CN217791245U - Portable material loading structure of flour-mixing machine loading - Google Patents

Abstract

The utility model discloses a flour-mixing machine loads portable feed structure, including the portal frame, portal frame two stands straddle in track pedestal both sides and are connected by the crossbeam, portal frame coexistence post includes wide stand and narrow stand, there is feed mechanism below the crossbeam, feed mechanism is including the barrel holder of establishing on the stand, the barrel holder inner wall is the ring gear, the ring gear meshes into planetary gear mechanism with the outer ring gear of flour section of thick bamboo, clear water section of thick bamboo and egg liquid section of thick bamboo, wherein the flour section of thick bamboo is the sun gear, flour section of thick bamboo neck top stretches into inside the crossbeam, through bearing and portal frame swivelling joint, flour section of thick bamboo neck middle part is through drive belt connection drive mechanism, drive mechanism is located inside the wide stand, drive mechanism still is connected with flour feeding mechanism and running gear, narrow stand inside is equipped with into water heating mechanism; different material loading demands are met, continuous multi-urn material loading can be achieved, different modes are achieved, the material loading amount is accurately controlled while manual material loading skills are simulated, human errors are avoided, and the labor cost is reduced.

Description

Portable material loading structure of flour-mixing machine loading

Technical Field

The utility model relates to a kneading dough charging equipment field specifically is a flour-mixing machine loads portable feeding structure.

Background

The wheaten food is a traditional Chinese food, has various varieties and different tastes, is deeply popular with the masses, and the key step for making the wheaten food is dough kneading, wherein the dough kneading mode can be divided into cold water dough kneading, warm water dough kneading and hot water dough kneading according to different foods, the temperature of the cold water dough kneading is below 30 ℃, and the kneaded dough is tough and glossy and is suitable for making noodles, dumplings and the like; the temperature of warm water and the temperature of the flour water are about 50 ℃, and the flour is soft and strong in plasticity and suitable for making various steamed cakes and the like; the temperature of hot water and the surface water is above 60 ℃, the obtained dough has fine and smooth taste and sweet taste, and is suitable for being used as various pastry. In addition, the existence of additives such as egg liquid and the like makes the types of dough to be kneaded more various.

The existing automatic dough kneading equipment is difficult to meet the complicated feeding requirements, the kneaded dough is single in type, the feeding process is only simple in stirring after materials are sprayed into a container, and when the traditional manual feeding is difficult to simulate, the flour is stirred while water is added around the flour, and then more flour and egg liquid are gradually scattered to be blended.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a flour-mixing machine loads portable feed structure, including the portal frame, portal frame coexistence post is striden and is stood in track pedestal both sides and top and is connected by the crossbeam, portal frame coexistence post includes wide stand and narrow stand, the crossbeam below is equipped with feed mechanism, including fixing the stack shell on coexistence post, the stack shell inner wall is the ring gear, with the outer ring gear meshing planetary gear mechanism of flour section of thick bamboo, fresh water section of thick bamboo and egg liquid section of thick bamboo, wherein the flour section of thick bamboo is the sun gear, fresh water section of thick bamboo and egg liquid section of thick bamboo are the planet wheel, the flour section of thick bamboo, fresh water section of thick bamboo and egg liquid bobbin bottom all are equipped with the automatic valve, the feed inlet has all been opened at the top, inside the flour section of thick bamboo neck top stretches into the crossbeam, through bearing and portal frame swivelling joint, drive mechanism is passed through the drive belt at flour section of thick bamboo neck middle part, drive mechanism is located inside the wide stand, drive mechanism still is connected with flour feeding mechanism and running gear, the inside heating mechanism that is equipped with into water.

Further, the transmission mechanism comprises a rail seat fixed in the portal frame, the rail seat is connected with a driving motor in a sliding mode, the top of the driving motor is connected with the output end of a linear driver fixed in the portal frame, under the driving of the linear driver, a bevel gear at the output end of the driving motor can be meshed with a bevel gear at the upper end of a lower transmission rod or a bevel gear at the lower end of an upper transmission rod, the upper transmission rod is rotatably connected with the portal frame, an upper end wheel rail of the upper transmission rod is connected with a transmission belt, the lower transmission rod is rotatably connected with the portal frame, a bevel gear at the middle part of the lower transmission rod is meshed with a bevel gear at the end part of a transverse transmission rod, the transverse transmission rod is rotatably connected with the portal frame, and a belt pulley is arranged on a rod body of the transverse transmission rod.

Further, flour feeding mechanism is equipped with the feeder hopper including fixing the flour storehouse in the portal frame above the flour storehouse, and flour storehouse bottom connection conveying pipe entry is under the conveying pipe export for the flour section of thick bamboo feed inlet, and conveying pipe entry one side intercommunication roots blower output, roots blower fixes in the portal frame, and roots blower input is connected passes through the belt pulley of belt connection transverse transmission pole body from the driving wheel.

Furthermore, the travelling mechanism comprises a front axle and a rear axle which are rotationally connected with the portal frame, a bevel gear is arranged on the rod body of the front axle and is meshed with the bevel gear at the lower end of the lower transmission rod, wheels are fixed at two ends of the front axle and the rear axle and are positioned in notches formed in two sides of the portal frame, grooved wheels are arranged at positions, close to the inner walls of the notches, of two sides of the front axle and the rear axle and are connected through a wheel belt, and the front axle and the rear axle can be driven to rotate.

Furthermore, the water inlet heating mechanism comprises a water delivery pipe, an outlet of the water delivery pipe penetrates out of the bottom of the cross beam, the clear water barrel can rotate to a position right below the outlet, a heating pipe is arranged on the outer wall of the water delivery pipe, an inlet of the water delivery pipe penetrates out of the outer side of the upright post, and automatic control valves are arranged at the outlet and the inlet of the water delivery pipe.

Furthermore, an automatic control valve at the outlet is connected with a hose, the hose is connected with the output end of a water delivery pump, and the input end of the water delivery pump is connected with one side of the bottom of the constant-temperature water tank.

Furthermore, a plurality of surface pots are arranged on the table top of the rail table base at equal intervals along the rail direction, a transmission shaft is arranged inside the rail table base along the rail direction, a head end gear of the transmission shaft is meshed with a gear at the output end of the servo motor, a central position of the bottom of the surface pot is connected with a surface rotating ring in a rotating mode, an inner spline slide rail is arranged inside a shaft column of the surface rotating ring, the inner spline slide rail is connected with an outer spline at the upper end of a connecting shaft in a sliding mode, the connecting shaft penetrates through the bottom of the surface pot and is inserted into the rail table base, a driving gear is arranged at the lower end of the connecting shaft, the bottom of the driving gear is in contact with the upper end of a spring, the lower end of the spring is sleeved into a boss on the ground, an electromagnet is buried below the boss, and when the electromagnet is powered on, the connecting shaft is attracted to slide down to the meshing position of the driving gear and the tooth column on the transmission shaft.

Further, the track pedestal mesa is embedded to have pressure sensor, and pressure sensor is located a urn below to electric connection electro-magnet, the embedded photoelectric sensor that has of track pedestal lateral wall, photoelectric sensor's sensitization end towards the outside and the electric connection sharp driver of pedestal.

Furthermore, a sieve plate valve is arranged below the automatic valve arranged at the bottom of the flour barrel, and the sieve plate valve is a common automatic valve provided with sieve holes on a flashboard.

The utility model discloses beneficial effect as follows:

1. the device can satisfy the material loading demand of all kinds of manners of kneading dough, can accomplish the material loading back of a face urn, reach next face urn material loading automatically, and the material loading manner difference that can set up as required between each face urn.

2. The device can simulate manual feeding technique to feed, so that the mouth feel of the dough is more authentic.

3. The device can accurately control the feeding amount, avoids the taste difference caused by human errors, and greatly reduces the labor cost.

Drawings

FIG. 1 is a diagram of a gantry structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a side view of the structure of the present invention;

fig. 4 is a cross-sectional view of the feeding mechanism of the present invention;

fig. 5 is a partially enlarged schematic view of a portion a in fig. 2.

The reference numerals are illustrated below: 1. a gantry; 101. a wide upright post; 102. a narrow upright post; 103. a cross beam; 2. a rail pedestal; 3. a barrel stand; 4. a flour cylinder; 5. a clean water cylinder; 6. an egg liquid cylinder; 7. an automatic valve; 8. a sieve plate valve; 9. a bearing; 10. a transmission belt; 11. a transmission rod is arranged; 12. a drive motor; 13. a rail seat; 14. a linear actuator; 15. a lower transmission rod; 16. a transverse transmission rod; 17. a belt; 18. a Roots blower; 19. a feeding pipe; 20. a flour bin; 21. a feed hopper; 22. an axle; 23. a wheel; 24. a belt wheel; 25. a water delivery pipe; 26. heating a tube; 27. an automatic control valve; 28. a hose; 29. a water delivery pump; 30. a constant temperature water tank; 31. surface urn; 3101. dough kneading and rotating; 3102. a connecting shaft; 3103. a spring; 32. an electromagnet; 33. a drive shaft; 34. a pressure sensor; 35. a photosensor; 36. a servo motor.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention will be further explained with reference to the drawings in the following description:

as shown in fig. 1 to 5, a loading movable feeding structure of a dough mixer comprises a portal frame 1, two vertical columns of the portal frame 1 straddle two sides of a track pedestal 2, the tops of the two vertical columns of the portal frame 1 are connected by a cross beam 103, the two vertical columns of the portal frame 1 comprise a wide vertical column 101 and a narrow vertical column 102, a feeding mechanism is arranged below the cross beam 103 and comprises a barrel base 3 fixed on the vertical columns, the inner wall of the barrel base 3 is an inner gear ring which is meshed with an outer gear ring of a flour barrel 4, a clean water barrel 5 and an egg liquid barrel 6 to form a planetary gear mechanism, wherein the flour barrel 4 is a sun gear, the clean water barrel 5 and the egg liquid barrel 6 are planetary gears, automatic valves 7 are arranged at the bottoms of the flour barrel 4, the clean water barrel 5 and the egg liquid barrel 6, feed ports are arranged at the tops of the flour barrel 4, the tops of necks of the flour barrel 4 extend into the cross beam 103 and are rotatably connected with the portal frame 1 through bearings 9, the middle of the necks of the flour barrel 4 are connected with a transmission mechanism through a transmission belt 10, the transmission mechanism is arranged inside the wide vertical column, the transmission mechanism is further connected with a flour feeding mechanism and a traveling mechanism, and a water feeding heating mechanism is arranged inside the narrow vertical column.

In this embodiment, the transmission mechanism includes a rail seat 13 fixed in the portal frame 1, the rail seat 13 is slidably connected to a driving motor 12, the top of the driving motor 12 is connected to an output end of a linear driver 14 fixed in the portal frame 1, under the driving of the linear driver 14, a bevel gear at the output end of the driving motor 12 can be meshed with a bevel gear at the upper end of a lower transmission rod 15 or a bevel gear at the lower end of an upper transmission rod 11, the upper transmission rod 11 is rotatably connected to the portal frame 1, an upper wheel track at the upper end of the upper transmission rod 11 is connected to a transmission belt 10, the lower transmission rod 15 is rotatably connected to the portal frame 1, a middle bevel gear of the lower transmission rod 15 is meshed with a bevel gear at the end of a transverse transmission rod 16, the transverse transmission rod 16 is rotatably connected to the portal frame 1, and the transverse transmission rod 16 is provided with a belt pulley.

In this embodiment, the flour feeding mechanism includes the flour storehouse 20 of fixing in portal frame 1, and flour storehouse 20 top is equipped with feeder hopper 21, and the feeding pipe 19 entry is connected to flour storehouse 20 bottom, is the flour section of thick bamboo 4 feed inlet under the feeding pipe 19 export, and feeding pipe 19 entry one side intercommunication roots blower 18 output, and roots blower 18 is fixed in portal frame 1, and the driven wheel of 18 input connections of roots blower passes through the belt pulley of belt 17 connection transverse transmission 16 poles of the staff.

In this embodiment, the traveling mechanism includes two front and rear axles 22 rotatably connected to the gantry 1, a bevel gear is provided on a body of the front axle 22 to mesh with a bevel gear at a lower end of the lower transmission rod 15, wheels 23 are fixed at two ends of the front and rear axles 22, the wheels 23 are located in notches formed in two sides of the gantry 1, sheaves are provided at positions on two sides of the front and rear axles 22 near inner walls of the notches, and the front and rear sheaves are connected by a belt 24, so that the front axle 22 can drive the rear axle 22 to rotate.

In this embodiment, the water inlet heating mechanism includes a water pipe 25, an outlet of the water pipe 25 penetrates through the bottom of the cross beam 103, the clean water drum 5 can rotate to a position right below the outlet, a heating pipe 26 is arranged on the outer wall of the water pipe 25, an inlet of the water pipe 25 penetrates through the outer side of the upright post, and automatic control valves 27 are arranged at the inlet and the outlet of the water pipe 25.

In this embodiment, the automatic control valve 27 at the outlet is connected to the hose 28, the hose 28 is connected to the output end of the water delivery pump 29, and the input end of the water delivery pump 29 is connected to one side of the bottom of the constant temperature water tank 30.

In this embodiment, a plurality of surface pots 31 are equidistantly arranged on the table top of the rail table base 2 along the rail direction, a transmission shaft 33 is arranged inside the rail table base 2 along the rail direction, a head end gear of the transmission shaft 33 is meshed with an output end gear of a servo motor 36, a central position of the bottom of the surface pot 31 is rotatably connected with a surface rotating ring 3101, an internal spline slide rail is arranged inside a shaft column of the surface rotating ring 3101 and is slidably connected with an external spline at the upper end of a connecting shaft 3102, the connecting shaft 3102 penetrates through the bottom of the surface pot 31 and is inserted into the rail table base 2, a driving gear is arranged at the lower end of the connecting shaft 3102, the bottom of the driving gear is contacted with the upper end of a spring 3103, the lower end of the spring 3103 is sleeved into a boss on the ground, an electromagnet 32 is embedded below the boss, and when the electromagnet 32 is powered on, the connecting shaft 3102 is attracted to slide to the meshing position of the driving gear and the gear column on the transmission shaft 33.

In this embodiment, the embedded pressure sensor 34 that has of track pedestal 2 mesa, pressure sensor 34 are located face urn 31 below to electric connection electro-magnet 32, the embedded photoelectric sensor 35 that has of track pedestal 2 lateral wall, photoelectric sensor 35's sensitization end towards the pedestal outside and electric connection linear actuator 14.

In this embodiment, the automatic valve 7 below that flour section of thick bamboo 4 bottom was equipped with still is equipped with the sieve plate valve 8, and sieve plate valve 8 is for opening the ordinary automatic valve that has the sieve mesh on the flashboard.

The utility model discloses the theory of operation as follows:

before carrying out the material loading operation, device automobile body part is located 2 initial position of track pedestal, clear water section of thick bamboo 5 is located under raceway 25 export this moment, egg liquid section of thick bamboo 6 is full material state, because egg liquid is less than other material consumptions, consequently this section of thick bamboo need not secondary feeding at whole material loading operation in-process, the temperature control in constant temperature water tank 30 is within 30 degrees, fill up flour storehouse 20 through feeder hopper 21, the valve all is in closed condition this moment, driving motor 12 output bevel gear and the meshing of lower drive rod 15 upper end bevel gear.

Starting a driving motor 12, starting feeding operation, wherein the driving motor 12 drives a lower transmission rod 15 to rotate, a bevel gear at the lower end of the lower transmission rod 15 is meshed with a bevel gear on an axle 22 to drive the axle 22 to rotate, a grooved pulley on the axle 22 drives a rear axle 22 to rotate through a pulley belt 24 so as to drive a lower wheel 23 of the upright post to advance, a bevel gear at the middle part of the lower transmission rod 15 is meshed with a bevel gear of a transverse transmission rod 16 to drive the transverse transmission rod 16 to rotate, a rod body belt pulley of the transverse transmission rod 16 drives a belt 17, the belt 17 drives an input end belt pulley of a Roots blower to rotate, so that the Roots blower 18 is driven to work, and flour is conveyed into a flour barrel 4 through a feeding pipe 19; meanwhile, the automatic control valve 27 is opened, the water delivery pump 29 is started, water in the constant-temperature water tank 30 is delivered to the water delivery pipe 25 through the hose 28, heated to a specified temperature through the heating pipe 26, and then injected into the clear water barrel 5, and after the heating pipe is filled, the automatic control valve 27 and the heating pipe 26 at the outlet are closed.

When the wheel 23 moves to the first photoelectric sensor 35 along the track pedestal 2, the photoelectric sensor 35 controls the push rod of the linear driver 14 to move upwards to drive the bevel gear at the output end of the driving motor 12 to be meshed with the bevel gear at the lower end of the upper transmission rod 11, the bevel gear at the upper end of the lower transmission rod 15 is disengaged to stop rotating, at this time, the flour feeding mechanism and the water inlet heating mechanism just complete the filling work of the flour cylinder 4 and the clear water cylinder 5, the walking mechanism stops moving forwards, the upper transmission rod 11 drives the flour cylinder 4 to rotate through the transmission belt 10, the flour cylinder 4 serves as a sun wheel to drive the clear water cylinder 5 and the egg liquid cylinder 6 serving as planet wheels to rotate around the sun wheel, the automatic valve 7 under the planet mechanism is opened to feed the flour jar 31, the pressure sensor 34 senses the pressure change and then starts the electromagnet 32 to attract the connecting shaft 3102 to overcome the spring resistance to move downwards, so that the driving gear at the lower end of the connecting shaft 3102 is meshed with the tooth column on the transmission shaft 33, the servo motor 36 is started to drive the transmission shaft 3102 to drive the flour rotating ring 3101 to rotate and blend flour. Wherein, the aperture size change of each section of thick bamboo automatic valve 7 and open the opportunity and set up according to the needs of kneading dough, can be according to the gimmick of kneading dough and make many sets of flows of the different formulation of dough kind, when needs are when flour is scattered in the in-process sieve of kneading dough, can open sieve plate valve 8 under the condition that automatic valve 7 of flour section of thick bamboo 4 opened, automatic valve 7 and sieve plate valve 8 do not have other differences except that whether open the sieve mesh on the flashboard, when sieve plate valve 8 opened, sieve plate valve 8's flashboard closed pipeline acts as the sieve plate, when sieve plate valve 8 closed, sieve plate valve 8's flashboard opened the pipeline and forms the route.

After the feeding is finished, the push rod of the linear driver 14 descends to drive the bevel gear at the output end of the driving motor 12 to be meshed with the bevel gear at the upper end of the lower transmission rod 15, the bevel gear at the lower end of the upper transmission rod 11 is disengaged to stop rotating, because the feeding time length is set to be integral multiple of the revolution period of the planet wheel (the times can be increased and decreased according to the time length required by the feeding method), when the rotation is stopped, the planet mechanism returns to the initial position, each valve below the planet mechanism is closed, the automatic control valve 27 at the outlet is opened, the flour feeding mechanism and the water inlet heating mechanism restart the filling, the travelling mechanism continues to advance downwards one photoelectric sensor 35 along the vehicle body part of the driving device of the track pedestal 2, the electromagnet 32 below the filled flour urn 31 is powered off after the set time length, 3102 is disengaged, and the connection shaft and the flour urn 31 are finished.

It should be noted that, the utility model provides a linear actuator 14 and photoelectric sensor 35, pressure sensor 34 and electro-magnet 32 and all kinds of automatic control valve between electric connection and control all belong to current common control technique, so do not add the perusal here.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (9)

1. The utility model provides a portable feed structure is loaded to flour-mixing machine, includes portal frame (1), portal frame (1) coexistence post is strideed and is stood in track pedestal (2) both sides and top and is connected its characterized in that by crossbeam (103): portal frame (1) coexistence post includes wide stand (101) and narrow stand (102), crossbeam (103) below is equipped with feed mechanism, and feed mechanism is including fixing two barrel holder (3) on the stand, barrel holder (3) inner wall is the ring gear, outer ring gear and the outer ring gear meshing planetary gear mechanism of flour section of thick bamboo (4), clear water section of thick bamboo (5) and egg liquid section of thick bamboo (6), wherein flour section of thick bamboo (4) are the sun gear, clear water section of thick bamboo (5) and egg liquid section of thick bamboo (6) are the planet wheel, flour section of thick bamboo (4), clear water section of thick bamboo (5) and egg liquid section of thick bamboo (6) bottom all are equipped with automatic valve (7), and the feed inlet has all been opened at the top, flour section of thick bamboo (4) neck top is stretched into inside crossbeam (103), through bearing (9) with portal frame (1) swivelling joint, flour section of thick bamboo (4) neck middle part is through drive mechanism (10) coupling mechanism, drive mechanism is located inside wide stand (101), drive mechanism still connects with flour heating mechanism (102).

2. A loading mobile loading structure of a dough mixer as claimed in claim 1, wherein: the transmission mechanism comprises a rail seat (13) fixed in a portal frame (1), the rail seat (13) is slidably connected with a driving motor (12), the top of the driving motor (12) is connected and fixed with the output end of a linear driver (14) in the portal frame (1), under the driving of the linear driver (14), a bevel gear at the output end of the driving motor (12) can be meshed with a bevel gear at the upper end of a lower transmission rod (15) or a bevel gear at the lower end of an upper transmission rod (11), the upper transmission rod (11) is rotatably connected with the portal frame (1), an upper end wheel rail of the upper transmission rod (11) is connected with a transmission belt (10), the lower transmission rod (15) is rotatably connected with the portal frame (1), a middle bevel gear of the lower transmission rod (15) is meshed with a bevel gear at the end of a transverse transmission rod (16), the transverse transmission rod (16) is rotatably connected with the portal frame (1), and a rod body of the transverse transmission rod (16) is provided with a belt pulley.

3. A dough mixer loading mobile loading structure according to claim 2, wherein: the flour feeding mechanism comprises a flour bin (20) fixed in the portal frame (1), a feeding hopper (21) is arranged above the flour bin (20), the bottom of the flour bin (20) is connected with an inlet of a feeding pipe (19), a feeding hole of the flour cylinder (4) is arranged right below an outlet of the feeding pipe (19), one side of the inlet of the feeding pipe (19) is communicated with the output end of a Roots blower (18), the Roots blower (18) is fixed in the portal frame (1), and a driven wheel connected with the input end of the Roots blower (18) is connected with a belt pulley of a shaft body of the transverse transmission rod (16) through a belt (17).

4. A dough mixer loading mobile loading structure according to claim 2, wherein: the traveling mechanism comprises a front axle (22) and a rear axle (22) which are rotatably connected with the portal frame (1), wherein bevel gears are arranged on the shafts of the front axle (22) and the rear axle (22) and are meshed with the bevel gears at the lower end of the lower transmission rod (15), wheels (23) are fixed at the two ends of the front axle (22) and the rear axle (22), the wheels (23) are positioned in notches formed in the two sides of the portal frame (1), grooved wheels are arranged at the positions, close to the inner walls of the notches, of the two sides of the front axle (22) and the two grooved wheels are connected through a belt (24), and the front axle (22) can drive the rear axle (22) to rotate.

5. A loading mobile loading structure of a dough mixer as claimed in claim 1, wherein: the water inlet heating mechanism comprises a water conveying pipe (25), an outlet of the water conveying pipe (25) penetrates out of the bottom of the cross beam (103), the clear water barrel (5) can rotate to a position right below the outlet, a heating pipe (26) is arranged on the outer wall of the water conveying pipe (25), an inlet of the water conveying pipe (25) penetrates out of the outer side of the upright post, and automatic control valves (27) are arranged at the outlet and the inlet of the water conveying pipe (25).

6. A loading movable feeding structure of a dough mixer as claimed in claim 5, wherein: the automatic control valve (27) at the outlet is connected with a hose (28), the hose (28) is connected with the output end of a water delivery pump (29), and the input end of the water delivery pump (29) is connected with one side of the bottom of a constant-temperature water tank (30).

7. A dough mixer loading mobile loading structure according to claim 2, wherein: the novel combined type electric heating plate is characterized in that a plurality of surface vats (31) are equidistantly arranged on the table top of the track table base (2) along the track direction, a transmission shaft (33) is arranged in the track table base (2) along the track direction, a head end gear of the transmission shaft (33) is meshed with an output end gear of a servo motor (36), a surface mixing rotating ring (3101) is rotatably connected to the center of the bottom of the surface vat (31), an inner spline sliding rail is arranged in a shaft column of the surface mixing rotating ring (3101), the inner spline sliding rail is slidably connected with an outer spline at the upper end of a connecting shaft (3102), the connecting shaft (3102) penetrates through the bottom of the surface vat (31) and is inserted into the track table base (2), a driving gear is arranged at the lower end of the connecting shaft (3102), the bottom of the driving gear is contacted with the upper end of a spring (3103), the lower end of the spring (3103) is sleeved in a boss on the ground, an electromagnet (32) is buried below the boss, and when the electromagnet (32) is electrified, the connecting shaft (3102) is attracted to slide to the meshing position of the driving gear and the tooth column on the transmission shaft (33).

8. A loading movable feeding structure of a dough mixer as claimed in claim 7, wherein: track pedestal (2) mesa is embedded to have pressure sensor (34), pressure sensor (34) are located face urn (31) below, and electric connection electromagnet (32), track pedestal (2) lateral wall is embedded to have photoelectric sensor (35), photoelectric sensor's (35) sensitization end is towards the outside and electric connection of pedestal linear actuator (14).

9. A loading mobile loading structure of a dough mixer as claimed in claim 1, wherein: flour section of thick bamboo (4) bottom is equipped with automatic valve (7) below still is equipped with sieve plate valve (8), sieve plate valve (8) are for opening the ordinary automatic valve that has the sieve mesh on the flashboard.

Images