CN110974049B - Inner container structure and have this inner container structure evaporate roast all-in-one - Google Patents

Abstract

The invention relates to a liner structure, which comprises a liner, wherein a first exhaust hole and a second exhaust hole with the aperture smaller than that of the first exhaust hole are respectively formed in the liner wall of the liner, a dehumidifying device is arranged on the liner and comprises a guide seat and an adjusting control part, a first exhaust air duct with a first exhaust joint, a second exhaust air duct with a second exhaust joint and an air guide air duct with an air guide joint are arranged on the guide seat, the first exhaust joint is communicated with the first exhaust hole, the second exhaust joint is communicated with the second exhaust hole, the air guide joint is communicated with an air guide outlet, and the adjusting control part can enable one of the exhaust air ducts to be communicated with the air guide air duct or enable any one of the exhaust air ducts not to be communicated with the air guide air duct; still relate to the roast all-in-one of steaming that has this inner bag structure. The invention can achieve the purpose of controlling the humidity in the inner container, ensure the cooking effect, and can realize professional steaming and baking when the inner container structure is applied to the steaming and baking integrated machine, thereby improving the cooking effect of the steaming and baking integrated machine.

Description

Inner container structure and have this inner container structure evaporate roast all-in-one

Technical Field

The invention relates to the field of steaming and baking integrated machines, in particular to an inner container structure and a steaming and baking integrated machine with the same.

Background

The steaming and baking integrated machine is a composite cooking device, and has the steaming function and the baking function. The existing steaming and baking integrated machine generally can only emphasize one function, namely, the function of strong steaming and weak baking is ensured, the function of strong baking and weak steaming is ensured, and the steaming and baking integrated machine has double professional functions at the same time and is difficult to ensure. In addition, the current all-in-one that evaporates weakly roast function evaporates when the culinary art can appear that the steam volume is big or humidity is difficult to the exhaust problem when toasting the function, leads to evaporating the culinary art effect of roast all-in-one not good, and remaining a large amount of steam also can lead to the user to be scalded when opening the door in the inner bag after the culinary art finishes simultaneously.

At present to remaining too much problem of steam in the culinary art back inner bag, generally solve through the mode that increases exhaust time and pipeline, to the difficult exhaust problem of humidity in the inner bag, generally open the dehumidification pipeline among the prior art on the inner bag and reduce the humidity in the inner bag, but humidity is very difficult discharges again when humidity reaches the equilibrium in the inner bag to this kind of mode, also can influence the culinary art effect of steaming and baking all-in-one simultaneously at inner bag top trompil.

Disclosure of Invention

The first technical problem to be solved by the invention is to provide an inner container structure with controllable humidity and good cooking effect aiming at the prior art.

The second technical problem to be solved by the present invention is to provide an inner container structure capable of avoiding excessive steam in the inner container after cooking.

The third technical problem to be solved by the invention is to provide a steaming and baking integrated machine which can realize professional steaming and professional baking simultaneously aiming at the prior art.

The invention adopts the technical scheme for solving the first and second technical problems that: the inner container structure comprises an inner container and is characterized in that a first exhaust hole and a second exhaust hole are formed in the wall of the inner container respectively, the aperture of the first exhaust hole is larger than that of the second exhaust hole, a dehumidifying device is arranged on the inner container and comprises a guide seat and an adjusting and controlling part arranged on a guide valve, a first exhaust air duct with a first exhaust joint, a second exhaust air duct with a second exhaust joint and an air guide air duct with an air guide joint are arranged on the guide seat, the first exhaust joint is communicated with the first exhaust hole of the inner container, the second exhaust joint is communicated with the second exhaust hole of the inner container, a third joint is communicated with an air guide outlet outside the inner container, and the adjusting and controlling part can enable one of the exhaust air ducts to be communicated with the air guide air duct or enable any one of the exhaust air ducts not to be communicated with the air guide air duct.

Further, the adjusting member may have a plurality of specific implementation manners, and in the present invention, preferably, the adjusting member is a guide valve, and further includes a rotating electrical machine, the guide seat is provided with an installation hole, the guide valve is embedded in the installation hole and can rotate around its own axis under the driving of the rotating electrical machine, the guide valve is provided with a guide channel, and the air guide duct has at least two states during the rotation of the guide valve: in the first state, the air guide duct is not communicated with each exhaust duct; in the second state, the air guide duct is communicated with one of the exhaust ducts through the guide channel.

In order to avoid the influence on the steaming effect caused by the too fast discharge of the steam in the inner container in the steaming mode, the first exhaust hole and the second exhaust hole are both arranged on the back plate of the inner container, and the dehumidifying device is arranged on the back surface of the back plate of the inner container.

In order to accelerate the moisture removal speed, an air suction pump is preferably arranged on the air guide joint.

For the different states of ability better to hydrofuge device regulate and control, the center department of guide holder is the direction base, and above-mentioned mounting hole is the round hole and sets up on this direction base, and the appearance of above-mentioned guide valve is cylindricly, and above-mentioned direction passageway is radially offered and is 120 contained angles with the center pin of this guide valve as the center along the guide valve, and above-mentioned first exhaust wind channel, second exhaust wind channel and wind-guiding wind channel use above-mentioned direction base as the center along circumference interval equipartition around the guide valve, and the one end of each passageway links to each other with the direction base, and the other end is provided with corresponding joint respectively.

Further, the guide channel is arranged on the upper portion of the guide seat, the first exhaust air channel and the second exhaust air channel are arranged on the lower portion of the guide seat and are arranged in a mode that the guide channel is arranged in a center and in a bilateral symmetry mode, accordingly, exhaust efficiency (namely moisture exhaust efficiency) can be further improved, all the channels extend in a straight line direction, and condensed water in pipelines can flow back to the inner container through the exhaust air channels.

In order to realize the stable installation of the rotating motor and simultaneously enable the rotating motor to better drive the guide valve to rotate, the front end of the guide seat is provided with a motor seat, the rotating motor is arranged on the motor seat, the front end of the guide valve is concavely provided with a transmission groove towards the back, a transmission ring is embedded in the transmission groove, an output shaft of the rotating motor is connected with a transmission shaft, and the transmission shaft is embedded in the transmission ring and forms transmission connection with the transmission ring.

Furthermore, in order to enable the guide valve to rotate relative to the guide seat more stably, a rotating groove is formed at the rear end of the guide valve, a rotating boss is arranged on the corresponding inner wall surface of the guide seat in a forward protruding mode, the rotating groove is sleeved on the rotating boss, and a rotating bearing is arranged between the rotating groove and the rotating boss in a clamping mode.

In order to avoid gas leakage, a sealing ring is preferably arranged between the guide valve and the guide seat.

In order to better monitor the humidity in the inner container, a humidity probe is arranged in the inner container.

The technical scheme adopted for solving the third technical problem is as follows: a steaming and baking integrated machine with the dehumidifying device is provided.

Compared with the prior art, the invention has the advantages that: according to the invention, the first exhaust hole and the second exhaust hole with different pore diameters are formed in the liner wall of the liner, the dehumidifying device is provided with the first exhaust air channel communicated with the first exhaust hole, the second exhaust air channel communicated with the second exhaust hole and the air guide air channel communicated with the air guide outlet, one of the exhaust air channels can be communicated with the air guide air channel or any one of the exhaust air channels can not be communicated with the air guide air channel through the adjusting and controlling part, so that different exhaust holes can be selectively communicated according to the humidity in the liner in the cooking process, the aim of controlling the humidity in the liner is achieved, the cooking effect is ensured, and when the liner structure is applied to the steaming and baking all-in-one machine, professional steaming and professional baking can be realized on the basis of the existing steaming and baking all-in-one machine, and the cooking effect of the steaming and baking all-in-one machine is improved. In addition, first exhaust hole is opened to this hydrofuge device of accessible after the culinary art finishes to can discharge remaining unnecessary steam in the inner bag to the external world fast, steam in the inner bag when avoiding the user to open the door after the culinary art finishes directly spouts the user and scalds the user.

Drawings

FIG. 1 is a partial schematic structural view of an inner container structure according to an embodiment of the present invention;

FIG. 2 is a sectional view showing a partial structure of the inner container structure in the embodiment of the present invention;

FIG. 3 is a cross-sectional view of the dehumidifying apparatus according to the embodiment of the present invention, when the first exhaust hole is in a conducting state;

FIG. 4 is a cross-sectional view of the dehumidifying apparatus in the embodiment of the present invention, when neither the first nor the second exhaust hole is conducted;

FIG. 5 is a sectional view of the dehumidifying apparatus according to the embodiment of the present invention, with the second exhaust hole being in a conducting state;

fig. 6 is a schematic structural diagram of a driving coil in the embodiment of the invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 6, an all-in-one steaming and baking machine comprises a liner structure, the liner structure comprises a liner 1, a first exhaust hole 11 and a second exhaust hole 12 are respectively formed on a back plate 10 of the liner 1, wherein the aperture of the first exhaust hole 11 is larger than that of the second exhaust hole 12, that is, the exhaust speed of the first exhaust hole 11 is larger than that of the second exhaust hole 12. In the invention, the exhaust holes are arranged on the back plate 10 of the inner container 1, so that the steam in the inner container 1 can be prevented from escaping too fast in a steaming mode, and the steaming quality is ensured. In addition, the humidity probe 9 is installed in the inner container 1, so that the humidity in the inner container 1 can be monitored more accurately, and the humidity probe 9 is installed on the back plate 10 of the inner container 1 in the embodiment.

The back of the back plate 10 of the liner 1 is also provided with a dehumidifying device 2, the dehumidifying device 2 comprises a guide seat 21 and an adjusting control part arranged on the guide valve 22, the guide seat 21 is provided with a first exhaust air duct 211 with a first exhaust joint 2111, a second exhaust air duct 212 with a second exhaust joint 2121 and an air guide duct 213 with an air guide joint 2131, the first exhaust joint 2111 is used for communicating with the first exhaust hole 11 of the liner 1, the second exhaust joint 2121 is used for communicating with the second exhaust hole 12 of the liner 1, the air guide joint 2131 is used for communicating with an air guide outlet (not shown) outside the liner 1, and the adjusting control part can enable one of the exhaust air ducts to be communicated with the air guide duct 213 or enable any one of the exhaust air ducts not to be communicated with the air guide duct 213. Can select to switch on different exhaust holes according to the humidity in the inner bag 1 at the culinary art in-process like this to reach the purpose of humidity in the control inner bag 1, guarantee the culinary art effect, and can realize on the basis of current steaming and baking all-in-one when this inner bag structure is applied to steaming and baking all-in-one, the culinary art effect that promotes steaming and baking all-in-one that the specialty is baked. In addition, first exhaust hole 11 is opened to this hydrofuge device 2 of accessible after the culinary art is ended to can discharge remaining unnecessary steam in inner bag 1 to the external world fast, steam in the inner bag 1 when avoiding the user to open the door after the culinary art is ended directly spouts the user and scalds the user. In this embodiment, the air guide outlet is an air inlet of an exhaust passage of the steaming and baking all-in-one machine, the exhaust passage is formed by arranging an air guide plate cover on an upper mounting plate of the steaming and baking all-in-one machine, the air guide outlet is arranged on the upper mounting plate, and the structure is a conventional structure and is not repeated.

Further, in the present embodiment, the control member is a pilot valve 22, and further includes a rotating electrical machine 23, the pilot base 21 has a mounting hole 210, the pilot valve 22 is fitted into the mounting hole 210 and can be rotated about its own axis by the rotating electrical machine 23, the pilot valve 22 has a pilot duct 221, and the air guiding duct 213 has at least two states during the rotation of the pilot valve 22: in the first state, the air guiding duct 213 is not communicated with each exhaust duct, as shown in fig. 4; in the second state, the air guiding duct 213 communicates with one of the exhaust ducts through the guiding passage 221, as shown in fig. 3 and 5. Specifically, the guide base 2100 is disposed at the center of the guide base 21, the mounting hole 210 is a circular hole and is formed in the guide base 2100, the guide valve 22 has a cylindrical shape, the guide passage 221 is radially formed along the guide valve 22 and forms an included angle of 120 ° with the central axis of the guide valve 22 as the center, the first exhaust air duct 211, the second exhaust air duct 212, and the air guide duct 213 are circumferentially and evenly distributed around the guide valve 22 at intervals with the guide base 2100 as the center, and one end of each duct is connected to the guide base 2100 while the other end is provided with a corresponding joint.

In order to further increase the humidity discharging speed, the air guiding joint 2131 is provided with an air suction pump 3 (in this embodiment, an electric air suction pump), the air discharging speed can be increased through the air suction function of the air suction pump 3, so that the humidity in the liner 1 can be controlled through the cooperation of the air suction pump 3 and the humidity probe 9, wherein the air suction pump 3 can break the humidity balance in the liner 1, and the humidity probe 9 can feed back the humidity in the liner 1.

When the baking operation is started, the humidity of the food is set, the rotary motor 23 drives the guide valve 22 to the state shown in fig. 4, and the first exhaust port 2111 and the second exhaust port 2121 are disconnected from the air guide port 2131. As humidity probe 9. When the humidity in the inner container 1 is detected to be higher than the set humidity, according to the actual humidity in the inner container 1, when the actual humidity in the inner container 1 is less than twice the set value, the rotary motor 23 rotates counterclockwise by 60 ° through the transmission shaft 6 to drive the guide valve 22 to the position shown in fig. 5, and at this time, the second exhaust joint 2121 and the air guide joint 2131 are in the on state. After the completion of the connection, the suction pump 3 starts to operate to discharge the moisture in the inner container 1 to the air guide outlet. When the humidity probe 9 detects that the humidity in the liner 1 is lower than a set value, the rotating motor 23 drives the guide valve 22 to rotate 60 degrees counterclockwise, and the guide valve 22 is in a closed state, that is, the first exhaust connector 2111 and the second exhaust connector 2121 are simultaneously disconnected from the air guide connector 2131. When the humidity of the inner container 1 is detected to be more than or equal to two times of the set value, the rotating motor 23 drives the guide valve 22 to rotate 60 degrees anticlockwise to the position shown in fig. 3, after the switch-on is completed, the air suction pump 3 starts to work, at the moment, the first exhaust joint 2111 and the air guide joint 2131 are in the switch-on state, and as the caliber of the first exhaust joint 2111 is larger, more moisture can be discharged in unit time, so that the phenomenon that a large amount of steam generated in the baking process is retained in the inner container 1 for a long time to influence the food cooking effect is avoided.

On the other hand, when the steaming operation starts, the guide valve 22 is in the state shown in fig. 4 (i.e. the first exhaust joint 2111 and the second exhaust joint 2121 are disconnected from the air guide joint 2131 at the same time), so that the influence on the cooking effect of the food due to more steam discharged during the steaming process is avoided. In addition, when the steaming work is finished, still more steam can be remained in the inner container 1, when the user is prevented from opening the door, the user is scalded by the steam directly injected from the inner container 1, after the steaming is finished each time, the rotating motor 23 drives the guide valve 22 to rotate anticlockwise for 60 degrees to the position shown in fig. 3, after the switch-on is finished, the air suction pump 3 starts to work, the redundant steam quantity in the inner container 1 is released to the air through an external discharge pipeline (not shown), the guide valve 22 is closed after the work is finished, and the user is prevented from being scalded by the steam due to the opening of the door.

In this embodiment, in order to realize the stable installation of the rotating electrical machine 23 and to enable the rotating electrical machine 23 to better drive the guide valve 22 to rotate, the motor base 4 is installed at the front end of the guide base 21, the rotating electrical machine 23 is installed on the motor base 4, the front end of the guide valve 22 is recessed rearward to form a transmission groove 222, a transmission ring 5 is embedded in the transmission groove 222, the output shaft of the rotating electrical machine 23 is connected with a transmission shaft 6, and the transmission shaft 6 is embedded in the transmission ring 5 and forms transmission connection with the transmission ring 5. Further, in order to make the pilot valve 22 rotate relative to the pilot base 21 more stably, a rotation groove 223 is formed at the rear end of the pilot valve 22, a rotation boss 214 is provided on the corresponding inner wall surface of the pilot base 21 to project forward, the rotation groove 223 is fitted over the rotation boss 214, and the rotation bearing 7 is interposed between the rotation groove 223 and the rotation boss 214. Further, a seal ring 8 is provided between the pilot valve 22 and the pilot seat 21, that is, the seal ring 8 is provided between the hole wall of the mounting hole 210 and the pilot valve 22.

In addition, in the present embodiment, the guide passage 221 is disposed at the upper portion of the guide base 21, and the first exhaust air channel 211 and the second exhaust air channel 212 are disposed at the lower portion of the guide base 21 and are symmetrically disposed about the guide passage 221, so that the exhaust efficiency (i.e., the dehumidifying efficiency) can be further improved, and each channel extends in a straight direction, so that the condensed water in the pipeline can flow back into the inner container 1 through each exhaust air channel.

Claims (10)

1. A liner structure comprises a liner (1), and is characterized in that a liner wall of the liner (1) is respectively provided with a first exhaust hole (11) and a second exhaust hole (12), the aperture of the first exhaust hole (11) is larger than that of the second exhaust hole (12), the liner (1) is provided with a dehumidifying device (2), the dehumidifying device (2) comprises a guide seat (21) and a regulating and controlling part arranged on the guide seat (21), the guide seat (21) is provided with a first exhaust air duct (211) with a first exhaust joint (2111), a second exhaust air duct (212) with a second exhaust joint (2121) and an air guide duct (213) with an air guide joint (2131), the first exhaust joint (2111) is communicated with the first exhaust hole (11) of the liner (1), and the second exhaust joint (2121) is communicated with the second exhaust hole (12) of the liner (1), the air guide joint (2131) is used for being communicated with an air guide outlet outside the inner container (1), the air adjusting and controlling part can enable one of the air exhaust channels to be communicated with the air guide channel (213) or any one of the air exhaust channels not to be communicated with the air guide channel,

the adjusting and controlling part is a guide valve (22) and further comprises a rotating motor (23), a mounting hole (210) is formed in the guide seat (21), the guide valve (22) is embedded in the mounting hole (210) and can rotate around the axis of the guide valve under the driving of the rotating motor (23), a guide channel (221) is arranged on the guide valve (22), and in the rotating process of the guide valve (22), the air guide air channel (213) has at least two states: in the first state, the air guide duct (213) is not communicated with each exhaust duct; in the second state, the air guide channel (213) is communicated with one of the exhaust air channels through the guide channel (221).

2. The liner structure according to claim 1, wherein the first exhaust hole (11) and the second exhaust hole (12) are both opened on the back plate (10) of the liner (1), and the dehumidifying device (2) is adapted to be mounted on the back surface of the back plate (10) of the liner (1).

3. The liner structure according to claim 1, wherein the air guide joint (2131) is provided with an air suction pump (3).

4. The liner structure according to any one of claims 1, 2 or 3, wherein the guide base (2100) is located at the center of the guide base (21), the mounting hole (210) is a circular hole and is formed in the guide base (2100), the guide valve (22) has a cylindrical shape, the guide passage (221) is radially formed along the guide valve (22) and forms an included angle of 120 ° with the central axis of the guide valve (22) as the center, the first exhaust air duct (211), the second exhaust air duct (212) and the wind guide duct (213) are circumferentially and uniformly distributed around the guide valve (22) with the guide base (2100) as the center, and one end of each passage is connected to the guide base (2100) while the other end is provided with a corresponding joint.

5. The inner container structure according to claim 4, wherein the air guide duct (213) is disposed at an upper portion of the guide base (21), the first exhaust duct (211) and the second exhaust duct (212) are disposed at a lower portion of the guide base (21) and are arranged symmetrically with respect to the guide passage (221), and each of the passages extends in a straight direction.

6. The liner structure according to claim 4, wherein a motor base (4) is mounted at the front end of the guide base (21), the rotating motor (23) is mounted on the motor base (4), a transmission groove (222) is concavely formed at the front end of the guide valve (22) towards the rear, a transmission ring (5) is embedded in the transmission groove (222), a transmission shaft (6) is connected to an output shaft of the rotating motor (23), and the transmission shaft (6) is embedded in the transmission ring (5) and forms transmission connection with the transmission ring (5).

7. The liner structure according to claim 6, wherein a rotary groove (223) is formed at the rear end of the guide valve (22), a rotary boss (214) is convexly arranged on the corresponding inner wall surface of the guide seat (21) towards the front, the rotary groove (223) is sleeved on the rotary boss (214), and a rotary bearing (7) is arranged between the rotary groove (223) and the rotary boss (214).

8. The liner structure according to claim 4, wherein a sealing ring (8) is arranged between the guide valve (22) and the guide seat (21).

9. A liner structure according to any one of claims 1 to 3, wherein a humidity probe (9) is provided in the liner (1).

10. A steaming and baking all-in-one machine with an inner container structure as claimed in any one of claims 1-9.

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