CN111891013A - Vehicle-mounted electronic refrigerator capable of automatically opening bottles - Google Patents

Abstract

The invention discloses an automatic bottle opening vehicle-mounted electronic refrigerator which comprises a refrigerator cabinet, wherein a storage cavity with a leftward opening for refrigerating articles is arranged in the refrigerator cabinet, drinks are stored in the storage cavity, a pushing device capable of pushing the drink on the leftmost side in the storage cavity to the left side is arranged in the storage cavity, a transmission cavity connected with the upper side of the storage cavity is arranged in the refrigerator cabinet, a main cylinder is fixedly arranged in the top wall of the transmission cavity, compared with the traditional vehicle-mounted electronic refrigerator, the invention has the advantages that firstly, the invention can automatically push the beverage stored in the refrigerator, in addition, the invention can automatically unscrew the bottle cap of the beverage, and automatically open the cabinet door after unscrewing the bottle cap, and finally, when the beverage is taken out manually, the invention can automatically close the cabinet door, thereby preventing the loss of the temperature in the cabinet.

Description

Vehicle-mounted electronic refrigerator capable of automatically opening bottles

Technical Field

The invention relates to the technical field of vehicle-mounted refrigerators, in particular to a vehicle-mounted electronic refrigerator capable of automatically opening bottles.

Background

With the progress of the times, the automobile is widely used as a transportation tool in the lives of residents, the automobile refers to a non-rail bearing vehicle which is driven by power and has 4 or more wheels, and with the rapid development of the automobile, the vehicle-mounted electronic equipment is also updated, such as vehicle-mounted map navigation, vehicle-mounted recorder, vehicle-mounted air conditioner and the like.

At present, vehicle-mounted electronic equipment is quite various, but a space can be improved, and a vehicle-mounted electronic refrigerator is vehicle-mounted electronic equipment for freezing and storing objects, but the functions of the vehicle-mounted electronic refrigerator are almost not different from those of a common household refrigerator, so that a vehicle-mounted electronic refrigerator device which is different from the household refrigerator and can be more convenient for a driver to drive the vehicle should be designed.

Disclosure of Invention

The technical problem is as follows: the vehicle-mounted electronic refrigerator technology has the advantages that the space can be increased, and the vehicle-mounted electronic refrigerator equipment which is more convenient for a driver to drive can be designed.

In order to solve the problems, the embodiment designs an automatic bottle opening vehicle-mounted electronic refrigerator, which comprises a refrigerator cabinet, wherein a storage cavity with a left opening for refrigerating articles is arranged in the refrigerator cabinet, drinks are stored in the storage cavity, a pushing device capable of pushing the leftmost drink in the storage cavity to the left side is arranged in the storage cavity, a transmission cavity connected to the upper side of the storage cavity is arranged in the refrigerator cabinet, a main cylinder is fixedly arranged in the top wall of the transmission cavity, a movable box is arranged on the lower side of the main cylinder, a main cylinder rod is connected between the main cylinder and the movable box, a movable cavity is arranged in the movable box, a working box is connected in the movable cavity in a sliding manner, a cover opening device for opening the cover of the drink on the lower side is arranged in the working box, and the main cylinder can drive the movable box to move downwards through the main cylinder rod to open the cover of the movable box, just can when the work box is uncapped along remove chamber rebound, the wall internal rotation is connected with the ratchet axle behind the transmission chamber, the epaxial ratchet that has set firmly of ratchet, the removal case left side has set firmly the fixed plate that is the array distribution, be equipped with opening left and ascending rotation chamber in the fixed plate, it is connected with the axis of rotation to rotate the chamber back wall internal rotation, the dwang has set firmly in the axis of rotation, can not pass through when removing the case rebound the dwang drives ratchet rotation, can pass through when removing the case rebound the dwang drives ratchet rotation, it is connected with and is located to store the left spline removal axle in chamber, the spline removes epaxial setting and can seal store the left cabinet door in chamber, be equipped with in the refrigerator cabinet and can control the device that opens and shuts of cabinet door.

The pushing device comprises first air cylinders which are symmetrical around the beverage and fixedly arranged in the right wall of the storage cavity, the left side of each first air cylinder is connected with a first air cylinder rod, a connecting rod is fixedly arranged in the upper wall and the lower wall of the left end of each first air cylinder rod, a cross-shaped rotary table is rotatably connected onto the connecting rod, four first clamping cavities are annularly distributed on the connecting rod, a second air cylinder is fixedly arranged in the cross-shaped rotary table, the right side of the second air cylinder is connected with a second air cylinder rod capable of extending into the first clamping cavities, four induction plates corresponding to the first clamping cavities are annularly distributed on the cross-shaped rotary table, and the second air cylinders and the first air cylinders can be controlled to start when the two induction plates are in contact.

The cover opening device comprises a working cavity arranged in the working box, a motor for screwing the cover is fixedly arranged in the top wall of the working cavity, a right rotating shaft is fixedly arranged on an output shaft of the lower side of the motor for screwing the cover, an outer rotating shaft is rotatably connected to the bottom wall of the working cavity, the right rotating shaft extends into the outer rotating shaft, a first extending cavity is formed in the right rotating shaft in an annular distribution mode, a second clamping cavity is formed in the outer rotating shaft in an annular distribution mode, and a first clamping plate capable of extending into the second clamping cavity is slidably connected into the first extending cavity.

Wherein, a left rotating shaft positioned at the left side of the right rotating shaft is connected in the top wall of the working cavity in a rotating way, a rotating disc is fixedly arranged at the lower side of the left rotating shaft, a cover screwing box is connected on the rotating disc, a third clamping cavity is annularly distributed on the rotating disc, a second extending cavity is annularly distributed on the cover screwing box, a clamping plate shaft is rotatably connected at the top wall of the second extending cavity, a second clamping plate capable of extending into the second extending cavity or the third clamping cavity is fixedly arranged on the clamping plate shaft, an input gear is fixedly arranged on the cover screwing box, an output gear meshed and connected with the input gear is fixedly arranged on the outer rotating shaft, a cover screwing cavity with a downward opening is arranged in the cover screwing box, oblique blocks are annularly distributed and fixedly arranged on the inner wall of the cover screwing cavity, a fixed block fixed at the lower side of the rotating disc is arranged in the cover screwing cavity, a slide bar is slidably connected in the bottle cover, and a friction plate capable of contacting the beverage is fixedly arranged at one side of the slide bar close to the, and an extension spring for resetting is connected between the fixed block and the friction plate.

The right rotating shaft is rotatably connected with a right gear, a spline cavity with an outward opening is formed in the right rotating shaft, a third cylinder is fixedly arranged on the right gear, a telescopic cavity connected to the right rotating shaft is formed in the right side of the third cylinder, a third cylinder rod connected to the right side of the third cylinder is connected in the telescopic cavity in a sliding mode, and a left gear connected to the right gear in a meshed mode is fixedly arranged on the left rotating shaft.

Wherein, the device that opens and shuts is including locating in the refrigerator cabinet and connect in store the roof chamber of chamber downside, roof chamber downside is connected with the pole and removes the chamber, pole removes intracavity sliding connection and has stretched into preceding movable rod in the roof chamber, preceding movable rod upside has set firmly the calotte board, the roof intracavity be equipped with connect in calotte board downside with second roof pressure spring between the roof chamber diapire, be equipped with in the refrigerator cabinet connect in the middle chamber of pole removal chamber front side, middle chamber left wall internal rotation is connected with the jackshaft, set firmly the meshing on the jackshaft connect in the intermediate gear of preceding movable rod side flank, the spline removes the axle stretch into middle intracavity and intermediate gear meshing connect in spline removes axle side flank, the ratchet is epaxial to set firmly first bevel gear, the spline removes the axle stretch into the transmission intracavity just the spline removes the axle upside has set firmly can mesh connect in first bevel gear And a second bevel gear of the gear, wherein a torsion spring is wound on the spline moving shaft and connected between the lower side of the second bevel gear and the bottom wall of the transmission cavity.

The invention has the beneficial effects that: compared with the traditional vehicle-mounted electronic refrigerator, the vehicle-mounted electronic refrigerator can automatically push the beverage stored inside, can automatically unscrew the bottle cap of the beverage, can automatically open the cabinet door after unscrewing the bottle cap, and can automatically close the cabinet door after the beverage is manually taken out, so that the temperature in the cabinet is prevented from losing.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of an automatic bottle opening vehicle-mounted electronic refrigerator according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" in FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" in FIG. 1;

FIG. 4 is a schematic view of the internal structure of the mobile bin of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "C-C" in FIG. 4;

FIG. 6 is a schematic view of the structure in the direction "D-D" in FIG. 4;

FIG. 7 is a schematic view of the structure in the direction "E-E" in FIG. 4;

FIG. 8 is a schematic view of the structure in the direction "F-F" in FIG. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 8, for the sake of convenience of description, the following orientations are now 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.

The invention relates to an automatic bottle opening vehicle-mounted electronic refrigerator, which is further explained by combining the attached drawings of the invention:

the invention relates to an automatic bottle opening vehicle-mounted electronic refrigerator which comprises a refrigerator cabinet 43, wherein a storage cavity 44 with a left opening and used for refrigerating articles is arranged in the refrigerator cabinet 43, drinks 50 are stored in the storage cavity 44, a pushing device 101 capable of pushing the leftmost drink 50 in the storage cavity 44 to the left side is arranged in the storage cavity 44, a transmission cavity 52 connected to the upper side of the storage cavity 44 is arranged in the refrigerator cabinet 43, a main air cylinder 55 is fixedly arranged in the top wall of the transmission cavity 52, a movable box 79 is arranged on the lower side of the main air cylinder 55, a main air cylinder rod 54 is connected between the main air cylinder 55 and the movable box 79, a movable cavity 80 is arranged in the movable box 79, a working box 12 is connected in the movable cavity 80 in a sliding mode, a cover opening device 102 used for opening a cover of the drinks 50 is arranged in the working box 12 on the lower side of the drinks 50, and the main air cylinder 55 can drive the movable box 79 to move downwards through the main air cylinder rod A cover, just can along when working case 12 is uncapped move chamber 80 upwards, the transmission chamber 52 back wall internal rotation is connected with ratchet shaft 66, ratchet 53 has set firmly on ratchet shaft 66, the removal case 79 left side has set firmly fixed plate 78 that is the array distribution, be equipped with opening left and ascending rotation chamber 76 in the fixed plate 78, it is connected with axis of rotation 77 to rotate chamber 76 back wall internal rotation, the dwang 75 has set firmly on the axis of rotation 77, can not pass through when removing the case 79 moves down the dwang 75 drives ratchet 53 rotates, can pass through when removing the case 79 rebound the dwang 75 drives ratchet 53 rotates, it is located to store the left spline shifting shaft 69 of chamber 44 to rotate in the chamber 44 roof internal connection, it can seal to set firmly on the shifting shaft 69 store the left cabinet door 51 in chamber 44, an opening and closing device 103 capable of controlling the opening and closing of the cabinet door 51 is arranged in the refrigerator cabinet 43.

According to the embodiment, the pushing device 101 is described in detail below, the pushing device 101 includes a first cylinder 57 that is symmetrical with respect to the beverage 50 and is fixedly disposed in the right wall of the storage chamber 44, the left side of the first cylinder 57 is connected to a first cylinder rod 58, the upper and lower walls of the left end of the first cylinder rod 58 are fixedly disposed with a connecting rod 60, the connecting rod 60 is rotatably connected to a cross-shaped rotary table 59, four first clamping chambers 61 are annularly disposed on the connecting rod 60, a second cylinder 64 is fixedly disposed in the cross-shaped rotary table 59, the right side of the second cylinder 64 is connected to a second cylinder rod 63 that can extend into the first clamping chambers 61, four sensing plates 62 corresponding to the first clamping chambers 61 are annularly disposed on the cross-shaped rotary table 59, and when two sensing plates 62 contact, the second cylinder 64 and the first cylinder 57 can be controlled to start, when the first air cylinder 57 is started, the first air cylinder 57 drives the cross rotary table 59 to move rightwards through the first air cylinder rod 58, when the cross rotary table 59 moves to the left side of one beverage 50, the cross rotary table 59 rotates around the connecting rod 60 because the cross rotary table 59 contacts the beverage 50, the cross rotary table 59 rotates until the induction plates 62 on the cross rotary tables 59 on the front side and the rear side contact, the second air cylinder 64 is started to drive the second air cylinder rod 63 to extend into the first clamping cavity 61, so that the cross rotary table 59 is fixed on the connecting rod 60, and then the first air cylinder 57 stops driving the first air cylinder rod 58 to move rightwards and driving the first air cylinder rod 58 to move leftwards, so that the beverage 50 is pushed leftwards.

According to the embodiment, the cap opening device 102 is described in detail below, the cap opening device 102 includes a working chamber 11 disposed in the working box 12, a motor 18 for screwing cap is fixedly disposed in a top wall of the working chamber 11, a right rotating shaft 17 is fixedly disposed on an output shaft of a lower side of the motor 18 for screwing cap, an outer rotating shaft 21 is rotatably connected to a bottom wall of the working chamber 11, the right rotating shaft 17 extends into the outer rotating shaft 21, a first extending cavity 42 is annularly disposed in the right rotating shaft 17, a second clamping cavity 81 is annularly disposed in the outer rotating shaft 21, a first clamping plate 41 capable of extending into the second clamping cavity 81 is slidably connected in the first extending cavity 42, when the motor 18 for screwing cap drives the right rotating shaft 17 to rotate, the outer rotating shaft 21 is driven to rotate by the first extending cavity 42, when the outer rotating shaft 21 cannot rotate, the right rotating shaft 17 rotates to press the first clamping plate 41 to extend into the first jacking spring 40, the damage to the motor 18 for screw capping is reduced.

According to the embodiment, a left rotating shaft 16 positioned on the left side of the right rotating shaft 17 is rotatably connected to the top wall of the working chamber 11, a rotating disc 13 is fixedly arranged on the lower side of the left rotating shaft 16, a cover screwing box 22 is connected to the rotating disc 13, third clamping chambers are annularly arranged on the rotating disc 13, second inserting chambers 27 are annularly arranged on the cover screwing box 22, a clamping plate shaft 26 is rotatably connected to the top wall of the second inserting chambers 27, second clamping plates 25 capable of inserting into the second inserting chambers 27 or the third clamping chambers are fixedly arranged on the clamping plate shaft 26, an input gear 23 is fixedly arranged on the cover screwing box 22, an output gear 20 meshed with the input gear 23 is fixedly arranged on the outer rotating shaft 21, a cover screwing chamber 28 with a downward opening is arranged in the cover screwing box 22, oblique blocks 33 are annularly arranged on the inner wall of the cover screwing chamber 28, and a fixed block 30 fixed on the lower side of the rotating disc 13 is arranged on the top wall of the cover screwing chamber 28, a sliding rod 32 is connected in the fixed block 30 in a sliding manner, a friction plate 29 which can be in contact with the beverage 50 bottle cap is fixedly arranged on one side, close to the center of the screwing cavity 28, of the sliding rod 32, an extension spring 31 for resetting is connected between the fixed block 30 and the friction plate 29, when the outer rotating shaft 21 rotates, the screwing box 22 can be driven to rotate through the meshing of the output gear 20 and the input gear 23, and the screwing box 22 rotates to drive the inclined block 33 to rotate so as to push the sliding rod 32 to move towards the center side of the screwing cavity 28 along the fixed block 30 until the friction plate 29 is in contact with the beverage 50 bottle cap.

According to the embodiment, a right gear 19 is rotatably connected to the right rotating shaft 17, a spline cavity 35 with an outward opening is arranged in the right rotating shaft 17, a third air cylinder 39 is fixedly arranged on the right gear 19, a telescopic cavity 37 connected to the right rotating shaft 17 is arranged on the right side of the third air cylinder 39, a third air cylinder rod 63 connected to the right side of the third air cylinder 39 is slidably connected in the telescopic cavity 37, a left gear 14 engaged with the right gear 19 is fixedly arranged on the left rotating shaft 16, when the right rotating shaft 17 cannot drive the outer rotating shaft 21 to rotate, the third air cylinder 39 is started to drive the third air cylinder rod 63 to extend inwards, when the right rotating shaft 17 rotates until the spline cavity 35 corresponds to the telescopic cavity 37, the third air cylinder rod 63 extends into the spline cavity 35 so that the right rotating shaft 17 is splined with the right gear 19, the right rotating shaft 17 rotates to drive the right gear 19 to rotate, and the left rotating shaft 16 rotates due to the engagement of the right gear 19 and the left gear 14, rotation of left rotating shaft 16 drives rotation of rotating disc 13, and rotation of rotating disc 13 drives simultaneous rotation of screwing box 22 through second chuck plate 25, so as to unscrew the bottle cap of beverage 50 by driving rotation of friction plate 29, and while screwing the bottle cap, working box 12 moves upward along moving cavity 80.

According to the embodiment, the opening and closing device 103 is described in detail below, the opening and closing device 103 includes a top plate cavity 48 disposed in the refrigerator cabinet 43 and connected to the lower side of the storage cavity 44, a rod moving cavity 49 is connected to the lower side of the top plate cavity 48, a front moving rod 47 extending into the top plate cavity 48 is slidably connected to the rod moving cavity 49, a dome plate 46 is fixedly disposed on the upper side of the front moving rod 47, a second top pressure spring 45 connected between the lower side of the dome plate 46 and the bottom wall of the top plate cavity 48 is disposed in the top plate cavity 48, an intermediate cavity 72 connected to the front side of the rod moving cavity 49 is disposed in the refrigerator cabinet 43, an intermediate shaft 73 is fixedly connected to the left rotating wall of the intermediate cavity 72, an intermediate gear 74 engaged with the side surface of the front moving rod 47 is fixedly disposed on the intermediate shaft 73, the moving spline shaft 69 extends into the intermediate cavity 72 and the intermediate gear 74 is engaged with the side surface of the spline moving shaft 69, a first bevel gear 65 is fixedly arranged on the ratchet shaft 66, the spline moving shaft 69 extends into the transmission cavity 52, a second bevel gear 67 capable of being engaged and connected with the first bevel gear 65 is fixedly arranged on the upper side of the spline moving shaft 69, a torsion spring 68 connected between the lower side of the second bevel gear 67 and the bottom wall of the transmission cavity 52 is wound on the spline moving shaft 69, when the beverage 50 moves to the upper side of the top plate cavity 48, the dome plate 46 is pressed to drive the front moving rod 47 to move downwards, meanwhile, the second top pressing spring 45 is pressed to contract, the front moving rod 47 moves downwards, the spline moving shaft 69 is driven to move upwards through the engagement of the side surface tooth surface of the front moving rod 47 and the side surface tooth surface of the middle gear 74 and the spline moving shaft 69, so that the second bevel gear 67 is engaged and connected with the first bevel gear 65, when the bottle cap is unscrewed, the moving box 79 moves upwards to drive the ratchet 53 to rotate, the ratchet shaft 66 rotates to drive the spline moving shaft 69 to rotate through the meshing of the first bevel gear 65 and the second bevel gear 67 so as to drive the cabinet door 51 to rotate to open the left opening of the storage cavity 44, the spline moving shaft 69 rotates to further tighten the torsion spring 68, after the beverage 50 is manually taken out, the dome plate 46 is not pressed any more, the contracted second top pressure spring 45 drives the second top pressure spring 45 to move upwards, the second top pressure spring 45 moves upwards to drive the front moving rod 47 to move upwards so as to drive the spline moving shaft 69 to move downwards through the meshing of the side tooth surface of the front moving rod 47 and the side tooth surface of the intermediate gear 74 and the spline moving shaft 69, the spline moving shaft 69 moves downwards so as to enable the second bevel gear 67 to be connected to the first bevel gear 65 no more in a meshing manner, and the tightened torsion spring 68 drives the spline moving shaft 69 to rotate so as to enable the cabinet door.

The following describes in detail the use steps of an automatic bottle opening vehicle-mounted electronic refrigerator with reference to fig. 1 to 8: in the initial state, a beverage 50 is located at the upper side of the top plate cavity 48, the movable box 79 is at the upper limit position, and the cabinet door 51 closes the left opening of the storage cavity 44.

When the bottle cap of the beverage 50 is to be unscrewed, the main air cylinder 55 is started to drive the movable box 79 to move downwards through the main air cylinder rod 54, the movable box 79 moves downwards until the bottle cap of the beverage 50 completely extends into the screwing-cap box 22, then, when the screwing-cap is started to drive the right rotating shaft 17 to rotate by the motor 18, the outer rotating shaft 21 is driven to rotate through the first extending cavity 42, the outer rotating shaft 21 rotates to drive the screwing-cap box 22 to rotate through the meshing of the output gear 20 and the input gear 23, the screwing-cap box 22 rotates to drive the inclined block 33 to rotate so as to push the sliding rod 32 to move towards the center side of the screwing-cap cavity 28 along the fixed block 30 until the friction plate 29 is contacted with the bottle cap of the beverage 50, when the right rotating shaft 17 cannot drive the outer rotating shaft 21 to rotate, the third air cylinder 39 is started to drive the third air cylinder rod 63 to extend inwards, when the right rotating shaft 17 rotates until the spline cavity 35 is corresponding to the telescopic cavity 37, the third air cylinder rod 63 extends into, the right rotating shaft 17 rotates to drive the right gear 19 to rotate and drive the left rotating shaft 16 to rotate through the meshing of the right gear 19 and the left gear 14, the left rotating shaft 16 rotates to drive the rotating disc 13 to rotate, the rotating disc 13 rotates to drive the cap screwing box 22 to synchronously rotate through the second chuck plate 25, so that the friction plate 29 is driven to rotate to unscrew the cap of the beverage 50, the working box 12 moves upwards along the moving cavity 80 while the cap is screwed, after the cap is unscrewed, the master cylinder 55 is started to drive the moving box 79 to move upwards through the master cylinder rod 54 and drive the ratchet 53 to rotate through the rotating rod 75, namely, the ratchet shaft 66 is driven to rotate, the rotation of the ratchet shaft 66 drives the spline moving shaft 69 to rotate through the meshing of the first bevel gear 65 and the second bevel gear 67 so as to drive the cabinet door 51 to rotate to open the left opening of the storage cavity 44, the spline moving shaft 69 also drives the torsion spring 68, the dome plate 46 is not pressed any more, the second top pressure spring 45 which is contracted drives the second top pressure spring 45 to move upwards, the second top pressure spring 45 moves upwards to drive the front pressure rod 47 to move upwards so as to drive the spline moving shaft 69 to move downwards through the engagement of the side tooth surface of the front pressure rod 47 with the side tooth surface of the intermediate gear 74 and the spline moving shaft 69, the spline moving shaft 69 moves downwards so as to enable the second bevel gear 67 to be not engaged with the first bevel gear 65 any more, and the tightened torsion spring 68 drives the spline moving shaft 69 to rotate so as to enable the cabinet door 51 to return to the original position so as to close the left side of the storage cavity 44.

The invention has the beneficial effects that: compared with the traditional vehicle-mounted electronic refrigerator, the vehicle-mounted electronic refrigerator can automatically push the beverage stored inside, can automatically unscrew the bottle cap of the beverage, can automatically open the cabinet door after unscrewing the bottle cap, and can automatically close the cabinet door after the beverage is manually taken out, so that the temperature in the cabinet is prevented from losing.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides an automatic on-vehicle electronic refrigerator of uncork, includes the refrigerator cabinet, its characterized in that: a storage cavity with a leftward opening for refrigerating articles is arranged in the refrigerator cabinet, beverages are stored in the storage cavity, a pushing device capable of pushing the leftmost beverage in the storage cavity to the left side is arranged in the storage cavity, a transmission cavity connected to the upper side of the storage cavity is arranged in the refrigerator cabinet, a main air cylinder is fixedly arranged in the top wall of the transmission cavity, a movable box is arranged at the lower side of the main air cylinder, a main air cylinder rod is connected between the main air cylinder and the movable box, a movable cavity is arranged in the movable box, a working box is connected in the movable cavity in a sliding manner, a cover opening device for opening the cover of the beverage at the lower side is arranged in the working box, the main air cylinder can drive the movable box to move downwards through the main air cylinder rod to open the cover of the movable box, and the working box can move upwards along the movable cavity when being opened, the utility model discloses a refrigerator door, including transmission chamber, rotation chamber, chamber.

2. The vehicular electronic refrigerator of claim 1, further comprising: the pushing device comprises first air cylinders which are symmetrical around the beverage serving as a center and are fixedly arranged in the right wall of the storage cavity, the left side of each first air cylinder is connected with a first air cylinder rod, a connecting rod is fixedly arranged in the upper wall and the lower wall of the left end of each first air cylinder rod, a cross-shaped rotary table is rotatably connected onto the connecting rod, four first clamping cavities are annularly distributed on the connecting rod, a second air cylinder is fixedly arranged in the cross-shaped rotary table, the right side of the second air cylinder is connected with a second air cylinder rod which can extend into the first clamping cavities, four induction plates which correspond to the first clamping cavities are annularly distributed on the cross-shaped rotary table, and the second air cylinders and the first air cylinders can be controlled to be started when the two induction plates are in contact.

3. The vehicular electronic refrigerator of claim 1, further comprising: the cover opening device comprises a working cavity arranged in the working box, a motor for screwing cover is fixedly arranged in the top wall of the working cavity, a right rotating shaft is fixedly arranged on an output shaft of the lower side of the motor for screwing cover, an outer rotating shaft is rotatably connected to the bottom wall of the working cavity, the right rotating shaft extends into the outer rotating shaft, a first extending cavity is formed in the right rotating shaft in an annular distribution mode, a second clamping cavity is formed in the outer rotating shaft in an annular distribution mode, and a first clamping plate capable of extending into the second clamping cavity is slidably connected into the first extending cavity.

4. The vehicular electronic refrigerator of claim 3, wherein: the beverage bottle cap is characterized in that a left rotating shaft positioned on the left side of the right rotating shaft is connected in the top wall of the working cavity in a rotating mode, a rotating disc is fixedly arranged on the lower side of the left rotating shaft, a cap screwing box is connected onto the rotating disc, third clamping cavities are annularly distributed on the rotating disc, second extending cavities are annularly distributed on the cap screwing box, clamping plate shafts are rotatably connected onto the top wall of the second extending cavities, second clamping plates capable of extending into the second extending cavities or the third clamping cavities are fixedly arranged on the clamping plate shafts, input gears are fixedly arranged on the cap screwing box, output gears meshed with the input gears are fixedly arranged on the outer rotating shaft, cap screwing cavities with downward openings are arranged in the cap screwing box, oblique blocks are annularly distributed and fixedly arranged on the inner wall of the cap screwing cavities, fixed blocks fixed on the lower side of the rotating disc are arranged in the top wall of the cap screwing cavities, sliding rods are slidably connected into the bottle caps, and friction plates capable of contacting with beverages are fixedly arranged on one sides, close to the centers of the cap, and an extension spring for resetting is connected between the fixed block and the friction plate.

5. The vehicular electronic refrigerator of claim 3, wherein: the right rotating shaft is rotatably connected with a right gear, a spline cavity with an outward opening is formed in the right rotating shaft, a third cylinder is fixedly arranged on the right gear, a telescopic cavity connected to the right rotating shaft is formed in the right side of the third cylinder, a third cylinder rod connected to the right side of the third cylinder is connected to the telescopic cavity in a sliding mode, and a left gear connected to the right gear in a meshed mode is fixedly arranged on the left rotating shaft.

6. The vehicular electronic refrigerator of claim 1, further comprising: the device that opens and shuts is including locating in the refrigerator cabinet and connect in store the roof chamber of chamber downside, roof chamber downside is connected with the pole and removes the chamber, pole removes intracavity sliding connection and has stretched into preceding movable rod in the roof chamber, preceding movable rod upside has set firmly the calotte board, the roof intracavity be equipped with connect in calotte board downside with second roof pressure spring between the roof chamber diapire, be equipped with in the refrigerator cabinet connect in the middle chamber of pole removal chamber front side, middle chamber left wall internal rotation is connected with the jackshaft, set firmly the meshing on the jackshaft connect in the intermediate gear of preceding side flank face, the spline removes the axle and stretches into middle intracavity and intermediate gear meshing connect in spline removes axle side flank face, the ratchet is epaxial to set firmly first bevel gear, the spline removes the axle and stretches into the transmission intracavity just the spline axle upside has set firmly can mesh connect in first bevel gear's top surface And the spline moving shaft is wound with a torsion spring connected between the lower side of the second bevel gear and the bottom wall of the transmission cavity.

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