CN218942894U - Anhydrous egg boiler - Google Patents

Abstract

The utility model discloses an anhydrous egg boiler, which comprises a shell; the housing comprises an upper housing and a lower housing; the upper shell is rotationally connected with the lower shell; an upper egg accommodating device is arranged in the upper shell; a lower egg accommodating device is arranged in the lower shell; when the upper shell and the lower shell are covered, the upper egg accommodating device and the lower egg accommodating device are also covered, and the eggs are completely and tightly wrapped by the upper egg accommodating device and the lower egg accommodating device; heating elements are respectively arranged in the upper egg accommodating device and the lower egg accommodating device; the heating element directly heats eggs through egg accommodating cavities on the corresponding upper egg accommodating device and lower egg accommodating device respectively. The anhydrous egg boiler disclosed by the utility model adopts anhydrous egg boiling, and is higher in heat conduction efficiency and more convenient to use.

Description

Anhydrous egg boiler

Technical Field

The utility model belongs to the technical field related to egg boiling devices, and particularly relates to an anhydrous egg boiler which is used for boiling eggs in an anhydrous mode, has higher heat conduction efficiency and is more convenient to use.

Background

Along with the improvement of living standard, people attach more and more importance to nutrition, eggs are rich in nutrition and low in price, and the egg boiler is a great help for people to supplement nutrition, and is popular in many families due to small volume and convenient use.

However, the existing egg poachers still have the following disadvantages: the existing egg boiler mostly adopts steam type egg boiling, although eggs can be boiled, water is boiled firstly for each egg boiling, and then the eggs are boiled through the heat energy of steam, so that the heat conduction efficiency is low, and the time consumption is long; in addition, most of water after the eggs are boiled in families can be poured out, and water resource waste is easily caused.

Therefore, an anhydrous egg boiler which is used for boiling eggs and has higher heat conduction efficiency and more convenient use is developed.

Disclosure of Invention

The utility model aims to provide the anhydrous egg boiler which adopts the anhydrous egg boiler and has higher heat conduction efficiency and more convenient use.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an anhydrous egg boiler comprises a shell; the housing comprises an upper housing and a lower housing; the upper shell is rotationally connected with the lower shell; an upper egg accommodating device is arranged in the upper shell; a lower egg accommodating device is arranged in the lower shell; when the upper shell and the lower shell are covered, the upper egg accommodating device and the lower egg accommodating device are also covered, and the eggs are completely and tightly wrapped by the upper egg accommodating device and the lower egg accommodating device; heating elements are respectively arranged in the upper egg accommodating device and the lower egg accommodating device; the heating element directly heats eggs through egg accommodating cavities on the corresponding upper egg accommodating device and lower egg accommodating device respectively.

Preferably, the lower egg accommodating device and the upper egg accommodating device have the same structure; the lower egg accommodating device and the upper egg accommodating device are symmetrically arranged.

Preferably, the lower egg accommodating device comprises an egg accommodating body and an inner container; the clamping claws are uniformly distributed at side intervals on one side of the egg accommodating body; the clamping claws are arranged in an arc shape, and the arc inner sides of the clamping claws are respectively arranged towards the center part of the egg accommodating body; the inner container is provided with a containing cavity; an outer liner is arranged in the accommodating cavity of the inner liner; an egg accommodating cavity is arranged in the outer liner; a heating element is arranged between the outer liner and the inner liner.

Preferably, clamping parts are uniformly distributed on the outer part of the inner container; the clamping claws are in one-to-one correspondence with the clamping parts, and the tops of the clamping claws are respectively inserted into the corresponding clamping parts, so that the inner container and the egg accommodating body are relatively fixed.

Preferably, the inner container and the outer container are made of food-grade silica gel.

Preferably, a knob is arranged on the shell; the heating elements are respectively and electrically connected with the knob, and the operation of the heating elements can be controlled by rotating the knob.

Preferably, a button is arranged on the lower edge of the upper shell; the button is provided with a first clamping joint in an inclined manner inwards and downwards; the first clamping connector is inserted into a first clamping interface arranged on the lower shell to lock the upper shell and the lower shell; when the button is pressed, the first clamping connector moves inwards and downwards, and the first clamping connector is downwards inclined, so that the first clamping connector can be separated from the first clamping connector after moving inwards and downwards for a certain distance, and the upper shell can be opened.

Preferably, a limiting block is arranged on the lower shell at a position corresponding to the button and used for limiting the inward downward moving distance of the button.

Preferably, the inner wall of the egg accommodating cavity is also uniformly provided with first grooves; the first groove extends from the bottom of the egg accommodating cavity to the outer end part of the egg accommodating cavity; the second groove is formed in the position, corresponding to the first groove, of the outer end portion of the inner container, the second groove is communicated with the first groove, and water vapor generated in the egg heating process can be better discharged out of the egg accommodating cavity.

Compared with the prior art, the utility model provides the anhydrous egg boiler, which has the following beneficial effects:

the claw, the outer liner and the inner liner in the anhydrous egg boiler can be matched with eggs with different sizes automatically; in addition, the egg accommodating cavity is made of food-grade silica gel, the heat conduction efficiency of the silica gel is high, in the heating process, the heating element directly transmits heat energy to the egg accommodating cavity to heat eggs, the egg accommodating cavity is wrapped by the clamping jaw, the outer liner and the inner liner, the heat energy loss is small, and water is not needed in the whole heating process, so that the heating efficiency is higher compared with that of steam egg boiling, and water resources are saved; the use is more convenient.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and together with the embodiments of the utility model and do not constitute a limitation to the utility model, and in which:

fig. 1 is a perspective view of an anhydrous egg boiler according to the present utility model;

FIG. 2 is a cross-sectional view of the anhydrous egg boiler of the present utility model in a closed position;

FIG. 3 is an enlarged view of FIG. 2 at A;

fig. 4 is a cross-sectional view of the anhydrous egg boiler of the present utility model in an open state;

fig. 5 is an enlarged exploded perspective view of a lower egg accommodating device in an anhydrous egg boiler according to the present utility model;

fig. 6 is an enlarged perspective view of the lower housing of the waterless egg poacher according to the present utility model;

in fig. 1-6, the structures represented by the various numbers are listed below:

1. a knob; 2. a button; 21. a first clamping joint; 3. a housing; 31. an upper housing; 32. a lower housing; 33. a first card interface; 34. a limiting block; 4. an egg accommodating device; 41. an egg accommodating body; 411. a claw; 412. a buckle; 42. an inner container; 421. a clamping part; 43. a heating element; 44. an outer bladder; 5. an egg accommodating device; 441. a first groove; 422. and a second groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model; all other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-6, the present utility model provides a technical solution: an anhydrous egg boiler comprises a shell 3; the shell 3 is horizontally arranged; the shell 3 is provided with a knob 1; the housing 3 includes an upper housing 31 and a lower housing 32; the upper shell 31 and the lower shell 32 are rotatably connected; an upper egg accommodating device 5 is arranged in the upper shell 31; a lower egg accommodating device 4 is arranged in the lower shell 32; the lower egg accommodating device 4 and the upper egg accommodating device 5 have the same structure; the lower egg accommodating device 4 and the upper egg accommodating device 5 are symmetrically arranged; when the upper shell 31 and the lower shell 32 are closed, the upper egg accommodating device 5 and the lower egg accommodating device 4 are also closed, and the eggs are completely and tightly wrapped by the upper egg accommodating device 5 and the lower egg accommodating device 4.

The lower egg accommodating device 4 comprises an egg accommodating body 41 and an inner container 42; a buckle 412 is arranged on one side of the egg accommodating body 41; the other side of the egg accommodating body 41 is uniformly provided with clamping claws 411 at intervals; the clamping claws 411 are arranged in an arc shape, and the arc-shaped inner sides of the clamping claws 411 are respectively arranged towards the center of the egg accommodating body 41; the inner container 42 is provided with a containing cavity (not shown); the material of the inner container 42 is food-grade silica gel, and the heat conduction efficiency of the silica gel is high; clamping parts 421 are uniformly distributed outside the inner container 42; the claws 411 are in one-to-one correspondence with the clamping parts 421, and the tops of the claws 411 are respectively inserted into the corresponding clamping parts 421, so as to realize the relative fixation of the inner container 42 and the egg accommodating body 41; an outer liner 44 is arranged in the accommodating cavity of the inner liner 42; an egg accommodating cavity (not marked) is arranged in the outer liner; the material of the outer container 44 is food-grade silica gel, and the heat conduction efficiency of the silica gel is high; a heating element 43 is arranged between the outer liner 44 and the inner liner 42; the heating element 43 is electrically connected with the knob 1, and the heating element 43 can be controlled to work by rotating the knob 1; the buckle 412 is used for fixing the egg accommodating body 41 on the lower shell 32.

The inner wall of the egg accommodating cavity is also uniformly provided with first grooves 45; the first groove 45 extends from the bottom of the egg accommodating cavity to the outer end part of the egg accommodating cavity; a second groove 46 is formed in the outer end portion of the inner container 42 at a position corresponding to the first groove 45, and the second groove 46 is communicated with the first groove 45, so that water vapor generated in the heating process of eggs can be better discharged out of the egg accommodating cavity; the first groove 45 can increase the elasticity of the egg accommodating cavity, and simultaneously can timely discharge water vapor generated on the surface of the egg in the heating process, so as to prevent the egg from being broken in the heating process due to overhigh air pressure in the egg accommodating cavity.

The upper egg accommodating device 5 and the lower egg accommodating device 4 have the same structure and the same working principle, and are not described again here.

During operation, eggs are tightly wrapped by the lower egg accommodating device 4 and the upper egg accommodating device 5, after the heating element 43 is electrified, the heating element 43 directly transmits heat energy to the eggs in the egg accommodating cavity, and the heat energy loss is small due to the high heat conduction efficiency of the silica gel and the wrapping of the outer liner 44 by the inner liner 42, so that the anhydrous heating of the eggs is realized.

A button 2 is provided on the lower edge of the upper case 31; a first bayonet joint 21 is obliquely arranged on the button 2 inwards and downwards; the first clamping connector 21 is inserted into a first clamping interface 33 arranged on the lower shell 32 to lock the upper shell 31 and the lower shell 32; when the button 2 is pressed, the first bayonet joint 21 moves downward and inward, and the first bayonet joint 21 is inclined downward and then separated from the first bayonet joint 33 after moving downward and inward for a certain distance, so that the upper housing 31 can be opened; a stopper 34 is provided on the lower case 32 at a position corresponding to the button 2, for restricting the distance of inward downward displacement of the button 2.

When in use, the button 2 is pressed down, the upper shell 31 is opened, eggs are put into the egg accommodating cavity of the lower egg accommodating device 4, then the upper shell 31 is closed, and the eggs are completely and tightly wrapped by the upper egg accommodating device 5 and the lower egg accommodating device 4; then the knob 1 is rotated, the heating elements 43 in the upper egg accommodating device 5 and the lower egg accommodating device 4 are heated simultaneously, heat energy is directly transferred to eggs through the egg accommodating cavity, after a set time, the eggs are cooked, the button 2 is pressed, and the eggs are taken out.

Due to the adoption of the technical scheme, compared with the prior art, the utility model has the following advantages:

the matching of the claw 411, the outer liner 44 and the inner liner 42 in the anhydrous egg boiler can automatically adapt to eggs with different sizes; in addition, the egg accommodating cavity is made of food-grade silica gel, the heat conduction efficiency of the silica gel is high, in the heating process, the heating element 43 directly transmits heat energy to the egg accommodating cavity to heat eggs, the egg accommodating cavity is wrapped by the clamping jaw 411, the outer liner 44 and the inner liner 42, the heat energy loss is small, and water is not needed in the whole heating process, so that compared with steam egg boiling, the heating efficiency is higher, and water resources are saved; the use is more convenient.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. An anhydrous egg boiler comprises a shell; the housing comprises an upper housing and a lower housing; the upper shell is rotationally connected with the lower shell; an upper egg accommodating device is arranged in the upper shell; a lower egg accommodating device is arranged in the lower shell; the method is characterized in that: when the upper shell and the lower shell are covered, the upper egg accommodating device and the lower egg accommodating device are also covered, and the eggs are completely and tightly wrapped by the upper egg accommodating device and the lower egg accommodating device; heating elements are respectively arranged in the upper egg accommodating device and the lower egg accommodating device; the heating element directly heats eggs through egg accommodating cavities on the corresponding upper egg accommodating device and lower egg accommodating device respectively.

2. The anhydrous egg boiler of claim 1, wherein: the lower egg accommodating device and the upper egg accommodating device have the same structure; the lower egg accommodating device and the upper egg accommodating device are symmetrically arranged.

3. The anhydrous egg boiler of claim 2, wherein: the egg accommodating device comprises an egg accommodating body and an inner container; the clamping claws are uniformly distributed at side intervals on one side of the egg accommodating body; the clamping claws are arranged in an arc shape, and the arc inner sides of the clamping claws are respectively arranged towards the center part of the egg accommodating body; the inner container is provided with a containing cavity; an outer liner is arranged in the accommodating cavity of the inner liner; an egg accommodating cavity is arranged in the outer liner; a heating element is arranged between the outer liner and the inner liner.

4. An anhydrous egg boiler as in claim 3 wherein: clamping parts are uniformly distributed outside the inner container; the clamping claws are in one-to-one correspondence with the clamping parts, and the tops of the clamping claws are respectively inserted into the corresponding clamping parts, so that the inner container and the egg accommodating body are relatively fixed.

5. An anhydrous egg boiler as in claim 3 wherein: the inner container and the outer container are both made of food-grade silica gel.

6. The anhydrous egg boiler of claim 2, wherein: a knob is arranged on the shell; the heating elements are respectively and electrically connected with the knob, and the operation of the heating elements can be controlled by rotating the knob.

7. The anhydrous egg boiler of claim 1, wherein: a button is arranged on the lower edge of the upper shell; the button is provided with a first clamping joint in an inclined manner inwards and downwards; the first clamping connector is inserted into a first clamping interface arranged on the lower shell to lock the upper shell and the lower shell; when the button is pressed, the first clamping connector moves inwards and downwards, and the first clamping connector is downwards inclined, so that the first clamping connector can be separated from the first clamping connector after moving inwards and downwards for a certain distance, and the upper shell can be opened.

8. The anhydrous egg boiler of claim 7, wherein: and a limiting block is arranged at the position, corresponding to the button, of the lower shell and is used for limiting the inward downward moving distance of the button.

9. An anhydrous egg boiler as in claim 3 wherein: the inner wall of the egg accommodating cavity is also uniformly provided with first grooves; the first groove extends from the bottom of the egg accommodating cavity to the outer end part of the egg accommodating cavity; the second groove is formed in the position, corresponding to the first groove, of the outer end portion of the inner container, the second groove is communicated with the first groove, and water vapor generated in the egg heating process can be better discharged out of the egg accommodating cavity.

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