CN204249393U - Automatic oil mill - Google Patents

Abstract

The utility model discloses a kind of automatic oil mill, comprise rotating disk and chassis, its feature is be radially distributed with a plurality of through squeezing thorax chamber in the outer rim near rotating disk, rotating disk be above provided with loader, the discharging opening of loader can aim at arbitrary squeezing thorax chamber proceeded to below loader that rotating disk is provided with; Chassis is provided with steaming steam lumen pore, is provided with temperature control steaming device below steaming steam lumen pore; Rotating disk is provided with oil press, and the squeezing head of oil press can be aimed at arbitrary that rotating disk is provided with and proceed to the squeezing thorax chamber be positioned at below squeezing head; Shedding mechanism is provided with above rotating disk after being positioned at oil press, chassis is provided with discharging accent, and when opening shedding mechanism, the unloading head of shedding mechanism then carries out discharging work to the squeezing thorax chamber that squeezing material is housed below the unloading head being transferred to shedding mechanism after the squeezing of oil press and make the material that squeezed from the discharging accent discharging on chassis.Circulation can realize charging, steaming, squeezing and discharging.

Description

Automatic oil mill

Technical field

The utility model belongs to a kind of oil press field, particularly relates to a kind of automatic oil mill.

Background technology

Existing oil press, just pure oil expression function, does not have automatic charging, temperature automatically controlled steaming, automatically squeezing, automatic discharging, and periodic duty function.

Summary of the invention

The purpose of this utility model is to provide a kind of automatic oil mill with material loading, temperature control steaming, squeezing and material unloading function.

The purpose of this utility model realizes like this, described automatic oil mill, comprise rotating disk and chassis, rotating disk is rotated on chassis by motor or manually brought kinetic energy, described chassis is not rotated, it is characterized in that there is chassis below rotating disk, when rotating disk is rotated by driven by motor, the motor shaft of motor is connected with center of turntable through the centre bore on chassis, driven by motor dial rotation, outer rim near rotating disk is radially distributed with a plurality of through squeezing thorax chamber, described each squeezing thorax chamber is can run through rotating disk to go directly the lumen pore of chassis surface, be provided with loader being positioned at above rotating disk, the discharging opening of loader can aim at arbitrary squeezing thorax chamber proceeded to below loader that rotating disk is provided with, material in loader can fall into the corresponding squeezing thorax chamber rotating disk from the discharging opening of loader when opening loader, chassis is provided with steaming steam lumen pore, temperature control steaming device is provided with below steaming steam lumen pore, described steaming steam lumen pore up can aim at arbitrary squeezing thorax chamber be transferred on temperature control steaming device that rotating disk is provided with, and temperature control steaming can be carried out built with during material when being transferred to the squeezing thorax chamber on temperature control steaming device in the squeezing thorax chamber of being equipped with on the rotating disk of material proceeded to thereon of the steaming steam lumen pore contraposition on vapour transmission chassis by described temperature control steaming device after unlatching temperature control steaming device, rotating disk is provided with oil press, the squeezing head of oil press can be aimed at arbitrary that rotating disk is provided with and proceed to the squeezing thorax chamber be positioned at below squeezing head, and the squeezing head of described oil press can carry out squeezing work to material in the squeezing thorax chamber below the squeezing head being transferred to oil press of vapour cooking when opening oil press makes material squeezing fuel-displaced.

After being positioned at oil press position rotating disk above be provided with shedding mechanism, chassis is provided with discharging accent, described discharging accent is corresponding with the shedding mechanism position be provided with above rotating disk and can communicate with the squeezing thorax chamber below the unloading head proceeding to shedding mechanism, the unloading head of shedding mechanism can aim at the squeezing thorax chamber below arbitrary unloading head having proceeded to shedding mechanism that rotating disk is provided with, when opening shedding mechanism, the unloading head of shedding mechanism then carries out discharging work to the squeezing thorax chamber that squeezing material is housed below the unloading head being transferred to shedding mechanism after the squeezing of oil press and makes the material that squeezed from the discharging accent discharging on chassis.

Described rotating disk and chassis are concentric setting.

Squeezing thorax chamber on described rotating disk has 7.

Described steaming steam lumen pore adopts the steaming steam lumen pore with steam pore.

The oil expression principle of automatic oil mill described in the utility model is: 1) be correspondingly provided with an alignment pin at each squeezing thorax chamber place of rotating disk, each alignment pin connects a position-sensing switch, the institution staff that the corresponding control of each position-sensing switch is relevant, 2) position-sensing switch at loader place controls loader work, and the position-sensing switch starting loader place makes material freely fall into from loader and fills up squeezing thorax chamber, is silica gel sealing and can to joining the material dosing squeezing thorax chamber by the contact surface of loader and rotating disk, 3) after material is filled in squeezing thorax chamber, dial rotation stops operating to touching position-sensing switch during next alignment pin position, also the steaming position turned to the temperature control steaming device of hot air vents with the squeezing thorax chamber installing material after rotating disk stops operating starts temperature control steaming, the position-sensing switch being simultaneously positioned at oil press place sends the signal to pressing down to the hydraulic jack at oil press place, hydraulic jack starts to pressing down, setting pressure is arrived to the pressure pressed down Deng hydraulic jack, the Pressure gauge be connected with hydraulic jack just upwards gos up by hydraulic jack to signal, go up to put in place and to be signaled by limit switch, allow rotating disk start and forward next alignment pin to, the position-sensing switch that alignment pin touches shedding mechanism place provides 2 signals simultaneously, one signal is that hydraulic jack squeezes to the Next squeezing thorax chamber pressed down proceeding to, dqm signal is that return after discharging limit switch is touched in the downward pressure touch of unloading fuel tank of shedding mechanism, now expect that the squeezing thorax chamber of having unstowed just is waited unloading fuel tank and got back to position, rotating disk rotates to again next charging again, steaming, squeezing, discharging, repeat charging again with this periodic duty.

The oil expression principle of automatic oil mill described in the utility model is: 1) be provided with material loading sensor at loader, material loading sensor can detect the squeezing thorax chamber be transferred to below loader, when squeezing thorax chamber is not filled with material, then triggering main control MCU is touched and is made loader carry out filler to the squeezing thorax chamber be transferred to below loader, fill up rear material sensor to send and fill up signal to main control MCU, main control MCU sends signal on the one hand makes material loading sensor stop material loading, then sends signal and makes dial rotation to the motor of rotating disk, 2) when the steaming position-sensing switch position that dial rotation is arranged to temperature control steaming place, chassis, steaming position-sensing switch sends framing signal to main control MCU, main control MCU sends and makes the motor stalls signal of rotating disk and rotating disk is stopped operating, squeeze thorax chamber after rotating disk stops operating and also turn to temperature control steaming device place with hot air vents with the material installed, main control MCU sends and starts temperature control steaming device and start temperature control steaming signal and make temperature control steaming device temperature control steaming and keep setting-up time temperature control steaming, after temperature control steaming completes, main control MCU sends signal and makes dial rotation to the motor of rotating disk, 3) while temperature control steaming, main control MCU is issued the oil expression sensor one arranged at oil press place and is carried out detection signal to the squeezing thorax chamber forwarded to below it, oil expression sensor is detected the squeezing thorax chamber forwarded to below it, when detecting that there is the material of boiling in squeezing thorax chamber, issue main control MCU signal and make it to issue startup oil press working signal, the hydraulic jack of startup oil press sends the signal to pressing down, hydraulic jack starts to pressing down, setting pressure is arrived to the pressure pressed down Deng hydraulic jack, the Pressure gauge be connected with hydraulic jack just gives main control MCU signal, main control MCU is touched and hydraulic jack is upwards gone up, while oil press work, main control MCU is issued the discharging sensor one arranged at shedding mechanism place and is carried out detection signal to the squeezing thorax chamber forwarded to below it, discharging sensor is detected the squeezing thorax chamber forwarded to below it, when detecting that there is the material squeezed in squeezing thorax chamber, issue main control MCU signal and make it to issue startup shedding mechanism working signal, the unloading fuel tank of startup shedding mechanism sends the signal to pressing down, unloading fuel tank starts to pressing down, touching discharging limit switch, complete return after discharging, 4) go up to put in place when main control MCU receives hydraulic jack, temperature control steaming device completes after boiling and unloading fuel tank complete the signal that discharging return puts in place to the squeezing thorax chamber temperature control steaming material below it, main control MCU sends and makes dial rotation signal, rotating disk rotates and the squeezing thorax chamber of discharging can be forwarded to below loader under Electric Machine Control, material loading sensor detects the squeezing thorax chamber be transferred to below loader, when squeezing thorax chamber and not being filled with material, then main control MCU sends on the one hand motor stalls signal and makes motor stop and rotating disk is stopped operating, trigger loader on the other hand and filler is carried out to the squeezing thorax chamber be transferred to below loader, after filler completes, rotating disk rotates next steaming again again, squeezing, discharging, and then repeat charging with this periodic duty.

When detecting that squeezing thorax chamber does not have the material of boiling, issue main control MCU signal and make it to issue and do not start oil press working signal, when the material squeezing and do not squeeze in thorax chamber being detected, issuing main control MCU signal and making it to issue the working signal not starting shedding mechanism.

The utility model has following advantage: the utility model can deliver to loader the material crushed, turntable rotation material freely falls into fill up from loader and squeezes thorax chamber, is silica gel sealing and can to joining the material dosing squeezing thorax chamber by the contact surface of loader and rotating disk.And when dial rotation stops operating to touching position-sensing switch during next alignment pin position, squeeze the steaming position that thorax chamber also turned to hot air vents with the material installed after rotating disk stops operating and start temperature control steaming, position-sensing switch also sends the signal to pressing down to hydraulic jack simultaneously, hydraulic jack starts to pressing down, setting pressure is arrived to the pressure pressed down Deng hydraulic jack, the Pressure gauge be connected with hydraulic jack just upwards gos up by hydraulic jack to signal, go up to put in place and to be signaled by limit switch, allow rotating disk start and forward next alignment pin to, alignment pin touches position-sensing switch and provides 2 signals simultaneously, one hydraulic jack squeezes to the next one squeezing thorax chamber pressed down proceeding to, return after discharging limit switch is touched in the downward pressure touch of its two unloading fuel tank.Now expect that the squeezing thorax chamber of having unstowed just is waited unloading fuel tank and got back to position, rotating disk rotates again next alignment pin again to be gone charging, steaming, squeezing, discharging, repeats charging again, with this periodic duty.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is rotating disk in Fig. 1, chassis, motor, temperature control steaming device, connection between oil press and shedding mechanism or position relationship schematic diagram.

Fig. 3 is the turntable structure schematic diagram in Fig. 1.

Fig. 4 is the chassis structure schematic diagram in Fig. 1.

Fig. 5 is the control principle drawing of main control MCU circuit of the present utility model.

Detailed description of the invention

Below in conjunction with example, the utility model is described in detail:

As Fig. 1, Fig. 2, shown in Fig. 3 and Fig. 4, automatic oil mill described in the utility model, comprise rotating disk 1 and chassis 2, rotating disk is by motor 11 or manually drive rotation, between rotating disk 1 and chassis 2, gap is very little, for slipper seal, rotating disk 1 rotates and chassis 2 is not rotated, its design feature for there to be chassis 2 below rotating disk 1, when rotating disk is rotated by driven by motor, motor can adopt stepper motor, follow procedure setting is often crossed certain hour and is rotated one grade (even if dial rotation one grade), the motor shaft of motor is connected with center of turntable through the centre bore on chassis, driven by motor dial rotation, and chassis is not rotated, rotating disk and chassis are preferably arranged with one heart, outer rim near rotating disk 1 is radially distributed with a plurality of through squeezing thorax chamber 3, this example adopts 7 to squeeze thorax chamber 3, arrange as required, namely squeeze thorax chamber 3 to run through rotating disk and to go directly the chassis be positioned at below rotating disk, be provided with loader 4 on the turntable 1, the discharging opening of loader 4 can aim at arbitrary squeezing thorax chamber 3 proceeded to below loader 4 that rotating disk is provided with, namely rotating disk often turns over a gear, one is then squeezed the discharging opening that thorax chamber 3 leaves loader, and an adjacent rear squeezing thorax chamber 3 forwards to below the discharging opening of loader 4 immediately, now the discharging opening of loader 4 is aimed in the rear squeezing thorax chamber 3 proceeded to, rotating disk often turns one grade, the discharging opening being then positioned at the loader 4 on rotating disk must be aimed to the corresponding squeezing thorax chamber 3 that rotating disk proceeds to, then when opening loader 4, material (as: tea seed etc.) in loader 4 then falls into the corresponding squeezing thorax chamber 3 rotating disk from the discharging opening of loader 4, chassis 2 is provided with steaming steam lumen pore 5, steaming steam lumen pore 5 is provided with temperature control steaming device 6 below, temperature control steaming device can be steam generator, for prior art products, described steaming steam lumen pore 5 up can aim at arbitrary squeezing thorax chamber 3 be transferred on temperature control steaming device that rotating disk is provided with, rotating disk often turns over a gear, a squeezing thorax chamber 3 then leaves the steaming steam lumen pore 5 on chassis 2, and an adjacent rear squeezing thorax chamber 3 forwards on the steaming steam lumen pore 5 on chassis 2 immediately, steaming steam lumen pore 5 can adopt the steaming steam lumen pore 5 with steam hole or steam pore 12, the effect of steam pore to avoid the material when boiling to fall from steaming steam lumen pore 5, now when material is equipped with in the squeezing thorax chamber 3 proceeded to, temperature control steaming device can be opened the steaming steam lumen pore 5 on vapour transmission chassis 2 is carried out temperature control steaming to the squeezing thorax chamber 3 of being equipped with on the rotating disk of material proceeded to be located thereon, be provided with oil press 7 on the turntable 1, oil press 7 can adopt conventional hydraulic oil press, the squeezing head of oil press 7 can be aimed at arbitrary that rotating disk is provided with and proceed to the squeezing thorax chamber 3 be positioned at below squeezing head, namely rotating disk often turns over a gear, one is then squeezed the squeezing head that thorax chamber 3 leaves oil press 7, and an adjacent rear squeezing thorax chamber 3 forwards to below the squeezing head of oil press 7 immediately, now the squeezing head of oil press 7 is aimed in the rear squeezing thorax chamber 3 proceeded to, rotating disk often turns one grade, the squeezing head being then positioned at the oil press 7 on rotating disk must be aimed in the squeezing thorax chamber 3 of squeezing below head to corresponding the proceeding on rotating disk, then when opening oil press 7, the squeezing head of oil press 7 then carries out squeezing work to the squeezing thorax chamber 3 below the squeezing head being transferred to oil press 7 of vapour cooking, now due to be positioned at oil press 7 squeezing head below chassis atresia, produce pressure effect with squeezing head, therefore the squeezing head of oil press 7 can squeeze the material of boiling squeezed in thorax chamber 3, material is squeezed fuel-displaced, with the rotating disk 1 of oil press 7 adjacent above be provided with shedding mechanism 8, shedding mechanism 8 is positioned at the rear portion of oil press 7, shedding mechanism 8 can adopt conventional unloading fuel tank device, as unloading fuel tank etc., chassis 2 is provided with discharging accent 9, described discharging accent 9 is corresponding with shedding mechanism 8 position be provided with above rotating disk 1, the unloading head of shedding mechanism 8 can aim at the squeezing thorax chamber 3 below arbitrary unloading head having proceeded to shedding mechanism 8 that rotating disk is provided with, namely rotating disk often turns over a gear, one is then squeezed the unloading head that thorax chamber 3 leaves shedding mechanism 8, and an adjacent rear squeezing thorax chamber 3 forwards to below the unloading head of shedding mechanism 8 immediately, now the unloading head of shedding mechanism 8 is aimed in the rear squeezing thorax chamber 3 proceeded to, rotating disk often turns one grade, the unloading head being then positioned at the shedding mechanism 8 on rotating disk must be aimed to the corresponding squeezing thorax chamber 3 proceeded on rotating disk, then when opening shedding mechanism 8, the unloading head of shedding mechanism 8 then carries out discharging work to the squeezing thorax chamber 3 that squeezing material is housed below the unloading head being transferred to shedding mechanism 8 after the squeezing of oil press 7, now because the chassis below the unloading head being positioned at shedding mechanism 8 is provided with and the discharging accent 9 squeezing thorax chamber 3 of squeezing material is housed communicates, therefore the material of squeezing in thorax chamber 3 is squeezed in the unloading head energy pressure touch downwards of shedding mechanism 8, make the material that squeezed from discharging accent 9 discharging on chassis 2, therefore can realize charging, steaming, squeezing, discharging by the utility model, then repeat the periodic duty of charging etc.

A kind of operation principle of alignment pin and position-sensing switch that adopts of the present utility model is: be correspondingly provided with an alignment pin at each squeezing thorax chamber 3 place of rotating disk, each alignment pin 10 connects a position-sensing switch, the institution staff that the corresponding control of each position-sensing switch is relevant, position-sensing switch such as at loader place controls loader work, the utility model can deliver to loader the material crushed, turntable rotation material freely falls into fill up from loader and squeezes thorax chamber 3, is silica gel sealing and can to joining the material dosing squeezing thorax chamber 3 by the contact surface of loader and rotating disk.And when dial rotation stops operating to touching position-sensing switch during next alignment pin position, squeeze the steaming position that thorax chamber 3 also turned to hot air vents with the material installed after rotating disk stops operating and start temperature control steaming, the position-sensing switch being simultaneously positioned at oil press 7 place also sends the signal to pressing down to the hydraulic jack at oil press 7 place, hydraulic jack starts to pressing down, setting pressure is arrived to the pressure pressed down Deng hydraulic jack, the Pressure gauge be connected with hydraulic jack just upwards gos up by hydraulic jack to signal, go up to put in place and to be signaled by limit switch, allow rotating disk start and forward next alignment pin to, the position-sensing switch that alignment pin touches shedding mechanism 8 place provides 2 signals simultaneously, one hydraulic jack squeezes to the next one squeezing thorax chamber 3 pressed down proceeding to, return after discharging limit switch is touched in the downward pressure touch of unloading fuel tank of its two shedding mechanism 8, now expect that the squeezing thorax chamber 3 of having unstowed just is waited unloading fuel tank and got back to position, rotating disk rotates again next alignment pin again and goes charging, steaming, squeezing, discharging, repeat charging again, with this periodic duty.

As shown in Figure 5, the utility model another kind adopt main control MCU control operation principle for: the utility model provides the voltage needed for following module or parts by external power or power module, for prior art products, the utility model can deliver to loader the material crushed, turntable rotation material freely falls into fill up from loader and squeezes thorax chamber 3, be silica gel sealing by the contact surface of loader and rotating disk and can to joining the material dosing squeezing thorax chamber 3, material loading sensor is provided with at loader, material loading sensor can detect the squeezing thorax chamber 3 be transferred to below loader, when squeezing thorax chamber 3 is not filled with material, then triggering main control MCU is touched and is made loader carry out filler to the squeezing thorax chamber 3 be transferred to below loader, fill up rear material sensor to send and fill up signal to main control MCU, main control MCU sends signal on the one hand makes material loading sensor stop material loading, sending signal makes dial rotation to the motor of rotating disk on the other hand, and when the steaming position-sensing switch position that dial rotation is established to temperature control steaming device 6 place, steaming position-sensing switch sends framing signal to main control MCU, main control MCU sends and makes the motor stalls signal of rotating disk and rotating disk is stopped operating, squeeze thorax chamber 3 after rotating disk stops operating and also turn to temperature control steaming device 6 place with hot air vents with the material installed, main control MCU sends and starts temperature control steaming device 6 and start the steaming steam lumen pore 5 that temperature control steaming signal makes temperature control steaming device 6 be provided with through chassis 2 and carry out temperature control steaming to the material in the squeezing thorax chamber 3 on it, while temperature control steaming, main control MCU is issued the oil expression sensor one arranged at oil press 7 place and is carried out detection signal to the squeezing thorax chamber 3 forwarded to below it, oil expression sensor is detected the squeezing thorax chamber 3 forwarded to below it, when detecting that there is the material of boiling in squeezing thorax chamber 3, issue main control MCU signal and make it to issue startup oil press 7 working signal, the hydraulic jack of startup oil press 7 sends the signal to pressing down, hydraulic jack starts to pressing down, setting pressure is arrived to the pressure pressed down Deng hydraulic jack, the Pressure gauge be connected with hydraulic jack just gives main control MCU signal, main control MCU is touched and hydraulic jack is upwards gone up, when detecting that squeezing thorax chamber 3 does not have the material of boiling, issue main control MCU signal and make it to issue and do not start oil press 7 working signal, simultaneously, main control MCU is issued the discharging sensor one arranged at shedding mechanism 8 place and is carried out detection signal to the squeezing thorax chamber 3 forwarded to below it, discharging sensor is detected the squeezing thorax chamber 3 forwarded to below it, when detecting that there is the material squeezed in squeezing thorax chamber 3, issue main control MCU signal and make it to issue startup shedding mechanism 8 working signal, the unloading fuel tank of startup shedding mechanism 8 sends the signal to pressing down, unloading fuel tank starts to pressing down, return after touching discharging limit switch, when detecting that squeezing thorax chamber 3 does not have the material squeezed, issue main control MCU signal and make it to issue the working signal not starting shedding mechanism 8, go up to put in place when main control MCU receives hydraulic jack, after temperature control steaming device 6 completes to the squeezing thorax chamber 3 temperature control steaming material below it signal that digestion time and unloading fuel tank return put in place, main control MCU sends and makes dial rotation signal, rotating disk rotate under step motor control and make discharging or squeezing thorax chamber 3 without material forward to below loader, material loading sensor detects the squeezing thorax chamber 3 be transferred to below loader, when squeezing thorax chamber 3 and not being filled with material, then main control MCU sends on the one hand the stepper motor signal that stops operating and makes motor 11 stop operating and rotating disk is stopped operating, trigger loader on the other hand and filler is carried out to the squeezing thorax chamber 3 be transferred to below loader, after filler completes, main control MCU is touched and is made rotating disk rotate again next steaming step again, squeezing step, discharging step, and then repeat charging, with this periodic duty.

Claims (5)

1. an automatic oil mill, comprise rotating disk (1) and chassis (2), rotating disk is above rotated in chassis (2) by motor or manually brought kinetic energy, described chassis (2) is not rotated, it is characterized in that there is chassis (2) below rotating disk (1), when rotating disk is rotated by driven by motor, the motor shaft of motor is connected with center of turntable through the centre bore on chassis, driven by motor dial rotation, outer rim near rotating disk is radially distributed with a plurality of through squeezing thorax chamber (3), described each squeezing thorax chamber (3) is can run through rotating disk to go directly the lumen pore of chassis surface, be provided with loader (4) being positioned at above rotating disk (1), the discharging opening of loader (4) can aim at arbitrary squeezing thorax chamber (3) proceeded to below loader (4) that rotating disk is provided with, material in loader (4) can fall into the corresponding squeezing thorax chamber (3) rotating disk from the discharging opening of loader (4) when opening loader, chassis (2) are provided with steaming steam lumen pore (5), steaming steam lumen pore (5) is provided with temperature control steaming device (6) below, described steaming steam lumen pore up can aim at arbitrary squeezing thorax chamber (3) be transferred on temperature control steaming device that rotating disk is provided with, steaming steam lumen pore (5) on vapour transmission chassis (2) can be carried out temperature control steaming to the squeezing thorax chamber (3) of being equipped with on the rotating disk of material proceeded to be located thereon built with during material when being transferred to the squeezing thorax chamber (3) on temperature control steaming device by described temperature control steaming device after unlatching temperature control steaming device, rotating disk (1) is provided with oil press (7), the squeezing head of oil press (7) can be aimed at arbitrary that rotating disk is provided with and proceed to the squeezing thorax chamber (3) be positioned at below squeezing head, and the squeezing head of described oil press (7) can carry out squeezing work to material in the squeezing thorax chamber (3) below the squeezing head being transferred to oil press (7) of vapour cooking when opening oil press (7) makes material squeezing fuel-displaced.

2. automatic oil mill according to claim 1, it is characterized in that being provided with shedding mechanism (8) above the rotating disk being positioned at position after oil press (7), chassis (2) are provided with discharging accent (9), shedding mechanism (8) position that described discharging accent (9) and rotating disk (1) top is provided with is corresponding and can communicate with the squeezing thorax chamber below the unloading head proceeding to shedding mechanism (8), the unloading head of shedding mechanism (8) can aim at the squeezing thorax chamber (3) below arbitrary unloading head having proceeded to shedding mechanism (8) that rotating disk is provided with, when opening shedding mechanism (8), the unloading head of shedding mechanism (8) then carries out discharging work to the squeezing thorax chamber (3) that squeezing material is housed below the unloading head being transferred to shedding mechanism (8) after the squeezing of oil press and makes the material that squeezed from discharging accent (9) discharging of chassis (2).

3. automatic oil mill according to claim 1 and 2, is characterized in that rotating disk is arranged for concentric with chassis.

4. automatic oil mill according to claim 1 and 2, is characterized in that the squeezing thorax chamber (3) on described rotating disk has 7.

5. automatic oil mill according to claim 1 and 2, is characterized in that described steaming steam lumen pore adopts the steaming steam lumen pore (5) with steam pore.