CN111802904A - Vehicle-mounted electric cooker with shock-absorbing effect - Google Patents

Abstract

The invention discloses a vehicle-mounted electric cooker with a shock-absorbing effect, which comprises a body and a shock-absorbing cavity with an upward opening and a rightward opening, wherein the shock-absorbing cavity is internally provided with a main body, the main body is internally provided with a heating cavity with a rightward opening, the left wall of the heating cavity is communicated with a pan outlet compression spring cavity, the bottom wall of the pan outlet compression spring cavity is communicated with a heating control compression spring cavity, and the right wall of the heating control compression spring cavity is communicated with a heating control moving cavity.

Description

Vehicle-mounted electric cooker with shock-absorbing effect

Technical Field

The invention relates to the technical field of automobile articles or automobile parts, in particular to a vehicle-mounted electric cooker with a shock absorption effect.

Background

One of the main transportation modes in the transportation industry is that the rice cooker is transported by a truck on land, long-time transportation of the truck on land is an examination for drivers, the drivers often arrive at a place with few restaurants in the middle of the day, even if the restaurants exist, the price of the rice cooker is unacceptable for the drivers, so the drivers usually solve the diet problem on the truck, the long-time use of dry food directly reduces the life quality of the drivers, the common rice cooker is not easy to keep stable in a bumpy truck, dishes needing heat are easy to be pushed out of a bowl, the taste of the dishes is difficult to get off the throat, and therefore the vehicle-mounted rice cooker which can be installed in the truck and has the function of shock absorption is required to be designed.

Disclosure of Invention

The invention aims to provide a vehicle-mounted electric cooker with a shock absorption effect, which is used for overcoming the defects in the prior art.

The invention relates to a vehicle-mounted electric cooker with a shock-absorbing effect, which comprises a body and a shock-absorbing cavity with an upward opening and a rightward opening, wherein the shock-absorbing cavity is internally provided with a main body, the main body is internally provided with a heating cavity with a rightward opening, the left wall of the heating cavity is communicated with a pan-out compression spring cavity, the bottom wall of the pan-out compression spring cavity is communicated with a heating control compression spring cavity, the right wall of the heating control compression spring cavity is communicated with a heating control moving cavity, the bottom wall of the heating cavity is communicated with a heating moving cavity, the bottom wall of the heating moving cavity is communicated with an electrified moving compression spring cavity, the right wall of the heating control compression spring cavity is communicated with a thermal expansion compression spring cavity, the right side of the top wall of the heating cavity is communicated with a closed door cavity, and the left wall of the closed door, the utility model discloses a portable cooker with wheel cavity, including outer pot diapire, outer pot, go out pot slider left wall and be provided with out pot compression spring, go out pot compression spring and keep away from that the one end of going out pot slider is fixed in go out pot compression spring's one end be fixed in go out pot compression spring cavity's left wall upper left wall is last, be provided with out door clutch cavity in the power pulley cavity right wall that opens the door, it is provided with the button and recovers and remove the chamber to open door clutch cavity diapire intercommunication, button recovers and removes chamber right wall intercommunication and is provided with the rack chamber, be provided with four group ball bearing cavities on fuselage diapire four sides, host computer body four sides are provided with four groups shock attenuation epicoeles, but heating intracavity horizontal slip is provided with the outer pot, the outer pot can be followed heating chamber right side is taken out, be provided with the ascending inner bag chamber of opening in the outer pot, the rotatable inner bag that is provided with in inner bag intracavity, the inner bag can with the outer pot separation, what outer pot diapire The utility model discloses a heat preservation device, including the outer pot, go out pot compression spring chamber rear side and be provided with switch door gear, switch door gear passes through rack and pinion meshing and gear separation and closes the function that the door opened and closed, the inner bag below is provided with the heating heat preservation device, the heating heat preservation device has realized through the expend with heat and contract with cold cooperation cam push rod of metal and spring and has begun heating and heat retaining function and restriction the outer pot with popping out of inner bag, the shock attenuation epicoele with be provided with shock absorber between the ball-bearing chamber, shock absorber realizes through car single tube shock attenuation system principle the function of moving away to avoid possible.

On the basis of the technical scheme, the rear wall of the pan outlet sliding block enters the rack cavity and is fixedly provided with a rack, the rear side of the rack is meshed with a gear, one side of the gear, which is far away from the rack, is meshed with a button recovery rack, one end of the button recovery rack, which extends rightwards, is fixedly provided with a button recovery compression spring, one end of the button recovery compression spring, which is far away from the button recovery rack, is fixedly provided with a button recovery rod, one end of the button recovery rod, which is far away from the button recovery compression spring, is fixedly provided with a button extending out of the machine body, one end of the button, which is far away from the machine body, extends into the door opening clutch cavity, the tail end of the button is provided with a door opening reversing branch conical cavity, a door opening reversing branch conical block is rotatably arranged in the door opening reversing branch conical cavity, one end of the door opening reversing branch, the door opening reversing mechanism is characterized in that a door opening reversing main gear is fixedly arranged at one end, away from the door opening reversing fulcrum cone block, of the door opening reversing fulcrum shaft, a door opening reversing gear shaft is fixedly arranged at one side, away from the door opening reversing fulcrum shaft, of the door opening reversing main gear, a door opening reversing gear is fixedly arranged at one end, away from the door opening reversing main gear, of the door opening reversing gear shaft, teeth are arranged on the circumferential wall of the door opening reversing gear and one side, away from the door opening reversing gear shaft, of the door opening reversing gear shaft, a door opening friction protection cavity is arranged at one side, away from the door opening reversing main gear, of the door opening gear shaft, a door opening motor shaft is arranged in the door opening friction protection cavity, the door opening gear and the door opening motor shaft are in transmission connection through, the left side of the door opening reversing gear can be meshed or separated with the door opening power slave gear, the door opening power slave gear shaft is fixedly arranged on the left side of the gear, the door opening power slave gear shaft is far away from the door opening power slave gear shaft, the door opening power slave gear shaft extends into one end of the door opening power slave gear shaft and the tail end of the door opening power slave gear shaft is fixedly provided with the door opening power slave belt wheel, the door opening power slave belt wheel is far away from the door opening power slave gear shaft, the door opening power slave belt wheel shaft is far away from the door opening power slave belt wheel, the door opening power slave belt wheel is extended into one end of the door opening execution pulley chamber and the tail end of the door opening execution pulley chamber is fixedly provided with the door opening execution master belt wheel, the door opening execution shaft extends into the door opening execution pulley chamber, the door opening execution shaft is far away from the door opening execution pulley shaft, the door opening execution pulley shaft is extended The door opening power driven wheel shaft extends into one end of the door opening clutch cavity, one side, away from the door opening power driven wheel shaft, of the door opening power driven wheel shaft is provided with teeth meshed with the door opening reversing gear, one end, away from the door opening power driven wheel shaft, of the door opening power driven wheel shaft extends into the door opening power driven wheel cavity, the tail end of the door opening power driven wheel shaft is fixedly provided with the door opening power driven wheel, the door opening power driven wheel and the door opening power driven wheel are in transmission connection through the door opening power belt, and the door opening execution main belt wheel and the door opening execution belt wheel are in transmission connection through the door opening execution belt.

On the basis of the technical scheme, teeth are arranged below the middle of the outer wall of the bottom of the inner container, a uniform heat gear is detachably meshed with the teeth, the circumferential wall of the uniform heat gear and the wall close to the inner container are provided with the teeth, the uniform heat gear penetrates through the outer pot sliding cavity, one side of the uniform heat gear, far away from the inner container, enters the heating moving cavity and is fixedly provided with a uniform heat shaft, one side of the uniform heat gear, far away from the inner container, is provided with a heating push rod extending up and down, one end of the heating push rod, close to the uniform heat gear, is provided with a uniform heat conical cavity, one end of the uniform heat shaft, far away from the uniform heat gear, extends into the uniform heat conical cavity, the tail end of the uniform heat shaft is fixedly provided with a uniform heat conical block, the outer surface of the heating push rod is fixedly provided with an electrifying slide block, the electrify, the one end that circular telegram removed compression spring kept away from the circular telegram slider is fixed on the diapire in circular telegram removed compression spring chamber, circular telegram slider about with the antetheca is fixed to be provided with logical pole, it can the butt and the separation be provided with the coil to lead to the pole top, circular telegram slider is left lead to the pole and extend left and the end is fixed to be provided with out a pot restraint lever, it keeps away from to go out a pot restraint lever the one end of leading to the pole upwards stretches into in the heating chamber and is used for pushing block behind the outer pot go out a pot slider, even hot gear rear side meshing is provided with even hot power gear, even hot power gear downside is fixed to be provided with the even hot power axle that extends from top to bottom, even hot power axle is kept away from the fixed even hot motor that is provided with output shaft to the one end of even hot power gear, the one end butt, the top wall of the heating control rod is provided with a heating initial cavity and a heat preservation cavity, one end of the heating control rod, far away from the heating push rod, extends into the heating control moving cavity, the tail end of the heating control rod is fixedly provided with a heating control push rod which extends up and down, the left wall of the heating control push rod is fixedly provided with a heating control compression spring, one end of the heating control compression spring, far away from the heating control push rod, is fixed on the left wall of the heating control moving cavity, one end of the heating control push rod, far away from the heating control push rod, extends into the thermal expansion compression spring cavity, the tail end of the heating control compression spring is abutted with a thermal expansion lug, the abutting part of the thermal expansion lug and the heating control rod is a slope, the bottom wall of the thermal expansion lug is fixedly provided with a thermal expansion compression spring, one end of the thermal expansion compression spring, far away from the thermal expansion lug, is fixed on the bottom wall of the, the right side of the top wall of the thermal expansion lug is fixedly provided with a thermal expansion push rod, one end, far away from the thermal expansion lug, of the thermal expansion push rod is fixedly provided with a thermal expansion rod, and the thermal expansion rod is abutted to the outer wall of the bottom of the inner container.

On the basis of the technical scheme, a ball is rotatably arranged in the ball bearing cavity, a damping outer cylinder is fixedly arranged on one side of the ball far away from the ball bearing cavity, a damping outer cylinder spring support is fixedly arranged on the outer surface of one side of the damping outer cylinder, which is close to the ball, the damping outer cylinder is filled with hydraulic oil, a damping slide block is slidably arranged in the damping outer cylinder, the damping slide block is provided with a plurality of holes in a penetrating way, one side of the damping slide block, which is far away from the ball, is fixedly provided with a damping push rod, a shock absorption shaft extending forwards and backwards is arranged in the shock absorption upper cavity, the shock absorption push rod is fixedly connected with the shock absorption shaft, a damping push rod spring support is fixedly arranged on the outer surface of one end of the damping push rod close to the damping shaft, and a damping compression spring is fixedly arranged between the damping push rod spring support and the damping outer cylinder spring support.

The invention has the beneficial effects that: the invention completes the functions of opening and closing the door by the engagement of the gear and the rack and the clutch of the gear, realizes the functions of starting heating and heat preservation and limiting the popping of the pot when the pot is just put into the pot by the expansion and contraction of the metal and the cam push rod and the spring, and finally realizes the shock-absorbing effect of the electric cooker by the principle of a single-tube shock absorption system of an automobile.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a vehicle-mounted electric rice cooker with shock-absorbing effect according to the present invention;

FIG. 2 is a schematic view of the present invention taken along the line A-A of FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 2 taken along the line B-B;

FIG. 4 is a schematic view of the present invention taken along the line C-C of FIG. 1;

FIG. 5 is a schematic view of the structure of FIG. 1 taken in the direction D-D;

FIG. 6 is an enlarged view of the structure of the region E in FIG. 1 according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-6, the vehicle-mounted electric cooker with shock absorbing effect according to the embodiment of the invention comprises a main body 1 and a shock absorbing cavity 2 with an upward opening and a rightward opening, wherein the shock absorbing cavity 2 is arranged in the main body 1, a main body 3 is movably arranged in the shock absorbing cavity 2, a heating cavity 16 with a rightward opening is arranged in the main body 3, a left wall of the heating cavity 16 is communicated with a pan outlet compression spring cavity 11, a bottom wall of the pan outlet compression spring cavity 11 is communicated with a heating control compression spring cavity 6, a right wall of the heating control compression spring cavity 6 is communicated with a heating control moving cavity 8, a bottom wall of the heating cavity 16 is communicated with a heating moving cavity 27, a bottom wall of the heating moving cavity 27 is communicated with an electrified moving compression spring cavity 81, a right wall of the heating control compression spring cavity 6 is communicated with a thermal expansion compression spring cavity 20, and a top wall of the heating cavity 16, the left wall of the closed door cavity 15 is internally provided with a door opening execution belt wheel cavity 34, the rear side of the right wall of the door opening execution belt wheel cavity 34 is provided with a door opening power belt wheel cavity 38, the right wall of the door opening power belt wheel cavity 38 is internally provided with a door opening clutch cavity 44, the bottom wall of the door opening clutch cavity 44 is communicated with a button restoring moving cavity 60, the button restoring moving cavity 60 is communicated with a rack cavity 64, four sides of the bottom wall of the machine body 1 are provided with four groups of ball bearing cavities 69, four sides of the main machine body 3 are provided with four groups of damping upper cavities 77, an outer pot 61 can slide left and right in the heating cavity 16, the outer pot 61 can be taken out from the right side of the heating cavity 16, the outer pot 61 is internally provided with an inner pot cavity 85 with an upward opening, the inner pot 62 can rotate in the inner pot cavity 85 and can be separated from the outer pot 61, the bottom wall of the outer pot 61 is provided with an outer, the left wall of the outer pot 61 is connected with a pot outlet sliding block 12 in an abutting mode, the left wall of the pot outlet sliding block 12 is fixedly provided with a pot outlet compression spring 10, one end of the pan-out compression spring 10 far away from the pan-out sliding block 12 is fixed on the left wall of the pan-out compression spring cavity 11, a door opening and closing device 901 is arranged at the rear side of the pot outlet compression spring cavity 11, the door opening and closing device 901 completes the functions of opening and closing the door through the engagement of a gear and a rack and the engagement of a gear, a heating and heat-insulating device 902 is arranged below the inner container 62, the heating and heat-insulating device 902 realizes the functions of heating and heat insulation and limits the popping of the outer pot 61 and the inner container 62 by the expansion and contraction of metal and the cooperation of a cam push rod and a spring, a shock absorbing device 903 is arranged between the shock absorbing upper cavity 77 and the ball bearing cavity 69, and the shock absorbing device 903 realizes the shock absorbing function of the main machine body 3 through the principle of an automobile single tube shock absorbing system.

In one embodiment, the opening and closing device 901 is described in detail, the rear wall of the pan-out sliding block 12 enters the rack cavity 64 and is fixedly provided with a rack 63, the rear side of the rack 63 is engaged with a gear 65, one side of the gear 65 away from the rack 63 is engaged with a button restoring rack 59, one end of the button restoring rack 59 extending rightward is fixedly provided with a button restoring compression spring 58, one end of the button restoring compression spring 58 away from the button restoring rack 59 is fixedly provided with a button restoring rod 56, one end of the button restoring rod 56 away from the button restoring compression spring 58 is fixedly provided with a button 55 extending out of the body 1, one end of the button 55 away from the body 1 extends into the door-opening clutch cavity 44 and the tail end is provided with a door-opening reversing conical cavity 52, the door-opening reversing conical block 51 is rotatably provided in the door-opening conical cavity 52, one end of the door opening reversing sub-conical block 51, which is far away from the door opening reversing sub-conical cavity 52, is fixedly provided with a door opening reversing fulcrum shaft 50, one end of the door opening reversing fulcrum shaft 50, which is far away from the door opening reversing sub-conical block 51, is fixedly provided with a door opening reversing main gear 49, one side of the door opening reversing main gear 49, which is far away from the door opening reversing fulcrum shaft 50, is fixedly provided with a door opening reversing gear shaft 48, one end of the door opening reversing gear shaft 48, which is far away from the door opening reversing main gear 49, is fixedly provided with a door opening reversing gear 45, the circumferential wall of the door opening reversing gear 45 and one side, which is far away from the door opening reversing gear shaft 48, are both provided with teeth, the rear side of the door opening reversing gear shaft 48 is engaged with a door opening gear 47, one side, the door opening gear 47 and the door opening motor shaft 43 are in transmission connection through friction force, one end of the door opening motor shaft 43, which is far away from the door opening gear 47, is fixedly provided with a door opening power motor 42 which outputs the shaft to the right, the left side of the door opening reversing gear 45 is provided with a door opening power driven gear 53 in a meshing or separating manner, the left side of the door opening power driven gear 53 is fixedly provided with a door opening power driven gear shaft 54, one end, which is far away from the door opening power driven gear 53, of the door opening power driven gear shaft 54 extends into the door opening power driven gear cavity 38, the tail end of the door opening power driven gear shaft 36 is fixedly provided with a door opening power driven pulley 36, one end, which is far away from the door opening power driven gear shaft 54, of the door opening power driven pulley shaft 35 is fixedly provided with a door opening execution main pulley shaft 35, one end, the front end of the right wall of the door opening execution pulley cavity 34 is provided with a door opening execution shaft 14 extending leftwards and rightwards, the door opening execution shaft 14 extends into one end of the door opening execution pulley cavity 34 and is fixedly provided with a door opening execution pulley 13, one end of the door opening execution shaft 14 far away from the door opening execution pulley 13 extends into the closed door cavity 15 and the tail end of the door opening execution shaft is fixedly provided with a closed door 31, the fixed position of the door opening execution shaft 14 and the closed door 31 is the middle position of the upper end of the closed door 31, the door opening clutch cavity 44 is provided with a door opening power main pulley shaft 40 extending leftwards and rightwards in a total ratio manner, one end of the door opening power main pulley shaft 40 extending into the door opening clutch cavity 44 is fixedly provided with a door opening power driven wheel 41, one side of the door opening power driven wheel 41 far away from the door opening power main pulley shaft 40 is provided with teeth meshed with the door opening reversing gear 45, and one end of the door opening power main pulley shaft 40 far The door opening power main belt wheel 37 is fixedly arranged at the end, the door opening power main belt wheel 37 and the door opening power auxiliary belt wheel 36 are in transmission connection through the door opening power belt 39, and the door opening execution main belt wheel 33 and the door opening execution belt wheel 13 are in transmission connection through the door opening execution belt 32.

In addition, in an embodiment, the heating and heat-preserving device 902 is described in detail, a teeth and a detachable meshing heat equalizing gear 23 are arranged below the middle of the bottom outer wall of the inner container 62, teeth are arranged on the circumferential wall of the heat equalizing gear 23 and the wall close to the inner container 62, the heat equalizing gear 23 penetrates through the outer pot sliding cavity 84, one side of the heat equalizing gear 23, which is far away from the inner container 62, enters the heating moving cavity 27 and is fixedly provided with a heat equalizing shaft 24, one side of the heat equalizing gear 23, which is far away from the inner container 62, is provided with a heating push rod 86 extending up and down, one end of the heating push rod 86, which is close to the heat equalizing gear 23, is provided with a heat equalizing conical cavity 26, one end of the heat equalizing shaft 24, which is far away from the heat equalizing gear 23, extends into the heat equalizing conical cavity 26, the tail end of the heat equalizing conical block 25 is fixedly provided, and an, circular telegram slider 79 stretches into circular telegram removes compression spring chamber 81 and the fixed circular telegram that is provided with of diapire and removes compression spring 80, circular telegram removes compression spring 80 and keeps away from circular telegram slider 79's one end is fixed circular telegram removes compression spring chamber 81's diapire, circular telegram slider 79 is left and right with the fixed circular telegram pole 22 that is provided with of antetheca, circular telegram pole 22 top can the butt and the separation is provided with coil 21, circular telegram slider 79 is left circular telegram pole 22 extends left and the end is fixed and is provided with out pot restriction lever 28, it keeps away from to go out pot restriction lever 28 the one end of circular telegram pole 22 upwards stretches into in the heating chamber 16 and is used for pushing block behind the outer pot 61 go out pot slider 12, the meshing of the even thermal power gear 23 rear side is provided with even thermal power gear 68, the even thermal power shaft 67 that extends, the one end of the even heat power shaft 67 far away from the even heat power gear 68 is fixedly provided with an even heat motor 66 with an upward output shaft, one end of the heating push rod 86 far away from the even heat gear 23 is abutted to be provided with a heating control rod 4, the top wall of the heating control rod 4 is provided with a heating initial cavity 29 and a heat preservation cavity 30, one end of the heating control rod 4 far away from the heating push rod 86 extends into the heating control moving cavity 8, the tail end of the heating control moving cavity is fixedly provided with a heating control push rod 9 extending up and down, the left wall of the heating control push rod 9 is fixedly provided with a heating control compression spring 7, one end of the heating control compression spring 7 far away from the heating control push rod 9 is fixed on the left wall of the heating control moving cavity 8, one end of the heating control push rod 9 far away from the heating control rod 4 is abutted to the pan discharging slide block 12, one end of the heating control rod 4 far away from the heating control push The heating device is characterized in that a thermal expansion bump 19 is arranged, the abutting position of the thermal expansion bump 19 and the heating control rod 4 is a slope, a thermal expansion compression spring 83 is fixedly arranged on the bottom wall of the thermal expansion bump 19, one end, far away from the thermal expansion bump 19, of the thermal expansion compression spring 83 is fixed on the bottom wall of a thermal expansion compression spring cavity 20, a thermal expansion push rod 18 is fixedly arranged on the right side of the top wall of the thermal expansion bump 19, thermal expansion magnetic steel 17 is arranged at one end, far away from the thermal expansion bump 19, of the thermal expansion push rod 18, and the thermal expansion magnetic steel 17 abuts against the bottom outer wall of the inner container 62.

In addition, in one embodiment, the suspension apparatus 903 is described in detail, a ball 70 is rotatably disposed in the ball bearing cavity 69, a damping outer cylinder 71 is fixedly disposed on a side of the ball 70 away from the ball bearing cavity 69, a damping outer cylinder spring support 72 is fixedly disposed on an outer surface of a side of the damping outer cylinder 71 close to the ball 70, the damping outer cylinder 71 is filled with hydraulic oil, a damping slider 74 is slidably disposed in the damping outer cylinder 71, the damping slider 74 is disposed with a plurality of holes, a damping push rod 75 is fixedly disposed on a side of the damping slider 74 away from the ball 70, a damping shaft 78 extending forward and backward is disposed in the damping upper cavity 77, the damping push rod 75 is fixedly connected to the damping shaft 78, a damping push rod spring support 76 is fixedly disposed on an outer surface of an end of the damping push rod 75 close to the damping shaft 78, a damping compression spring 73 is fixedly arranged between the damping push rod spring bracket 76 and the damping outer cylinder spring bracket 72.

In an initial state, the button 55, the door opening reversing conical block 51, the door opening reversing fulcrum shaft 50, the door opening reversing main gear 49, the door opening reversing gear shaft 48, the button restoring compression spring 58, the button restoring rack 59, the button restoring rod 56 and the door opening reversing gear 45 are positioned at the leftmost side, the door opening reversing gear 45 and the door opening power driven wheel 41 are in meshed connection, one end of the closed door 31 far away from the door opening executing shaft 14 faces upwards, the pan discharging compression spring 10 and the heating control compression spring 7 are in a no-load state, the pan discharging slide block 12, the rack 63, the heating control push rod 9 and the heating control rod 4 are positioned at a right limit position, the uniform heating gear 23, the uniform heating shaft 24, the uniform heating conical block 25, the heating push rod 86, the electrifying slide block 79 and the electrifying rod 22 are positioned at a lower limit position, the heating push rod 86 is located in the heating initial cavity 29, the thermal expansion magnetic steel 17 is magnetic, the thermal expansion bump 19 is adsorbed by the thermal expansion rod 17 and located at the upper limit position, at this time, the thermal expansion compression spring 83 is pulled to accumulate elastic potential energy, the outer pot 61 and the inner pot 62 are located outside the machine body 1, rice and water are added into the inner pot 62 and then placed into the inner pot 62, then the inner pot 62 and the outer pot 61 are pushed into the heating cavity 16 to further push the pot discharging slide block 12 to move left, the pot discharging compression spring 10 is pressed to accumulate elastic potential energy, the pot discharging slide block 12 drives the heating control push rod 9 to move left, the heating control compression spring 7 is pressed to accumulate elastic potential energy, the heating control push rod 9 drives the heating control rod 4 to move left, the heating push rod 86 leaves the heating initial cavity 29 and rises, the heating push rod 86 moves up to drive the electrifying slide block 79 to move up, the power-on slider 79 moves upwards to make the power-on movable compression spring 80 to be pulled to accumulate elastic potential energy, the power-on slider 79 moves upwards to drive the power-on rod 22 to move upwards, the power-on rod 22 abuts against the coil 21 and enables the coil 21 to be powered on, the power-on rod 22 moves upwards to drive the pan-out limiting rod 28 to move upwards, the pan-out limiting rod 28 moves upwards to organize the pan-out slider 12 to rebound rightwards, the heating push rod 86 drives the uniform heat cone block 25 to move upwards, the uniform heat cone block 25 moves upwards to drive the uniform heat shaft 24 to move upwards, the uniform heat shaft 24 moves upwards to drive the uniform heat gear 23 to move upwards, the uniform heat gear 23 is meshed with the bottom of the inner container 62, the pan-out slider 12 moves leftwards to drive the rack 63 to move leftwards, the rack 63 moves leftwards to drive the button recovery rack 59 to move rightwards through the gear 65, the button recovery rack 59 drives the button recovery compression spring 58 to move rightwards, the button restoring compression spring 58 moves rightwards to drive the button restoring rod 56 to move rightwards, the button restoring rod 56 moves rightwards to drive the button 55 to move rightwards, the button 55 moves rightwards to drive the door opening reversing conical block 51 to move rightwards, the door opening reversing conical block 51 moves rightwards to drive the door opening reversing fulcrum shaft 50 to move rightwards, the door opening reversing fulcrum shaft 50 moves rightwards to drive the door opening reversing main gear 49 to move rightwards, the door opening reversing main gear 49 moves rightwards to drive the door opening reversing gear shaft 48 to move rightwards, the door opening reversing gear shaft 48 moves rightwards to drive the door opening reversing gear 45 to move rightwards, the door opening reversing gear 45 is separated from the door opening power wheel 41 and is meshed with the door opening power driven gear 53, the door opening power motor 42 rotates to drive the door opening motor shaft 43 to rotate, and the door motor shaft 43 rotates to drive the door opening gear 47 to rotate, the door opening gear 47 rotates to drive the door opening reversing main gear 49 to rotate, the door opening reversing main gear 49 rotates to drive the door opening reversing gear shaft 48 to rotate, the door opening reversing gear shaft 48 rotates to drive the door opening reversing gear 45 to rotate, the door opening reversing gear 45 rotates to drive the door opening power driven gear 53 to rotate, the door opening power driven gear 53 rotates to drive the door opening power driven gear shaft 54 to rotate, the door opening power driven gear shaft 54 rotates to drive the door opening power main belt pulley 37 to rotate, the door opening power main belt pulley 37 rotates to drive the door opening execution main belt pulley shaft 35 to rotate, the door opening execution main belt pulley shaft 35 rotates to drive the door opening execution main belt pulley 33 to rotate, the door opening execution main belt pulley 33 rotates to drive the door opening execution belt pulley 13 to rotate through the door opening execution belt 32, and the door opening execution belt pulley 13 rotates to drive the door opening execution shaft 14 to, the door opening execution shaft 14 rotates to drive the closing door 31 to rotate until the heating cavity 16 is closed, the uniform heating motor 66 rotates to drive the uniform heating power shaft 67 to rotate, the uniform heating power shaft 67 rotates to drive the uniform heating power gear 68 to rotate, the uniform heating power gear 68 rotates to drive the uniform heating gear 23 to rotate, the uniform heating gear 23 rotates to drive the inner container 62 to rotate, the inner container 62 rotates to heat more uniformly, when the temperature in the inner container 62 reaches a preset temperature, the thermal expansion magnetic steel 17 is heated and demagnetized, the thermal expansion push rod 18 loses the magnetic attraction of the thermal expansion magnetic steel 17, the thermal expansion compression spring 83 releases elastic potential energy to drive the thermal expansion push rod 18 and the thermal expansion lug 19 to move downwards, the thermal expansion lug 19 moves downwards to pass through the heating control rod 4 to move leftwards, the heating control rod 4 moves leftwards, the heating push rod 86 moves leftwards when the energizing movement compression spring 80 releases the elastic potential energy and falls into the heat preservation cavity 30, the heating push rod 86 drives the electrifying slide block 79 to move downwards, the electrifying slide block 79 moves downwards to drive the electrifying rod 22 to move downwards, the electrifying rod 22 moves downwards to be separated from the coil 21, the coil 21 is not heated any more after being powered off, the heating push rod 86 moves downwards to drive the uniform heat conical block 25 to move downwards, the uniform heat conical block 25 moves downwards to drive the uniform heat shaft 24 to move downwards, the uniform heat shaft 24 moves downwards to drive the uniform heat gear 23 to move downwards, the inner container 2 is separated from the inner container 62, the inner container 62 does not rotate any more, when the temperature in the inner container 62 decreases, the thermal expansion magnetic steel 17 recovers to magnetically adsorb the thermal expansion push rod 18, the thermal expansion push rod 18 drives the thermal expansion lug 19 to move upwards, the thermal expansion compression spring 83 is pulled to accumulate elastic potential energy, the heating control rod 4 moves downwards under the elastic potential energy released by the heating control compression spring 7, and the heating push rod 86 leaves the heat preservation cavity 30 to move upwards, the heating action is continued, the heat preservation effect is achieved in such a reciprocating way, in the heating process, when a truck passes through a bumpy area, the machine body 1 shakes up and down to drive the ball 70 to move up and down, the ball 70 moves up and down to drive the shock absorption outer cylinder 71 to move up and down, the shock absorption outer cylinder 71 drives the shock absorption outer cylinder spring support 72 to move up and down, the shock absorption outer cylinder 71 moves up and down and moves relative to the shock absorption slide block 74, as the shock absorption outer cylinder 71 is filled with hydraulic oil, when the hydraulic oil passes through a small hole in the shock absorption slide block 74, a damping effect is generated, the shock absorption outer cylinder 71 moves up and down, under the damping action, the shock absorption slide block 74, the shock absorption push rod spring support 76, the shock absorption shaft 78, the main machine body 3 and the shock absorption push rod 75 are not moved, at, the thermal expansion magnetic steel 17 is demagnetized when heated, the thermal expansion push rod 18 loses the magnetic attraction of the thermal expansion magnetic steel 17, the thermal expansion compression spring 83 releases elastic potential energy to drive the thermal expansion push rod 18 and the thermal expansion lug 19 to move downwards, the thermal expansion lug 19 pushes the heating control rod 4 to move right, the heating push rod 86 moves left and right downwards in the heat preservation cavity 30 under the action of the power-on moving compression spring 80, the heating push rod 86 moves downwards to drive the power-on slider 79 to move downwards, the power-on slider 79 moves downwards to drive the power-on rod 22 to move downwards, the power-on rod 22 moves downwards to drive the pan-out limiting rod 28 to move downwards, the pan-out limiting rod 28 moves downwards to release the position locking of the pan-out slider 12, the button 55 is pressed to move left under the above state, the button 55 drives the button opening reversing support cone block 51 to move left, the door opening reversing support cone block 51 moves left to drive the door opening reversing fulcrum 50 to move left, the door opening reversing fulcrum shaft 50 moves leftwards to drive the door opening reversing main gear 49 to move leftwards, the door opening reversing main gear 49 moves leftwards to drive the door opening reversing gear shaft 48 to move leftwards, the door opening reversing gear shaft 48 moves leftwards to drive the door opening reversing gear 45 to move leftwards and rightwards, the door opening reversing gear 45 and the door opening power are separated from the gear 53 and then meshed with the door opening power driven wheel 41, the door opening power motor 42 rotates to drive the door opening motor shaft 43 to rotate, the door opening motor shaft 43 rotates to drive the door opening gear 47 to rotate, the door opening gear 47 rotates to drive the door opening reversing main gear 49 to rotate, the door opening reversing main gear 49 rotates to drive the door opening reversing gear shaft 48 to rotate, the door opening reversing gear shaft 48 rotates to drive the door opening reversing gear 45 to rotate, and the door opening reversing gear 45 rotates to drive the door, the door opening power driven wheel 41 rotates to drive the door opening power driven wheel 41 to rotate, the door opening power driven wheel 41 rotates to drive the door opening power main belt wheel shaft 40 to rotate, the door opening power main belt wheel shaft 40 rotates to drive the door opening power main belt wheel 37 to rotate, the door opening power main belt wheel 37 rotates to drive the door opening power auxiliary belt wheel 36 to rotate through the door opening power belt 39, the door opening power auxiliary belt wheel 36 rotates to drive the door opening execution main belt wheel shaft 35 to rotate, the door opening execution main belt wheel shaft 35 rotates to drive the door opening execution main belt wheel 33 to rotate, the door opening execution main belt wheel 33 rotates to drive the door opening execution belt wheel 13 to rotate through the door opening execution belt 32, the door opening execution belt wheel 13 rotates to drive the door opening execution shaft 14 to rotate, and the door opening execution shaft 14 rotates to drive the closed door 31 to rotate upwards to open the heating cavity 16, the button 55 moves leftwards to drive the button restoring rod 56 to move leftwards, when the button restoring rod 56 moves leftwards, the button restoring rack 59 is limited in movement, the button restoring compression spring 58 is pressed to accumulate elastic potential energy, the pan discharging compression spring 10 releases the elastic potential energy to push the pan discharging slide block 12 to move rightwards, the pan discharging slide block 12 moves rightwards to drive the outer pan 61 and the inner container 62 to move rightwards to eject out of the machine body 1, so that a driver can take out rice, the pan discharging slide block 12 moves rightwards to drive the rack 63 to move rightwards, the rack 63 moves rightwards to drive the button restoring rack 59 to move rightwards through the gear 65, the button restoring compression spring 58 releases the elastic potential energy to a no-load state, the pan discharging slide block 12 moves rightwards to enable the heating control push rod 9 to move unrestrictedly, and when the thermal expansion magnetic steel 17 cools down and recovers to magnetically adsorb the thermal expansion push rod 18, the thermal expansion push rod 18 drives the thermal expansion lug 19 to move upwards, the thermal expansion compression spring 83 is pulled to accumulate elastic potential energy, the thermal expansion lug 19 is not limited to the movement of the heating control rod 4, the heating control compression spring 7 releases the elastic potential energy to drive the heating control push rod 9 to move rightwards, the heating control push rod 9 drives the heating control rod 4 to move rightwards, and the heating control rod 4 moves rightwards to enable the heating push rod 86 to move from the heat preservation cavity 30 to the heating initial cavity 29 to prepare for the next cooking operation.

The invention has the beneficial effects that: the invention completes the functions of opening and closing the door by the engagement of the gear and the rack and the clutch of the gear, realizes the functions of starting heating and heat preservation and limiting the popping of the pot when the pot is just put into the pot by the expansion and contraction of the metal and the cam push rod and the spring, and finally realizes the shock-absorbing effect of the electric cooker by the principle of a single-tube shock absorption system of an automobile.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. A vehicle-mounted electric cooker with a shock-absorbing effect comprises a cooker body and a shock-absorbing cavity which is arranged in the cooker body and has an upward opening and a rightward opening, wherein a main body is movably arranged in the shock-absorbing cavity, a heating cavity with a rightward opening is arranged in the main body, a cooker-out compression spring cavity is communicated with the left wall of the heating cavity, a heating control compression spring cavity is communicated with the bottom wall of the cooker-out compression spring cavity, a heating control moving cavity is communicated with the right wall of the heating control compression spring cavity, a heating moving cavity is communicated with the bottom wall of the heating cavity, an electrified moving compression spring cavity is communicated with the bottom wall of the heating moving cavity, a thermal expansion compression spring cavity is communicated with the right wall of the heating cavity, a closed door cavity is communicated with the right side of the top wall of the heating cavity, and a door-opening, the utility model discloses a portable cooker with wheel cavity, including outer pot diapire, outer pot, go out pot slider left wall and be provided with out pot compression spring, go out pot compression spring and keep away from that the one end of going out pot slider is fixed in go out pot compression spring's one end be fixed in go out pot compression spring cavity's left wall upper left wall is last, be provided with out door clutch cavity in the power pulley cavity right wall that opens the door, it is provided with the button and recovers and remove the chamber to open door clutch cavity diapire intercommunication, button recovers and removes chamber right wall intercommunication and is provided with the rack chamber, be provided with four group ball bearing cavities on fuselage diapire four sides, host computer body four sides are provided with four groups shock attenuation epicoeles, but heating intracavity horizontal slip is provided with the outer pot, the outer pot can be followed heating chamber right side is taken out, be provided with the ascending inner bag chamber of opening in the outer pot, the rotatable inner bag that is provided with in inner bag intracavity, the inner bag can with the outer pot separation, what outer pot diapire The utility model discloses a heat preservation device, including the outer pot, go out pot compression spring chamber rear side and be provided with switch door gear, switch door gear passes through rack and pinion meshing and gear separation and closes the function that the door opened and closed, the inner bag below is provided with the heating heat preservation device, the heating heat preservation device has realized through the expend with heat and contract with cold cooperation cam push rod of metal and spring and has begun heating and heat retaining function and restriction the outer pot with popping out of inner bag, the shock attenuation epicoele with be provided with shock absorber between the ball-bearing chamber, shock absorber realizes through car single tube shock attenuation system principle the function of moving away to avoid possible.

2. The vehicle-mounted electric cooker with shock absorbing effect as claimed in claim 1, wherein: the rear wall of the pan outlet sliding block enters the rack cavity and is fixedly provided with a rack, the rear side of the rack is meshed with a gear, one side of the gear, which is far away from the rack, is meshed with a button recovery rack, one end, which extends rightwards, of the button recovery rack is fixedly provided with a button recovery compression spring, one end, which is far away from the button recovery compression spring, of the button recovery rack is fixedly provided with a button recovery rod, one end, which is far away from the button recovery compression spring, of the button recovery rod is fixedly provided with a button extending out of the machine body, one end, which is far away from the machine body, of the button extends into the door opening clutch cavity, the tail end of the button recovery compression spring is provided with a door opening reversing branch conical cavity, a door opening reversing branch conical block is rotatably arranged in the door opening reversing branch conical cavity, one end, which is far, the door opening reversing mechanism is characterized in that a door opening reversing main gear is fixedly arranged at one end, away from the door opening reversing fulcrum cone block, of the door opening reversing fulcrum shaft, a door opening reversing gear shaft is fixedly arranged at one side, away from the door opening reversing fulcrum shaft, of the door opening reversing main gear, a door opening reversing gear is fixedly arranged at one end, away from the door opening reversing main gear, of the door opening reversing gear shaft, teeth are arranged on the circumferential wall of the door opening reversing gear and one side, away from the door opening reversing gear shaft, of the door opening reversing gear shaft, a door opening friction protection cavity is arranged at one side, away from the door opening reversing main gear, of the door opening gear shaft, a door opening motor shaft is arranged in the door opening friction protection cavity, the door opening gear and the door opening motor shaft are in transmission connection through, the left side of the door opening reversing gear can be meshed or separated with the door opening power slave gear, the door opening power slave gear shaft is fixedly arranged on the left side of the gear, the door opening power slave gear shaft is far away from the door opening power slave gear shaft, the door opening power slave gear shaft extends into one end of the door opening power slave gear shaft and the tail end of the door opening power slave gear shaft is fixedly provided with the door opening power slave belt wheel, the door opening power slave belt wheel is far away from the door opening power slave gear shaft, the door opening power slave belt wheel shaft is far away from the door opening power slave belt wheel, the door opening power slave belt wheel is extended into one end of the door opening execution pulley chamber and the tail end of the door opening execution pulley chamber is fixedly provided with the door opening execution master belt wheel, the door opening execution shaft extends into the door opening execution pulley chamber, the door opening execution shaft is far away from the door opening execution pulley shaft, the door opening execution pulley shaft is extended The door opening power driven wheel shaft extends into one end of the door opening clutch cavity, one side, away from the door opening power driven wheel shaft, of the door opening power driven wheel shaft is provided with teeth meshed with the door opening reversing gear, one end, away from the door opening power driven wheel shaft, of the door opening power driven wheel shaft extends into the door opening power driven wheel cavity, the tail end of the door opening power driven wheel shaft is fixedly provided with the door opening power driven wheel, the door opening power driven wheel and the door opening power driven wheel are in transmission connection through the door opening power belt, and the door opening execution main belt wheel and the door opening execution belt wheel are in transmission connection through the door opening execution belt.

3. The vehicle-mounted electric cooker with shock absorbing effect as claimed in claim 1, wherein: the lower side in the middle of the outer wall at the bottom of the inner container is provided with teeth and is provided with a uniform heat gear in a separable meshing manner, the circumferential wall of the uniform heat gear is close to the wall of the inner container, the uniform heat gear penetrates through the outer pot sliding cavity, one side of the uniform heat gear, far away from the inner container, enters the heating moving cavity and is fixedly provided with a uniform heat shaft, the uniform heat gear is far away from one side of the inner container and is provided with a heating push rod extending up and down, one end of the heating push rod, close to the uniform heat gear, is provided with a uniform heat conical cavity, the uniform heat shaft is far away from one end of the uniform heat gear extends into the uniform heat conical cavity and the tail end of the uniform heat conical cavity are fixedly provided with a uniform heat conical block, the outer surface of the heating push rod is fixedly provided with an electrifying slide block, the electrifying slide block extends into the electrifying moving compression spring cavity and the bottom wall of the electrify On the wall, it leads to the pole to lead to with the antetheca is fixed about the circular telegram slider, it can the butt and the separation is provided with the coil to lead to the pole top, it is left to lead to the pole extend left and the terminal fixed pot restriction pole that is provided with, it keeps away from to go out the pot restriction pole the one end that leads to the pole upwards stretches into in the heating chamber just is used for pushing block behind the outer pot go out the pot slider, even hot gear rear side meshing is provided with even hot power gear, the fixed even hot power axle that extends about being provided with of even hot power gear downside, even hot power axle is kept away from the fixed even thermoelectric machine that is provided with output shaft to the one end of even hot power gear, the heating push rod is kept away from the one end butt of even hot gear is provided with the heating control pole, be provided with initial chamber of heating and heat preservation chamber on the heating control pole roof, the heating control pole is kept away from the one end of heating push rod A heating control push rod which extends up and down is arranged, a heating control compression spring is fixedly arranged on the left wall of the heating control push rod, one end of the heating control compression spring, far away from the heating control push rod, is fixed on the left wall of the heating control moving cavity, one end of the heating control push rod, far away from the heating control rod, is abutted against the pan outlet sliding block, one end of the heating control rod, far away from the heating control push rod, extends into the thermal expansion compression spring cavity, the tail end of the heating control rod is abutted against a thermal expansion lug, the abutting part of the thermal expansion lug and the heating control rod is a slope, a thermal expansion compression spring is fixedly arranged on the bottom wall of the thermal expansion lug, one end of the thermal expansion compression spring, far away from the thermal expansion lug, is fixed on the bottom wall of the thermal expansion compression spring cavity, a thermal expansion push rod is fixedly arranged on the right side of the top wall of the thermal expansion lug, the heat expansion rod is abutted against the bottom outer wall of the inner container.

4. The vehicle-mounted electric cooker with shock absorbing effect as claimed in claim 1, wherein: rotatable being provided with the ball in the ball bearing chamber, the ball is kept away from the fixed shock attenuation urceolus that is provided with in one side of ball bearing chamber, the shock attenuation urceolus is close to one side external fixation of ball is provided with shock attenuation urceolus spring bracket, be full of hydraulic oil in the shock attenuation urceolus, the inside slidable setting of shock attenuation urceolus is provided with the shock attenuation slider, the shock attenuation slider is running through and is setting up a plurality of holes, the shock attenuation slider is kept away from one side of ball is fixed and is provided with the shock attenuation push rod, the shock attenuation epaxial damping shaft that extends around being provided with in the shock attenuation epicoele, the shock attenuation push rod with shock attenuation shaft fixed connection, the shock attenuation push rod is close to the one end external fixation of shock attenuation shaft is provided with.

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