CN205118368U - Charging connector and radiator of radiator - Google Patents

Abstract

The utility model provides a charging connector and radiator of radiator. Including base, inner core, interior core print seat, V -arrangement sealing ring and stopper, base one end links to each other with the radiator, offers the through -hole that is linked together with the inner chamber of radiator along the axial in the base, the inner core is coaxial to be set up in the through -hole of base, in interior core print seat was fixed in the base, in the inner core cunning is located in the core print seat, the internal surface of interior core print seat and base formed the air feed clearance of circulating, the V -arrangement sealing ring sets firmly outside the inner core, and lie in the one end of keeping away from the radiator on the core print seat, and the V -arrangement sealing ring is established in the base along radial pressure, and the V -arrangement opening of V -arrangement sealing ring deviates from the radiator, on the stopper is fixed in the inner core, and lie in on the core print seat one end near the radiator for inject the axial displacement of inner core, the axial length of core print seat in the interval is greater than between stopper and the V -arrangement sealing ring. The utility model provides a charging connector and radiator of radiator can realize through an inflation inlet to the disposable evacuation of radiator and fill the dress heat -conducting medium.

Description

The charging air inlet of radiator and radiator

Technical field

The utility model embodiment relates to radiator field, particularly relates to a kind of charging air inlet and radiator of radiator.

Background technique

Radiator, be otherwise known as radiator.Utilize wall-hung boiler or boiler Heating Cyclic water, then by tubing by the delivered heat of hot water to radiator, temperature that will be suitable eventually through radiator exports, and the temperature difference in forming chamber, finally carries out thermal cycle and make whole room temperature evenly increase.

At present, there is in prior art a kind of superconducting radiator of vacuum, if this kind of radiator is conducted heat by heat-conducting medium under the environment of vacuum, need to conduct heat in radiator when making this kind of radiator in cavity and vacuumize, then in the heat transfer cavity of the radiator of vacuum, be filled with heat-conducting medium, but be all realize vacuumizing the object with filling heat-conducting medium respectively by two different inflation inlets in currently available technology.

Model utility content

The utility model provides a kind of charging air inlet and radiator of radiator, in order to solve above-mentioned defect of the prior art, is reached through the object that an entrance just can realize vacuumizing and filling heat-conducting medium.

The utility model provides a kind of charging air inlet of radiator on the one hand, comprising:

Pedestal, one end of described pedestal is connected with radiator, offers the through hole with the intracavity inter-connection of radiator in described pedestal vertically;

Inner core, described inner core is coaxially arranged in the through hole of described pedestal;

Internal core print seat, described internal core print seat is fixed in described pedestal, and described inner core is slidedly arranged in described internal core print seat, and the internal surface of described internal core print seat and described pedestal forms air feed and flows through gap;

V-shaped ring, described V-shaped ring fixed cover is located on described inner core and one end be positioned at away from described radiator on described internal core print seat, and described V-shaped ring is radially pressed in described pedestal, and the V-arrangement opening of described V-shaped ring deviates from described radiator;

Limiting stopper, described limiting stopper is fixed on described inner core and one end be positioned near described radiator on described internal core print seat, for limiting the axial displacement of described inner core;

Spacing between described limiting stopper and described V-shaped ring is greater than the axial length of described internal core print seat.

Further, the outer surface of described internal core print seat offers groove, and described groove extends to other end from an end face of described internal core print seat, and the internal surface of described groove and described pedestal surrounds the described gap that air feed flows through jointly.

Further, in described pedestal, be also fixed with guide sleeve, described inner core through described guide sleeve and with described guide sleeve Spielpassung.

Further, the elastic device for supporting with described V-shaped ring elasticity is provided with between described guide sleeve and described V-shaped ring.

Further, described elastic device comprises the pressure section be fixedly installed on outside inner core, and described pressure section is used for supporting described V-shaped ring, is connected with at least one spring between described pressure section and described guide sleeve.

Preferably, the quantity of described spring is one, and the outside of described inner core is located at by described spring housing.

Further, the one end away from described radiator in described pedestal is bolted with sealing nut.

Preferably, described sealing nut is screwed onto the inner side of described pedestal, and described sealing nut offers blind hole vertically, is provided with for the sealer in gap between guide sleeve and inner core described in shutoff in described blind hole.

Can select, described sealing nut is screwed onto the outside of described pedestal, is provided with seal ring between described sealing nut and described pedestal.

The utility model provides a kind of radiator on the other hand, described radiator is provided with the charging air inlet of radiator as above.

The charging air inlet of the radiator that the utility model provides and radiator, be fixed on radiator by a pedestal, and be connected with radiator internal cavities, and inner core is slidably equipped with by internal core print seat in pedestal, internal core print seat is fixed in pedestal, the passage for airflow is formed between internal core print seat and pedestal, V-shaped ring is located on inner core due to fixed cover, and radial direction is pressed in pedestal, therefore, sealing can be realized to the interior bone of pedestal, spacing between limiting stopper and V-shaped ring is greater than the axial length of described internal core print seat, inner core can be had and certain move axially space, when evacuated, the inner air of radiator flows through the gap location between internal core print seat and pedestal and air pressure is applied to V-shaped ring, V-shaped ring is made to produce the distortion that curves inwardly, V-shaped ring and base internal wall produce gap, air stream can be passed through smoothly when vacuumizing, after exhausting vacuum, V-shaped ring recovers distortion, now, need again to fill heat-conducting medium to the inside of radiator, by direct thrust inner core being applied to the direction towards close radiator, because V-shaped ring is fixedly connected with inner core, therefore, inner core can drive V-shaped ring to move vertically together when being subject to thrust, when V-shaped ring supports internal core print seat, V-shaped ring can not continue motion, but be still subject to axial thrust, V-shaped ring is made to produce the distortion that curves inwardly, and then also create gap between V-shaped ring and pedestal, make heat-conducting medium also can by this gap, and flow in the inner chamber of radiator by the gap between internal core print seat and pedestal.

Accompanying drawing explanation

The schematic diagram of charging air inlet when sealing state of the radiator that Fig. 1 provides for the utility model one embodiment;

The view of charging air inlet when vacuumizing of the radiator that Fig. 2 provides for the utility model one embodiment;

The view of charging air inlet when filling heat-conducting medium of the radiator that Fig. 3 provides for the utility model one embodiment.

Reference character:

1-pedestal; 2-inner core; 3-internal core print seat;

4-V V-shaped ring; 5-limiting stopper; 6-guide sleeve;

7-elastic device; 8-sealing nut; 101-through hole;

301-groove; 701-pressure section; 702-spring;

801-blind hole.

Embodiment

For making the object of the utility model embodiment, technological scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technological scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment one

The schematic diagram of charging air inlet when sealing state of the radiator that Fig. 1 provides for the utility model one embodiment;

The view of charging air inlet when vacuumizing of the radiator that Fig. 2 provides for the utility model one embodiment; The view of charging air inlet when filling heat-conducting medium of the radiator that Fig. 3 provides for the utility model one embodiment.The present embodiment provides a kind of charging air inlet of radiator, comprises pedestal 1, inner core 2, internal core print seat 3, V-shaped ring 4 and limiting stopper 5.

Wherein, one end of pedestal 1 is connected with radiator, offers the through hole 101 with the intracavity inter-connection of radiator in pedestal 1 vertically; Inner core 2 is coaxially arranged in the through hole 101 of pedestal 1; Internal core print seat 3 is fixed in pedestal 1, and inner core 2 is slidedly arranged in internal core print seat 3, and internal core print seat 3 forms air feed with the internal surface of pedestal 1 and flows through gap; V-shaped ring 4 fixed cover is located on inner core 2 and one end be positioned at away from radiator on internal core print seat 3, and V-shaped ring 4 is radially pressed in pedestal 1, and the V-arrangement opening of V-shaped ring 4 deviates from radiator; Limiting stopper 5 is fixed on inner core 2 and one end be positioned near radiator on internal core print seat 3, for limiting the axial displacement of inner core 2; Spacing between limiting stopper 5 and V-shaped ring 4 is greater than the axial length of internal core print seat 3.

Concrete, pedestal 1 can weld together with radiator, to ensure the sealing of radiator, internal core print seat 3 can with pedestal 1 interference fit, V-shaped ring 4 can be located on inner core 2 by sealer fixed cover, make air-flow can not promote V-shaped ring 4 to move axially on inner core 2, and also ensure the excellent sealing between V-shaped ring 4 and inner core 2.Limiting stopper 5 can be one-body molded with inner core 2, and the end of inner core 2 can be positioned at, preferably, limiting stopper 5 can be to stretch out the shoulder formed along the radial direction of inner core 2, when limiting stopper 5 supports the end face of internal core print seat 3, the glade plane space between internal core print seat 3 and inner core 2 can be blocked, ensure the Clearance Flow of air-flow only between internal core print seat 3 and pedestal 1 as far as possible.

It should be noted that, above-mentioned V-shaped ring 4, to refer on seal ring and at one end a circle opening has been offered in face, the cross section of this opening is V-shaped.V-shaped ring 4 can select silica gel or rubber to make.

Below the working principle of the charging air inlet of the radiator that the present embodiment provides roughly is described:

As shown in Figure 1, charging air inlet is in sealing state, and V-shaped ring 4 tightly suppresses pedestal 1 inwall in radial direction, thus realizes sealing.

As shown in Figure 2, charging air inlet is in the state of vacuumizing, the inner air of radiator can flow through the gap between internal core print seat 3 and pedestal 1, and the pressure formed by air pressure is applied to V-shaped ring 4, and then cause V-shaped ring 4 to produce aduncate distortion, thus, between V-shaped ring and base internal wall, just produce gap, air stream (in figure, arrow is depicted as the flow direction of air stream) can be passed through smoothly when vacuumizing, realizing the work vacuumized.

As shown in Figure 3, charging air inlet is in the state filling heat-conducting medium, by direct thrust inner core 2 being applied to the direction towards close radiator, because V-shaped ring 4 is fixedly connected with inner core 2, therefore, inner core 2 can drive V-shaped ring 4 to move vertically together when being subject to thrust, when V-shaped ring 4 supports internal core print seat 3, V-shaped ring 4 can not continue motion, but it is (concrete to be still subject to axial thrust, axial thrust can inwardly be supported inner core by operator during inflation by the thimble of pneumatic head and produce), V-shaped ring 4 is made to produce the distortion that curves inwardly, and then also create gap between V-shaped ring 4 and pedestal 1, make heat-conducting medium also can by this gap, and flow into (flow direction that in figure, arrow is depicted as heat-conducting medium) in the inner chamber of radiator by the gap between internal core print seat 3 and pedestal 1, reach the object filling heat-conducting medium.

The charging air inlet of the radiator that the present embodiment provides, be fixed on radiator by a pedestal, and be connected with radiator internal cavities, and internal core print seat is set in pedestal, inner core is slidably equipped with in internal core print seat, internal core print seat is fixed in pedestal, inner core can move around vertically in internal core print seat, the passage for airflow is formed between internal core print seat and pedestal, V-shaped ring is located on inner core due to fixed cover, and radial direction is pressed in pedestal, therefore, when there is no extraneous pressure, sealing can be realized to the interior bone of pedestal, spacing between limiting stopper and V-shaped ring is greater than the axial length of described internal core print seat, inner core can be had and certain move axially space, when evacuated, the inner air of radiator can promote V-shaped ring distortion, gap is produced between V-shaped ring and base internal wall, air stream can be passed through smoothly when vacuumizing, after exhausting vacuum, V-shaped ring recovers distortion, now, need again to fill heat-conducting medium to the inside of radiator, by direct thrust inner core being applied to the direction towards close radiator, because V-shaped ring is fixedly connected with inner core, when being subject to thrust, inner core can drive V-shaped ring to move vertically together, when V-shaped ring supports internal core print seat, V-shaped ring can not continue motion, but be still subject to axial thrust, V-shaped ring is made to produce the distortion that curves inwardly, and then also create gap between V-shaped ring and pedestal, make heat-conducting medium also can by this gap, and flow in the inner chamber of radiator by the gap between internal core print seat and pedestal.The charging air inlet of the radiator that the present embodiment provides disposablely can realize the disposable operation vacuumizing and fill heat-conducting medium to radiator by an inflation inlet, is conducive to improving operating efficiency.

The implementation forming the gap that air feed flows through between internal core print seat 3 and pedestal 1 has multiple, preferably, the outer surface of internal core print seat 3 can offer groove 301, groove 301 can extend to other end from an end face of internal core print seat 3, and groove 301 and the internal surface of pedestal 1 surround the gap that air feed flows through jointly.Preferably, groove 301 can extend along direction of paralleling to the axis, and directly offers along the direction of paralleling to the axis at the outer surface of internal core print seat 3, and its processing technology is comparatively simple, is conducive to reducing processing cost; Or groove 301 also can be wound in outside internal core print seat 3 twist, or other arbitrary shapes, and the present embodiment is not construed as limiting, only need to ensure that air-flow can be circulated to the other end of internal core print seat 3 through groove 301.

On the basis of above-described embodiment, in pedestal 1, guide sleeve 6 can also be fixed with, inner core 2 through guide sleeve 6 and with guide sleeve 6 Spielpassung.Arranging of guide sleeve 6 can realize axially directed to inner core 2, makes inner core 2 not easily produce axial dipole field, and meanwhile, the gap between inner core 2 and guide sleeve 6 can as the outlet of radiator inner air, and heat-conducting medium enters into the entrance of radiator.

Further, the elastic device 7 for supporting with V-shaped ring 4 elasticity is provided with between guide sleeve 6 and V-shaped ring 4.When radiator is in sealing state, the effect of V-shaped ring 4 is the through holes 101 sealed up in pedestal 1, prevent air-flow etc. from flowing out in this through hole 101, therefore, now V-shaped ring 4 should fit to the end face of internal core print seat 3, therefore, v-ring 4 can firmly be fixed by elastic device 7, realizes sealing, certainly, for preventing V-shaped ring 4 to be out of shape, the elastic force suffered by V-shaped ring 4 is unsuitable excessive.

Based on above-described embodiment, elastic device 7 can comprise the pressure section 701 be fixedly installed on outside inner core 2, and pressure section 701, for supporting V-shaped ring 4, is connected with at least one spring 702 between pressure section 701 and guide sleeve 6.As shown in Figure 1, Figure 2 or shown in Fig. 3, pressure section 701 can be one-body molded with inner core 2, to save production cost,

Preferably, the quantity of spring 702 can be one, and spring 702 can be sheathed on the outside of inner core 2.The uniform force that a spring 702 can not only ensure V-shaped ring 4 is only set, simultaneously also can the structure of whole device also more simple, cost is corresponding have also been obtained control.

Certainly, the quantity of spring 702 also can be several, and several springs 702 are evenly arranged in inner core 2 around.Such as, three springs 702 can be selected, three springs 702 120 degree can be arranged on inner core 2 around each other, to ensure in the process that spring 702 is flexible, suffered by V-shaped ring 4, external force can be even, the energy of deformation of V-shaped ring 4 is out of shape according to predetermined way, and distortion in a circumferential direction evenly.

As shown in Figure 1, the one end away from radiator in pedestal 1 can be bolted with sealing nut 9.Sealing nut 9 mainly can realize sealing further to charging air inlet.

Preferably, sealing nut 9 can be screwed onto the inner side of pedestal 1, and sealing nut 9 can offer blind hole 801 vertically, can be provided with the sealer for gap between shutoff guide sleeve 6 and inner core 2 in blind hole 801.The madial wall of pedestal 1 can offer internal thread, and the outer wall of sealing nut 9 can offer outside thread, and the internal thread of pedestal 1 coordinates with the outside thread of sealing nut 9 to be tightened.

Certainly, as optionally, sealing nut 9 also can be screwed onto the outside of pedestal 1, can arrange seal ring (not shown) between sealing nut 9 and pedestal 1.

When radiator being vacuumized or fills to the operations such as heat-conducting medium when needs, sealing nut 9 is back-outed from pedestal 1, then by vacuum pump or aeration tank radiator vacuumized and fill heat-conducting medium.

Embodiment two

The present embodiment provides a kind of radiator, it is characterized in that, radiator is provided with as above-described embodiment the charging air inlet of radiator that provides.The configuration and principle of the radiator that the present embodiment provides is identical with the charging air inlet of the radiator that embodiment one provides, and does not repeat them here.

Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technological scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment's technological scheme of the utility model.

Claims (10)

1. a charging air inlet for radiator, is characterized in that, comprising:

Pedestal, one end of described pedestal is connected with radiator, offers the through hole with the intracavity inter-connection of radiator in described pedestal vertically;

Inner core, described inner core is coaxially arranged in the through hole of described pedestal;

Internal core print seat, described internal core print seat is fixed in described pedestal, and described inner core is slidedly arranged in described internal core print seat, and the internal surface of described internal core print seat and described pedestal forms air feed and flows through gap;

V-shaped ring, described V-shaped ring fixed cover is located on described inner core and one end be positioned at away from described radiator on described internal core print seat, and described V-shaped ring is radially pressed in described pedestal, and the V-arrangement opening of described V-shaped ring deviates from described radiator;

Limiting stopper, described limiting stopper is fixed on described inner core and one end be positioned near described radiator on described internal core print seat, for limiting the axial displacement of described inner core;

Spacing between described limiting stopper and described V-shaped ring is greater than the axial length of described internal core print seat.

2. the charging air inlet of radiator according to claim 1, it is characterized in that, the outer surface of described internal core print seat offers groove, and described groove extends to other end from an end face of described internal core print seat, and the internal surface of described groove and described pedestal surrounds the described gap that air feed flows through jointly.

3. the charging air inlet of radiator according to claim 1, is characterized in that, is also fixed with guide sleeve in described pedestal, described inner core through described guide sleeve and with described guide sleeve Spielpassung.

4. the charging air inlet of radiator according to claim 3, is characterized in that, is provided with the elastic device for supporting with described V-shaped ring elasticity between described guide sleeve and described V-shaped ring.

5. the charging air inlet of radiator according to claim 4, it is characterized in that, described elastic device comprises the pressure section be fixedly installed on outside inner core, and described pressure section is used for supporting described V-shaped ring, is connected with at least one spring between described pressure section and described guide sleeve.

6. the charging air inlet of radiator according to claim 5, is characterized in that, the quantity of described spring is one, and the outside of described inner core is located at by described spring housing.

7. the charging air inlet of radiator according to claim 3, is characterized in that, the one end away from described radiator in described pedestal is bolted with sealing nut.

8. the charging air inlet of radiator according to claim 7, it is characterized in that, described sealing nut is screwed onto the inner side of described pedestal, and described sealing nut offers blind hole vertically, is provided with for the sealer in gap between guide sleeve and inner core described in shutoff in described blind hole.

9. the charging air inlet of radiator according to claim 7, is characterized in that, described sealing nut is screwed onto the outside of described pedestal, is provided with seal ring between described sealing nut and described pedestal.

10. a radiator, is characterized in that, described radiator is provided with the charging air inlet of the radiator as described in any one of claim 1 ~ 9.