CN108523700B - Stirring machine - Google Patents

Abstract

The invention discloses a stirrer, which comprises a machine head, a machine body, a locking mechanism and a speed regulating mechanism, wherein an unlocking position is arranged on the machine head, the machine head is rotatably arranged on the machine body, the locking mechanism is used for locking the machine head and the machine body, the speed regulating mechanism comprises a speed regulating switch and a speed regulator, the speed regulating switch is rotatably arranged on the machine body, and the speed regulating switch is used for unlocking the machine head and the machine body when rotating to the unlocking position and driving the speed regulator to regulate speed. The stirrer provided by the invention adopts a structure that the speed regulating switch is linked with the locking mechanism, so that the stirring rod stops rotating when the machine head is lifted, and the stirrer is convenient to operate, safe and reliable.

Description

Stirring machine

Technical Field

The invention relates to the field of food processing machinery, in particular to a stirrer.

Background

At present, small-sized mixers are widely used in the food industry. The working principle of the small-sized stirrer is that under the state that the machine head is locked, the rotation and revolution of the stirring rod are utilized to stir the flour and the water in the charging basket, the flour and the water can be fully mixed to form dough after a plurality of minutes, and at the moment, the machine head needs to be lifted up to be more conveniently taken out, so that the locking state of the machine head needs to be relieved when the machine head is lifted up. Therefore, in order to take out the dough more conveniently, the locking state of the machine head is required to be released, the machine head is lifted, and the mechanism for releasing the locking state of the machine head is called an unlocking mechanism.

At present, most of small-sized mixers on the market are provided with an unlocking mechanism which is independent of a speed regulating switch of a motor, namely the small-sized mixer can be unlocked when the motor rotates at a high speed, the design can lead a user to stop the motor and unlock the motor directly under the condition of unclear and correct unlocking operation steps, a machine head can be lifted at the moment, a travel switch can be powered off immediately, however, a stirring rod is powered off when rotating at a high speed and is not stopped immediately due to inertia, and the stirring rod still rotates, so that the risk of injury to the user exists.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, it is an object of the present invention to provide a mixer, the mixer head of which is lifted, the rotation of the stirring rod being stopped, so as to avoid the risk of injury to the user.

The invention adopts the following technical scheme:

the stirrer comprises a machine head, a machine body, a locking mechanism and a speed regulating mechanism, wherein an unlocking position is arranged on the machine head; the machine head is rotatably arranged on the machine body, and the locking mechanism is used for locking the machine head and the machine body; the speed regulating mechanism comprises a speed regulating switch and a speed regulator, the speed regulating switch is rotatably arranged on the machine head, and the speed regulating switch is used for unlocking the machine head and the machine body and driving the speed regulator to regulate the speed when rotating to the unlocking position.

Further, the locking mechanism comprises a limiting part, a blocking part, a sliding part, a crankshaft, a first elastic part and a driving mechanism;

the limiting part is arranged on the machine head, the blocking part is arranged on the machine body, the blocking part can move towards the limiting part or away from the limiting part, the blocking part is used for abutting against the limiting part when moving towards the limiting part, and the blocking part is arranged on a moving track of the machine head;

the sliding part is arranged on the machine head, the sliding part is slidably arranged on the crankshaft to enable the machine head to rotate relative to the machine body, and the first elastic component is used for providing first elastic stress for enabling the sliding part to slide along the crankshaft;

the driving mechanism is used for driving the blocking part to move away from the limiting part.

Further, the driving mechanism comprises a first movable shaft, a second movable shaft and a pushing shaft, the blocking part is arranged on the second movable shaft, and the pushing shaft is arranged on the speed regulating switch; the two ends of the first movable shaft are respectively provided with a first jacking end and a first compression end; the pushing shaft is used for pushing the first pressure receiving end when the speed regulating switch rotates to the unlocking position; the first pressing end is used for pressing the second movable shaft when the first pressed end is pressed, so that the blocking portion is far away from the limiting portion.

Further, the speed regulating switch can move towards or away from the machine head; the machine head is provided with a round hole; the pushing shaft is used for aligning with the round hole when the speed regulating switch rotates to the round hole; the first pressure end extends into the round hole; the round hole is formed as the unlocking position.

Further, a positioning shaft is arranged in the machine head, an arc groove and a baffle are arranged in the speed regulating switch, the positioning shaft is in sliding fit with the arc groove, and the baffle is arranged in the arc groove; the positioning shaft is used for abutting against the baffle plate when the speed regulating switch rotates to the unlocking position, so that the pushing shaft is aligned to the round hole.

Further, a second elastic component is clamped between the speed regulating switch and the machine head and is used for providing a second elastic stress for enabling the speed regulating switch to be far away from the machine head.

Further, a third elastic component is sleeved outside the first movable shaft, a first check ring is arranged on the first movable shaft, one end of the third elastic component is abutted against the first check ring, the other end of the third elastic component is abutted against the second movable shaft, and the third elastic component is used for providing third elastic stress for enabling the first movable shaft to be far away from the blocking part.

Further, a torsion spring is arranged on the machine body, one end of the torsion spring is installed on the second movable shaft, the other end of the torsion spring is fixed in the machine body, and the torsion spring is used for providing fourth elastic stress for enabling the second movable shaft to be close to the limiting part.

Further, the speed regulating mechanism further comprises a speed regulating shaft, the speed regulating shaft is installed on the machine head, one end of the speed regulating shaft is connected with the speed regulating switch, the other end of the speed regulating shaft is connected with the speed regulator, and the speed regulating shaft is used for regulating the speed of the speed regulator when the speed regulating switch rotates to the unlocking position.

Further, the second elastic component is sleeved on the periphery of the speed regulating shaft, one end of the second elastic component is provided with an elastic check ring for the shaft, and the other end of the second elastic component is provided with a second check ring.

Compared with the prior art, the invention has the beneficial effects that:

according to the stirrer provided by the invention, the speed regulating switch and the locking mechanism are linked, and the locking mechanism is unlocked when the speed regulating switch is rotated to an unlocking position, and the speed regulator is driven to regulate the speed, so that the stirring rod stops rotating when the machine head is lifted, and the safety is improved.

Drawings

FIG. 1 is a right side cross-sectional view of a blender provided in an embodiment of the present invention;

FIG. 2 is a left cross-sectional view of a blender provided in an embodiment of the present invention;

fig. 3 is a schematic view of an internal structure of a mixer according to an embodiment of the present invention, and a main body is not shown in the figure;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic view of the internal structure of a mixer according to an embodiment of the present invention, not shown with the main body and part of the machine head;

FIG. 6 is a partial enlarged view at B in FIG. 5;

FIG. 7 is a partial schematic view of the blender of FIG. 6, with the body and nose not shown;

FIG. 8 is a schematic view of a portion of the blender of FIG. 6 exploded;

FIG. 9 is a schematic diagram of the speed switch of FIG. 6;

in the figure: 1. a machine head; 2. a body; 3. a limit part; 4. a blocking portion; 5. a sliding part; 6. a crankshaft; 7. a first elastic member; 8. a first movable shaft; 9. a first compression end; 10. a second movable shaft; 11. a second pressing end; 12. a speed regulating shaft; 13. a speed regulating switch; 14. a speed governor; 16. a pushing shaft; 17. positioning a shaft; 18. an arc groove; 19. a baffle; 20. a second elastic member; 21. the second check ring; 22. circlips for shafts; 23. a third movable shaft; 24. a torsion spring; 25. a third elastic member; 26. a support frame; 27. a round hole; 28. stirring rod.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

As shown in fig. 1-9, a stirrer according to an embodiment of the present invention includes a machine head 1, a machine body 2, a locking mechanism (not shown) and a speed regulation mechanism, wherein an unlocking position may be provided on the machine head 1, in addition, the machine head 1 is rotatably installed on the machine body 2, and the locking mechanism locks the machine head 1 and the machine body 2; the speed regulating mechanism comprises a speed regulating switch 13 and a speed regulator 14, the speed regulating switch 13 is rotatably arranged on the machine head 1, and when the speed regulating switch 13 rotates to an unlocking position, the machine head 1 and the machine body 2 are unlocked, and the speed regulator 14 is driven to regulate the speed, so that the stirring rod 28 stops rotating.

On the basis, the speed regulating switch 13 is rotated first, and when the speed regulating switch 13 rotates to the unlocking position, the speed regulator 14 stops the rotation of the stirring rod 28 and drives the locking mechanism to unlock, so that the machine head 1 rotates along with the machine body 2, and the machine head 1 is lifted to unlock. The unlocking process adopts a structure that the speed regulating switch 13 is linked with the locking mechanism, and when the machine head 1 is lifted up, the stirring rod 28 stops rotating. The unlocking device is simple to operate, safe and reliable, and is very suitable for controlling the machine head 1 of the small-sized stirrer to unlock.

It should be noted that, the speed adjusting switch 13 is used to control the rotation or stop of the stirring rod 28, and the speed adjusting switch 13 may be electrically connected or controlled by other trigger switches. And the above-mentioned electric linkage or other trigger switch can control the locking mechanism to unlock and drive the speed regulator 14 to regulate speed at the same time when the speed regulating switch 13 rotates to the unlocking position. Of course, the electrical linkage or other trigger switch control may also be to first speed the speed regulator 14 and then unlock the locking mechanism, which mode may be selected according to the specific situation, which is not limited herein.

Preferably, this embodiment shows a specific embodiment of the locking mechanism comprising a limit part 3, a blocking part 4, a sliding part 5, a crankshaft 6, a first elastic member 7 and a driving mechanism. Wherein, spacing portion 3 and sliding portion 5 are installed on aircraft nose 1, and blocking portion 4, bent axle 6 and first elastomeric element 7 set up respectively on fuselage 2. The blocking part 4 can move towards the direction approaching or far away from the limiting part 3, the blocking part 4 is abutted against the limiting part 3 when moving towards the limiting part 3, and the blocking part 4 can be unlocked only on the moving track of the rotation of the machine head 1; the first elastic member 7 is sleeved outside the crankshaft 6, and the sliding portion 5 is slidably mounted on the crankshaft 6 to control the rotation of the machine head 1 relative to the machine body 2, and the first elastic member 7 provides a first elastic stress for sliding the sliding portion 5 along the crankshaft 6.

On the basis, before unlocking, the stirrer is mutually abutted with the limit part 3 on the machine head 1 through the blocking part 4 on the machine body 2 and the compaction action of the first elastic part 7 on the machine body 2 to lock the machine head 1; during unlocking, when the speed regulation switch 13 is rotated to an unlocking position, the driving mechanism drives the blocking part 4 to move away from the limiting part 3, at the moment, the machine head 1 loses blocking, and at the same time, the first elastic part 7 drives the sliding part 5 to slide on the crankshaft 6 to drive the machine head 1 to rotate relative to the machine body 2, so that the machine head 1 is lifted, and unlocking is realized. The locking mechanism is used for controlling the unlocking and locking of the stirrer, and has the characteristic of simple operation.

Specifically, the above-mentioned components such as the limiting portion 3 may be components such as a limiting block, a limiting plate, a limiting sleeve, etc. that play a role in pressing against the blocking portion 4, and the limiting portion 3 in this embodiment is preferably a spring sleeve; the blocking part 4 may be a blocking pin, a blocking plate, a blocking block or other components which can be pressed against the limiting part 3, and in this embodiment, the blocking part 4 is preferably a cylindrical pin. In addition, the sliding part 5 may be a sliding groove or a sliding block, and in this embodiment, the sliding part 5 is preferably a sliding baffle, and a groove is formed at the bottom of the sliding baffle, and the groove may compress the first elastic member 7 before unlocking, and when unlocking, the sliding part 5 may slide on the crankshaft 6.

Preferably, the locking mechanism requires power to unlock, and this embodiment also shows a specific implementation of the driving mechanism comprising the first movable shaft 8, the second movable shaft 10 and the pushing shaft 16. Wherein the pushing shaft 16 is arranged in the speed regulating switch 13, the blocking part 4 is arranged on the second movable shaft 10, preferably, the blocking part 4 traverses the second movable shaft 10, that is, the cylindrical pin traverses the second movable shaft 10 to abut against the limiting part 3, and the limiting part 3 of the embodiment is sleeved outside the first movable shaft 8; the two ends of the first movable shaft 8 are respectively provided with a first compression end 9 and a first pressing end (not shown).

When the speed regulating switch 13 rotates to an unlocking position, the driving mechanism is triggered to unlock, at the moment, the pushing shaft 16 is aligned to the first pressed end 9 of the first movable shaft 8, the first pressed end 9 is pressed by the pushing shaft 16 to enable the first pressed end to press the second movable shaft 10 to move downwards, and at the moment, the blocking part 4 on the second movable shaft 10 is separated from the limiting part 3, so that the machine head 1 loses the blocking effect; in addition, the sliding part 5 slides on the crankshaft 6 while the limiting part 3 is separated from the blocking part 4, so that the machine head 1 is driven to lift, and unlocking is realized. The driving mechanism is utilized to drive the locking mechanism to unlock, so that the operation is simple and the safety is high. Of course, the driving mechanism is not limited to the above-described components, and may be in the form of power such as electric, pneumatic, air pressure, or the like, for example, a cylinder, a motor, or the like.

In particular, the pushing shaft 16 may be a pushing block, a cylinder, a pushing plate. In addition, the embodiment may further include a third movable shaft 23, where two ends of the third movable shaft 23 are respectively provided with a second pressing end 11 and a second pressing end (not shown) opposite to the pushing shaft 16, where the second pressing end 11 presses the first pressing end 9, and the pushing shaft 16 pushes the second pressing end to make the second pressing end 11 press the first pressing end 9, so that the first movable shaft 8 moves downward, and the second movable shaft 10 rotates, so that the blocking portion 4 moves away from the limiting portion 3. The first pressing end 9 and the second pressing end 11 may be conical, so that the first movable shaft 8 and the third movable shaft 23 may be driven vertically, and of course, other shapes may be also possible. The third movable shaft 23 is provided with a support 26 for fixing the third movable shaft.

Preferably, the speed regulating switch 13 can move towards the machine head 1 or away from the machine head 1, a round hole 27 is formed in the machine head 1, and the pushing shaft 16 is used for aligning with the round hole 27 when the speed regulating switch 13 rotates to the round hole 27; the first pressure receiving end 9 extends into a circular hole 27, and the circular hole 27 is formed as an unlocking position. On the basis of the above structure, when the speed regulating switch 13 is rotated to the round hole 27, the pushing shaft 16 on the speed regulating switch 13 is just aligned with the first pressed end 9 of the first movable shaft 8, and the pushing shaft 16 pushes the first pressed end 9 through the round hole 27, so that the first movable shaft 8 moves. Of course, the pushing shaft 16 may also be moved by other means to push against the first movable shaft 8.

Preferably, a positioning shaft 17 is arranged in the machine head 1, an arc groove 18 and a baffle 19 are arranged in the speed regulating switch 13, the positioning shaft 17 is in sliding fit with the arc groove 18, the baffle 19 is arranged in the arc groove 18, and the positioning shaft 17 is used for abutting against the baffle 19 when the speed regulating switch 13 rotates to an unlocking position so as to enable the pushing shaft 16 to be aligned with the round hole 27.

In the process that the speed regulating switch 13 rotates to the unlocking position, the positioning shaft 17 slides in the circular arc groove 18, when the positioning shaft 17 slides to be just abutted against the baffle 19, the speed regulating switch 13 just rotates to the unlocking position, the pushing shaft 16 just aligns with the round hole 27, the pushing shaft 16 passes through the round hole 27 at the moment, and the first pressure receiving end 9 in the round hole 27 is pressed against, so that the first movable shaft 8 moves.

The pushing shaft 16 may be pushed to push the first pressure receiving end 9 by pressing the speed control switch 13, pulling, touching, or the like, or may be otherwise moved to cause the pushing shaft 16, and the driving operation is not limited to the above-described ones. The push shaft 16 can be accurately aligned with the circular hole 27 by means of the positioning shaft 17 in order to drive the locking mechanism to unlock. The positioning shaft 17 may preferably be a positioning pin.

Preferably, the second elastic member 20 is sandwiched between the speed regulating switch 13 and the machine head 1, and the second elastic member 20 is used for providing a second elastic stress for keeping the speed regulating switch 13 away from the machine head 1, so that after unlocking, the machine head 1 and the machine body 2 can be reset under the action of the second elastic stress.

Preferably, in order to make the machine head 1 compress the machine body 2 again, a third elastic member 25 is sleeved outside the first movable shaft 8, a first check ring (not shown) is arranged on the first movable shaft 8, one end of the third elastic member 25 abuts against the first check ring, the other end of the third elastic member 25 abuts against the second movable shaft 10, and the third elastic member 25 provides a third elastic stress for making the first movable shaft 8 far away from the blocking part 4, so that the machine head 1 can be locked on the machine body 2.

Preferably, a torsion spring 24 is further provided in the main body 2, one end of the torsion spring 24 is disposed on the second movable shaft 10, and the other end of the torsion spring 24 is fixed on the main body 2, and the torsion spring 24 provides a fourth elastic stress for making the second movable shaft 10 approach to the limit part 3 so as to make the blocking part 4 block the limit part 3 again, thereby making the mixer locked again. Of course, the torsion spring 24 may be replaced with a material having elasticity and a resettable function.

Specifically, the first elastic member 7, the second elastic member 20 and the third elastic member 25 are all compression springs, and the first elastic member 7, the second elastic member 20 and the third elastic member 25 all play a role in resetting after unlocking, so that the handpiece 1 is locked again. Of course, the elastic component can also be an elastic rubber block or other materials with self-resetting function.

Preferably, the speed regulating mechanism further comprises a speed regulating shaft 12, one end of the speed regulating shaft 12 is connected with a speed regulating switch 13, the other end of the speed regulating shaft 12 is connected with a speed regulator 14, and the speed regulating shaft 12 is mainly used for regulating the speed of the speed regulator 14 when the speed regulating switch 13 rotates to an unlocking position, so that the stirring rod 28 stops rotating. The speed regulating switch 13 and the speed regulator 14 are connected together in a linkage way by the speed regulating shaft 12, so that when the machine head 1 is lifted up, the stirring rod 28 stops rotating, thereby improving the safety.

Preferably, the second elastic member 20 is sleeved on the periphery of the speed adjusting shaft 12, one end of the second elastic member 20 is provided with a shaft elastic retainer ring 22 for fixing, and the other end of the second elastic member 20 is provided with a second retainer ring 21 for limiting, so that the second elastic member 20 cannot shake randomly.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are intended to be within the scope of the present invention as claimed.

Claims (8)

1. A mixer, characterized in that: the machine head is provided with an unlocking position; the machine head is rotatably arranged on the machine body, and the locking mechanism is used for locking the machine head and the machine body; the speed regulating mechanism comprises a speed regulating switch and a speed regulator, the speed regulating switch is rotatably arranged on the machine head, and the speed regulating switch is used for unlocking the machine head and the machine body and driving the speed regulator to regulate the speed when rotating to the unlocking position;

the locking mechanism comprises a limiting part, a blocking part, a sliding part, a crankshaft, a first elastic part and a driving mechanism;

the limiting part is arranged on the machine head, the blocking part is arranged on the machine body, the blocking part can move towards the limiting part or away from the limiting part, the blocking part is used for abutting against the limiting part when moving towards the limiting part, and the blocking part is arranged on a moving track of the machine head;

the sliding part is arranged on the machine head, the sliding part is slidably arranged on the crankshaft to enable the machine head to rotate relative to the machine body, and the first elastic component is used for providing first elastic stress for enabling the sliding part to slide along the crankshaft;

the driving mechanism is used for driving the blocking part to move away from the limiting part;

the driving mechanism comprises a first movable shaft, a second movable shaft and a pushing shaft, the blocking part is arranged on the second movable shaft, and the pushing shaft is arranged on the speed regulating switch; the two ends of the first movable shaft are respectively provided with a first jacking end and a first compression end; the pushing shaft is used for pushing the first pressure receiving end when the speed regulating switch rotates to the unlocking position; the first pressing end is used for pressing the second movable shaft when the first pressed end is pressed, so that the blocking portion is far away from the limiting portion.

2. The blender of claim 1 wherein: the speed regulating switch can move towards the machine head or away from the machine head; the machine head is provided with a round hole; the pushing shaft is used for aligning with the round hole when the speed regulating switch rotates to the round hole; the first pressure end extends into the round hole; the round hole is formed as the unlocking position.

3. The blender of claim 2 wherein: a positioning shaft is arranged in the machine head, an arc groove and a baffle are arranged in the speed regulating switch, the positioning shaft is in sliding fit with the arc groove, and the baffle is arranged in the arc groove; the positioning shaft is used for abutting against the baffle plate when the speed regulating switch rotates to the unlocking position, so that the pushing shaft is aligned to the round hole.

4. A mixer as claimed in claim 3, wherein: and a second elastic part is clamped between the speed regulating switch and the machine head and is used for providing a second elastic stress for enabling the speed regulating switch to be far away from the machine head.

5. The blender of claim 1 wherein: the first movable shaft is sleeved with a third elastic component, a first check ring is arranged on the first movable shaft, one end of the third elastic component is abutted against the first check ring, the other end of the third elastic component is abutted against the second movable shaft, and the third elastic component is used for providing third elastic stress for enabling the first movable shaft to be far away from the blocking part.

6. The blender of claim 1 wherein: the machine body is provided with a torsion spring, one end of the torsion spring is installed on the second movable shaft, the other end of the torsion spring is fixed in the machine body, and the torsion spring is used for providing fourth elastic stress for enabling the second movable shaft to be close to the limiting part.

7. The mixer of claim 4 wherein: the speed regulating mechanism further comprises a speed regulating shaft, the speed regulating shaft is arranged on the machine head, one end of the speed regulating shaft is connected with the speed regulating switch, the other end of the speed regulating shaft is connected with the speed regulator, and the speed regulating shaft is used for regulating the speed of the speed regulator when the speed regulating switch rotates to the unlocking position.

8. The blender of claim 7 wherein: the second elastic component is sleeved on the periphery of the speed regulating shaft, one end of the second elastic component is provided with an elastic check ring for the shaft, and the other end of the second elastic component is provided with a second check ring.