CN215127106U - Novel cooker - Google Patents

Abstract

The utility model discloses a novel machine of cooking, including being used for the water supply system to supplying water in the frying pan, water supply system includes: the device comprises a water supply source for supplying water, a small-pipe-diameter water supply pipeline for supplying water for frying dishes, a flow control member, a large-pipe-diameter water supply pipeline for supplying water for washing a boiler and a water spraying pipeline. The water supply source is connected respectively to the end of intaking between small pipe diameter water supply pipeline and the big pipe diameter water supply pipeline, and the water spray pipeline is connected respectively to the play water end between small pipe diameter water supply pipeline and the big pipe diameter water supply pipeline, and the play water end of water spray pipeline is towards the frying pan to be arranged in with water injection frying pan. The flow control component is arranged in the small-diameter water supply pipeline and connected with the control device of the cooking machine so as to be used for controlling the flow of the small-diameter water supply pipeline, and the flow area of the small-diameter water supply pipeline is matched with the set flow area of the flow control component, so that the flow control component can accurately control and measure the flow of the small-diameter water supply pipeline.

Description

Novel cooker

Technical Field

The utility model relates to a cooking equipment field especially relates to a novel machine of cooking.

Background

The frying machine is commonly used in fast food restaurants, vegetable houses and the like which are consumed by the public, and the frying machine needs to automatically inject water to wash a pot, add water to a dish material to cook and the like in the operation process.

In the current machine of cooking, because the water requirement of washing the pot is big and lower to adding the water yield required precision, and the water requirement of frying is very high to adding the water yield required precision, if it is improper to add the water yield, then greatly influence the taste of dish, so all set up the big water yield pipe-line system who is used for adding water and washing the pot in the frying pan alone in the current machine of cooking, and add the little water yield pipe-line system of water culinary art dish material in the frying pan alone, and still be equipped with the flowmeter that is used for accurate measurement discharge among the little water yield pipe-line system.

Because the frying machine is provided with the mutually independent large-water-volume pipeline system and small-water-volume pipeline system, on one hand, a certain installation space is occupied, the structure of the frying machine is enlarged, and the frying machine has a complex structure, more parts, disordered layout and higher price; on the other hand, the small-flow pipeline system adopts a small-diameter pipe with a smaller inner diameter, and the water pressure sprayed by the small-diameter pipe is large, so that oil, water and the like in the frying pan often splash outwards, the frying operation environment is influenced, and safety accidents are easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel cooking machine to current water supply system need occupy more installation space in solving cooking machine, and cooking machine more expensive technical problem.

The utility model adopts the technical scheme as follows:

a novel cooking machine, including the water supply system who is used for supplying water in to the frying pan, water supply system includes: the device comprises a water supply source for supplying water, a small-pipe-diameter water supply pipeline for supplying water for frying dishes, a flow control member, a large-pipe-diameter water supply pipeline for supplying water for washing a boiler and a water spraying pipeline; the water inlet ends of the small-pipe-diameter water supply pipeline and the large-pipe-diameter water supply pipeline are respectively connected with a water supply source, the water outlet ends of the small-pipe-diameter water supply pipeline and the large-pipe-diameter water supply pipeline are respectively connected with a water spraying pipeline, and the water outlet end of the water spraying pipeline faces the frying pan so as to be used for spraying water into the frying pan; the flow control component is arranged in the small-diameter water supply pipeline and connected with the control device of the cooking machine so as to be used for controlling the flow of the small-diameter water supply pipeline, and the flow area of the small-diameter water supply pipeline is matched with the set flow area of the flow control component, so that the flow control component can accurately control and measure the flow of the small-diameter water supply pipeline.

Further, the small-diameter water supply pipeline comprises a first large-diameter pipe and a small-diameter pipe, the inner diameter of the small-diameter pipe is smaller than that of the first large-diameter pipe, and the inner diameter of the small-diameter pipe is matched with the set installation inner diameter of the flow control member, so that the flow control member can accurately control and measure the flow of the small-diameter pipe; the water inlet end of the first large-diameter pipe is connected with a water supply source, the water outlet end of the first large-diameter pipe is connected with the water inlet end of the small-diameter pipe, and the water outlet end of the small-diameter pipe is connected with a water spraying pipeline; the flow control member is provided at a communication portion of the first large-diameter pipe and the small-diameter pipe.

Further, the flow control member includes a flow control valve connected to the control means for controlling a communication area of the small-diameter pipe and the first large-diameter pipe and precisely controlling the amount of water introduced into the small-diameter pipe.

Further, the flow control component comprises a first switch valve connected with the control device and a flow meter; the first switch valve is arranged at the communication position of the small-diameter pipe and the first large-diameter pipe and used for controlling the on-off of the small-pipe-diameter water supply pipeline; a flow meter is provided in the small diameter tube for accurately metering the amount of water entering the small diameter tube.

Furthermore, the large-pipe-diameter water supply pipeline comprises a second large-diameter pipe and a second switch valve connected with the control device; the water inlet end of the second large-diameter pipe is connected with a water supply source, and the water outlet end of the second large-diameter pipe is connected with a water spraying pipeline; the second switch valve is connected to the pipeline of the second large-diameter pipe.

Further, the water supply source includes a water inlet manifold and a first three-way joint; the water inlet end of the water inlet main pipe extends out of the cooking machine and then is connected with a water source, and the water outlet end of the water inlet main pipe is communicated with the water inlet of the first three-way joint; the water inlet ends of the first large-diameter pipe and the second large-diameter pipe are respectively connected with the water outlet of the first three-way joint.

Further, the water supply source comprises a first water inlet pipe and a second water inlet pipe; the water inlet end of the first water inlet pipe extends out of the cooker and then is connected with a purified water source, and the water outlet end of the first water inlet pipe is connected with the water inlet end of the first large-diameter pipe; the water inlet end of the second water inlet pipe extends out of the cooker and then is connected with a tap water source, and the water outlet end of the second water inlet pipe is connected with the water inlet end of the second large-diameter pipe.

Further, the water spraying pipeline comprises a three-way pipe and a water spraying pipe; the water outlet ends of the small-diameter pipe and the second large-diameter pipe are respectively connected with the water inlet of the three-way pipe; the water inlet end of the spray pipe is communicated with the water outlet of the three-way pipe, the water outlet end of the spray pipe faces the frying pan, and the inner diameter of the spray pipe is larger than that of the small-diameter pipe.

Furthermore, the frying machine also comprises a rack, a tray and a frying pan which are arranged outside the rack, the frying pan is connected to the vertical wall of the rack through a mounting shaft, and a material containing box for containing vegetable materials is clamped on the tray; the tray is connected with a deflection driving mechanism which is arranged around a fixed shaft in a rotating way and is connected with a control device arranged in the rack, and the deflection driving mechanism is used for driving the tray to deflect under the action of the control device so as to enable the material containing box to reach the material feeding position on the rack; the feeding driving mechanism is arranged on the rack and extends into the rack to be connected with the control device so as to suck the material containing box at the feeding position on the rack tightly and turn over the material containing box, so that the vegetable material contained in the material containing box is fed into the frying pan.

Furthermore, the vertical walls are arranged at intervals relative to the standing positions of people on the rack, and the rack also comprises side walls vertical to the vertical walls; the frying pan and the tray are connected to the vertical wall; the feeding driving mechanism is connected to the side wall and extends to the feeding position of the rack.

The utility model discloses following beneficial effect has:

compared with the prior art that both a water supply pipeline for supplying the boiler and a water supply pipeline for supplying the vegetable material for cooking belong to completely independent operation systems, the utility model discloses a water supply system, although the water inlet ends of both the small-pipe-diameter water supply pipeline and the large-pipe-diameter water supply pipeline are respectively connected with a water supply source, the water outlet ends of both the small-pipe-diameter water supply pipeline and the large-pipe-diameter water supply pipeline are respectively connected with a water spray pipeline, and the water outlet end of the water spray pipeline is communicated with a frying pan, thereby the utility model discloses a water supply system has simple structure, occupies less installation space, and makes the structure of the frying machine simple, and spare parts are relatively few, and the layout structure is compact, and the price is relatively cheap; on the other hand, the flow control component is additionally arranged in the small-pipe-diameter water supply pipeline, and the flow area of the small-pipe-diameter water supply pipeline is matched with the set flow area of the flow control component, so that the flow control component can accurately control and measure the flow passing through the small-pipe-diameter water supply pipeline, the water quantity is accurately measured, and the cooking quality of the dish materials is high, and the taste and the appearance are good.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural view of a water supply system according to a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of the novel cooker in the preferred embodiment of the invention;

FIG. 3 is a schematic left side view of the structure of FIG. 2;

fig. 4 is a rear view of the structure of fig. 2.

Description of the figures

10. A frame; 101. erecting a wall; 102. a side wall; 20. a tray; 30. a frying pan; 40. a material containing box; 50. a deflection drive mechanism; 51. a yaw axis; 60. a feeding driving mechanism; 61. an adsorption member; 611. a rotating shaft; 612. feeding and poking sheets; 62. a drive member; 70. an adsorption sheet; 80. a water supply system; 81. a water supply source; 811. a water inlet main pipe; 82. a small-pipe-diameter water supply pipeline; 821. a first large diameter tube; 822. a small diameter tube; 83. a flow control member; 831. a first on-off valve; 832. a flow meter; 84. A large-pipe-diameter water supply pipeline; 841. a second large diameter tube; 842. a second on-off valve; 85. a water spray pipeline; 851. a three-way pipe; 852. And a water spray pipe.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered below.

Referring to fig. 1 and 2, a preferred embodiment of the present invention provides a novel cooker, including a water supply system 80 for supplying water into a frying pan, the water supply system 80 including: a water supply source 81 for supplying water, a small-diameter water supply pipe 82 for supplying water for cooking, a flow control member 83, a large-diameter water supply pipe 84 for supplying water for washing the pot, and a water spray pipe 85. The water inlet ends of the small-pipe-diameter water supply pipeline 82 and the large-pipe-diameter water supply pipeline 84 are respectively connected with the water supply source 81, the water outlet ends of the small-pipe-diameter water supply pipeline 82 and the large-pipe-diameter water supply pipeline 84 are respectively connected with the water spray pipeline 85, and the water outlet end of the water spray pipeline 85 faces the frying pan so as to be used for spraying water into the frying pan. The flow control member 83 is disposed in the small-diameter water supply pipeline 82 and connected to a control device of the cooker for controlling the flow rate of the small-diameter water supply pipeline 82, and the flow area of the small-diameter water supply pipeline 82 is adapted to the set flow area of the flow control member 83, so that the flow control member 83 can accurately control and measure the flow rate of the small-diameter water supply pipeline 82.

When the water supply system 80 of the utility model works and the frying pan 30 needs to be washed by adding water, the control device controls the large-pipe-diameter water supply pipeline 84 to be switched on, the small-pipe-diameter water supply pipeline 82 to be switched off, the water supplied by the water supply source 81 enters the large-pipe-diameter water supply pipeline 84, then enters the water spray pipeline 85 through the large-pipe-diameter water supply pipeline 84, and is sprayed into the frying pan for washing the pan through the water outlet end of the water spray pipeline 85; when water needs to be added into the wok 30 during cooking, the control device controls the large-diameter water supply pipeline 84 to be closed and controls the flow control member 83 in the small-diameter water supply pipeline 82 to be opened, water supplied by the water supply source 81 enters the small-diameter water supply pipeline 82, accurate flow control is performed through the flow control member 83, when the water quantity passing through the flow control member 83 reaches the set required water quantity, the flow control member 83 feeds back information to the control device, the control device controls the flow control member 83 to close the small-diameter water supply pipeline 82, water does not continuously flow through the flow control member 83, water in the small-diameter water supply pipeline 82 enters the water spraying pipeline 85, and finally the water is sprayed into the wok 30 through the water outlet end of the water spraying pipeline 85, so that accurate water injection of vegetables is achieved.

Compared with the prior art in which both the water supply pipeline for supplying the boiler and the water supply pipeline for supplying the vegetable cooking belong to completely independent operation systems, the utility model discloses an among the water supply system 80, although the water inlet ends of both the small-pipe-diameter water supply pipeline 82 and the large-pipe-diameter water supply pipeline 84 are respectively connected with the water supply source 81, the water outlet ends of both the small-pipe-diameter water supply pipeline 82 and the large-pipe-diameter water supply pipeline 84 are respectively connected with the water spray pipeline 85, and the water outlet end of the water spray pipeline 85 is communicated with the boiler 30, thereby the utility model discloses a simple structure of the water supply system 80 occupies less installation space, and makes the simple structure of the cooking machine, and spare part is relatively less, and layout structure is compact, and the price is relatively cheap; on the other hand, the flow control member 83 is additionally arranged in the small-pipe-diameter water supply pipeline 82, and the flow area of the small-pipe-diameter water supply pipeline 82 is matched with the set flow area of the flow control member 83, so that the flow control member 83 can accurately control and measure the flow passing through the small-pipe-diameter water supply pipeline 82, the water quantity is accurately measured, and the cooking quality, the taste and the appearance of the dish materials are good.

Alternatively, as shown in FIG. 1, the small-diameter water supply line 82 includes a first large-diameter pipe 821 and a small-diameter pipe 822, the small-diameter pipe 822 has an inner diameter smaller than that of the first large-diameter pipe 821, and the small-diameter pipe 822 has an inner diameter corresponding to the set installation inner diameter of the flow control member 83, so that the flow control member 83 can precisely control and meter the flow of the small-diameter pipe 822. The water inlet end of the first large diameter pipe 821 is connected to the water supply source 81, the water outlet end of the first large diameter pipe 821 is connected to the water inlet end of the small diameter pipe 822, and the water outlet end of the small diameter pipe 822 is connected to the water spraying pipeline 85. The flow control member 83 is provided at the communication between the first large-diameter pipe 821 and the small-diameter pipe 822. Because the water inlet end of the small-diameter water supply pipeline 82 and the water inlet end of the large-diameter water supply pipeline 84 are respectively connected with the water supply source 81, when the small-diameter water supply pipeline 82 comprises the first large-diameter pipe 821, and the water inlet end of the first large-diameter pipe 821 is connected with the water supply source 81, on one hand, the connection between the small-diameter water supply pipeline 82 and the water supply source 81 is facilitated, and on the other hand, when the flow control member 83 is opened, water supplied from the water supply source 81 can smoothly enter the small-diameter water supply pipeline 82; the small-diameter water supply pipeline 82 further comprises a small-diameter pipe 822, and the inner diameter of the small-diameter pipe 822 is matched with the set installation inner diameter of the flow control member 83, so that the flow control member 83 can accurately control and measure the flow passing through the small-diameter pipe 822, the water quantity is accurately measured, and the cooking quality, the taste and the appearance of the dish are good.

In this alternative, the first embodiment of the flow control member 83, not shown, the flow control member 83 includes a flow control valve connected to the control device for controlling the area of communication between the small diameter pipe 822 and the first large diameter pipe 821 and for precisely controlling the amount of water entering the small diameter pipe 822. During operation, the control device controls the opening and the opening degree of the flow control valve, the flow control valve simultaneously measures the flow of the passing water body accurately, when the flow of the passing water body reaches the set flow, a signal is sent to the control device, and the control device controls the flow control valve to be closed. Specifically, the flow control valve is a flow control valve commonly used in the market for controlling the flow size and accurately calculating the flow. The embodiment has the advantages of simple structure, easy implementation and accurate flow control.

In this alternative, the second embodiment of the flow control member 83, as shown in fig. 1, the flow control member 83 includes a first on-off valve 831 connected to the control device, and a flow meter 832. The first on-off valve 831 is disposed at a communication position between the small-diameter pipe 822 and the first large-diameter pipe 821, and is configured to control on/off of the small-diameter water supply line 82. A flow meter 832 is provided in the small diameter tube 822 for accurately metering how much water is entering the small diameter tube 822. In operation, the control device controls the first switch valve 831 to open, the flowmeter 832 is used for accurately measuring the flow passing through, when the flow of the water passing through reaches the set flow, a signal is sent to the control device, and the control device controls the first switch valve 831 to close. The embodiment is easy to implement and accurate in flow control.

Alternatively, as shown in fig. 1, the large-diameter water supply line 84 includes a second large-diameter pipe 841, and a second on-off valve 842 connected to the control device. The water inlet end of the second large-diameter pipe 841 is connected to the water supply source 81, and the water outlet end of the second large-diameter pipe 841 is connected to the water spraying pipeline 85. The second on-off valve 842 is connected to the pipe of the second large-diameter pipe 841. During operation, the control device controls the second switch valve 842 to be opened, the water body of the water supply source 81 is sprayed into the frying pan 30 through the second large-diameter pipe 841 and the water spraying pipeline 85, after the frying pan 30 finishes the pan washing operation, the control device controls the second switch valve 842 to be closed again, and a flow control and/or metering device is not required to be installed in the pipeline of the second large-diameter pipe 841, the structure is simple, and the cost of the cooking machine can be reduced.

Alternatively, a first embodiment of the water supply source 81, as shown in fig. 1, the water supply source 81 includes a water inlet manifold 811 and a first three-way joint. The water inlet end of the water inlet main pipe 811 extends out of the cooking machine and then is connected with a water source, and the water outlet end of the water inlet main pipe 811 is communicated with the water inlet of the first three-way joint. The water inlet ends of the first large-diameter pipe 821 and the second large-diameter pipe 841 are respectively connected with the water outlet of the first three-way joint. In this embodiment, the water supply source 81 has a simple structure.

Alternatively, a second embodiment of the water supply source 81, not shown, the water supply source 81 includes a first water inlet pipe, and a second water inlet pipe. The water inlet end of the first water inlet pipe extends out of the cooker and then is connected with a purified water source, and the water outlet end of the first water inlet pipe is connected with the water inlet end of the first large-diameter pipe 821. The water inlet end of the second water inlet pipe extends out of the cooker and then is connected with a tap water source, and the water outlet end of the second water inlet pipe is connected with the water inlet end of the second large-diameter pipe 841. In this embodiment, the small-pipe-diameter water supply pipeline 82 is connected with a purified water source through a first water inlet pipe, so that the quality of the water sprayed into the dish material is high, the cooking quality of the dish material is high, and the taste is good; the large-diameter water supply pipeline 84 is connected with a tap water source through a second water inlet pipe so as to wash the pot, so that the cost can be reduced and the economical efficiency is good while the pot is washed.

Alternatively, as shown in FIG. 1, the water spray line 85 includes a tee 851 and a water spray 852. The water outlet ends of the small-diameter pipe 822 and the second large-diameter pipe 841 are respectively connected with the water inlet of the three-way pipe 851. The water inlet end of the spray pipe 852 is communicated with the water outlet of the three-way pipe 851, the water outlet end of the spray pipe 852 faces the frying pan, and the inner diameter of the spray pipe 852 is larger than that of the small-diameter pipe 822. In the water spraying pipeline 85, because the inner diameter of the water spraying pipe 852 is larger than that of the small-diameter pipe 822, the pressure of the water body entering from the small-diameter pipe 822 can be reduced through the water spraying pipe 852, and then the splashing of the oil and/or water in the frying pan by the water body sprayed out of the water spraying pipe 852 can be effectively prevented, so that the safety accident is avoided while the frying environment is cleaned.

Optionally, referring to fig. 2-4, the frying machine of the present invention further includes a frame 10, a tray 20 and a frying pan 30 disposed outside the frame 10, the frying pan 30 is connected to the vertical wall 101 of the frame 10 through a mounting shaft, and a material containing box 40 for containing the vegetable material is clamped on the tray 20. The tray 20 is connected with a deflection driving mechanism 50, the deflection driving mechanism 50 is rotatably disposed around a fixed axis, the deflection driving mechanism 50 is connected with a control device disposed in the rack 10, and the deflection driving mechanism 50 is used for driving the tray 20 to deflect under the action of the control device, so that the material containing box 40 reaches the material charging position on the rack 10. The rack 10 is further provided with a feeding driving mechanism 60, and the feeding driving mechanism 60 extends into the rack 10 and then is connected with the control device so as to suck the material containing box 40 at the feeding position on the rack 10 and turn over the material containing box 40, so that the vegetable material contained in the material containing box 40 is fed into the frying pan 30.

The utility model discloses a novel cooking machine throws when expecting the operation, at first, pack into flourishing magazine 40 with the vegetable material, then clamp flourishing magazine 40 to tray 20 on, controlling means control deflection actuating mechanism 50 starts after that, deflection actuating mechanism 50 drives tray 20 around the dead axle rotation, so that the material level department of throwing on the flourishing magazine 40 that treats to throw the material reachs frame 10, controlling means controls again and throws material actuating mechanism 60 action after that, throw material actuating mechanism 60 and will be in the flourishing magazine 40 of throwing the material level and inhale tightly then the upset, so that the vegetable material of splendid attire is thrown into frying pan 30 in the flourishing magazine 40, thereby accomplish the material operation of throwing of flourishing magazine vegetable material.

In the novel cooker of the utility model, because the deflection driving mechanism 50 is arranged around the fixed shaft in a rotating way, and the control device makes the tray 20 rotate through the deflection driving mechanism 50, and further makes the material containing box 40 rotate to the material feeding position on the frame 10, so that a longer sliding guide groove is not required to be arranged on the frame 10, the sealing performance of the frame is good, high oil smoke and high water vapor generated in the working environment are not easy to enter the frame 10, the service life of the cooker is long, the working failure rate is low, and frequent maintenance or repair is not required; the utility model discloses an among the machine of cooking, translation formula feeding mechanism is compared to rotation type feeding mechanism, and its simple structure, size are less, so installation easy operation does not need great installation space, and the price is cheaper, is suitable for in the small-size domestic machine of cooking.

Optionally, as shown in fig. 2 and 3, the vertical wall 101 is spaced from the standing position of the person on the rack 10, and the rack 10 further includes a side wall 102 perpendicular to the vertical wall 101. The wok 30 and the tray 20 are attached to the vertical wall 101. The feeding drive mechanism 60 is connected to the side wall 102 and extends to the feeding position of the housing 10. The utility model discloses an among the overall arrangement of cooking machine, because people standing position interval on the relative frame 10 of founding wall 101 is laid, and frying pan 30 and tray 20 are connected on founding wall 101, so tray 20 and frying pan 30 are laid relative people standing position interval, when flourishing magazine 40 throws the material, whether the operating personnel who is in standing position can observe flourishing magazine 40 directly perceivedly throws the material totally, the visual degree of throwing of flourishing magazine 40 is high, so that operating personnel in time will be detained the vegetable material in flourishing magazine 40 and extract.

Alternatively, in the first embodiment of the yaw drive mechanism 50, as shown in FIGS. 2 and 3, the trays 20 are fan-shaped and are spaced apart in parallel relation to the vertical walls 101. The outer ring surface of the tray 20 is provided with clamping grooves which are sequentially distributed along the circumference of the tray, and the lower end of the material containing box 40 is clamped in the clamping grooves. The deflection driving mechanism 50 comprises a deflection shaft 51, an extending end of the deflection shaft 51 is vertically fixed with the center of the tray 20, and an embedded end of the deflection shaft 51 passes through the vertical wall 101 and then is connected with a control device. The clamping grooves on the material containing box 40 are used for applying slight clamping force to the material containing box 40 so as to prevent the material containing box 40 from falling out of the clamping grooves in the rotation process of the tray 20, and when the material containing box 40 is tightly sucked and rotated by the feeding driving mechanism 60, the material containing box 40 can be easily taken out of the clamping grooves.

Further, as shown in fig. 4, the deflection driving mechanism 50 further includes a first driver for driving the deflection shaft 51 to deflect reciprocally, the first driver is disposed in the frame 10 and connected to the control device. The embedded end of the deflection shaft 51 is vertically inserted through the vertical wall 101 and then fixed to the output end of the first driver. When the feeding device works, the first driver is started under the action of the control device to drive the deflection shaft 51 to rotate, the deflection shaft 51 drives the tray 20 fixed with the deflection shaft 51 to rotate, and the material containing box 40 on the tray 20 can reach the feeding position on the rack 10 in the rotating process of the tray 20. Specifically, the first driver comprises a driving motor and a speed reducer connected with the driving motor. The deflection driving mechanism 50 of the utility model has simple structure and simple driving operation.

Alternatively, in the second embodiment of the yaw driving mechanism 50, not shown, the tray 20 has a circular arc plate shape, side end surfaces thereof are arranged at intervals with respect to the standing wall 101, and the tray 20 is rotatably mounted on the standing wall 101 by a mounting shaft fixed to the side end surfaces thereof. The outer ring surface of the tray 20 is provided with clamping grooves which are sequentially distributed along the circumference of the tray, and the lower end of the material containing box 40 is clamped in the clamping grooves. The clamping groove is used for applying slight clamping force to the material containing box 40 so as to prevent the material containing box 40 from falling out of the clamping groove in the rotation process of the tray 20, and when the material containing box 40 is tightly sucked and rotated by the feeding driving mechanism 60, the material containing box 40 can be easily taken out of the clamping groove. The yaw driving mechanism 50 includes a yaw shaft 51, and a gear transmission member engaged with the inner circumferential surface of the tray 20, and the gear transmission member is connected to a control device.

Further, the gear transmission member includes a driving gear engaged with the inner circumferential surface of the tray 20 out of plane, and a second driver for driving the driving gear to rotate. The second driver is disposed in the frame 10 and connected to the control device. The driving gear is fixedly arranged on the excircle of the outward extending end of the deflection shaft 51, and the embedded end of the deflection shaft 51 vertically penetrates through the vertical wall 101 and then is fixed with the output end of the second driver. When the automatic feeding device works, the second driver is started under the action of the control device to drive the deflection shaft 51 to rotate, the deflection shaft 51 drives the driving gear fixedly arranged on the deflection shaft to rotate, the driving gear drives the tray 20 meshed with the driving gear to synchronously rotate when rotating, and the material containing box 40 on the tray 20 can reach the feeding position on the rack 10 in the rotating process of the tray 20. Specifically, the second driver includes a driving motor and a decelerator connected to the driving motor. The deflection driving mechanism 50 of the utility model has simple structure and simple driving operation.

Alternatively, in a third embodiment of the deflection driving mechanism 50, not shown, the tray 20 is in the shape of a circular arc plate and extends upwards from the top of the upright wall 101 along the vertical direction, the outer circumferential surface of the tray 20 is provided with clamping grooves sequentially arranged along the circumference thereof, and the lower end of the material containing box 40 is clamped in the clamping grooves. The yaw driving mechanism 50 includes a driving gear that is out-of-plane engaged with the inner ring surface of the tray 20, and a third driver for driving the driving gear to rotate. The third driver is disposed in the frame 10 and connected to the control device. The driving gear is fixedly arranged on the excircle of the output shaft of the third driver, and the driving gear extends out of the top of the vertical wall 101 along the vertical direction and then is meshed with the inner ring surface of the tray 20. When the feeding device works, the third driver is started under the action of the control device, the output shaft of the third driver rotates, the output shaft drives the driving gear fixedly arranged on the third driver to rotate, the driving gear drives the tray 20 meshed with the third driver to synchronously rotate when rotating, and the material containing box 40 on the tray 20 can reach the feeding position on the rack 10 in the rotating process of the tray 20. Specifically, the third driver includes a driving motor and a decelerator connected to the driving motor. The deflection driving mechanism 50 of the utility model has simple structure and simple driving operation.

Alternatively, as shown in fig. 2 and 4, the side wall 102 of the material containing box 40 is fixedly provided with the adsorption sheet 70. The material feeding driving mechanism 60 includes an adsorption member 61 for tightly adsorbing the adsorption sheet 70, and a driving member 62 for driving the adsorption member 61 to rotate the material feeding around the fixed axis. The suction member 61 is rotatably mounted on the sidewall 102 and electrically connected to the control device. The driving member 62 is disposed in the housing 10, and is connected to the suction member 61 and the control device, respectively.

In this alternative, as shown in fig. 2 and 4, the adsorbing member 61 includes a rotating shaft 611 rotatably disposed on the side wall 102, a feeding pulling piece 612 fixed to an outward end of the rotating shaft 611, and an adsorbing block fixedly mounted on the feeding pulling piece 612. The embedded end of the shaft 611 is vertically inserted through the sidewall 102 and then connected to the driving member 62. The suction block is connected to the control means to suck or release the suction sheet 70 under the control of the control means. In the specific embodiment of this alternative, the adsorption piece 70 is an iron piece, and the adsorption block is an electromagnet attached to the iron piece, and when the device works, the control device makes the electromagnet powered on to adsorb the iron piece or powered off to loosen the iron piece.

In this alternative, as shown in fig. 2 and 4, the driving member 62 includes a pulley member and a third driver for driving the pulley member. The pulley member is disposed on the inner wall surface of the side wall 102, and an output end of the pulley member is connected to an embedded end of the rotating shaft 611. The third driver is respectively connected with the input end of the belt wheel component and the control device. In a specific embodiment of this alternative, the third driver is a drive motor; the belt wheel component comprises two connecting shafts and an installation shaft which are oppositely arranged on the inner wall of the side wall 102, one of the connecting shafts is fixedly connected with the rotating shaft 611, the other connecting shaft is fixed with the side wall 102, the installation shaft is fixed with the side wall 102, belt wheels are fixedly arranged on the two connecting shafts, an idler wheel is arranged on the installation shaft, and the synchronous belt is sequentially tensioned on an output shaft of the driving motor, the two belt wheels and the idler wheel.

Optionally, as shown in fig. 2, the frying pan 30 is hollow and arranged obliquely with respect to the horizontal plane. The upper opening end of the frying pan 30 is formed by horizontally cutting the upper end of the frying pan 30. Because the frying pan 30 is obliquely arranged relative to the horizontal plane, and the upper opening end of the frying pan 30 is formed by horizontally cutting the upper end of the frying pan 30, the water vapor formed in the frying pan 30 in the frying process is not easy to condense by the frying pan wall and then falls into the frying pan 30 again, so that the taste of dishes in the frying pan is prevented from being influenced, the material containing box is convenient to feed, and the visual degree of the feeding operation is high; in the cooking process, the dishes are fully contacted with the air, and the stir-frying effect is good.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A novel cooker, characterized in that, including a water supply system (80) for supplying water into the cooker, the water supply system (80) includes:

a water supply source (81) for supplying water, a small-pipe water supply pipeline (82) for supplying water for frying dishes, a flow control member (83), a large-pipe water supply pipeline (84) for supplying water for washing a pan, and a water spray pipeline (85);

the water inlet ends of the small-diameter water supply pipeline (82) and the large-diameter water supply pipeline (84) are respectively connected with the water supply source (81), the water outlet ends of the small-diameter water supply pipeline (82) and the large-diameter water supply pipeline (84) are respectively connected with the water spray pipeline (85), and the water outlet end of the water spray pipeline (85) faces the wok for spraying water into the wok;

the flow control component (83) is arranged in the small-diameter water supply pipeline (82) and is connected with a control device of the cooker so as to be used for controlling the flow of the small-diameter water supply pipeline (82), and the flow area of the small-diameter water supply pipeline (82) is matched with the set flow area of the flow control component (83), so that the flow control component (83) can accurately control and measure the flow of the small-diameter water supply pipeline (82).

2. The novel cooker of claim 1,

the small-diameter water supply line (82) comprises a first large-diameter pipe (821) and a small-diameter pipe (822), the small-diameter pipe (822) has an inner diameter smaller than that of the first large-diameter pipe (821), and the small-diameter pipe (822) has an inner diameter adapted to a set installation inner diameter of the flow control member (83) so that the flow control member (83) can accurately control and meter the flow of the small-diameter pipe (822);

the water inlet end of the first large-diameter pipe (821) is connected with the water supply source (81), the water outlet end of the first large-diameter pipe (821) is connected with the water inlet end of the small-diameter pipe (822), and the water outlet end of the small-diameter pipe (822) is connected with the water spraying pipeline (85);

the flow control member (83) is provided at a communication portion of the first large-diameter pipe (821) and the small-diameter pipe (822).

3. The novel cooker of claim 2,

the flow control member (83) includes a flow control valve connected to the control means for controlling a communication area of the small-diameter pipe (822) with the first large-diameter pipe (821) and precisely controlling the amount of water introduced into the small-diameter pipe (822).

4. The novel cooker of claim 2,

the flow control component (83) comprises a first switch valve (831) connected with the control device and a flow meter (832);

the first switching valve (831) is arranged at the communication position of the small-diameter pipe (822) and the first large-diameter pipe (821) and is used for controlling the on-off of the small-pipe-diameter water supply pipeline (82);

the flow meter (832) is disposed in the small diameter tube (822) for precisely metering the amount of water entering the small diameter tube (822).

5. The novel cooker of claim 2,

the large-pipe-diameter water supply pipeline (84) comprises a second large-diameter pipe (841) and a second switch valve (842) connected with the control device;

the water inlet end of the second large-diameter pipe (841) is connected with the water supply source (81), and the water outlet end of the second large-diameter pipe (841) is connected with the water spraying pipeline (85);

the second switching valve (842) is connected to a pipe line of the second large-diameter pipe (841).

6. The novel cooker of claim 5,

the water supply source (81) includes a water inlet manifold (811) and a first three-way joint;

the water inlet end of the water inlet main pipe (811) extends out of the cooking machine and is connected with a water source, and the water outlet end of the water inlet main pipe (811) is communicated with the water inlet of the first three-way joint;

the water inlet ends of the first large-diameter pipe (821) and the second large-diameter pipe (841) are respectively connected with the water outlet of the first three-way joint.

7. The novel cooker of claim 5,

the water supply source (81) comprises a first water inlet pipe and a second water inlet pipe;

the water inlet end of the first water inlet pipe extends out of the cooking machine and then is connected with a purified water source, and the water outlet end of the first water inlet pipe is connected with the water inlet end of the first large-diameter pipe (821);

the water inlet end of the second water inlet pipe extends out of the cooker and then is connected with a tap water source, and the water outlet end of the second water inlet pipe is connected with the water inlet end of the second large-diameter pipe (841).

8. The novel cooker of claim 5,

the water spraying pipeline (85) comprises a three-way pipe (851) and a water spraying pipe (852);

the water outlet ends of the small-diameter pipe (822) and the second large-diameter pipe (841) are respectively connected with the water inlet of the three-way pipe (851);

the water inlet end of the water spray pipe (852) is communicated with the water outlet of the three-way pipe (851), the water outlet end of the water spray pipe (852) faces the wok, and the inner diameter of the water spray pipe (852) is larger than that of the small-diameter pipe (822).

9. The novel cooker of claim 1,

the dish frying machine further comprises a rack (10), and a tray (20) and a frying pan (30) which are arranged outside the rack (10), wherein the frying pan (30) is connected to a vertical wall (101) of the rack (10) through a mounting shaft, and a material containing box (40) for containing vegetables is clamped on the tray (20);

the tray (20) is connected with a deflection driving mechanism (50), the deflection driving mechanism (50) is rotatably arranged around a fixed shaft, the deflection driving mechanism (50) is connected with a control device arranged in the rack (10), and the deflection driving mechanism (50) is used for driving the tray (20) to deflect under the action of the control device so as to enable the material containing box (40) to reach the material charging position on the rack (10);

the feeding device is characterized in that a feeding driving mechanism (60) is further arranged on the rack (10), the feeding driving mechanism (60) extends into the rack (10) and then is connected with the control device, so that the material containing box (40) at a feeding position on the rack (10) is sucked tightly and then overturned, and the dishes contained in the material containing box (40) are fed into the frying pan (30).

10. The novel cooker of claim 9,

the vertical wall (101) is arranged at intervals relative to a standing position of a person on the stand (10), and the stand (10) further comprises a side wall (102) vertical to the vertical wall (101);

the frying pan (30) and the tray (20) are connected to the vertical wall (101);

the feeding driving mechanism (60) is connected to the side wall (102) and extends to the feeding position of the frame (10).

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