Vacuum dendrobium officinale pulverizer
Technical Field
The invention relates to the technical field of crushing, in particular to a vacuum dendrobium officinale crusher.
Background
In order to prevent that the kibbling in-process of dendrobii officmalis caulis from splashing on the container lid thereby leading to smashing efficiency not good, current dendrobii officmalis caulis rubbing crusher has often increased the vacuum function, carry out high-efficient the smashing to dendrobii officmalis caulis under the negative pressure condition promptly, and the less in order to realize that the little space that will smash the volume setting of container smashes, consequently, it is lighter to smash the container, but high-efficient crushing in-process can produce crushing vibrations, crushing vibrations can make the crushing container that is lighter very easily break away from on the base, so make the crushing of dendrobii officmalis caulis have the potential.
Disclosure of Invention
The invention aims to solve the technical problem of providing a vacuum dendrobium officinale pulverizer aiming at the defects in the prior art.
According to the invention, the vacuum dendrobium officinale pulverizer comprises a base, a fixed arm, a turning arm and a pulverizing container, wherein the fixed arm is fixed on one side of the top of the base, the turning arm is rotatably connected to the top of the fixed arm, the pulverizing container is detachably arranged on the top of the base, a motor in the base drives a pulverizing blade in the pulverizing container to rotate, the base comprises a cover body and a bottom cover connected to the bottom of the cover body, the center of the top of the cover body is sunken to form a sinking platform, the bottom of the pulverizing container is positioned in the sinking platform, the sinking platform comprises a sinking platform bottom wall and a sinking platform side wall, the pulverizing container comprises a container cover body, a container body and a container seat, the bottom of,
the contact part of the turning arm and the fixed arm is respectively provided with a plug-in buckle and a slot, the turning arm is provided with an elastic pressing sleeve, and after the plug-in buckle and the slot are inserted in place, the pressing sleeve is abutted against the cover body of the container to form acting force on the longitudinal direction of the crushing container;
downward partition plates are arranged on two sides of the edge of the bottom wall of the sinking platform, the partition plates and the side part of the cover body are enclosed through a sealing plate assembly to form a sealing cavity, a pushing cavity communicated with the sealing cavity is arranged above the sealing cavity, the cross section of the pushing cavity is smaller than that of the sealing cavity, a push rod is arranged in the pushing cavity, a slide block is arranged in the middle of the push rod and is in sliding sealing connection with the sealing cavity, a spring is arranged between the slide block and the top of the sealing cavity, the upper part of the push rod is positioned in the pushing cavity, the rest of the push rod is positioned in the sealing cavity, the rest of the push rod extends out of the sealing cavity and is connected with a connecting rod, a lock cavity communicated with the pushing cavity is arranged on the side wall of the sinking platform, a lock rod and an elastic piece are arranged in the lock cavity, the left side of the lock rod is abutted against the pushing cavity by the elastic piece under normal state, a poking, creating a force transverse to the comminution vessel.
The fixed arm is provided with a cavity, a vacuum pump is arranged in the cavity, the vacuum pump is provided with an air suction column and an air outlet column, the inner periphery of the pressing sleeve of the turnover arm is provided with an air suction nozzle, and the air suction nozzle is communicated with the air suction column through an air suction pipe. .
Wherein, the cavity is positioned at one side of the fixing arm close to the crushing container.
Wherein, the breathing pipe extends into the turnover arm along the fixed arm.
Wherein, the gas outlet column is communicated with the outside through a gas outlet pipe.
The cover body is provided with a lock catch above the poking opening, the poking rod can be poked upwards and is buckled in the lock catch, and after the poking rod is buckled in the lock catch, the upper part of the push rod pushes the left side of the lock rod, so that the right side of the lock rod extends into the lock hole on the side part of the container seat.
The lock catch is internally provided with an inductive switch, the inductive switch is electrically connected with the control panel, and the deflector rod is buckled in the lock catch and then triggers the inductive switch.
Wherein, the container cover body is provided with a vent hole, and the compressing sleeve covers the vent hole.
The edge of the vent hole is embedded with a magnet, the pressing sleeve is embedded with a magnetic control switch, the magnet triggers the magnetic control switch after the pressing sleeve covers the vent hole, and the magnetic control switch is electrically connected with the control panel.
Wherein, the magnetic control switch is connected with the inductive switch in series.
On one hand, the crushing container is longitudinally positioned by arranging the pressing sleeve on the turnover arm, and the pressing sleeve is abutted against the container cover body to form an acting force on the crushing container longitudinally; on the other hand, the lock hole is formed in the side portion of the container seat, the poking opening is formed in the side portion of the cover body, the connecting rod is connected with the poking rod extending out of the poking opening, the poking rod is poked upwards to enable the right side of the locking rod to extend into the lock hole in the side portion of the container seat, transverse acting force on the crushing container is formed, and the crushing container is transversely positioned.
Drawings
A more complete understanding of the present invention, and the attendant advantages and features thereof, will be more readily understood by reference to the following detailed description when considered in conjunction with the accompanying drawings wherein:
FIG. 1 is a schematic structural diagram according to a first embodiment of the present invention;
FIG. 2 is a schematic structural diagram according to a second embodiment of the present invention;
FIG. 3 is an enlarged view of portion A of FIG. 2;
it is to be noted, however, that the appended drawings illustrate rather than limit the invention. It is noted that the drawings representing structures may not be drawn to scale. Also, in the drawings, the same or similar elements are denoted by the same or similar reference numerals.
Detailed Description
In order that the present disclosure may be more clearly and readily understood, reference will now be made in detail to the present disclosure as illustrated in the accompanying drawings.
The first embodiment is as follows:
as shown in fig. 1, the vacuum dendrobium officinale pulverizer of the embodiment of the present invention includes a base 1, a fixing arm 2, a turning arm 3 and a pulverizing container 4, the fixing arm 2 is fixed on one side of the top of the base 1, the turning arm 3 is rotatably connected to the top of the fixing arm 2, the pulverizing container 4 is detachably disposed on the top of the base 1, a motor 5 in the base 1 drives a pulverizing blade 6 in the pulverizing container 4 to rotate, the base 1 includes a cover body 7 and a bottom cover 8 connected to the bottom of the cover body 7, the cover body 7 and the bottom cover 8 are both plastic pieces, the top center of the cover body 7 is recessed to form a sinking platform, the bottom of the pulverizing container 4 is located in the sinking platform, the sinking platform includes a sinking platform bottom wall 9 and a sinking platform side wall 10, the plastic piece pulverizing container 4 includes a container cover body 11, a container body 12 and a container base 13, the container body 12 is a stainless steel piece, the bottom of the container seat 13 is positioned in the sinking platform, and the capacity of the crushing container 4 is between 500ml and 800ml, so that the crushing and crushing efficiency of a small space is high. The contact positions of the turning arm 3 and the fixing arm 2 are respectively provided with a plug-in buckle and a slot, the turning arm 3 is provided with an elastic pressing sleeve 14, after the plug-in buckle and the slot are inserted in place, the pressing sleeve 14 is abutted with the container cover body 11 to form a longitudinal acting force on the crushing container 4, and thus the longitudinal positioning on the crushing container 4 is realized.
Downward partition plates 15 are arranged on two sides of the edge of the bottom wall 9 of the sinking platform, the partition plates 15 and the side part of the cover body 7 are enclosed through a sealing plate assembly 16 to form a sealing cavity 17, a pushing cavity 18 communicated with the sealing cavity 17 is arranged above the sealing cavity 17, the cross section of the pushing cavity 18 is smaller than that of the sealing cavity 17, a push rod 19 is arranged in the pushing cavity 18, a slide block 20 is arranged in the middle of the push rod 19, the slide block 20 is connected with the sealing cavity 17 in a sliding and sealing mode, a spring 21 is arranged between the slide block 20 and the top part of the sealing cavity 17, under the action of the spring 21, the upper part of the push rod 19 is positioned in the pushing cavity 18, the rest of the push rod is positioned in the sealing cavity 17, the rest of the push rod 19 extends out of the sealing cavity 17 and is connected with a connecting rod 22, a locking cavity 23 communicated with the pushing cavity 18 is arranged on the side wall 10, the container seat 13 lateral part is equipped with the lockhole 26 that corresponds with lock chamber 23, cover body 7 lateral part is equipped with dials mouthful 27, connecting rod 22 is connected with the driving lever 28 that stretches out and dial mouthful 27, cover body 7 is equipped with hasp 29 in dialling mouthful 27 top, driving lever 28 can upwards stir and the lock joint is in hasp 29, and back in hasp 29 at driving lever 28 lock joint, 19 upper portions of push rod promote locking lever 24 left side, make locking lever 24 right side stretch into in the lockhole 26 of container seat 13 lateral part, form the horizontal effort to smashing container 4, the location to smashing container 4 has been realized transversely like this, consequently, this embodiment is vertical and transversely all will smash container 4 and fix a position on base 1, so can guarantee to smash vibrations and can not make lighter smashing container 4 break away from base 1, user experience sense has been improved like this.
The fixed arm 2 is provided with a cavity 30, a vacuum pump 31 is arranged in the cavity 30, the vacuum pump 31 is provided with an air suction column and an air outlet column, the turning arm 3 is provided with an air suction nozzle at the inner periphery of the pressing sleeve 14, the air suction nozzle is communicated with the air suction column through an air suction pipe 32, the air suction pipe 32 extends into the turning arm 3 along the fixed arm 2, the cavity 30 is positioned at one side of the fixed arm 2 close to the crushing container 4, thus being convenient for beauty, the air outlet column is communicated with the outside through the air outlet pipe 33, the container cover body 11 is provided with an air vent, the compressing sleeve 14 covers the air vent, the edge of the air vent is embedded with a magnet, the compressing sleeve 14 is embedded with a magnetic control switch, the magnet triggers the magnetic control switch after the compressing sleeve 14 covers the air vent, the magnetic control switch is electrically connected with the control panel, and the inside of the lock catch 29 is provided with an inductive switch which is also electrically connected with the control panel, the deflector rod 28 is buckled in the lock catch 29 to trigger the inductive switch, and the magnetic control switch is connected with the inductive switch in series.
Before crushing, after putting crushing container 4 on base 1, stir driving lever 28 upwards and make its lock joint in hasp 29, stir driving lever 28 upwards and make driving lever 28 lock joint in the in-process of hasp 29, driving lever 28 drives push rod 19 through connecting rod 22 and upwards removes, push rod 19 upper portion promotes locking lever 24 left side, make locking lever 24 right side stretch into in the lockhole 26 of container seat 13 lateral part, form the horizontal effort to crushing container 4, prevent so that crushing container 4 from breaking away from base 1 because of crushing vibrations in the crushing process, because the capacity of crushing container 4 is between 500ml-800ml in order to realize that crushing space is little, the weight of crushing container 4 is light like this, crushing container 4 easily breaks away from base 1 under crushing vibrations. Then, the turning arm 3 is downwards buckled on the fixing arm 2 and the crushing container 4 through the matching of the insert buckle and the slot, and after the insert buckle and the slot are inserted in place, the pressing sleeve 14 is abutted with the container cover body 11 to form a longitudinal acting force on the crushing container 4, so that the crushing container 4 is longitudinally positioned.
And after the deflector rod 28 is buckled in the lock catch 29, the induction switch is triggered, meanwhile, the magnet triggers the magnetic control switch after the pressing sleeve 14 covers the vent hole, so that the motor 5 in the base 1 can be started only by pressing the switch key on the base 1, and thus, the motor 5 can be started only after the transverse acting force and the longitudinal acting force of the crushing container 4 are positioned.
In the crushing process, the motor 5 in the base 1 drives the crushing blades 6 in the crushing container 4 to crush the dendrobium officinale in the crushing container 4.
After the smashing is finished, the overturning arm 3 is firstly overturned upwards, the overturning arm 3 is removed from the top of the smashing container 4, then the poking rod 28 is poked downwards to be poked out of the lock catch 29, the spring 21 enables the push rod 19 to move downwards to reset, the upper portion of the push rod 19 is separated from the left side of the lock rod 24, the elastic piece 25 enables the left side of the lock rod 24 to be abutted to the pushing cavity 18, and enables the right side of the lock rod 24 to be separated from the lock hole 26 on the side portion of the container base 13, so that the smashing container 4 can be removed from the base 1, and smashed dendrobium officinale powder can be.
Example two:
as shown in fig. 2 and fig. 3, different from the first embodiment, the center of the bottom wall 9 of the sinking platform of the present embodiment is provided with a downward motor cover 34 covering the outside of the motor 5, the lower end of the motor 5 is provided with a motor fan 35, the motor fan 35 is located in the motor cover 34, the bottom of the motor cover 34 is hermetically connected with the bottom cover 8, the side portion of the cover body 7 is provided with an air inlet 36 communicated with the sealed cavity 17, the air inlet 36 is located at the side portion, compared with the top portion, the air inlet cannot enter impurities to cause blockage, compared with the bottom portion, the air inlet cannot be affected by air entering, the air inlet difficulty cannot be caused, the motor cover 34 is communicated with the sealed cavity 17 through a communication channel 37, the lower portion of the motor cover body 34 is provided with a communication. After an on-off key on the base 1 is pressed, the motor 5 in the base 1 drives the crushing blades 6 in the crushing container 4 to crush the dendrobium officinale in the crushing container 4, the motor fan 35 synchronously rotates, external wind enters the motor cover 34 through the air inlet 36, the sealing cavity 17 and the communicating channel 37 to rapidly dissipate heat in a small space for the motor 5, then flows out through the communicating port 38 and the poking port 27, an accommodating cavity 39 is formed between the container base 13 and the sinking platform, the crushing cutter shaft of the crushing blades 6 extends into the accommodating cavity 39 and is connected with the upper coupler 40, the motor shaft extends into the accommodating cavity 39 and is connected with the lower coupler 41, the upper coupler 40 and the lower coupler 41 are in inserted fit, and the motor 5 drives the crushing blades 6 to rotate through the lower coupler 41, the upper coupler 40 and the crushing cutter shaft in the working process. Motor 5 hangs on heavy platform diapire 9 through the screw, and heavy platform diapire 9 is equipped with the intercommunicating pore moreover, and the intercommunicating pore will hold the inner space intercommunication of chamber 39 and motor cover 34, so motor 5 drives motor fan 35 synchronous revolution and also makes external wind get into and hold chamber 39 in, dispels the heat to lower shaft coupling 41, upper shaft coupling 40, prevents that the transmission is overheated between lower shaft coupling 41, the upper shaft coupling 40, ensures normal transmission.
The push rod 19 is internally provided with a cavity 42, the left side of the upper part of the push rod 19 positioned in the sealed cavity 17 is provided with a left opening 43 communicated with the cavity 42, the left opening 43 is used for communicating the sealed cavity 17 above the slide block 20 with the cavity 42, thus, outside wind can enter the sealed cavity 17 above the slide block 20 through the air inlet 36 and finally enter the cavity 42, the right side of the lower part of the push rod 19 positioned in the sealed cavity 17 is provided with a right opening 44 communicated with the cavity 42, the right opening 44 is used for communicating the sealed cavity 17 below the slide block 20 with the cavity 42, thus, outside wind can enter the sealed cavity 17 above the slide block 20 through the air inlet 36 and then enter the cavity 42, then enter the sealed cavity 17 below the slide block 20 through the right opening 44 and finally enter the motor cover 34 through the communication channel 37, the connecting rod 22 can slide up and down along the motor cover 34, the middle part of the connecting rod 22, the motor cover 34 is in a straight cylinder shape, and the motor fan 35 synchronously rotates, so that outside wind sequentially passes through the air inlet 36, the upper part of the sealing cavity 17, the left opening 43, the cavity 42, the right opening 44, the lower part of the sealing cavity 17 and the communication channel 37 to enter the motor cover 34 to rapidly dissipate heat in a small space for the motor 5, and then flows out through the poking opening 27.
It is to be understood that while the present invention has been described in conjunction with the preferred embodiments thereof, it is not intended to limit the invention to those embodiments. It will be apparent to those skilled in the art from this disclosure that many changes and modifications can be made, or equivalents modified, in the embodiments of the invention without departing from the scope of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.