CN204931162U - One is manually lowered the temperature attemperator - Google Patents

Abstract

The utility model relates to one and manually to lower the temperature attemperator, comprise the cup of upper opening, upper cover and lower cover, lower cover comprises lower bowl cover seat and lower bowl cover, lower bowl cover is provided with multiple lower bowl cover through hole, lower bowl cover seat and lower bowl cover form lower bowl cover inner chamber, are provided with lower elastic seal ring in lower bowl cover, are provided with lower heat-conducting block in lower bowl cover inner chamber, the side of lower heat-conducting block is provided with projection, and lower bowl cover drives lower heat-conducting block to rotate by projection; Be provided with between heat-conducting block and lower bowl cover seat and make it along the screw closure structure that the axis direction of lower bowl cover seat moves.When device fills boiling water, by rotating lower bowl cover, lower bowl cover drives lower heat-conducting block to rotate, and heat-conducting block and lower bowl cover seated connection are touched, and heat is shed by lower bowl cover through hole by lower heat-conducting block, the boiling water water temperature in device can be reduced soon; During insulation, then rotate lower bowl cover, make lower heat-conducting block away from lower bowl cover seat, between lower heat-conducting block and lower bowl cover seat, form cavity, serve good insulation effect.

Description

One is manually lowered the temperature attemperator

Technical field

The utility model relates to drinking water cooling field of thermal insulation, particularly one and manually to lower the temperature attemperator.

Background technology

The water tumbler that current people often use, is mostly common water tumbler and insulating cup.After light water cup enters boiling water, water temperature reduces comparatively slow, and wall of cup temperature raises rapidly, can not fast cooling, and can not be incubated, result of use is poor; And after thermos cup loading boiling water, water temperature can maintain high temperature a few hours more than, wall of cup non-scald on hand, heat insulation effect, if but people need to drink cold water or warm water, and must open wide lid cooling number hour, use very inconvenience.Existing common cup can not fast cooling insulation, thermos cup can not fast cooling, for daily life is brought many constant.

Utility model content

The utility model provides one manually to lower the temperature attemperator, can not the technical problem of fast cooling insulation to solve above-mentioned common water storage unit.

In order to solve the problems of the technologies described above, the utility model provides one manually to lower the temperature attemperator, the cup comprising upper opening and the upper cover coordinated with the opening of described cup, the sidewall of described cup comprises inner and outer wall, the vacuum cavity of hollow is formed between described inwall and described outer wall, the diapire of described cup is single layer structure, the outside of described diapire is provided with the lower bowl cover seat contacted with described diapire, described lower bowl cover seat is provided with the lower bowl cover with its rotatable engagement, lower bowl cover inner chamber is formed between described lower bowl cover seat and described lower bowl cover, described lower bowl cover is provided with multiple by the lower bowl cover through hole 1 of lower bowl cover inner chamber and extraneous conducting, lower heat-conducting block is provided with in described lower bowl cover inner chamber, described lower heat-conducting block is provided with lower elastic seal ring, the side of described lower heat-conducting block is provided with projection, described lower bowl cover drives described lower heat-conducting block to rotate by described projection, be provided with lower lid spring between the bottom surface of described lower heat-conducting block and described lower bowl cover inwall, between described lower heat-conducting block and described lower bowl cover seat, be provided with the lower screw closure structure making it along movement on the axis direction of described lower bowl cover seat.

The beneficial effects of the utility model are: when device fills boiling water, lead to and rotate through lower bowl cover, lower bowl cover drives lower heat-conducting block to rotate, make it along the screw closure structure that the axis direction of described lower bowl cover seat moves owing to being provided with between lower heat-conducting block and described lower bowl cover seat, heat-conducting block and lower bowl cover seated connection are touched, the heat of the boiling water in this sampling device just passes to lower heat-conducting block, and heat is shed by lower bowl cover through hole by lower heat-conducting block, the boiling water water temperature in device can be reduced soon; When boiling water water temperature is reduced to suitable temperature, rotate lower bowl cover again, make lower heat-conducting block away from lower bowl cover seat, due to the effect of elastic seal ring, negative pressure cavity is formed between lower heat-conducting block and lower bowl cover seat, in device, the heat of water can not be passed by heat-conducting block, serves good insulation effect.

Further, be provided with lower bowl cover seat groove inside the edge, bottom surface of described lower bowl cover seat, one end of described lower elastic seal ring is arranged in described lower bowl cover seat groove, and the other end of described lower elastic seal ring is arranged on the end face of described lower heat-conducting block.

Adopt the beneficial effect of above-mentioned further scheme to be: to place lower elastic seal ring by arranging lower bowl cover seat groove, can be fixed by lower elastic seal ring well, avoiding lower elastic seal ring to move, improve the reliability of hand operated insulation device.

Further, described lower bowl cover seat and described cup are integral type structure.

The beneficial effect of above-mentioned further scheme is adopted to be: the lower bowl cover seat of integral type and cup body structure, decrease Product Assembly operation, improve production efficiency.

Further, described upper cover comprises the upper bowl cover seat screwed with the opening of described cup, described upper bowl cover seat is provided with the upper bowl cover with its rotatable engagement, upper bowl cover inner chamber is formed between described upper bowl cover seat and described upper bowl cover, described upper bowl cover is provided with multiple by the upper bowl cover through hole of upper bowl cover inner chamber and extraneous conducting, bowl cover groove is provided with inside the end face edge of described upper bowl cover seat, elastic seal ring is provided with in described upper bowl cover seat groove, heat-conducting block is provided with in described upper bowl cover inner chamber, boss is established in the side of described upper heat-conducting block, the inner surface of described upper bowl cover is provided with the groove mated with described boss, the bottom surface place of described upper heat-conducting block seals with described upper elastic seal ring and contacts, be provided with lid spring between the end face of described upper heat-conducting block and described upper bowl cover inwall, be provided with between described upper heat-conducting block and described upper bowl cover seat and make it along the upper screw closure structure that the axis direction of described upper bowl cover seat moves.

Adopt the beneficial effect of above-mentioned further scheme to be: same, upper cover is also provided with the cooling insulation construction identical with lower cover, upper heat-conducting block is contacted by rotating upper bowl cover and away from upper bowl cover seat, reaches the object to the boiling water cooling in device and insulation.

Further, the bottom surface of described lower heat-conducting block is provided with lower cover fin.

Adopt the beneficial effect of above-mentioned further scheme to be: by lower fin, improve the speed by lower cover outwardly dissipate heat of boiling water in device, improve radiating efficiency.

Further, the end face of described upper heat-conducting block is provided with upper cover fin.

The beneficial effect of above-mentioned further scheme is adopted to be: by upper fin, to improve boiling water heat in device and, to the speed of external diffusion, improve radiating efficiency.

Further, described lower screw closure structure is helical gear structure, described helical gear structure comprises and is arranged on described lower bowl cover seat lower end, and with the cone boss of its axis co-axial, described cone boss is provided with helical gear, and described lower heat-conducting block upper end is provided with the taper helical teeth wheel face be meshed with the helical gear of described cone boss; Or described lower screw closure structure is helicitic texture, described helicitic texture comprises and is arranged on described lower bowl cover seat lower end, and with the cylindrical boss of its axis co-axial, described cylindrical boss is provided with external screw thread, and described lower heat-conducting block upper end is provided with the internal thread be meshed with the external screw thread on described cylindrical boss.

Adopt the beneficial effect of above-mentioned further scheme to be: the motion being promoted upper and lower heat-conducting block by helical gear structure, make rotary actuation process comparatively steady, promoted the motion of upper and lower heat-conducting block by helicitic texture, make rotary actuation process comparatively reliable.

Further, described upper screw closure structure is helical gear structure, described helical gear structure comprises and is arranged on described upper bowl cover seat upper end, and with the cone boss of its axis co-axial, described cone boss is provided with helical gear, and described upper heat-conducting block lower end is provided with the taper helical teeth wheel face be meshed with the helical gear of described cone boss; Or described upper screw closure structure is helicitic texture, described helicitic texture comprises and is arranged on described upper bowl cover seat upper end, and with the cylindrical boss of its axis co-axial, described cylindrical boss is provided with external screw thread, and described upper heat-conducting block lower end is provided with the internal thread be meshed with the external screw thread on described cylindrical boss.

Adopt the beneficial effect of above-mentioned further scheme to be: the motion being promoted upper and lower heat-conducting block by helical gear structure, make rotary actuation process comparatively steady, promoted the motion of upper and lower heat-conducting block by helicitic texture, make rotary actuation process comparatively reliable.

Further, described screw closure structure is helicitic texture, and described helicitic texture comprises and being arranged on described lower bowl cover seat, and with the cylindrical boss of its axis co-axial, described cylindrical boss is provided with external screw thread, and described heat-conducting block is provided with the internal thread be meshed with the external screw thread on described cylindrical boss.

The beneficial effect of above-mentioned further scheme is adopted to be: the motion being promoted upper and lower heat-conducting block by helicitic texture, makes rotary actuation process comparatively reliable.

Further, described lower bowl cover is provided with the lower lid spring lead for sheathed described lower lid spring.

The beneficial effect of above-mentioned further scheme is adopted to be: to make the motion of lower heat-conducting block more steady by lower lid spring lead.

Further, described upper bowl cover is provided with the upper lid spring lead for sheathed described upper lid spring.

The beneficial effect of above-mentioned further scheme is adopted to be: to make the motion of upper heat-conducting block more steady by lower lid spring lead.

Further, the vacuum of described vacuum cavity is less than 101Kpa.

The beneficial effect of above-mentioned further scheme is adopted to be: the vacuum of described vacuum cavity is less than 101Kpa, makes device have good heat insulation effect.

Accompanying drawing explanation

Fig. 1 is that the utility model is manually lowered the temperature attemperator embodiment one structural representation,

Fig. 2 is that the utility model is manually lowered the temperature attemperator embodiment two structural representation,

Fig. 3 is that the utility model is manually lowered the temperature the structural representation of attemperator embodiment two keeping warm mode,

Fig. 4 is that the utility model is manually lowered the temperature attemperator embodiment three structural representation,

Fig. 5 is bowl cover screw closure structure embodiment one structural representation under the utility model,

Fig. 6 is bowl cover screw closure structure embodiment two structural representation under the utility model,

Fig. 7 is bowl cover and upper heat-conducting block fit structure schematic diagram on the utility model.

In accompanying drawing, the list of parts representated by each label is as follows:

01, cup, 011, inwall, 012, outer wall, 013, vacuum cavity, 02, lower bowl cover seat, 03, lower heat-conducting block, 031, lower cover fin, 04, lower lid spring, 05, lower bowl cover, 051, lower bowl cover through hole, 052, lower lid spring lead, 06, lower elastic seal ring, 07, upper bowl cover seat, 08, upper heat-conducting block, 081, upper cover fin 09, upper lid spring, 10, upper bowl cover, 101, upper bowl cover through hole, 102, upper lid spring lead, 11, upper elastic seal ring, 12, upper cover, 13, feeding bottle cup, 14, nipple

Detailed description of the invention

Below in conjunction with drawings and embodiments, the utility model is further described.

The utility model manually lowers the temperature attemperator embodiment one structural representation see Fig. 1, the cup 01 comprising upper opening and the upper cover coordinated with the opening of cup 01, the sidewall of cup 01 comprises inwall 011 and outer wall 012, the vacuum cavity 013 of hollow is formed between inwall 011 and outer wall 012, the diapire of cup 01 is single layer structure, the outside of diapire is provided with the lower bowl cover seat 02 contacted with diapire, lower bowl cover seat 02 is provided with the lower bowl cover 05 with its rotatable engagement, lower bowl cover inner chamber is formed between lower bowl cover seat 02 and lower bowl cover 05, lower bowl cover 05 is provided with multiple by the lower bowl cover through hole 051 of lower bowl cover inner chamber and extraneous conducting, lower heat-conducting block 03 is provided with in lower bowl cover inner chamber, lower heat-conducting block 03 is provided with lower elastic seal ring 06, the side of lower heat-conducting block 03 is provided with projection, the inner surface of lower bowl cover 05 is provided with the groove mated with projection, lower bowl cover 05 drives lower heat-conducting block to rotate by projection, be provided with lower lid spring 04 between the bottom surface of lower heat-conducting block 03 and lower bowl cover 05 inwall, between lower heat-conducting block 03 and lower bowl cover seat 02, be provided with the lower screw closure structure making it along movement on the axis direction of lower bowl cover seat 02, be provided with lower bowl cover seat groove inside the edge, bottom surface of lower bowl cover seat 02, one end of lower elastic seal ring 06 is arranged in lower bowl cover seat groove, and the other end of lower elastic seal ring 06 is arranged on the end face of lower heat-conducting block, the bottom surface of lower heat-conducting block 03 is provided with lower cover fin 031.

When device fills boiling water, by lower bowl cover, lower bowl cover drives lower heat-conducting block to rotate, make it along the screw closure structure that the axis direction of lower bowl cover seat moves owing to being provided with between lower heat-conducting block and lower bowl cover seat, heat-conducting block and lower bowl cover seated connection are touched, the heat of the boiling water in this sampling device just passes to lower heat-conducting block, and heat is shed by lower bowl cover through hole by lower heat-conducting block, the boiling water water temperature in device can be reduced soon; When boiling water water temperature is reduced to suitable temperature, rotate lower bowl cover again, make lower heat-conducting block away from lower bowl cover seat, due to the effect of elastic seal ring, negative pressure cavity is formed between lower heat-conducting block and lower bowl cover seat, in device, the heat of water can not be passed by heat-conducting block, serves good insulation effect.

The utility model is manually lowered the temperature attemperator embodiment two structural representation, present embodiment is compared with embodiment one, its difference is, the bowl cover of device is also provided with cooling insulation construction, upper cover comprises the upper bowl cover seat 07 screwed with the opening of cup 01, upper bowl cover seat 07 is provided with the upper bowl cover 10 with its rotatable engagement, upper bowl cover inner chamber is formed between upper bowl cover seat 07 and upper bowl cover 10, upper bowl cover 10 is provided with multiple by the upper bowl cover through hole 101 of upper bowl cover inner chamber and extraneous conducting, the inner chamber edge of upper bowl cover seat 07 is provided with bowl cover groove, elastic seal ring 11 is provided with in upper bowl cover groove, heat-conducting block 08 is provided with in upper bowl cover inner chamber, boss is established in the side of upper heat-conducting block 08, the inner surface of upper bowl cover 10 is provided with the groove mated with boss, the bottom surface place of upper heat-conducting block 08 seals with upper elastic seal ring 11 and contacts, be provided with lid spring 09 between the end face of upper heat-conducting block 08 and upper bowl cover 10 inwall, be provided with between upper heat-conducting block 08 and upper bowl cover seat 07 and make it along the upper screw closure structure that the axis direction of upper bowl cover seat 07 moves, the end face of upper heat-conducting block 08 is provided with upper cover fin 081.

Equally, upper cover is also provided with the cooling insulation construction identical with lower cover, upper heat-conducting block is contacted by rotating upper bowl cover and away from upper bowl cover seat, reaches the object to the boiling water cooling in device and insulation.

The utility model manually lowers the temperature the structural representation of attemperator embodiment two keeping warm mode see Fig. 3, when boiling water water temperature is reduced to suitable temperature, rotate lower bowl cover again, make lower heat-conducting block away from lower bowl cover seat, due to the effect of elastic seal ring, between lower heat-conducting block and lower bowl cover seat, form negative pressure cavity, in device, the heat of water can not be passed by heat-conducting block, serves good insulation effect.

The utility model manually lowers the temperature attemperator embodiment three structural representation see Fig. 4, compared with embodiment one, its difference now in, cooling insulation construction of the present utility model is applied on feeding bottle, cooling insulation construction is arranged on the bottom of feeding bottle cup 13, and the upper opening place of feeding bottle cup 13 is provided with nipple 14.The boiling water that this structure is convenient to infant has milk the fast cooling of liquid and good insulation, very convenient use.

Under the utility model, bowl cover screw closure structure embodiment one structural representation is see Fig. 5, screw closure structure is helical gear structure, helical gear structure comprises and is arranged on lower bowl cover seat 02, and with the cone boss of its axis co-axial, cone boss is provided with helical gear, and heat-conducting block 04 is provided with the taper helical teeth wheel face be meshed with the helical gear of cone boss.

Promoted the motion of upper and lower heat-conducting block by helical gear structure, make rotary actuation process comparatively steady.

Under the utility model, bowl cover screw closure structure embodiment two structural representation is see Fig. 6, screw closure structure is helicitic texture, helicitic texture comprises and is arranged on lower bowl cover seat 02, and with the cylindrical boss of its axis co-axial, cylindrical boss is provided with external screw thread, and heat-conducting block is provided with the internal thread be meshed with the external screw thread on described cylindrical boss.。

Promoted the motion of upper and lower heat-conducting block by helicitic texture, make rotary actuation process comparatively reliable.

On the utility model, bowl cover and upper heat-conducting block fit structure schematic diagram are see Fig. 7, the inner chamber edge of upper bowl cover seat 07 is provided with bowl cover groove, elastic seal ring 11 is provided with in upper bowl cover groove, heat-conducting block 08 is provided with in upper bowl cover inner chamber, boss is established in the side of upper heat-conducting block 08, and the inner surface of upper bowl cover 10 is provided with the groove mated with boss; One end face of upper heat-conducting block 08 seals with upper elastic seal ring 11 and contacts.When upper bowl cover rotates, the groove on upper bowl cover establishes boss to move with regard to driving the side of upper heat-conducting block, thus drives upper heat-conducting block to rotate.

The shift motion of upper and lower heat-conducting block of the present utility model respectively in upper and lower bowl cover is 2-20mm, and cooling insulation construction of the present utility model can be widely used in other cooling attemperators, heat preservation bowl of such as lowering the temperature, cooling thermo jug etc.

Lower bowl cover seat in the utility model embodiment and cup are set to Split type structure, also can be set to integrative-structure in a particular application, to reduce Product Assembly operation, enhance productivity.

In description of the present utility model, it is to be appreciated that term " first ", " second ", " the 3rd ", " the 4th " only for describing object, and can not be interpreted as instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, be limited with " first ", " second ", " the 3rd ", " the 4th " feature can express or impliedly comprise at least one this feature.

In the utility model, being connected is make the connection of two element internals or the interaction relationship of two elements by pipeline.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

Above the utility model attemperator of manually lowering the temperature is described in detail, applies specific case herein and principle of the present utility model and embodiment are set forth.The explanation of above embodiment just understands core concept of the present utility model for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (11)

1. an attemperator of manually lowering the temperature, the cup (01) comprising upper opening and the upper cover coordinated with the opening of described cup (01), the sidewall of described cup (01) comprises inwall (011) and outer wall (012), the vacuum cavity (013) of hollow is formed between described inwall (011) and described outer wall (012), the diapire of described cup (01) is single layer structure, it is characterized in that, the outside of described diapire is provided with the lower bowl cover seat (02) contacted with described diapire, described lower bowl cover seat (02) is provided with the lower bowl cover (05) with its rotatable engagement, lower bowl cover inner chamber is formed between described lower bowl cover seat (02) and described lower bowl cover (05), described lower bowl cover (05) is provided with multiple by the lower bowl cover through hole (051) of lower bowl cover inner chamber and extraneous conducting, lower heat-conducting block (03) is provided with in described lower bowl cover inner chamber, described lower heat-conducting block (03) is provided with lower elastic seal ring (06), the side of described lower heat-conducting block (03) is provided with projection, described lower bowl cover (05) drives described lower heat-conducting block to rotate by described projection, be provided with lower lid spring (04) between the bottom surface of described lower heat-conducting block (03) and described lower bowl cover (05) inwall, between described lower heat-conducting block (03) and described lower bowl cover seat (02), be provided with the lower screw closure structure making it along movement on the axis direction of described lower bowl cover seat (02).

2. manual cooling attemperator according to claim 1, it is characterized in that, lower bowl cover seat groove is provided with inside the edge, bottom surface of described lower bowl cover seat (02), one end of described lower elastic seal ring (06) is arranged in described lower bowl cover seat groove, and the other end of described lower elastic seal ring (06) is arranged on the end face of described lower heat-conducting block.

3. manual cooling attemperator according to claim 1, is characterized in that, described lower bowl cover seat (02) and described cup (01) are integral type structure.

4. manual cooling attemperator according to claim 1, it is characterized in that, described upper cover comprises the upper bowl cover seat (07) screwed with the opening of described cup (01), described upper bowl cover seat (07) is provided with the upper bowl cover (10) with its rotatable engagement, upper bowl cover inner chamber is formed between described upper bowl cover seat (07) and described upper bowl cover (10), described upper bowl cover (10) is provided with multiple by the upper bowl cover through hole (101) of upper bowl cover inner chamber and extraneous conducting, bowl cover seat groove is provided with inside described upper bowl cover seat (07) end face edge, elastic seal ring (11) is provided with in described upper bowl cover seat groove, heat-conducting block (08) is provided with in described upper bowl cover inner chamber, the bottom surface place of described upper heat-conducting block (08) seals with described upper elastic seal ring (11) and contacts, lid spring (09) is provided with between the end face of described upper heat-conducting block (08) and described upper bowl cover (10) inwall, be provided with between described upper heat-conducting block (08) and described upper bowl cover seat (07) and make it along the upper screw closure structure that the axis direction of described upper bowl cover seat (07) moves.

5. the manual cooling attemperator according to any one of Claims 1-4, is characterized in that, the bottom surface of described lower heat-conducting block (03) is provided with lower cover fin (031).

6. manual cooling attemperator according to claim 4, is characterized in that, the end face of described upper heat-conducting block (08) is provided with upper cover fin (081).

7. the manual cooling attemperator according to any one of Claims 1-4, it is characterized in that, described lower screw closure structure is helical gear structure, described helical gear structure comprises and is arranged on described lower bowl cover seat (02) lower end, and with the cone boss of its axis co-axial, described cone boss is provided with helical gear, and described lower heat-conducting block (03) upper end is provided with the taper helical teeth wheel face be meshed with the helical gear of described cone boss; Or described lower screw closure structure is helicitic texture, described helicitic texture comprises and is arranged on described lower bowl cover seat (02) lower end, and with the cylindrical boss of its axis co-axial, described cylindrical boss is provided with external screw thread, and described lower heat-conducting block (03) upper end is provided with the internal thread be meshed with the external screw thread on described cylindrical boss.

8. manual cooling attemperator according to claim 4, it is characterized in that, described upper screw closure structure is helical gear structure, described helical gear structure comprises and is arranged on described upper bowl cover seat (07) upper end, and with the cone boss of its axis co-axial, described cone boss is provided with helical gear, and described upper heat-conducting block (08) lower end is provided with the taper helical teeth wheel face be meshed with the helical gear of described cone boss; Or described upper screw closure structure is helicitic texture, described helicitic texture comprises and is arranged on described upper bowl cover seat (07) upper end, and with the cylindrical boss of its axis co-axial, described cylindrical boss is provided with external screw thread, and described upper heat-conducting block (08) lower end is provided with the internal thread be meshed with the external screw thread on described cylindrical boss.

9. the manual cooling attemperator according to any one of Claims 1-4, is characterized in that, described lower bowl cover (05) is provided with the lower lid spring lead (052) for sheathed described lower lid spring (04).

10. manual cooling attemperator according to claim 4, is characterized in that, described upper bowl cover (10) is provided with the upper lid spring lead (102) for sheathed described upper lid spring (09).

11. manual cooling attemperators according to any one of Claims 1-4, it is characterized in that, the vacuum of described vacuum cavity (013) is less than 101Kpa.