Roasting French fries machineTechnical field
The utility model relates to a kind of roasting French fries machine.
Background technology
Along with growth in the living standard, there have been increasing people to use roasting French fries machine to carry out the baking of French fries.At present, common roasting French fries machine on the market, the rotation of its roasting cage all is towards same direction, just than higher, the sealing of the opening of roasting cage just must be absolute reliable to the requirement of roasting cage, otherwise that food will be poured out the outside is next.
Chinese patent literature CN202207095U discloses the electronic roasting French fries machine of a kind of Portable on 05 02nd, 2012, include fuselage, is provided with a heating clamber, a cylinder, an electrothermal tube, a control room in the described fuselage; Described heating clamber is arranged in the described fuselage, and the baking space of French fries can be provided; Described cylinder is arranged in the described heating clamber and turns, and is used to provide the rest area of French fries, and described cylinder one side is provided with opening, can be used to pick and place French fries; Described electrothermal tube is installed in the described cylinder outside, and can adjust its heating direction around cylinder, is used for to heating in the cylinder; And described control room is arranged on described heating clamber one side, and inside, control room is provided with a motor, is mainly used in rotating described cylinder to toast action uniformly.Cylinder in this electronic roasting French fries machine can only rotate towards same direction.
The utility model content
But the purpose of this utility model aims to provide a kind of simple and reasonable rotating, roasting French fries machine that cost of manufacture is low, to overcome weak point of the prior art.
By a kind of roasting French fries machine of this purpose design, comprise heating chamber, the rotating cage that is arranged in the fuselage and be used for the motor that the driving rotating cage rotates, rotating cage is positioned at heating chamber, and its architectural feature is the positive and negative rotational mechanism that also comprises for driving the rotating cage rotating.
Described positive and negative rotational mechanism comprises for the synchronous motor power transmission shaft that connects rotating cage and motor, motor is arranged on the synchronous motor support, latch is horizontally installed on the synchronous motor power transmission shaft and with synchronous motor transmission shaft and rotates jointly, and the synchronous motor support is provided with counter-rotating location more than; Described motor is synchronous motor.
The outer wall of one side of described rotating cage is provided with the rotating cage power transmission shaft, and this rotating cage power transmission shaft is hubbed in the heating chamber by right support; One end and the rotating cage power transmission shaft of synchronous motor power transmission shaft join, and the other end of synchronous motor power transmission shaft and the output shaft of synchronous motor join.
The end face of described right support is several fonts.
The cross section of described rotating cage power transmission shaft is square, and the cross section of output shaft is square, and an end of synchronous motor power transmission shaft is provided with square open slot, and the other end of synchronous motor power transmission shaft is provided with square hole.
The outer wall of the opposite side of described rotating cage is provided with the rotating cage fixed axis, and this rotating cage fixed axis is hubbed in the heating chamber by left socle.
The end face of described left socle is several fonts.
Described counter-rotating location comprises the first counter-rotating locating slot and/or the second counter-rotating locating slot.
When the utility model utilized synchronous motor to run into certain radially resistance, the characteristic that can reverse realized the rotating control of synchronous motor, realizes the rotating function of rotating cage, thereby improved baking effect and the mouthfeel of French fries.
After the utility model adopts above-mentioned technical scheme, reduce the sealing difficulty of the opening of roasting cage, avoided using complicated electrical structure to go to control the rotating of motor, greatly reduced production cost of products.
The utility model can also be applied in the rotating and dough function of the rotating baking function of electric oven and bread producing machine except can being applied in roasting French fries machine.
But the utlity model has simple and reasonable rotating, characteristics that cost of manufacture is low.
Description of drawings
Fig. 1 is the decomposition texture schematic diagram of the utility model one embodiment.
Fig. 2 is the decomposition texture schematic diagram of positive and negative rotational mechanism.
Schematic diagram when Fig. 3 clockwise rotates for the positive and negative rotational mechanism edge.
Schematic diagram when Fig. 4 rotates counterclockwise for the positive and negative rotational mechanism edge.
Among the figure: 1 is left socle, and 2 is the rotating cage fixed axis, and 3 is rotating cage, 4 is the rotating cage power transmission shaft, and 5 is right support, and 6 is latch, 7 is the synchronous motor power transmission shaft, and 7.1 is open slot, and 7.2 is square hole, 8 is the synchronous motor support, 8.1 be the first counter-rotating locating slot, 8.2 is the second counter-rotating locating slot, 9 is synchronous motor, 9.1 be output shaft, 10 is fuselage.
The specific embodiment
Below in conjunction with drawings and Examples the utility model is further described.
Referring to Fig. 1-Fig. 4, this roasting French fries machine comprises heating chamber, the rotating cage 3 that is arranged in thefuselage 10 and the motor that is used for driving rotating cage 3 rotations, and rotating cage 3 is positioned at heating chamber, also comprises for the positive and negative rotational mechanism that drives rotating cage 3 rotatings.
Described positive and negative rotational mechanism comprises for the synchronous motorpower transmission shaft 7 that connects rotating cage 3 and motor, motor is arranged on thesynchronous motor support 8,latch 6 is horizontally installed on the synchronous motorpower transmission shaft 7 and with synchronousmotor transmission shaft 7 and rotates jointly, andsynchronous motor support 8 is provided with counter-rotating location more than; Described motor issynchronous motor 9.
The outer wall of one side of rotating cage 3 is provided with rotating cagepower transmission shaft 4, and this rotating cagepower transmission shaft 4 is hubbed in the heating chamber byright support 5; One end and the rotating cagepower transmission shaft 4 of synchronous motorpower transmission shaft 7 join, and the output shaft 9.1 of the other end of synchronous motorpower transmission shaft 7 andsynchronous motor 9 joins.
In the present embodiment, the cross section of rotating cagepower transmission shaft 4 is square, and the cross section of output shaft 9.1 is square, and an end of synchronous motorpower transmission shaft 7 is provided with square open slot 7.1, and the other end of synchronous motorpower transmission shaft 7 is provided with square hole 7.2.
The outer wall of the opposite side of rotating cage 3 is provided with rotating cage fixed axis 2, and this rotating cage fixed axis 2 is hubbed in the heating chamber by left socle 1.
The end face of left socle 1 andright support 5 is several fonts respectively.
In the present embodiment, the counter-rotating location comprises the first counter-rotating locating slot 8.1 and/or the second counter-rotating locating slot 8.2.Certainly, this first counter-rotating locating slot 8.1 and the second counter-rotating locating slot 8.2 also can adopt other counter-rotating location to substitute, such as, the first counter-rotating locator protrusions and the second counter-rotating locator protrusions.When a counter-rotating location structure only was set, rotating cage 3 can rotate near 360 degree, when two counter-rotating location structures are set, the rotation of rotating cage 3 can be limited to any angle between 60 ~ 360 degree.
During assembling, synchronous motorpower transmission shaft 7 is pierced into the square output shaft 9.1 ofsynchronous motor 9 by square hole 7.2, and inserting synchronous motorpower transmission shaft 7 simultaneously and output shaft 9.1 is fixed bylatch 6, thelatch 6 of this moment has just also played the effect that connects synchronous motorpower transmission shaft 7 and output shaft 9.1 simultaneously.Rotating cagepower transmission shaft 4 is to be riveted on the sidewall of rotating cage 3, can be placed directly in the square aperture groove the inside of synchronous motorpower transmission shaft 7, has so just realized that the power ofsynchronous motor 9 is to the transmission of rotating cage 3.
During work,synchronous motor 9 rotates towards a direction, whensynchronous motor 9 drive rotating cages 3 turn to certain angle,latch 6 is run into the counter-rotating location onsynchronous motor support 8 one sides, such as run into first counter-rotating during locating slot 8.1,latch 6 runs into certain big resistance,synchronous motor 9 will rotate towards the another one direction, and run into second counter-rotating of opposite side ofsynchronous motor support 8 during locating slot 8.2 whenlatch 6,latch 6 runs into certain big resistance again,synchronous motor 9 will rotate in the same direction as, and so anyway, the rotating that rotating cage 3 goes round and begins again is rotated.