Automatic add porridge desk
Technical Field
The invention relates to the field of dining tables, in particular to an automatic porridge adding table.
Background
At present, a common table has a function of placing or adjusting the placing position of an object or a folding function, but has a plurality of defects, and the function of high-efficiency food adding required by modern society and human beings is lacked. When eating and eating, people can eat the food by themselves or consume manpower to eat the food for people, and in the catering industry with dense people flow, the food is lost for many consumers while wasting labor force.
Disclosure of Invention
The invention mainly aims to provide an automatic porridge feeding table, which provides a high-efficiency and convenient rice feeding service in the catering industry with dense people streams.
In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: an automatic porridge adding table comprises a table body, the top of which is provided with a table top, wherein a rice feeding mechanism and a bowl feeding mechanism are arranged in the table body, and the rice feeding mechanism comprises a heat preservation tank fixed at the bottom of the table top and a conveying pipe rotatably connected to the bottom of the heat preservation tank; send a bowl mechanism to include vertical fixing the auxiliary rod of desktop bottom and with the parallel screw rod of auxiliary rod, the screw rod is through fixing screw rod motor drive on the auxiliary rod is rotatory, screw-thread fit connection has the edge on the screw rod the conveying piece that the screw rod reciprocated, conveying piece one end sliding connection be in on the auxiliary rod, the other end hold in the palm carry rice bowl and with the cooperation of conveyer pipe outlet, correspond on the desktop conveying piece department articulates there is the bowl door.
As an improvement, four tank doors are hinged to the opening at the top of the heat-preservation tank, the heat-preservation tank is in a closed state when the tank doors are closed, and a tank door motor for driving the tank doors to rotate is arranged at the hinged position of the tank doors and the heat-preservation tank.
As an improvement, the heat-preserving tank is connected with four conveying pipes which are circumferentially and uniformly arrayed through flanges, a pipe door capable of being closed is rotatably connected to the outlet of each conveying pipe, and the pipe door is driven to rotate through a pipe door motor fixed on each conveying pipe.
As an improvement, the connecting centers of the four conveying pipes are fixedly provided with rotating rods capable of driving the conveying pipes to rotate along the flanges, and the rotating rods are driven to rotate by rotating rod motors fixed at the bottom of the table body.
As an improvement, the periphery of the heat-preservation tank is circumferentially and uniformly provided with eight bowl feeding mechanisms, the conveying pipes are respectively matched with four conveying pieces, and the conveying pipes are respectively matched with the other four conveying pieces after rotating for 45 degrees.
As an improvement, the inner cavity of the table body is cylindrical, and a cross rod at the bottom of the auxiliary rod is matched with the side wall of the inner cavity of the table body, so that the table top can rotate on the table body.
As an improvement, the conveying piece is connected with a bowl support for supporting a rice bowl through a pneumatic rod, and the bottom of the bowl support is provided with a pressure sensor capable of controlling the tube door motor; when the rice bowl that the bowl support carried is filled up, pressure sensor transmits the signal that receives through handling its correspondence in the pneumatic rod with the tube door motor, make tube door motor control the tube door is closed, pneumatic rod control the bowl support rises a section distance.
As an improvement, a bowl door motor for controlling the bowl door to rotate is arranged at the hinged position of the bowl door and the tabletop, and the air pressure rod controls the bowl support to lift, send a signal to the bowl door motor, so that the bowl door motor controls the bowl door to be opened.
As an improvement, the side edge of the table body is connected with a bottom door in a sliding way.
The control of various motors in the invention is the prior art and is not described much.
Compared with the prior art, the invention has the advantages that:
1. before use, the bowl is placed in the table body, so that dust is prevented from being accumulated or the bowl is prevented from being broken carelessly when being placed on the table top;
2. the heat preservation tank is provided with four tank doors, one or more tank doors can be selectively opened, and heat loss of porridge in the heat preservation tank is avoided;
3. the table top can drive the bowl feeding mechanism to rotate on the table body, so that workers can sequentially check whether the bowl feeding mechanism fails from the bottom door;
4. the auxiliary rod can limit the rotation of the conveying piece, so that the conveying piece can stably move up and down along the screw rod, and the table top can rotate around the table body to avoid the gravity center offset of the table top;
5. customers can independently add porridge, so that long-time waiting is avoided, and the efficiency is improved.
Drawings
FIG. 1 is an external structural view of the present invention;
FIG. 2 is a schematic view of the overall structure of the present invention;
FIG. 3 is a schematic view of the internal structure of the present invention;
FIG. 4 is a schematic view of the construction of the conveyor of the present invention;
FIG. 5 is a schematic view of the construction of the auxiliary lever of the present invention;
FIG. 6 is a schematic view of the structure of the delivery tube of the present invention;
the names of the parts corresponding to the respective reference numerals are: 1. a table body; 11. a desktop; 12. a bottom door; 2. a heat preservation tank; 21. a tank door; 211. a tank door motor; 22. a flange; 23. a delivery pipe; 24. a tube door; 241. a tube door motor; 25. rotating the rod; 251. a rotating rod motor; 3. a screw; 31. a bowl door; 311. a bowl door motor; 32. a conveying member; 33. a bowl support; 331. a pressure sensor; 332. a pneumatic rod; 34. an auxiliary lever; 341. a screw motor.
Detailed Description
The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention.
As shown in fig. 1 to 6, the automatic porridge adding table comprises a table body 1 with a table top 11 at the top, wherein a rice feeding mechanism and a bowl feeding mechanism are arranged in the table body 1, and the rice feeding mechanism comprises a heat preservation tank 2 fixed at the bottom of the table top 11 and a conveying pipe 23 rotatably connected to the bottom of the heat preservation tank 2; send a bowl mechanism to include vertical fixing the auxiliary rod 34 of desktop 11 bottom and with the parallel screw rod 3 of auxiliary rod 34, screw rod 3 is through fixing screw motor 341 drive on the auxiliary rod 34 is rotatory, screw-thread fit connection has to follow on the screw rod 3 conveying 32 that the screw rod 3 reciprocated, conveying 32 one end sliding connection be in on the auxiliary rod 34, the other end hold in the palm carry rice bowl and with conveyer pipe 23 export cooperation, correspond on the desktop 11 conveying 32 department articulates there is bowl door 31.
Specifically, 2 top opening parts of heat preservation jar are articulated to have four jar doors 21, make when jar door 21 closes heat preservation jar 2 is in airtight state, jar door 21 with the articulated department of heat preservation jar 2 is equipped with the drive jar door motor 211 of jar door 21 rotation.
Specifically, the heat-insulating tank 2 is connected with four conveying pipes 23 which are circumferentially and uniformly arrayed through flanges 22, the outlet of each conveying pipe 23 is rotatably connected with a pipe door 24 which can close the corresponding conveying pipe 23, and the pipe door 24 is driven to rotate by a pipe door motor 241 fixed on the corresponding conveying pipe 23.
Specifically, a rotating rod 25 capable of driving the conveying pipe 23 to rotate along the flange 22 is fixed at the connecting center of the four conveying pipes 23, and the rotating rod 25 is driven to rotate by a rotating rod motor 251 fixed at the bottom of the table body 1.
Specifically, it has eight to become the even array of circumference around heat preservation jar 2 send bowl mechanism, conveyer pipe 23 respectively with four conveying 32 cooperation, rotatory 45 back respectively with four other conveying 32 cooperation.
Specifically, the inner cavity of the table body 1 is cylindrical, and a cross rod at the bottom of the auxiliary rod 34 is matched with the side wall of the inner cavity of the table body 1, so that the table top 11 can rotate on the table body 1.
Specifically, the conveying member 32 is connected with a bowl support 33 for supporting a rice bowl through a pneumatic rod 332, and the bottom of the bowl support 33 is provided with a pressure sensor 331 capable of controlling the tube door motor 241; when the bowl that the bowl support 33 held in the palm was filled up, pressure sensor 331 will receive the signal through processing transmit to its correspond the gas cylinder with in the tube door motor 241, make the tube door motor 241 control the tube door 24 is closed, gas cylinder 332 control the bowl support 33 rises a distance.
Specifically, the bowl door 31 with the articulated department of desktop 11 is equipped with the control the rotatory bowl door motor 311 of bowl door 31, the air pressure bar 332 control bowl support 33 send the signal for when rising bowl door motor 311 makes bowl door motor 311 control the bowl door 31 is opened.
Specifically, the side of the table body 1 is slidably connected with a bottom door 12.
In the preparation state, the conveying part 32 is positioned at the highest position of the screw rod 3, the bowl door motor 311 is controlled to open the bowl door 31, an empty bowl is placed on the bowl support 33, and the screw rod motor 341 controls the screw rod 3 to rotate to drive the conveying part 32 to descend to the lowest position of the screw rod 3; the pot door 21 is opened by controlling the pot door motor 211, and the pot door 21 is closed after the porridge or soup is poured into the heat-preserving pot 2.
When the rice needs to be cooked, the rotating rod motor 251 is controlled to enable the rotating rod 25 to drive the conveying pipe 23 to rotate, the outlets of the conveying pipe 23 are respectively aligned with four empty bowls, the pipe door motor 241 is controlled to open the pipe door 24, and porridge or soup flows into the empty bowls from the conveying pipe 23. When the pressure sensor 331 under the bowl support 33 detects a certain pressure, it indicates that the corresponding bowl is full, the pressure sensor 331 sends a signal to make the corresponding tube door motor 241 control the tube door 24 to close, and controls the pneumatic rod 332 to make the bowl support 33 rise for a certain distance, and when the pneumatic rod 332 works, the pressure sensor sends a signal to make the corresponding bowl door motor 311 control the bowl door 31 to open. The screw motor 341 controls the screw 3 to rotate, so as to drive the conveying member 32 to move upwards, and the customer can take out the filled bowl from the corresponding bowl door 31.
After the four bowls are full, the rotating rod motor 251 controls the rotating rod 25 to rotate the conveying pipe 23 by 45 degrees, the outlet of the conveying pipe 23 is aligned with the remaining four empty bowls, and the steps are repeated, so that the customer can cook more efficiently.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.