CN215276932U - High-efficient production tank agitating unit - Google Patents

Abstract

The utility model relates to a stirring apparatus, especially, relate to a high-efficient production tank agitating unit. The technical problem to be solved is as follows: the efficient production tank stirring device is sufficient in stirring and high in working efficiency. The technical scheme is as follows: the utility model provides a high-efficient production groove agitating unit, is connected with the shell including first bracer, shell, motor, transmission shaft, spiral leaf, dosing mechanism and shielding mechanism on the first bracer, and first bracer quantity is three, and first bracer top is equipped with the motor, and motor bottom output shaft has the transmission shaft. Has the advantages that: drive rotatory piece through the transmission shaft and rotate, under rotatory piece slows down to rotatory piece slowly rotates, and rotatory piece rotates and extrudees first sliding block, and first sliding block drives first lid backsliding, can realize the purpose to water intermittent type unloading finally.

Description

High-efficient production tank agitating unit

Technical Field

The utility model relates to a stirring apparatus, especially, relate to a high-efficient production tank agitating unit.

Background

In daily life, especially in kitchen work, the situations needing stirring, such as stirring eggs, stirring flour, stirring seasonings and the like, are frequently encountered. But the current market lacks a stirring device with high reliability and low cost. The flour is prepared by sun drying mature wheat and grinding into powder. The flour processed food contains more starch and protein, and is often used as a staple food for people. The flour is processed into food, and the common method is to take proper amount of flour, then correspondingly add proper amount of water, continuously stir to form small flour blocks, and then uniformly and forcefully knead to finally form tough dough. And then processing the dough to form food such as noodles, steamed bread, dumplings or steamed stuffed buns. The existing flour stirring technology is usually manual stirring, the mode is suitable for a small amount of flour, but the flour stirring technology is difficult to be competent when meeting the requirement of large-scale production stirring of flour, the manual labor intensity is high, the working efficiency is low, the existing flour stirring technology further comprises an electric stirring device, but the existing stirring device can only stir the middle part of a flour container, the stirring is insufficient, and the stirring effect is poor.

Therefore, the utility model provides a stirring is abundant, high-efficient production tank agitating unit that work efficiency is high.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcomings of insufficient stirring and low working efficiency, the technical problem to be solved is as follows: the efficient production tank stirring device is sufficient in stirring and high in working efficiency.

The technical scheme is as follows: the utility model provides a high-efficient production groove agitating unit, is connected with the shell including first bracer, shell, motor, transmission shaft, spiral leaf, dosing mechanism and shielding mechanism on the first bracer, and first bracer quantity is three, and first bracer top is equipped with the motor, and motor bottom output shaft has the transmission shaft, is connected with the spiral leaf on the transmission shaft, and shell one side is equipped with dosing mechanism, and shell one side is equipped with shields the mechanism.

Further, the quantitative mechanism comprises a second supporting block, a material discharging frame, a rotating block, a first guide block, a first reset spring, a first sliding block and a first cover, one side of the shell is connected with the second supporting block, the material discharging frame is connected onto the second supporting block, the rotating block is connected onto the transmission shaft, the first guide block is connected onto one side of the material discharging frame, the first sliding block is arranged in the first guide block in a sliding mode, the first reset spring is connected between the first sliding block and the first guide block, the top of the first sliding block is connected with the first cover, and the first cover is in contact fit with the material discharging frame.

Further explaining, the shielding mechanism comprises a second guide block, a second sliding block, a second cover, a fixed block, a second reset spring, a first telescopic rod, a second telescopic rod, a third reset spring and a first handle, the outer side of the middle part of the shell is connected with the second guide block, the second sliding block is arranged in the second guide block in a sliding mode, one side of the second sliding block is connected with the second cover, the second cover is in contact fit with the shell, the fixed block is connected onto the second guide block, the first telescopic rod is connected into the fixed block, the second telescopic rod is connected onto the second cover, the first handle is connected onto the second telescopic rod, the second reset spring is connected between the first handle and the fixed block, and the third reset spring is connected between the first handle and the second cover.

Further explaining, the device also comprises a moving mechanism, wherein the moving mechanism comprises a bearing, a third supporting block and a wheel, the bottom of the first supporting block is rotatably connected with the bearing, the bottom of the bearing is connected with the third supporting block, and one side of the third supporting block is rotatably connected with the wheel.

Further explain, still including collecting the mechanism, collect the mechanism including the receiver, the second handle, the third guide block, rotary rod and third handle, shell one side is equipped with the receiver, be connected with the second handle on the receiver, first supporting block bottom is connected with the third guide block, third guide block and receiver contact cooperation, the rotary type is equipped with the rotary rod in the third guide block, be connected with the third handle on the rotary rod front portion, rotary rod and receiving box clamping fit.

Further, rubber is arranged on the outer side of the first handle.

The utility model has the advantages that: 1. the rotating block is driven to rotate through the transmission shaft, and when the rotating block decelerates, the rotating block slowly rotates, the rotating block rotates to extrude the first sliding block, the first sliding block drives the first cover to slide backwards, the first cover slides backwards to be separated from the discharging frame, so that water in the discharging frame flows out of the shell, and the purpose of intermittent water discharging can be finally achieved;

2. the first handle is pulled firstly, the first handle drives the second telescopic rod to slide upwards, the third reset spring is stretched, and meanwhile, the second telescopic rod drives the second cover to slide forwards, so that the second cover slides upwards until the second cover is not in contact with the through hole of the shell, and then a user takes out the stirred flour, and finally the purpose of discharging the stirred flour can be achieved;

3. through first promoting first supporting block, first supporting block drives the wheel and removes subaerial to remove to the position that the user needs, when needs turn to, but the rotation of bearing adaptability can realize finally removing the purpose to equipment.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a first partial body structure according to the present invention.

Fig. 3 is a schematic diagram of a second partial body structure according to the present invention.

Fig. 4 is a schematic view of a first partial solid structure of the dosing mechanism of the present invention.

Fig. 5 is a schematic view of a second partial body structure of the dosing mechanism of the present invention.

Fig. 6 is a schematic view of a first partial solid structure of the shielding mechanism of the present invention.

Fig. 7 is a schematic view of a second partial body structure of the shielding mechanism of the present invention.

Fig. 8 is a schematic view of a three-dimensional structure of the moving mechanism of the present invention.

Fig. 9 is a schematic view of a first partial body structure of the collecting mechanism of the present invention.

Fig. 10 is a schematic view of a second partial body structure of the collecting mechanism of the present invention.

Reference numbers in the drawings: 1: first support block, 2: outer shell, 3: motor, 4: drive shaft, 5: helical blade, 6: dosing mechanism, 60: second support block, 61: discharge frame, 62: rotation block, 63: first guide block, 64: first return spring, 65: first slider, 66: first cover, 7: shielding mechanism, 70: second guide block, 71: second slider, 72: second cover, 73: fixed block, 74: second return spring, 75: first telescopic rod, 76: second telescopic link, 77: third return spring, 78: first handle, 8: moving mechanism, 80: bearing, 81: third support block, 82: wheel, 9: collection mechanism, 90: receiver, 91: second handle, 92: third guide block, 93: rotating rod, 94: a third handle.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which currently preferred embodiments of the invention are shown. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

The utility model provides a high-efficient production tank agitating unit, as shown in fig. 1-7, including first supporting block 1, shell 2, motor 3, transmission shaft 4, spiral leaf 5, dosing mechanism 6 and shielding mechanism 7, be connected with shell 2 on the first supporting block 1, 1 quantity of first supporting block is three, 1 top rear side of first supporting block is equipped with motor 3, 3 bottom output shaft of motor has transmission shaft 4, be connected with spiral leaf 5 on the transmission shaft 4, 2 rear portion left sides of shell are equipped with dosing mechanism 6, 2 anterior downside of shell are equipped with shielding mechanism 7.

When needs stir flour, at first pour flour into in shell 2, starter motor 3 afterwards, motor 3 drives transmission shaft 4 and rotates, simultaneously transmission shaft 4 drives spiral leaf 5 and rotates, spiral leaf 5 rotates the flour in to shell 2 and stirs, thereby transmission shaft 4 rotates and starts dosing mechanism 6, dosing mechanism 6 work intermittent type flows out rivers to in the shell 2, flow simultaneously to the flour on, and then spiral leaf 5 rotates and makes water and flour evenly stir together, stir good back, the pulling shields mechanism 7, shield mechanism 7 lapse, thereby spiral leaf 5 rotates the flour and rotates 2 openings to the shell, and then the flour that the user of service will stir is collected, when need not stir flour, close motor 3, thereby transmission shaft 4 stall, finally can realize the purpose to the flour stirring.

The quantifying mechanism 6 comprises a second supporting block 60, a material placing frame 61, a rotating block 62, a first guide block 63, a first return spring 64, a first sliding block 65 and a first cover 66, the left side of the rear part of the shell 2 is connected with the second supporting block 60, the upper side of the right part of the second supporting block 60 is connected with the material placing frame 61, the rotating block 62 is connected onto the transmission shaft 4, the left side and the right side of the lower part of the material placing frame 61 are both connected with the first guide block 63, the first sliding block 65 is arranged in the first guide block 63 in a sliding mode, the first return spring 64 is connected between the first sliding block 65 and the first guide block 63, the top of the first sliding block 65 is connected with the first cover 66, and the first cover 66 is in contact fit with the material placing frame 61.

When water needs to be fed intermittently, firstly, the water is injected into the feeding frame 61, then the transmission shaft 4 drives the rotating block 62 to rotate, under the deceleration of the rotating block 62, the rotating block 62 rotates slowly, the rotating block 62 rotates to extrude the first sliding block 65, then the first sliding block 65 slides backwards along the first guide block 63, the first return spring 64 is compressed, meanwhile, the first sliding block 65 drives the first cover 66 to slide backwards, the first cover 66 slides backwards to be separated from the feeding frame 61, so that the water in the feeding frame 61 flows out to the shell 2 and flows to flour, when the rotating block 62 rotates to be not contacted with the first sliding block 65, under the resetting action of the first return spring 64, the first sliding block 65 slides forwards to the original position, meanwhile, the first sliding block 65 drives the first cover 66 to slide to the original position, so that the first cover 66 is contacted and matched with the feeding frame 61, and finally, the purpose of intermittent water feeding can be realized.

The shielding mechanism 7 comprises a second guide block 70, a second sliding block 71, a second cover 72, a fixed block 73, a second return spring 74, a first telescopic rod 75, a second telescopic rod 76, a third return spring 77 and a first handle 78, the second guide block 70 is connected to the outer side of the middle of the shell 2, the second sliding block 71 is arranged in the second guide block 70 in a sliding mode, the second cover 72 is connected to the rear portion of the second sliding block 71, the second cover 72 is in contact fit with the shell 2, the fixed block 73 is connected to the upper side of the front portion of the second guide block 70, the first telescopic rod 75 is connected to the fixed block 73, the second telescopic rod 76 is connected to the upper side of the front portion of the second cover 72, the first handle 78 is connected to the second telescopic rod 76, the second return spring 74 is connected between the first handle 78 and the fixed block 73, and the third return spring 77 is connected between the first handle 78 and the second cover 72.

When the stirred flour needs to be discharged, the first handle 78 is pulled first, the first handle 78 drives the second telescopic rod 76 to slide upwards, the third return spring 77 is stretched, the second telescopic rod 76 drives the second cover 72 to slide forwards, then the first handle 78 is continuously pulled upwards, the second return spring 74 is compressed, the first handle 78 drives the second telescopic rod 76 to slide upwards, the second telescopic rod 76 drives the second cover 72 to slide upwards, the second cover 72 drives the second sliding block 71 to slide along the second guide block 70, then the second cover 72 slides upwards until the second cover 72 is not in contact with the through hole of the shell 2, then a user takes out the stirred flour, no force is applied to the first handle 78 any more, under the return action of the second return spring 74, the first handle 78 slides downwards to the original position, and under the return action of the third return spring 77, the second telescopic rod 76 slides to the original position, the second cover 72 drives the second sliding block 71 to slide downwards, and finally the purpose of discharging the stirred flour can be achieved.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 8, 9 and 10, the mobile device 8 further includes a bearing 80, a third supporting block 81 and a wheel 82, the bearing 80 is rotatably connected to the bottom of the first supporting block 1, the third supporting block 81 is connected to the bottom of the bearing 80, and the wheel 82 is rotatably connected to the lower side of the third supporting block 81.

When needs remove this device, at first promote first supporting block 1, first supporting block 1 drives wheel 82 and removes subaerial to remove to the position that the user needed, when needs turn to, but bearing 80 adaptability's rotation, and then remove to the position that the user need remove after, stop promoting first supporting block 1, wheel 82 stops subaerial the removal simultaneously, can realize the purpose that removes equipment at last.

Still including collecting mechanism 9, collect mechanism 9 including receiver 90, second handle 91, third guide block 92, rotary rod 93 and third handle 94, 2 anterior downside of shell is equipped with receiver 90, the anterior upside of receiver 90 is connected with second handle 91, the 1 bottom left and right sides of first supporting block all is connected with third guide block 92, third guide block 92 and receiver 90 contact cooperation, the rotation formula is equipped with rotary rod 93 in third guide block 92, the anterior upside of rotary rod 93 is connected with third handle 94, rotary rod 93 and the cooperation of receiver 90 chucking.

When the needs are collected the flour that stirs, the flour that stirs is along 2 openings of shell downslide to in the receiver 90, user's pulling third handle 94 afterwards, third handle 94 drives the rotary rod 93 at the rotation of third guide block 92, thereby rotary rod 93 rotates to the through-hole department of third guide block 92, simultaneously rotary rod 93 no longer is to receiver 90 chucking, user's pulling second handle 91, third handle 94 drives receiver 90 forward sliding, and then take out the built-in flour that has of receiver 90, install the normal position back with receiver 90 afterwards, user's pulling third handle 94 once more, third handle 94 drives rotary rod 93 and rotates to the normal position, thereby rotary rod 93 carries out the chucking to receiver 90, finally can realize the mesh of collecting the flour that stirs.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a high-efficient production groove agitating unit, a serial communication port, including first supporting block (1), shell (2), motor (3), transmission shaft (4), spiral leaf (5), ration mechanism (6) and shield mechanism (7), be connected with shell (2) on first supporting block (1), first supporting block (1) quantity is three, first supporting block (1) top is equipped with motor (3), motor (3) bottom output shaft has transmission shaft (4), be connected with spiral leaf (5) on transmission shaft (4), shell (2) one side is equipped with ration mechanism (6), shell (2) one side is equipped with shields mechanism (7).

2. The stirring device of a high-efficiency production tank is characterized in that the quantitative mechanism (6) comprises a second supporting block (60), a material placing frame (61) and a rotating block (62), first guide block (63), first reset spring (64), first sliding block (65) and first lid (66), shell (2) one side is connected with second supporting shoe (60), be connected with blowing frame (61) on second supporting shoe (60), be connected with rotatory piece (62) on transmission shaft (4), blowing frame (61) one side is connected with first guide block (63), first guide block (63) internal sliding formula is equipped with first sliding block (65), all be connected with first reset spring (64) between first sliding block (65) and first guide block (63), first sliding block (65) top is connected with first lid (66), first lid (66) and blowing frame (61) contact cooperation.

3. The efficient production tank stirring device as claimed in claim 2, wherein the shielding mechanism (7) comprises a second guide block (70), a second sliding block (71), a second cover (72), a fixed block (73), a second return spring (74), a first telescopic rod (75), a second telescopic rod (76), a third return spring (77) and a first handle (78), the second guide block (70) is connected to the outer side of the middle part of the casing (2), the second sliding block (71) is arranged in the second guide block (70) in a sliding manner, the second cover (72) is connected to one side of the second sliding block (71), the second cover (72) is in contact fit with the casing (2), the fixed block (73) is connected to the second guide block (70), the first telescopic rod (75) is connected to the fixed block (73), the second telescopic rod (76) is connected to the second cover (72), a first handle (78) is connected onto the second telescopic rod (76), a second return spring (74) is connected between the first handle (78) and the fixing block (73), and a third return spring (77) is connected between the first handle (78) and the second cover (72).

4. The stirring device of a high-efficiency production tank according to claim 3, further comprising a moving mechanism (8), wherein the moving mechanism (8) comprises a bearing (80), a third supporting block (81) and a wheel (82), the bearing (80) is rotatably connected to the bottom of the first supporting block (1), the third supporting block (81) is connected to the bottom of the bearing (80), and the wheel (82) is rotatably connected to one side of the third supporting block (81).

5. A high-efficiency production tank stirring device as claimed in claim 4, further comprising a collecting mechanism (9), wherein the collecting mechanism (9) comprises a storage box (90), a second handle (91), a third guide block (92), a rotating rod (93) and a third handle (94), the storage box (90) is arranged on one side of the housing (2), the second handle (91) is connected onto the storage box (90), the third guide block (92) is connected to the bottom of the first supporting block (1), the third guide block (92) is in contact fit with the storage box (90), the rotating rod (93) is rotatably arranged in the third guide block (92), the third handle (94) is connected to the front portion of the rotating rod (93), and the rotating rod (93) is in clamping fit with the storage box (90).

6. A high efficiency production tank mixing apparatus as claimed in claim 3 wherein the first handle (78) is provided with rubber on the outside.

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