CN217887696U - Blendor convenient to cleaning and disinfection - Google Patents

Abstract

The utility model relates to a blendor convenient to cleaning and disinfecting, including a section of thick bamboo unit, drive unit, stirring unit, driven unit, regulating unit and two cleaning unit. Wherein, the driving unit is arranged at the top end of the cylinder unit; the first end of the stirring unit is arranged in the barrel unit, and the second end of the stirring unit is coaxially connected with the output shaft of the driving unit; the driven unit is sleeved at the second end of the stirring unit, and the bottom end of the driven unit is rotatably arranged at the top end of the barrel unit; the adjusting unit is sleeved at the second end of the stirring unit, corresponds to the top end of the driven unit and is arranged in a matching way; two cleaning unit are relative and rotationally set up in the top of a section of thick bamboo unit, and the top of two cleaning unit is connected with the top meshing of driven unit, and the bottom of two cleaning unit all sets up in the inside of a section of thick bamboo unit. The utility model discloses a rational in infrastructure, can be convenient for carry out all-round washing and disinfecting to the inside wall of a section of thick bamboo unit and stirring unit.

Description

Blendor convenient to cleaning and disinfection

Technical Field

The utility model relates to a compounding equipment technical field especially relates to a blendor convenient to cleaning and disinfecting.

Background

Spores (endospores), also known as endospores, are dormant bacteria. Common spore-forming bacteria are mainly of the genera Bacillus (Bacillus), clostridium (Clostridium), and lactobacillus. For example, in the case of preserving food by heating, spores are extremely heat-resistant and cannot be killed by heating, so that they multiply in large numbers after germinating into vegetative cells, resulting in food spoilage.

Among the prior art, can use the blendor to mix spore and other mixed material together usually, and after wasing the blendor, if can't be with the inside spore sanitization of blendor, can lead to the spore to mix in other products, make other products dye miscellaneous fungus, influence the quality and the result of use of product. Simultaneously under the circumstances of mixing different cultivars' probiotics, if before mixing, there are other miscellaneous fungus and not thoroughly disinfect in the inside of blendor, also can lead to the probiotic to mix with other miscellaneous fungus to lead to the probiotic to be contaminated. In addition, although the existing mixer can convey clean water or clean water with a sporicide to the inside of the mixer to clean and disinfect the mixer, the inside wall of the mixer cannot be washed in all directions, so that the mixed material or spores adhered to the inner wall of the mixer or the side wall of the stirring part are difficult to remove, and the spores are mixed with other products.

At present, after carrying out the compounding to the spore to current blendor, the inside remaining spore of blendor can mix the quality and the result of use that reduce the product with other products and can't wash the problem of blendor inner wall to the inside clear water that carries of blendor, has not yet provided effectual solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims at not enough among the prior art, provide a blendor convenient to cleaning and disinfection to at least, solve current blendor and after carrying out the compounding to the spore, the inside remaining spore of blendor can reduce the quality and the result of use of product and can't erode the problem of blendor inner wall to the inside transport clear water of blendor with other product mixture.

In order to realize the purpose, the utility model provides a blendor convenient to cleaning and disinfecting, include:

a cartridge unit;

a driving unit disposed at a top end of the barrel unit;

the first end of the stirring unit is arranged in the barrel unit, the second end of the stirring unit extends to the upper part of the barrel unit, and the second end of the stirring unit is coaxially connected with the output shaft of the driving unit and is used for being driven by the driving unit to rotate;

the driven unit is sleeved at the second end of the stirring unit, and the bottom end of the driven unit is rotatably arranged at the top end of the barrel unit;

the adjusting unit is sleeved at the second end of the stirring unit, corresponds to the top end of the driven unit, is matched with the top end of the driven unit, and is used for enabling the driven unit to rotate along with the stirring unit;

two cleaning unit, two cleaning unit relative and rotationally set up in the top of a section of thick bamboo unit, and two cleaning unit's top with driven unit's top meshing is connected, two cleaning unit's bottom all set up in the inside of a section of thick bamboo unit for with disinfection union coupling.

Further, the cartridge unit includes:

the mixing barrel element is of a hollow structure;

the feeding element is arranged at the top end of the mixing cylinder element, communicated with the inner part of the mixing cylinder element and used for adding mixed materials into the mixing cylinder element;

the discharging element is arranged at the bottom end of the mixing cylinder element and is used for discharging the mixed materials in the mixing cylinder element;

and the rotating groove element is arranged at the top end of the mixing cylinder element and surrounds the top end opening of the mixing cylinder element.

Further, the driving unit includes:

the bottom end of the mounting element is sleeved at the top end of the barrel unit;

the driving element is arranged at the top end of the mounting element, and an output shaft of the driving element extends into the mounting element and is coaxially connected with the second end of the stirring unit.

Further, the mounting element comprises:

a mounting frame sleeved on the top end of the barrel unit;

the supporting shafts are arranged at the top end of the mounting frame along the circumferential direction of the mounting frame;

the supporting plates are arranged at the top ends of the supporting shafts and used for mounting the driving elements.

Further, the stirring unit includes:

the rotary element is sleeved in the opening at the top end of the mixing barrel element of the barrel unit;

the top end of the stirring shaft element is sleeved inside the rotating element, and the bottom end of the stirring shaft element is arranged inside the mixing barrel element;

the stirring blade elements are arranged on the periphery of the stirring shaft element at intervals;

and the two first limiting elements are arranged at the top end of the rotating element, correspond to the adjusting unit and are matched with the adjusting unit.

Further, the driven unit includes:

the sleeve element is sleeved at the top end of the stirring unit, and the bottom end of the sleeve element is rotatably arranged in the rotating groove element of the barrel unit;

the first gear element is annular and is sleeved at the top end of the sleeve element, corresponds to the adjusting unit and is in meshed connection with the two driven units;

and the two second limiting elements are arranged on the inner side wall of the first gear element along the circumferential direction of the first gear element and are matched with the adjusting unit.

Further, the adjusting unit includes:

the ring element is sleeved at the top end of the stirring unit;

the two third limiting elements are arranged on the inner side wall of the ring element along the circumferential direction of the ring element, correspond to the first limiting elements of the stirring unit and are arranged in a matched manner;

and the two fourth limiting elements are arranged on the outer side wall of the ring element along the circumferential direction of the ring element, correspond to the second limiting elements of the driven unit and are arranged in a matched manner.

Further, the adjusting unit further includes:

and the two lifting elements are correspondingly arranged at the top ends of the two fourth limiting elements.

Further, the washing unit includes:

a connecting pipe element rotatably disposed at a top end of the mixing cylinder element of the cylinder unit and communicating with the mixing cylinder element of the cylinder unit;

a nozzle member disposed at a first end of said connecting tube member and located within said mixing bowl member;

the second gear element is sleeved at the second end of the connecting pipe element and is in meshed connection with the first gear element of the driven unit;

and the first end of the water pipe element is arranged in the connecting pipe element, and the second end of the water pipe element is positioned outside the connecting pipe element and is used for connecting the disinfection pipe.

Further, the water pipe element includes:

a seal bearing sleeved inside the top end of the connecting tube element;

the cleaning pipe, the first pot head of cleaning pipe is established sealed bearing's inside, the second end of cleaning pipe set up in the outside of connecting pipe component, and with the disinfection union coupling.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

(1) In the mixer convenient to clean and sterilize, the driving unit can drive the stirring unit to stir the mixed material in the barrel unit, so that spores and other materials can be mixed together;

(2) The worker places the adjusting unit in the driven unit, so that the driving unit can drive the driven unit to rotate through the adjusting unit, the driven unit drives the cleaning unit to rotate, the cleaning unit can carry out all-dimensional washing on the inner side wall of the cylinder unit and the stirring unit, and the problems that after the spores are mixed in the existing mixer, the residual spores in the mixer can be mixed with other products to reduce the quality and the using effect of the products, and clear water is conveyed into the mixer to wash the inner wall of the mixer cannot be solved;

(3) The cleaning unit is connected with the disinfection pipe to obtain the sporicide conveyed by the disinfection pipe, and the sporicide is sprayed into the mixing cylinder element, so that the problem that the quality and the using effect of products are influenced by mixing residual spores in the mixer with other products in the prior art is solved;

(4) The utility model discloses a rational in infrastructure, can be convenient for carry out all-round washing and disinfecting to the inside wall and the stirring unit of a section of thick bamboo unit, and acquire the sporicide through cleaning unit and disinfection union coupling to can exterminate the remaining spore of a section of thick bamboo unit inside, have good practical value and popularization and application and worth.

Drawings

FIG. 1 is a schematic structural view of a mixer convenient for cleaning and disinfection of the present invention;

fig. 2 is a schematic structural view of the cartridge unit of the present invention;

fig. 3 is a schematic structural view of the mounting unit of the present invention;

fig. 4 is a schematic structural diagram of the stirring unit of the present invention;

fig. 5 is a schematic structural diagram of the driven unit of the present invention;

fig. 6 is a schematic structural diagram of an adjusting unit of the present invention;

fig. 7 is an assembly view of the driven unit and the washing unit of the present invention;

FIG. 8 is a cross-sectional view of a cleaning unit of the present invention;

wherein the reference symbols are:

100. a cartridge unit; 110. a mixing barrel element; 120. a feed element; 130. a discharge element; 140. rotating the trough member;

200. a drive unit; 210. mounting a component; 211. a mounting frame; 212. a support shaft; 213. a support plate; 220. a drive element;

300. a stirring unit; 310. a rotating element; 320. a stir shaft element; 330. a stirring blade element; 340. a first spacing element;

400. a driven unit; 410. a sleeve element; 420. a first gear element; 430. a second limiting element;

500. an adjustment unit; 510. a ring element; 520. a third limiting element; 530. a fourth limiting element; 540. pulling the element;

600. a cleaning unit; 610. connecting the tube element; 620. a showerhead element; 630. a second gear member; 640. a water pipe element; 641. sealing the bearing; 642. and (5) cleaning the tube.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "upper", "lower", "inner", "outer", "vertical", "horizontal", and the like as used herein are used in the description to indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, the mixer convenient for cleaning and disinfecting of the present invention includes a cylinder unit 100, a driving unit 200, a stirring unit 300, a driven unit 400, an adjusting unit 500, and two cleaning units 600. Wherein the inside of the cartridge unit 100 is used to place the mixing material; the driving unit 200 is disposed at the top end of the barrel unit 100, and is used for driving the stirring unit 300 to rotate; a first end of the stirring unit 300 is disposed inside the barrel unit 100, a second end of the stirring unit 300 extends to above the barrel unit 100, and a second end of the stirring unit 300 is coaxially connected with an output shaft of the driving unit 200, and is configured to rotate under the driving of the driving unit 200 and stir the mixed material inside the barrel unit 100; the second end of the stirring unit 300 is sleeved with the driven unit 400, and the bottom end of the driven unit 400 is rotatably arranged at the top end of the barrel unit 100, so as to rotate under the driving of the stirring unit 300 under the condition that the adjusting unit 500 is in fit connection with the driven unit 400; the adjusting unit 500 is sleeved at the second end of the stirring unit 300, corresponds to the top end of the driven unit 400, and is arranged in a matching manner, so that the driven unit 400 rotates along with the stirring unit 300; two cleaning units 600 are relatively and rotationally arranged at the top end of the barrel unit 100, the top ends of the two cleaning units 600 are meshed with the top end of the driven unit 400, the bottom ends of the two cleaning units 600 are arranged inside the barrel unit 100 and are used for being connected with a disinfection pipe, and the inner side wall of the barrel unit 100 and the stirring unit 300 are washed.

In some embodiments, the mixer further includes a control unit electrically connected to the driving unit 200 for controlling the driving unit 200 to be turned on or off.

Wherein, the control unit comprises a central processing unit and a control panel.

Wherein, cleaning unit 600 is connected with external disinfection pipe, and the disinfection pipe is connected with pump unit, and pump unit is connected with the container of placing the sporicide to under the condition that the staff opened pump unit, pump unit can pump the sporicide to cleaning unit 600 in, then cleaning unit 600 spouts the sporicide to the inside wall of section of thick bamboo unit 100 and stirring unit 300 on, in order to wash section of thick bamboo unit 100 and stirring unit 300.

Wherein the sporicide can be compound peroxyacetic acid or compound hydrogen peroxide.

Specifically, in the case of stirring the mixed material inside the barrel unit 100, the worker takes the adjusting unit 500 out of the interior of the driving unit 400, and then turns on the driving unit 200, and the driving unit 200 drives the stirring unit 300 to stir the mixed material inside the barrel unit 100; under the condition of wasing the inside of a section of thick bamboo unit 100, the staff puts into the inside of driven unit 400 with regulating unit 500, then drive unit 200 drives stirring unit 300 and rotates, stirring unit 300 drives driven unit 400 through regulating unit 500 and rotates, driven unit 400 can drive two cleaning unit 600 and rotate, then cleaning unit 600 carries out all-round washing to section of thick bamboo unit 100's inside wall and stirring unit 300, and spray the sporicide to section of thick bamboo unit 100's inside.

As shown in fig. 2, the cartridge unit 100 includes a mixing cartridge member 110, a feeding member 120, a discharging member 130, and a rotating chute member 140. The mixing cylinder element 110 is a hollow structure with an opening at the top end, and the mixing cylinder element 110 is used for placing mixed materials; the feeding element 120 is arranged at the top end of the mixing cylinder element 110 and communicated with the interior of the mixing cylinder element 110 for adding mixed materials into the mixing cylinder element 110; the discharging element 130 is arranged at the bottom end of the mixing cylinder element 110 and is used for discharging the mixed materials mixed in the mixing cylinder element 110; the rotating groove member 140 opens at the top end of the mixing bowl member 110 and is arranged around the top end opening of the mixing bowl member 110 for facilitating the rotation of the driven unit 400.

Wherein the interior of mixing bowl element 110 is used to hold spores or other mixing materials.

Wherein the number of the feeding elements 120 may be several to add different types of mixing materials simultaneously to the interior of the mixing bowl element 110.

Wherein the feeding element 120 comprises a feeding pipe and a first valve. Wherein, the feed pipe is communicated with and arranged on the mixing cylinder element 110; the first valve is arranged on the feeding pipe to close or open the feeding pipe.

Wherein, the inlet pipe can be the tubular metal resonator, also can be the rubber tube.

Wherein, the first valve is an electromagnetic valve or a pipeline valve.

The discharging element 130 includes a discharging pipe and a second valve. Wherein, the discharge pipe is communicated with the bottom end of the mixing cylinder element 110; the second valve is arranged on the discharge pipe to close or open the discharge pipe.

Wherein, the discharging pipe can be a metal pipe or a rubber pipe.

Wherein the second valve is an electromagnetic valve or a pipeline valve.

In particular, the worker may add mixing material to the interior of the mixing bowl element 110 through the inlet element 120 and discharge the mixed mixing material from the interior of the mixing bowl element 110 through the outlet element 130.

In some of these embodiments, where the first valve and the second valve are both solenoid valves, both the first valve and the second valve are electrically connected to the control unit.

As shown in fig. 3, the driving unit 200 includes a mounting member 210 and a driving member 220. Wherein, the bottom end of the mounting element 210 is sleeved on the top end of the barrel unit 100 for providing a mounting and supporting function; the driving element 220 is disposed at the top end of the mounting element 210, and an output shaft of the driving element 220 extends into the mounting element 210 and is coaxially connected to the second end of the stirring unit 300 for driving the stirring unit 300 to rotate.

The driving element 220 is a driving motor and can rotate forward or backward.

In some embodiments, the driving element 220 is electrically connected to the control unit to turn on, turn off, rotate forward or rotate backward under the control of the control unit.

As shown in fig. 3, the mounting member 210 includes a mounting frame 211, a plurality of support shafts 212, and a support plate 213. Wherein, the mounting frame 211 is sleeved on the top end of the barrel unit 100 for mounting the support shaft 212; a plurality of support shafts 212 are provided at the top end of the mounting frame 211 in the circumferential direction of the mounting frame 211 for mounting support plates 213; the supporting plate 213 is disposed at the top end of the plurality of supporting shafts 212 for mounting the driving member 220.

Specifically, the driving element 220 is mounted on the support plate 213, and the output shaft of the driving element 220 passes through the support plate 213 to be located below the support plate 213.

Wherein, the mounting frame 211 is a circular frame.

Wherein the support shaft 212 is a support rod.

Among them, the supporting plate 213 may be a square plate member.

Among them, the mounting frame 211, the support shaft 212, and the support plate 213 may be made of a metal material or a wooden material.

For example, the mounting frame 211, the support shaft 212, and the support plate 213 are all made of aluminum alloy.

As shown in fig. 4, the stirring unit 300 includes a rotating element 310, a stirring shaft element 320, a plurality of stirring blade elements 330, and two first limiting elements 340. Wherein, the rotating element 310 is sleeved inside the top opening of the mixing barrel element 110 of the barrel unit 100 for facilitating the rotation of the stirring shaft element 320; the top end of the stirring shaft element 320 is sleeved inside the rotating element 310, and the bottom end of the stirring shaft element 320 is arranged inside the mixing barrel element 110 and is used for rotating along with the driving element 220; a plurality of stirring blade elements 330 are arranged at intervals on the periphery of the stirring shaft element 320 along the length direction of the stirring shaft element 320, and are used for stirring the mixed materials in the mixing cylinder element 110; the two first limiting elements 340 are disposed on the outer circumferential wall of the rotating element 310 along the top end of the rotating element 310, and correspond to and cooperate with the adjusting unit 500 for limiting the adjusting unit 500.

Specifically, the agitator shaft element 320 is coaxially connected with the output shaft of the drive element 220.

Wherein the rotating element 310 is a bearing.

Wherein the stirring shaft element 320 is a cylindrical metal shaft.

Wherein the stirring vane element 330 is a stirring rod.

Wherein, the first limiting element 340 is a limiting block.

As shown in fig. 5, the driven unit 400 includes a sleeve member 410, a first gear member 420, and two second stopper members 430. Wherein, the sleeve element 410 is disposed to cover the top end of the stirring unit 300, and the bottom end of the sleeve element 410 is rotatably disposed in the rotating groove element 140 of the barrel unit 100 for providing a supporting function; the first gear element 420 is annular and is sleeved on the top end of the sleeve element 410, the first gear element 420 corresponds to and is matched with the adjusting unit 500, and is meshed with the two driven units 400 for rotating along with the adjusting unit 500; the two second limiting elements 430 are disposed on the inner sidewall of the first gear element 420 along the circumferential direction of the first gear element 420, and are disposed corresponding to and matching with the adjusting unit 500, and are driven by the adjusting unit 500 to rotate.

Wherein the bottom end of the sleeve member 410 may be rotatably disposed in the rotary slot member 140 through a rotary bearing.

Specifically, the rotational bearing is sleeved in the rotational groove member 140, and the bottom end of the sleeve member 410 is sleeved inside an inner ring of the rotational bearing.

Wherein the sleeve element 410 may be a metal sleeve.

The first gear element 420 is a gear member with a through hole in the middle.

Wherein the second limiting element 430 is used for corresponding and matching arrangement with the adjusting unit 500.

Wherein the second position-limiting element 430 is a position-limiting groove.

As shown in fig. 6, the adjusting unit 500 includes a ring member 510, two third stopper members 520, and two fourth stopper members 530. Wherein, the ring element 510 is disposed at the top end of the stirring unit 300 and can enter the inside of the through hole of the first gear element 420; the two third limiting elements 520 are arranged on the inner side wall of the ring element 510 along the circumferential direction of the ring element 510, correspond to and are matched with the first limiting elements 340 of the stirring unit 300, and are used for matching and connecting the first limiting elements 340 of the stirring unit 300 so as to limit the ring element 510; the two fourth limiting elements 530 are disposed on the outer sidewall of the ring element 510 along the circumferential direction of the ring element 510, and are disposed corresponding to and matching with the second limiting elements 430 of the driven unit 400, for matching with the second limiting elements 430 to drive the first gear element 420 to rotate.

Wherein the ring element 510 is a metal ring.

Wherein the third position-limiting element 520 is a position-limiting groove.

Wherein, the inside wall of the third limiting element 520 is pasted with a rubber pad, so that the worker needs to press the ring element 510 down hard to connect the third limiting element 520 and the first limiting element 340 in a matching manner.

Wherein the fourth limiting element 530 is a limiting block.

Specifically, when the ring element 510 enters the inside of the first gear element 420, the third limiting element 520 is connected with the first limiting element 340 in a matching manner, and the fourth limiting element 530 is connected with the second limiting element 430 in a matching manner, the driving element 220 rotates to drive the ring element 510 to rotate through the first limiting element 340 and the third limiting element 520, the ring element 510 drives the first driven gear element to rotate through the fourth limiting element 530 and the second limiting element 430, and the first driven gear element drives the cleaning unit 600 to rotate.

As shown in fig. 6, the adjusting unit 500 further includes two pulling members 540, and the two pulling members 540 are correspondingly disposed at the top ends of the fourth limiting members 530 for facilitating the removal of the ring member 510 from the interior of the first driven gear member.

Wherein the pulling element 540 is a block structure or a ring structure.

In the case where the worker takes out the ring member 510 by the pulling member 540, the worker rotates the ring member 510 and can place the ring member 510 on the first stopper member 340 provided on the stirring member.

As shown in fig. 7, the washing unit 600 includes a connection pipe element 610, a spray head element 620, a second gear element 630, and a water pipe element 640. Wherein the connecting pipe member 610 is rotatably provided at the top end of the mixing cylinder member 110 of the cylinder unit 100 and is provided in communication with the mixing cylinder member 110 of the cylinder unit 100 for obtaining the sporicide; a nozzle member 620 is provided at a first end of the connecting pipe member 610 and is located inside the mixing bowl member 110 for spraying the sporicide into the mixing bowl member 110; the second gear element 630 is sleeved at the second end of the connecting tube element 610, and is engaged with the first gear element 420 of the driven unit 400, for being driven by the first gear element 420 to rotate; the water pipe element 640 has a first end disposed inside the connection pipe element 610 and a second end disposed outside the connection pipe element 610 for connection to a sterilizing pipe.

Specifically, the outer sleeve of the connecting pipe element 610 is provided with a rotation bearing, and the rotation bearing is embedded in the top side wall of the mixing barrel element 110, so that the connecting pipe element 610 can rotate conveniently.

Wherein the connection pipe element 610 may be a metal pipe element.

Wherein the nozzle element 620 is a nozzle or a spray nozzle.

Wherein the second gear element 630 may be a metal gear.

As shown in fig. 8, the water pipe member 640 includes a sealing bearing 641 and a cleaning pipe 642. Wherein, the sealing bearing 641 is sleeved inside the top end of the connection tube element 610; the first end of the cleaning tube 642 is sleeved inside the sealing bearing 641, and the cleaning tube 642 is disposed outside the connecting tube element 610 and connected with the sterilizing tube for obtaining the sporicide delivered by the pump unit.

Specifically, in the case that the second gear element 630 rotates with the first gear element 420, the second gear element 630 drives the connecting pipe element 610 to rotate on the mixing cylinder element 110, the connecting pipe element 610 drives the nozzle element 620 to rotate inside the mixing cylinder element 110, and the cleaning pipe 642 is not driven to rotate by the sealing bearing 641, so that the nozzle element 620 can spray the sporicide onto the inner side wall of the mixing cylinder element 110, the stirring shaft element 320 and the stirring blade element 330 in the case that the cleaning pipe 642 obtains the sporicide.

The utility model discloses a theory of operation does:

under the condition of stirring the spores and other mixed materials in the mixing cylinder element 110, a worker takes the ring element 510 out of the first gear element 420 and places the ring element on the first limiting element 340, and then the worker turns on the driving element 220, and the driving element 220 drives the stirring blade element 330 to rotate through the stirring shaft element 320, so as to stir the mixed materials in the mixing cylinder element 110;

in the case of cleaning and disinfecting the mixing drum element 110, the worker places the ring element 510 in the first gear element 420 and brings the first limiting element 340 and the third limiting element 520 into mating connection, and the second limiting element 430 and the fourth limiting element 530 into mating connection;

the staff will connect the connecting pipe element 610 with the disinfection pipe, and control and open the driving element 220, the driving element 220 drives the ring element 510 to rotate through the first limiting element 340 and the third limiting element 520, the ring element 510 drives the first gear element 420 to rotate through the second limiting element 430 and the fourth limiting element 530, then the first gear element 420 drives the second gear element 630 to rotate, the second gear element 630 drives the connecting pipe element 610 and the nozzle element 620 to rotate, and under the condition that the connecting pipe element 610 obtains the sporicide or disinfectant in the disinfection pipe, the nozzle element 620 sprays the sporicide or disinfectant on the inner side wall of the mixing box element 110, so as to wash the inner side wall of the mixing box element 110.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, and these are all within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a blendor convenient to cleaning and disinfecting which characterized in that includes:

a cartridge unit;

a driving unit disposed at a top end of the barrel unit;

the first end of the stirring unit is arranged in the barrel unit, the second end of the stirring unit extends to the upper part of the barrel unit, and the second end of the stirring unit is coaxially connected with the output shaft of the driving unit and is used for rotating under the driving of the driving unit;

the driven unit is sleeved at the second end of the stirring unit, and the bottom end of the driven unit is rotatably arranged at the top end of the barrel unit;

the adjusting unit is sleeved at the second end of the stirring unit, corresponds to the top end of the driven unit, is matched with the top end of the driven unit, and is used for enabling the driven unit to rotate along with the stirring unit;

two cleaning unit, two cleaning unit relative and rotationally set up in the top of a section of thick bamboo unit, and two cleaning unit's top with driven unit's top meshing is connected, two cleaning unit's bottom all set up in the inside of a section of thick bamboo unit for with disinfection union coupling.

2. The mixer of claim 1, wherein the cartridge unit comprises:

the mixing barrel element is of a hollow structure;

the feeding element is arranged at the top end of the mixing cylinder element, communicated with the inner part of the mixing cylinder element and used for adding mixed materials into the mixing cylinder element;

the discharging element is arranged at the bottom end of the mixing cylinder element and is used for discharging the mixed materials in the mixing cylinder element;

and the rotating groove element is arranged at the top end of the mixing cylinder element and surrounds the top end opening of the mixing cylinder element.

3. The mixer of claim 1, wherein the drive unit comprises:

the bottom end of the mounting element is sleeved at the top end of the barrel unit;

the driving element is arranged at the top end of the mounting element, and an output shaft of the driving element extends into the mounting element and is coaxially connected with the second end of the stirring unit.

4. The mixer of claim 3, wherein the mounting element comprises:

a mounting frame sleeved on the top end of the barrel unit;

the supporting shafts are arranged at the top end of the mounting frame along the circumferential direction of the mounting frame;

the supporting plates are arranged at the top ends of the supporting shafts and used for mounting the driving elements.

5. The mixer of claim 1, wherein the stirring unit comprises:

the rotary element is sleeved in the opening at the top end of the mixing barrel element of the barrel unit;

the top end of the stirring shaft element is sleeved inside the rotating element, and the bottom end of the stirring shaft element is arranged inside the mixing barrel element;

the stirring blade elements are arranged on the periphery of the stirring shaft element at intervals;

and the two first limiting elements are arranged at the top end of the rotating element, correspond to the adjusting unit and are matched with the adjusting unit.

6. The mixer of claim 1, wherein the driven unit comprises:

the sleeve element is sleeved at the top end of the stirring unit, and the bottom end of the sleeve element is rotatably arranged in the rotating groove element of the barrel unit;

the first gear element is annular and is sleeved at the top end of the sleeve element, corresponds to the adjusting unit and is in meshed connection with the two driven units;

and the two second limiting elements are arranged on the inner side wall of the first gear element along the circumferential direction of the first gear element and are matched with the adjusting unit.

7. The mixer of claim 1, wherein the adjustment unit comprises:

the ring element is sleeved at the top end of the stirring unit;

the two third limiting elements are arranged on the inner side wall of the ring element along the circumferential direction of the ring element, correspond to the first limiting elements of the stirring unit and are matched with the first limiting elements of the stirring unit;

and the two fourth limiting elements are arranged on the outer side wall of the ring element along the circumferential direction of the ring element, correspond to the second limiting elements of the driven unit and are matched with the second limiting elements.

8. The mixer of claim 7, wherein the adjustment unit further comprises:

and the two lifting elements are correspondingly arranged at the top ends of the two fourth limiting elements.

9. The mixer of claim 1, wherein the cleaning unit comprises:

a connecting pipe element rotatably disposed at a top end of the mixing cylinder element of the cylinder unit and communicating with the mixing cylinder element of the cylinder unit;

a nozzle member disposed at a first end of said connecting tube member and located within said mixing bowl member;

the second gear element is sleeved at the second end of the connecting pipe element and is in meshed connection with the first gear element of the driven unit;

and the first end of the water pipe element is arranged in the connecting pipe element, and the second end of the water pipe element is positioned outside the connecting pipe element and is used for connecting the disinfection pipe.

10. The mixer of claim 9, wherein the water tube element comprises:

a seal bearing sleeved inside the top end of the connecting tube element;

the cleaning pipe, the first pot head of cleaning pipe is established sealed bearing's inside, the second end of cleaning pipe set up in the outside of connecting pipe component, and with the disinfection union coupling.

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