CN108870801A - Refrigeration motor conduction structure - Google Patents

Abstract

The invention discloses a kind of refrigeration motor conduction structures, including cold bridge and refrigeration motor；Cold end fixation hole is offered on cold bridge, refrigeration motor refrigeration end is fixed in cold end fixation hole；Conduction cooling pipe is pressed on cold bridge ontology using pressing plate on cold bridge, the cooling capacity that refrigeration motor cold end generates is transferred out, is applied to specific occasion；Cold bridge includes ontology, pressing plate and conduction cooling pipe, and ontology uses C-shaped configuration integrally to facilitate fixed motor cold end.Refrigeration motor conduction structure disclosed by the invention can sufficiently export the cooling capacity that refrigeration motor cold end generates, and cold conduction efficiency is high, using convenient.

Description

Refrigeration motor conduction structure

Technical field

The present invention relates to a kind of conduction structure, especially a kind of refrigeration motor conduction structure.

Background technique

Compared with traditional vapour compression refrigeration system, hot sound refrigerating machine has very big advantage；Hot sound refrigerating machine without Refrigerant need to be used, but uses or mixtures thereof inert gas as working medium, therefore, not will lead to the chlorofluorocarbons used (Chlorofluorocarbons) and hydrofluorocarbon (Hydrofluorocarbons) generates the destruction of ozone layer and greenhouse effects are endangered Evil；Its basic system is very simple with reliably, without precious materials, has in cost and has great advantage；They are without oscillation The characteristics of piston and oil seal or lubrication, movement-less part, greatly prolongs its service life.Thermo acoustic refrigeration technology almost overcomes All disadvantages of conventional refrigeration can become the developing direction of next-generation new refrigeration technologies.

The existing conduction structure of hot sound refrigerating machine is relatively simple coarse, will only with the form in cold end connection conduction cooling pipe The cooling capacity of hot sound refrigerating machine cold end exports, but such mode frequently results in the waste of cooling capacity, and in the occasion needs having The structure that a conduction cooling pipe works at the same time, which is added, using multiple hot sound refrigerating machines is just able to satisfy job requirement, and existing conduction structure Such workplace can not be then suitable for.And existing conduction structure is usually directly complete by the end portion of hot sound refrigerating machine Portion wraps up export cooling capacity, but the end portion of actually hot sound refrigerating machine other than cold end some be heat dissipation End, such form cause heat and cooling capacity to neutralize, greatly reduce refrigerating efficiency.

Summary of the invention

Goal of the invention：The present invention provides a kind of refrigeration motor conduction structure, such conduction structure can sufficiently assemble system Cold cold end cooling capacity, and export；The conduction cooling pipe arrangement mode of such conduction structure can sufficiently export refrigeration motor cold end cooling capacity, And the cooling capacity is formed into multiple branches and is used for different occasions.

Technical solution：A kind of refrigeration motor conduction structure, including cold bridge and refrigeration motor；Cold end is offered on cold bridge to fix Hole, refrigeration motor cold end are fixed in cold end fixation hole, and conduction cooling pipe is provided on cold bridge and exports refrigeration motor cold end cooling capacity.

In order to sufficiently assemble and export cooling capacity, cooling capacity is avoided to be depleted and neutralized by radiating end heat, refrigeration motor Cool end is concordant with shell rim on the outside of cold end fixation hole.Refrigeration motor is preferably thermoacoustic refrigeration motor in the present invention, into one Step, since the second heat exchanger inside hot sound refrigerating machine cool end and hot sound refrigerating machine cold end is close to the front end of cold end end face Face coincides, so, cold bridge shell rim of second heat exchanger on the outside of the front end face and cold end fixation hole of cold end end face is flat Together.

In order to adequately assemble the cooling capacity of hot sound refrigerating machine cold end, cold end fixation hole is blind hole, the bottom of cold end fixation hole It is bonded with hot sound refrigerating machine cold end front end face.

In order to enable multiple hot sound refrigerating machines at work can cancel out each other vibration, the cold end fixation hole on cold bridge is in Central symmetry distribution, hot sound refrigerating machine is also centrosymmetric distribution as a result, to offset vibration.

Specifically, cold bridge includes ontology, pressing plate and conduction cooling pipe, cold end fixation hole is opened up on ontology, pressing plate is by conduction cooling pipe pressure It is tightly fixed on ontology.Wherein, in order to clamp hot sound refrigerating machine cold end, so that the cooling capacity of cold end can sufficiently be conducted to cold In bridge structure, body construction is " C " font hatch frame, and opening is using screw connection fastening.Wherein, on pressing plate and ontology Offer one-to-one semicircle groove, when installation pressing plate is aligned one by one with the semicircle groove on ontology after be attached it is tight Gu conduction cooling pipe is located on ontology and pressing plate in the circular hole of corresponding semicircle groove composition, conduction cooling pipe is pressed on ontology by pressing plate On, so that conduction cooling pipe fully absorbs the cooling capacity on ontology, and cooling capacity is exported.

Further, in order to enable pressing plate compresses conduction cooling pipe, and conduction cooling pipe is come into full contact with ontology, ontology and pressing plate Size needs to be less than the size of conduction cooling pipe everywhere in the conduction cooling hole of upper corresponding groove composition, to realize interference fit.In order to Keep cooling capacity export more efficient, is provided with heat-conducting glue in the conduction cooling hole of corresponding groove composition on ontology and pressing plate.

In order to make full use of the cooling capacity on cold bridge, cold bridge further includes the second pressing plate, and the second pressing plate is by second layer conduction cooling pipe pressure Be tightly fixed on on the pressing plate on ontology.To which further the cooling capacity to shed on pressing plate is assembled and be exported.

Since cooling capacity needs to assemble, therefore ontology and pressing plate are solid material.If being provided with two in circular hole opposite to lead Cold pipe, there are gaps for two conduction cooling pipe front ends, and cannot contact with each other, and otherwise will affect cold conduction efficiency.

Beneficial effect：Hot sound refrigerating machine cold bridge structure provided by the invention can sufficiently assemble the generation of hot sound refrigerating machine cold end Cooling capacity, be applicable to exporting hot sound refrigerating machine cooling capacity into the field for being applied to multiple occasions or same device different parts It closes；The conduction cooling pipe arrangement of entire conduction structure is compact, reduces scattering and disappearing for cooling capacity.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is ontology of the invention and pressure plate structure schematic diagram；

Fig. 3 is body construction schematic diagram of the invention；

Fig. 4 is first embodiment of the present invention structural schematic diagram；

Fig. 5 is second embodiment of the present invention structural schematic diagram；

Fig. 6 is pressure plate structure schematic diagram of the present invention.

Specific embodiment

As shown in Figure 1, a kind of refrigeration motor conduction structure, including cold bridge 1 and hot sound refrigerating machine 2.

Cold bridge 1 includes ontology 11, pressing plate 12 and conduction cooling pipe 13.

As shown in Figures 2 and 3, cold end fixation hole 111 is opened up at 11 center of ontology, cold end fixation hole 111 can be through-hole, Cold end fixation hole 111 is simpler to process when through-hole, and opposed type installs two hot sound refrigerating machines simultaneously in a through-hole 2；But the aggregation of the cooling capacity of the cold end endface of hot sound refrigerating machine 2 is not so good as cooling capacity collection efficiency when cold end fixation hole 111 is blind hole It is high；If cold end fixation hole 111 can therefore in order to enable the cooling capacity of the cold end endface of hot sound refrigerating machine 2 is assembled to ontology 11 It is made into blind hole with selection, and the bottom 1111 of blind hole is bonded with 21 front end face of hot sound refrigerating machine cold end；Ontology 11 does not offer The side of cold end fixation hole 111 is provided with notch 113, and when installation needs the installation of cold end 21 of hot sound refrigerating machine 2 to ontology 11 In cold end fixation hole 111, reusing screw will tighten at the notch 113 of ontology 11 so that 113 two sides side wall of notch fitting or Guarantee that gap is less than 1mm, cooling capacity is avoided to be lost；The notch 113 of screw-driving ontology 11 is to clamp the cold of hot sound refrigerating machine 21 End, so that cooling capacity is preferably conducted to ontology 11；It needs also to open up blind via bottom 1111 accordingly if opening up notch 113 Notch.

One-to-one groove 112 is offered on pressing plate 12 and ontology 11, conduction cooling pipe 13 is located at ontology 11 and pressing plate 12 In the conduction cooling hole 131 that upper corresponding groove 112 forms.Conduction cooling pipe 13 is fixed on ontology 11 by pressing plate 12, conduction cooling pipe 13 are interference fitted with conduction cooling hole 131.In order to enable conduction cooling effect is more preferable, cold conduction efficiency is higher, and fills up conduction cooling pipe 13 and conduction cooling It is filled with and leads in the conduction cooling hole 131 that corresponding groove 112 forms on existing gap between hole 131, ontology 11 and pressing plate 12 Hot glue.In practical engineering applications, conduction cooling pipe 13 and conduction cooling hole 131 are preferably processed to round conduction cooling pipe and circle conduction cooling hole, with civilian dress Match and good fit, is convenient for conduction cooling.

In order to enable cooling capacity congregational rate on ontology 11 and pressing plate 12 is more preferable, ontology 11 and pressing plate 12 are solid material Material.Specifically optional red copper material is to improve cold conduction efficiency.

2 cold end 21 of hot sound refrigerating machine is fixed in cold end fixation hole 111, when needing two or more thermoacoustic system When cold 2 works together conduction cooling, need for hot sound refrigerating machine 2 to be installed in the form of centrosymmetric on cold bridge 1.Cold end fixation hole 111 can choose be made into through-hole or blind hole later according to actual conduction cooling demand and installation requirements balance；When hot sound refrigerating machine 2 When for even number, if cold end fixation hole 111 is made into through-hole, the cold end that is mounted on of 2 opposed type of hot sound refrigerating machine is fixed It in hole 111, and needs to guarantee that cold bridge 1 is centrosymmetric with 2 entirety of hot sound refrigerating machine, that is, guarantees the same cold end fixation hole 111 Interior two hot sound refrigerating machines 2 and the generally symmetrical structure of cold end fixation hole 111, such mounting means may make hot sound refrigerating machine 2 vibration is offset.

When cold end fixation hole 111 is blind hole, then cold end fixation hole 111 is centrosymmetric distribution on cold bridge 2, it will be cold The bottom 1111 of end fixation hole 111 is processed as fitting with warm-up motor 2, so that hot sound refrigerating machine 2 protrudes into cold end fixation hole 111 Part fitted closely with cold end fixation hole 111, guarantee cooling capacity aggregation.

The radiating end of hot sound refrigerating machine 2 is assembled in cold end fixation hole 111 in order to prevent, cooling capacity is neutralized, thermoacoustic system 2 cold end of cold, 21 end is concordant with 111 outside shell rim of cold end fixation hole, and hot sound refrigerating machine radiating end is placed in outside cold bridge 2 Side.One side of second heat exchanger 22 of hot sound refrigerating machine 2 close to 21 end face of cold end is the end of cold end 21, therefore further , by the second heat exchanger 22 of hot sound refrigerating machine 2 close to the cold bridge in 111 outside of one side and cold end fixation hole of 21 end face of cold end 1 shell rim is concordant.

It is the first embodiment of cuboid for ontology 11, as shown in Figure 1, there are four pressing plate 12 is total, the respectively first pressure Plate 121, the second pressing plate 122, third pressing plate 123, the 4th pressing plate 124 are respectively set at 11 two opposite centre of surfaces of ontology There are two cold end fixation hole 111, four pressing plates are respectively arranged on the four additional adjacent surface of ontology 11, and two cold ends are fixed Hole 111 is centrosymmetric distribution on cold bridge 2.Cold end fixation hole 111 is blind hole；By being fixed on for 2 opposed type of hot sound refrigerating machine In cold end fixation hole 111.The semi-circular recesses 112 of identical quantity are provided on four adjacent surfaces of ontology 11 at equal intervals, Conduction cooling pipe 13 is fixed in the conduction cooling hole 131 formed after pressing plate 12 is bonded with ontology 11 by pressing plate 12.

It is the first embodiment of cuboid for ontology 11,11 bottom of ontology opens up fixed on jagged 113 one side There is the 4th pressing plate 124, two opposite inverted "L" shapes are symmetrically set in the conduction cooling hole 131 between the 4th pressing plate 124 and ontology 11 The horizontal segment of conduction cooling pipe 13, inverted "L" shape conduction cooling pipe 13 is fixed in conduction cooling pipe 131, and vertical section is respectively from the both ends in conduction cooling hole 131 It stretches out, there are gaps in conduction cooling hole 131 for the front end of two opposite inverted " L " conduction cooling pipes 13.Such structure can not only make to lead Cooling capacity on cold pipe 13 is uniformly distributed, and can also increase the quantity of conduction cooling pipe.

It is provided in the conduction cooling hole 131 that another pair of opposite the second pressing plate 122 and third pressing plate 123 are formed with ontology 11 Vertical conduction cooling pipe 13.

The conduction cooling hole 131 between the first pressing plate 121 and ontology 11 opposite with the 4th pressing plate 124 is provided at the top of ontology 11 Two opposite inverted "L" shape conduction cooling pipes 13 are inside equally symmetrically arranged with, the vertical section of conduction cooling pipe 13 is close to 122 He of the second pressing plate It is extended downwardly on the outside of third pressing plate 123.

As shown in figure 4, the vertical section of " L " type conduction cooling pipe and vertical conduction cooling pipe extending direction are to be directed toward from the first pressing plate 121 The direction of 4th pressing plate 124.The width of 4th pressing plate 124 is less than the width of the side of its ontology 11 fixed, so that the 4th The vertical section for " L " type conduction cooling pipe 13 that pressing plate 124 compresses be located at be arranged in the second pressing plate 122 and third pressing plate 123 vertically Between conduction cooling pipe 13, interference will not be generated between conduction cooling pipe.And the first pressing plate 121 is along " L " type conduction cooling pipe horizontal segment extension side To width be greater than ontology 11 in the width of the direction, and when installing, the first pressing plate 121 covers the one of fixed ontology (11) Side, such structure makes the first pressing plate 121 cover the horizontal segment of " L " type conduction cooling pipe 13 that it is compressed as far as possible, so that conduction cooling Cooling capacity on pipe 13 is not easy to lose.For the ontology 11 for being provided with notch 113, the cooling capacity of indentation, there is several compared to other Side collection efficiency can a slightly lower shoes, Gu selection the smallest first pressing plate 121 of area is covered on the side, and use edge 121 to the 4th pressing plate 124 of the first pressing plate direction extend vertical conduction cooling form of tubes.

As shown in figure 4, being the first embodiment of cuboid for ontology 11, it should be noted that conduction cooling pipe 13 is to downward It is parallel to each other between the vertical pipe stretched and there are gap between Guan Yuguan, led if otherwise contacting with each other will affect between conduction cooling pipe 13 Cold efficiency.

As shown in figure 5, being the second embodiment of cuboid for ontology 11, outside the second pressing plate 122 and third pressing plate 123 Side opens up semi-circular recesses 112, and second laminate 14 that is fixed and clamped on the second pressing plate 122 and third pressing plate 123, and second It is offered on 14 medial surface of laminate corresponding recessed with the second pressing plate 122 and 123 lateral surface semi-circular recesses 112 of third pressing plate Slot 112；After second laminate 14 is fixed on the second pressing plate 122 and third pressing plate 123, the second laminate 14 and the second pressing plate Second layer conduction cooling hole 132 is formed between 122 and third pressing plate 123；Between first pressing plate 121 and ontology 11 at 11 top of ontology The vertical section of conduction cooling pipe 13 is pressed in two layers of conduction cooling hole 132.Such embodiment can further make full use of second Remaining cooling capacity on pressing plate 122 and third pressing plate 123.

Claims (10)

1. a kind of refrigeration motor conduction structure, including cold bridge (1) and refrigeration motor, it is characterised in that：The cold bridge (1) includes this Body (11) and pressing plate (12) offer cold end fixation hole (111) on the ontology (11), and the refrigeration motor cold end (21) is fixed In cold end fixation hole (111)；The pressing plate (12) is fixed on ontology (11), is equipped with and is led between pressing plate (12) and ontology (11) Cold hole (131), the conduction cooling pipe (13) are pressed in conduction cooling hole (131) by pressing plate (12).

2. refrigeration motor conduction structure according to claim 1, it is characterised in that：The refrigeration motor is specially thermoacoustic system Cold (2).

3. refrigeration motor conduction structure according to claim 1, it is characterised in that：The ontology (11) generally cuboid Structure, the ontology (11) offer the cold end fixation hole (111) being centrosymmetric on two opposite faces；The refrigeration motor There are two, refrigeration motor cold end is individually fixed in two cold end fixation holes (111).

4. refrigeration motor conduction structure according to claim 3, it is characterised in that：The ontology (11) does not offer cold end It is opened up on the wherein one side of fixation hole (111) notch (113), notch (113) two sides are using screw connection fastening.

5. refrigeration motor conduction structure according to claim 3, it is characterised in that：It is solid that the ontology (11) does not open up cold end Determine that semi-circular recesses (112) are arranged on remaining four face in hole (111), be respectively fixed with a pressing plate (12) on four faces, It is correspondingly arranged on semi-circular recesses (112) on the pressing plate (12), round conduction cooling pipe (13) is pressed in ontology (11) and pressing plate (12) in the conduction cooling hole (131) of corresponding semi-circular recesses (112) composition.

6. according to the described in any item refrigeration motor conduction structures of claim 3~5, it is characterised in that：Pressing plate (12) packet Include the first pressing plate (121), the second pressing plate (122), third pressing plate (123), the 4th pressing plate (124), first pressing plate (121) with 4th pressing plate (124) is set on two opposite faces of ontology (11), and the horizontal segment of two opposite " L " type conduction cooling pipes is fixed on In conduction cooling hole (131) between first pressing plate (121) and the 4th pressing plate (124) and ontology (11), second pressing plate (122) and It is provided with vertical conduction cooling pipe in conduction cooling hole (131) between third pressing plate (123), the vertical section of " L " the type conduction cooling pipe and perpendicular Straight conduction cooling pipe extending direction is identical.

7. refrigeration motor conduction structure according to claim 6, it is characterised in that：First pressing plate (121) and the 4th Two opposite " L " type conduction cooling pipe front ends being arranged in conduction cooling hole (131) between pressing plate (124) and ontology (11) there are Gap.

8. the refrigeration motor conduction structure according to when claim 6 reference claim 4, it is characterised in that：Described 4th Pressing plate (124) is fixed on ontology (11) and opens up on the one side of jagged (113), the vertical section of " L " the type conduction cooling pipe and perpendicular Straight conduction cooling pipe extending direction is the direction that the 4th pressing plate (124) is directed toward from the first pressing plate (121).

9. refrigeration motor conduction structure according to claim 8, it is characterised in that：First pressing plate (121) is along " L " The width of type conduction cooling pipe horizontal segment extending direction is greater than ontology (11) in the width of the direction, and when installation, the first pressing plate (121) Cover the one side of fixed ontology (11).

10. refrigeration motor conduction structure according to claim 6, it is characterised in that：Second pressing plate (122), third Semi-circular recesses (112) are set on pressing plate (123) lateral surface, and fixed on the second pressing plate (122), third pressing plate (123) respectively Second laminate (14) is again provided with semi-circular recesses (112) and the second pressing plate (122) and third pressure on the second laminate (14) Semi-circular recesses (112) one-to-one correspondence on plate (123) forms second layer conduction cooling hole (132).