state in the structure of other direction Schematic diagram, the structure of the subelement of the radiator structure 100 that Fig. 5 is proposed by first embodiment of the invention is shown Being intended to, the radiator structure 100 that Fig. 6 is proposed by second embodiment of the invention is illustrated in the section of the first state Figure, the radiator structure 100 that Fig. 7 is proposed by second embodiment of the invention in the generalized section of the second state, Fig. 8 is that the radiator structure 100 shown in Fig. 6 is in the structural representation of other direction, Fig. 9 in the first state Radiator structure 100 shown in Fig. 7 is in the second state in the structural representation of other direction, and Figure 10 is the present invention The structural representation of the subelement of the radiator structure 100 that the second embodiment is proposed.Radiator structure of the present invention 100 include that multi-layer heat dissipation unit 10, multi-layer heat dissipation unit 10 are connected with each other, and multi-layer heat dissipation unit 10 wraps Include the first heat-sink unit 101 and the second heat-sink unit 102, the second heat-sink unit 102 and the first heat-sink unit 101 are flexibly connected, so that radiator structure 100 selectivity is in the first state and the second state.Wherein, when Relative first heat-sink unit 101 of two heat-sink units 102 is in the first direction near the first heat-sink unit 101 When direction is moved, radiator structure 100 is become the second state from the first state, when this first state, and heat radiation Structure 100 has the first width in this first direction, when this second state, radiator structure 100 in this One direction has the second width, and wherein, this first width is more than this second width.Radiator structure 100 of the present invention For being flexibly connected design so that radiator structure 100 has two states, when needs radiator structure 100 is carried out During heat radiation, operable radiator structure 100 makes radiator structure 100 be in deployed condition (i.e. this first state), Radiator structure 100 overall volume being in deployed condition is relatively big, can effectively dispel the heat, when without by dissipating When heat structure 100 dispels the heat, operable radiator structure 100 is at compressive state (i.e. this second shape State), radiator structure 100 volume being in compressive state diminishes, and is easily carried.Additionally, when dispelling the heat The electronic installation (such as projection arrangement, display device) that structure 100 is arranged at easily heating is internal to electronics dress Putting when dispelling the heat, the telescopic radiator structure of the present invention 100 makes it in the space shared by electronic installation inside Less, the beneficially miniaturization of electronic installation.It addition, for purposes of illustration only, specific justice has hangs down the most each other Straight X-axis, Y-axis and Z axis, wherein this X-direction is first direction.Second heat-sink unit 102 and The flexible connection of one heat-sink unit 101 can be any type of flexible connection, as long as this first shape can be realized The conversion of state and this second state, for example, it is possible to for hinged, be slidably connected, flexible connect, specifically by setting Depending on meter personnel are according to practical situation.In the present embodiment, the second heat-sink unit 102 and the first heat-sink unit 101 Along the telescopic connection of this first direction, when radiator structure 100 is in this first state, the second heat radiation is single Unit 102 is relative with the first heat-sink unit 101 to be stretched, when radiator structure 100 is in this second state, the Two heat-sink units 102 are relative with the first heat-sink unit 101 to be compressed.

Further, the first heat-sink unit 101 is provided with the first fixture 1010, the second heat-sink unit 102 On be provided with the second fixture 1020, the first fixture 1010 and the second fixture 1020 clearance fit realize Second heat-sink unit 102 is connected with the first the scalable of heat-sink unit 101.Further, the first fixture 1010 have different primary importance and the second position, and this second position relatively this primary importance is away from the second heat radiation Unit 102, when the second fixture 1020 coordinates with this primary importance, radiator structure 100 be in this first State, when the second fixture 1020 coordinates with this second position, radiator structure 100 is in this second state. The i.e. present invention coordinates realization heat radiation knot by the second fixture 1020 with the diverse location of the first fixture 1010 Structure 100 is in the conversion of this first state He this second state.

Further, as shown in Figures 1 to 5, the first fixture 1010 has the first groove 10101 and Two grooves 10102, the second fixture 1020 has protuberance 10201, second groove 10102 relatively the first groove 10101 away from the second heat-sink unit 102, when protuberance 10201 coordinates with the first groove 10101, and heat radiation knot Structure 100 is in this first state, when protuberance 10201 coordinates with the second groove 10102, and radiator structure 100 It is in this second state.The i.e. present invention is selective with the first groove 10101 and second by protuberance 10201 The cooperation of groove 10102 realizes radiator structure 100 in the conversion of this first state He this second state.Preferably , the first fixture 1010 has guide groove 10103, and the first groove 10101 and the second groove 10102 are positioned at In guide groove 10103, guide groove 10103 is in order to guide protuberance 10201 in the first groove 10101 and the second groove Slide between 10102.In the present embodiment, guide groove 10103 coordinates with the second fixture 1020, to guide The glide direction of relative first fixture 1010 of two fixtures 1020, and then make protuberance 10201 in first Slide between guide groove 10101 and the second guide groove 10102.Certainly, in other embodiments, guide groove 10103 Can also be arranged between the first guide groove 10101 and the second guide groove 10102, and prolong from the first guide groove 10101 Extending the second guide groove 10102, guide groove 10103 coordinates with protuberance 10201, to guide protuberance 10201 in first Slip between guide groove 10101 and the second guide groove 10102, specifically by designer according to practical situation depending on, Do not repeat them here.And in reality is applied, the first fixture 1010 can be to be added to the first heat-sink unit On 101, can also be formed as one with the first heat-sink unit 101, to save operation, specifically by designer Depending on practical situation, do not repeat them here.

Certainly, as shown in figs. 6 and 10, in other embodiments, the first fixture 1010 and second is solid Locking member 1020 can also be designed to: the first fixture 1010 has draw-in groove 10104, and draw-in groove 10104 has phase To the first end and the second end, this second end relatively this first end is away from the second heat-sink unit 102, the second fixture 1020 have snap fit 10202, and snap fit 10202 and draw-in groove 10104 are slidably matched and realize the second heat-sink unit 102 It is connected with the first the scalable of heat-sink unit 101.I.e. the present invention is by snap fit 10202 and draw-in groove 10104 It is slidably matched and realizes radiator structure 100 in the conversion of this first state He this second state.Further, One fixture 1010 also has the first blocking part 10105 and the second blocking part 10106, the first blocking part 10105 With this first end and this second end that the second blocking part 10106 lays respectively at guide groove 10103, snap fit 10202 Can slide between the first blocking part 10105 and the second blocking part 10106, when snap fit 10202 supports with first When stopper 10105 abuts, radiator structure 100 is in this first state, when snap fit 10202 is kept out with second When portion 10106 abuts, radiator structure 100 is in the second state, specifically by designer according to practical situation Depending on, do not repeat them here.I.e. the present invention is by the first blocking part 10105 and the second top 10106 The cooperation position defining snap fit 10202 with draw-in groove 10104 is set, so that radiator structure 100 correspondence is positioned at This first state or this second state, and the setting of the first blocking part 10105 and the second top 10106 Put and still prevent snap fit 10202 and depart from draw-in groove 10104, but be not limited.

Further, as shown in Figures 1 to 5, the first heat-sink unit 101 has the first accommodation space 1011, When radiator structure 100 is in this second state, the second heat-sink unit 102 is at least partly placed in the first appearance Between being empty 1011, when radiator structure 100 is in this first state, the second heat-sink unit 102 is not placed in First accommodation space 1011.Or, when radiator structure 100 is in this first state, the second heat-sink unit 102 can also partly be placed in the first accommodation space 1011, but second dispel the heat list when being in this first state Unit 102 is placed in the part of the first accommodation space 1011 and holds less than the second heat-sink unit 102 during this second state It is placed in the part of the first accommodation space 1011.Certainly, in other embodiments, the first heat-sink unit 101 is also Can not have the first accommodation space 1011, and the first heat-sink unit 101 and second when being in this first state Spacing between heat-sink unit 102 is more than the first heat-sink unit 101 and the second heat radiation when being in this second state Spacing between unit 102, specifically by designer according to practical situation depending on, do not repeat them here.Relatively Good, the second heat-sink unit 102 is positioned at the first accommodating sky in the projection of this Y-axis He the plane at this Z axis place Between 1011 in the projection of this Y-axis and the plane at this Z axis place, specifically by designer according to practical situation Depending on, do not repeat them here.

Further, as shown in Figures 1 to 4, the first fixture 1010 is arranged at the first accommodation space 1011 Inwall 10110 on, the second fixture 1020 is arranged at the sidewall 1021 of the second heat-sink unit 102.Or, As shown in Figures 6 to 9, the second heat-sink unit 102 also has the second accommodation space 1022, the first fixture On 1010 inwalls 10110 being arranged at the first accommodation space 1011, the second fixture 1020 is arranged at second On the inwall 10220 of accommodation space, specifically by designer according to practical situation depending on, do not repeat them here.

Further, as shown in Figure 1 to Figure 4 and shown in Fig. 6 to Fig. 9, the first heat-sink unit 101 and second Heat-sink unit 102 all includes joint portion 106 and the plate 107 being connected, and the first accommodation space 1011 is positioned at The joint portion 106 of one heat-sink unit 101, when radiator structure 100 is in this first state, the second heat radiation is single The joint portion 106 of unit 102 is not placed in the first accommodation space 1011, the plate 107 of the first heat-sink unit 101 And second heat-sink unit 102 plate 107 between there is the first distance；When radiator structure 100 be in this During two-state, the joint portion 106 of the second heat-sink unit 102 is at least partly placed in the first accommodation space 1011, Have between plate 107 and the plate 107 of the second heat-sink unit 102 of the first heat-sink unit 101 second away from From, the first distance is more than second distance.I.e. along with the second heat-sink unit 102 and the first heat-sink unit 101 Stretching relatively, the distance between the plate 107 of its correspondence also becomes big, to be conducive to heat radiation.In the present embodiment, Second distance is 0, but is not limited.It is also preferred that the left the plate 107 and second of the first heat-sink unit 101 dissipates The plate 107 of hot cell 102 arranges along this first direction, but is not limited.

It should be strongly noted that above-described embodiment is with the first heat-sink unit 101 in multiple heat-sink units 10 Illustrate with as a example by the second flexible connection of heat-sink unit 102, but in reality is applied, can also be adjacent Flexible connection between multiple heat-sink units, such as three heat-sink units, four heat-sink units are the most all of scattered It is all flexible connection between hot cell (seeing Figure 11 and Figure 12), the heat-sink unit of certain multiple flexible connections Can also is that discontinuous setting, specifically by designer according to practical situation depending on.With three adjacent dissipating Illustrate as a example by flexible connection between hot cell, this three heat-sink units for example, first heat-sink unit 101, Second heat-sink unit 102 and the 3rd heat-sink unit 103, wherein, the first heat-sink unit 101 and the second heat radiation are single Matching relationship between unit 102 sees shown in above-described embodiment, and the second heat-sink unit 102 and the 3rd heat radiation The matching relationship of unit is similar with the matching relationship between the first heat-sink unit 101 and the second heat-sink unit 102, Do not repeat them here.Accordingly, when four the most all of heat-sink units of heat-sink unit (as shown in Figure 1 Heat-sink unit 103,104,105) between be all that the flexible structure connected and principle can be according to two or three Structure and the principle of the flexible connection between individual heat-sink unit are analogized, and do not repeat them here.It is also preferred that the left The flexible heat-sink unit 10 connected is all to arrange along this first direction, but is not limited.

To sum up, the present invention provides a kind of radiator structure, including multiple heat-sink units, in the plurality of heat-sink unit The first heat-sink unit and the second heat-sink unit be flexibly connected, when this second heat-sink unit, relatively this first dispels the heat When unit moves to the direction near this first heat-sink unit in the first direction, this radiator structure is by the first state Becoming the second state, when this first state, this radiator structure has the first width in this first direction, in During this second state, this radiator structure has the second width in this first direction, and wherein, this first width is big In this second width.So, when this radiator structure is in this first state, can effectively dispel the heat, when When this radiator structure is in this second state, this radiator structure overall dimensions diminishes, can convenient for collecting and carrying.

In reality is applied, the radiator structure 100 shown in Fig. 1 to Figure 12 of the present invention can be applicable to projection arrangement In.Projection arrangement of the present invention for throw light in imaging region, for user.The present invention projects dress Put and include housing, the radiator structure 100 of heat-generating units and above-described embodiment.Wherein, housing has the 3rd appearance Between being empty, and housing includes the first housing and the second housing, and the second housing can stretch by relative first housing. Heat-generating units is arranged in the second accommodation space；And radiator structure 100 is arranged at the 3rd accommodation space, and Radiator structure 100 has the 3rd relative end on this first direction and the 4th end, and the 3rd end is fixedly installed In the 3rd accommodation space, and the 3rd end matches with this heat-generating units, so that heat-generating units is dispelled the heat, 4th end is connected with this second housing.Wherein, when this second housing stretches relative to this first housing, Radiator structure is become this first state from this second state, so that the volume of radiator structure increases, and can be to projection Device carries out good heat radiating；When this second housing is relative to this first housing compresses, radiator structure by this first State becomes this second state, so that the overall dimensions of radiator structure diminishes, thus reduces radiator structure at this Space shared in projection arrangement, the beneficially miniaturization of projection arrangement, also allow for user and carry projection arrangement.

Further, the 4th end of radiator structure 100 is fixed on this second housing by rivet or screw, But it is not limited.

Further, when projection arrangement is in opening, radiator structure 100 is in this first state, Being in the radiator structure 100 of this first state in deployed condition, overall dimensions is relatively big, can enter projection arrangement Row effectively heat radiation；When projection arrangement is closed, radiator structure 100 is without carrying out projection arrangement Heat radiation, can make this radiator structure be in this second state, be in the radiator structure 100 of this second state in pressure Contracting state, overall dimensions is less, space shared in projection arrangement, the beneficially miniaturization of projection arrangement, Also allow for user and carry projection arrangement.Further, radiator structure 100 can be realized when switching on and shutting down simultaneously Synchronization Control, it is not necessary to radiator structure 100 is additionally controlled by user, it is achieved product use overall intelligence Energyization controls.

To sum up, the present invention provides a kind of projection arrangement, including housing and the heat-generating units being arranged in this housing And radiator structure, this housing includes the first housing and the second housing, and this second housing can this first shell relatively Body stretches, and this radiator structure has the 3rd relative end on this first direction and the 4th end, the 3rd end Being fixedly installed on the 3rd accommodation space of this housing, the 4th end is connected with this second housing, operate this Two housings can change the state of this radiator structure, when this first housing relatively stretches this second housing so that This radiator structure is in deployed condition, this projection arrangement can be carried out good heat radiating, when this first housing relative When compressing this second housing so that this radiator structure is in compressive state, thus reduces volume, and reduction takies Space, is conducive to the miniaturization of this projection arrangement.

The present invention is been described by by above-mentioned related embodiment, but above-described embodiment is only and implements the present invention's Example.It must be noted that, the embodiment disclosed is not limiting as the scope of the present invention.On the contrary, not The change made in departing from the spirit and scope of the present invention and retouching, all belong to the scope of patent protection of the present invention.

Claims (14)

1. a radiator structure, it is characterised in that this radiator structure includes:

Multi-layer heat dissipation unit, this multi-layer heat dissipation unit is connected with each other, and this multi-layer heat dissipation unit includes that first dissipates Hot cell and the second heat-sink unit, this second heat-sink unit is flexibly connected with this first heat-sink unit；

When this second heat-sink unit relative to this first heat-sink unit in the first direction near this first heat-sink unit Direction when moving, this radiator structure is become the second state from the first state, and when this first state, this dissipates Heat structure has the first width in this first direction, and when this second state, this radiator structure is in this first party To having the second width, wherein, this first width is more than this second width.

2. radiator structure as claimed in claim 1, it is characterised in that this second heat-sink unit with this One heat-sink unit is along the telescopic connection of this first direction, when this radiator structure is in this first state, and should The first heat-sink unit is relative stretches with this for second heat-sink unit, when this radiator structure is in this second state, The first heat-sink unit is relative compresses with this for this second heat-sink unit.

3. radiator structure as claimed in claim 1, it is characterised in that arrange on this first heat-sink unit Have the first fixture, this second heat-sink unit be provided with the second fixture, this first fixture with this second Fixture clearance fit realizes being flexibly connected of this second heat-sink unit and this first heat-sink unit.

4. radiator structure as claimed in claim 3, it is characterised in that this first fixture has different Primary importance and the second position, this second position relatively this primary importance away from this second heat-sink unit, when this When two fixtures coordinate with this primary importance, this radiator structure is in this first state, when this second fixture When coordinating with this second position, this radiator structure is in this second state.

5. radiator structure as claimed in claim 3, it is characterised in that this first fixture has first Groove and the second groove, this second fixture has protuberance, this second groove relatively this first groove away from this Two heat-sink units, when this protuberance and this first groove fit, this radiator structure is in this first state, when When this protuberance and this second groove fit, this radiator structure is in this second state.

6. radiator structure as claimed in claim 5, it is characterised in that this first fixture has guide groove, This first groove and this second groove are positioned at this guide groove, and this guide groove is in order to guide this protuberance in this first groove And the slip between this second groove.

7. radiator structure as claimed in claim 3, it is characterised in that this first fixture has draw-in groove, This draw-in groove has the first relative end and the second end, this second end relatively this first end away from this second heat-sink unit, This second fixture has snap fit, and this snap fit can slide by this draw-in groove relatively between this first end and this second end Coordinate and realize being flexibly connected of this second heat-sink unit and this first heat-sink unit.

8. radiator structure as claimed in claim 7, it is characterised in that this first fixture also has the One blocking part and the second blocking part, this first blocking part and this second blocking part lay respectively at this draw-in groove this One end and this second end, when this snap fit abuts with this first blocking part, this radiator structure is in this first shape State, when this snap fit abuts with this second blocking part, this radiator structure is in this second state.

9. radiator structure as claimed in claim 3, it is characterised in that this first heat-sink unit has the One accommodation space, when this radiator structure is in this second state, this second heat-sink unit at least partly houses In this first accommodation space, when this radiator structure is in this first state, this second heat-sink unit does not houses In this first accommodation space.

10. radiator structure as claimed in claim 9, it is characterised in that this first fixture is arranged at this On the inwall of the first accommodation space, this second fixture is arranged at the sidewall of this second heat-sink unit；Or, This second heat-sink unit has the second accommodation space, and this first fixture is arranged at the interior of this first accommodation space Wall, this second fixture is arranged on the inwall of this second accommodation space.

11. radiator structures as claimed in claim 9, it is characterised in that this first heat-sink unit and this Two heat-sink units all include joint portion and the plate being connected, and this first accommodation space is positioned at this first heat-sink unit Joint portion, when this radiator structure is in this first state, the joint portion of this second heat-sink unit does not houses Have between this first accommodation space, plate and the plate of this second heat-sink unit of this first heat-sink unit First distance；When this radiator structure is in this second state, at least portion, the joint portion of this second heat-sink unit Partial volume be placed in this first accommodation space, the plate of this first heat-sink unit and this second heat-sink unit plate it Between there is second distance, this first distance is more than this second distance.

12. radiator structures as described in any one of claim 1 to 11, it is characterised in that this multilamellar dissipates The most mutual telescopic connection between hot cell.

13. 1 kinds of projection arrangements, it is characterised in that including:

Housing, has the 3rd accommodation space, and this housing includes the first housing and the second housing, and this second shell Body can stretch by this first housing relatively；

Heat-generating units, is arranged in the 3rd accommodation space；And

Radiator structure as described in any one of claim 1 to 12, this radiator structure is arranged at the 3rd and houses Space, and this radiator structure has the 3rd relative end on this first direction and the 4th end, the 3rd end It is fixedly installed on the 3rd accommodation space, and the 3rd end is in order to match with this heat-generating units, the 4th end Being connected with this second housing, wherein, this first direction is that this second heat-sink unit can this first heat radiation relatively The direction of unit activity；

Wherein, when this second housing stretches relative to this first housing, and this radiator structure is become from this second state This first state；When this second housing is become by this first state relative to this first housing compresses, this radiator structure For this second state.

14. projection arrangements as claimed in claim 13, it is characterised in that when this projection arrangement is in out When opening state, this radiator structure is in this first state, and when this projection arrangement is closed, this dissipates Heat structure is in this second state.