WO2018126350A1 - 一种真空搅拌器 - Google Patents

一种真空搅拌器 Download PDF

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Publication number
WO2018126350A1
WO2018126350A1 PCT/CN2017/000753 CN2017000753W WO2018126350A1 WO 2018126350 A1 WO2018126350 A1 WO 2018126350A1 CN 2017000753 W CN2017000753 W CN 2017000753W WO 2018126350 A1 WO2018126350 A1 WO 2018126350A1
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WO
WIPO (PCT)
Prior art keywords
head
vacuum
handpiece
vessel
stirring vessel
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Application number
PCT/CN2017/000753
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English (en)
French (fr)
Inventor
王志伟
Original Assignee
泓首翔电器(深圳)有限公司
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Publication date
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Publication of WO2018126350A1 publication Critical patent/WO2018126350A1/zh

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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J43/00Implements for preparing or holding food, not provided for in other groups of this subclass
    • A47J43/04Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven
    • A47J43/07Parts or details, e.g. mixing tools, whipping tools
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F33/00Other mixers; Mixing plants; Combinations of mixers
    • B01F33/70Mixers specially adapted for working at sub- or super-atmospheric pressure, e.g. combined with de-foaming

Definitions

  • the present invention relates to an agitator, and more particularly to a vacuum agitator capable of treating a foodstuff under a vacuum in a stirred vessel.
  • an agitator for evacuating the agitating vessel has appeared on the market, but the vacuum pump of the agitator is installed at the base of the fuselage, the inlet of the vacuum pump is connected to a long pipe, and the other end of the pipe is connected from the inside of the fuselage. It is connected to the agitating vessel in a gas-tight connection after being wound around the end of the head.
  • This type of installation of the vacuum pump requires a long pipe that extends from the fuselage to the handpiece and requires more material and costs.
  • it is inevitable that fine particles of food will be sucked into the pipeline to cause blockage of the pipeline. Since the piping is always extended from the fuselage to the nose, replacement is also difficult.
  • the present invention provides a vacuum agitator comprising a fuselage, a handpiece and a stirring vessel disposed on the body, wherein:
  • the head is mounted on the body and movable up and down relative to the body;
  • the machine head is airtightly connected to the stirring container, and a vacuum pump assembly for extracting the gas inside the stirring container to form a vacuum state inside the machine head is installed in the machine head;
  • the agitating vessel is mounted on the fuselage, and the position of the head is adjusted up and down until the head is in airtight connection with the agitating vessel, and the vacuum pump assembly is operated.
  • the inside of the stirring vessel is evacuated to a vacuum state, the stirring vessel starts stirring work.
  • a vertical track long groove is formed on both sides of the machine head; a plurality of vertically arranged positioning grooves are disposed on the outer wall of the rear end of the machine head;
  • the upper end of the fuselage is provided with a head placement cavity, and the inner wall of both sides of the cavity is provided with a vertical rail column, and an elastic positioning device is fixed on the inner wall of the rear end of the cavity;
  • the track post When the handpiece is mounted on the upper end cavity of the fuselage, the track post is inserted into the long groove of the rail on both sides of the machine head, and the elastic positioning device is stuck in the positioning groove of the machine head;
  • the head moves downward, the positioning slot wall of the head moves against the elastic positioning device until the elastic positioning device is pushed out of the positioning slot, and the track on both sides of the head is long.
  • the groove moves downward along the track column until the elastic positioning device moves inwardly under the action of the elastic potential energy and is stuck in the upper positioning groove.
  • the positioning groove is a continuous vertical arrangement of grooves having a semicircular cross section
  • the elastic positioning device includes a bracket fixed to an inner wall of the cavity, a bolt disposed inside the bracket and passing through the inner wall, a spring that is placed against the nut between the bolt and the inner wall, and placed a front end of the bolt nut and exposing a small sphere outside the center hole of the bracket;
  • the exposed portion of the small sphere of the elastic positioning device is stuck in the semicircular groove.
  • the front end of the machine head is provided with an air inlet connected to the air inlet of the vacuum pump assembly, and the outside of the air inlet is provided with a suction nozzle;
  • the top cover of the stirring container is provided with a venting hole, and a venting nozzle is mounted on the venting hole;
  • the height position of the handpiece is moved up and down such that the suction nozzle of the handpiece is docked with the exhaust nozzle of the stirring container to achieve a gas-tight connection between the handpiece and the stirring container.
  • the suction nozzle is detachably mounted to the handpiece, and the suction nozzle includes a suction head, a filter mesh disposed in the suction head, and an annular suction nozzle installed at a bottom of the suction head.
  • a pressure detecting device for detecting a pressure value inside the stirring container is further disposed in the handpiece.
  • a power unit that drives the rotation of the cutter assembly at the bottom of the agitating vessel is disposed in the fuselage.
  • a horizontal base body of the fuselage is provided with a placement position for mounting the agitating container, and in use, the agitating container is installed at the placement position, a spline of the cutter assembly at the bottom of the agitating container and the power The rotating head of the device is connected.
  • the invention firstly stirs the foodstuff after the vacuuming of the stirring container, thereby ensuring the nutrient composition of the stirred food.
  • the vacuum pump assembly of the invention is installed in the machine head and overcomes the problem of material waste caused by excessive air passage between the air inlet and the air outlet of the vacuum pump and difficulty in replacement after clogging.
  • the handpiece of the present invention can be moved up and down relative to the fuselage and then can be stirred for different types of mixing vessels, which is convenient and practical.
  • Figure 1 is a perspective view of a vacuum agitator of the present invention
  • FIG. 2 is a schematic view of the head and the fuselage, and the stirring vessel after the vacuum agitator of the present invention is installed;
  • Figure 3 is an exploded view of the head of the vacuum agitator of the present invention.
  • Figure 4 is a cross-sectional view of the head of the vacuum agitator of the present invention.
  • Figure 5 is a schematic view showing the assembly of the head portion of the vacuum agitator of the present invention.
  • Figure 6 is a schematic view of the body of the vacuum agitator of the present invention.
  • Figure 7 is a cross-sectional view showing the head and the body of the vacuum agitator of the present invention after installation;
  • Figure 8 is an exploded view of the head and the fuselage of the vacuum agitator of the present invention.
  • Figure 9 is a schematic view of a stirring vessel of the vacuum agitator of the present invention.
  • Figure 10 is a cross-sectional view of a stirring vessel of the vacuum agitator of the present invention.
  • Figure 11 is a partial cross-sectional view showing the vacuum agitator of the present invention.
  • Figure 12 is an enlarged view of a portion of the vacuum agitator of the present invention of Figure 11;
  • Figure 13 is a graph showing changes in the state of use of the vacuum agitator of the present invention.
  • the vacuum agitating vessel of the present invention comprises a fuselage 2, a head 1 and a stirring vessel 3 which are disposed on the body 2.
  • the handpiece 1 is mounted on the body 2 and is movable up and down with respect to the body 2.
  • the handpiece 1 is hermetically connected to the agitating vessel 3, and a vacuum pump unit 11 for extracting the inside of the agitating vessel 3 to evacuate the inside thereof is installed in the head 1.
  • the agitating vessel 3 is mounted on the fuselage 2, and the height of the adjusting head 1 is moved up and down until the head 1 is in airtight connection with the agitating vessel 3, the vacuum pump assembly 11 is operated, and the inside of the agitating vessel 3 is evacuated to a vacuum.
  • the agitating vessel 3 starts the stirring operation.
  • the handpiece 1 includes a head main body 18 and a head cover 17 attached to the top of the head main body 18.
  • a control mechanism 13 and a vacuum pump unit 11 and a pressure detecting device 12 connected to the control unit 13 are mounted inside the head main body 18.
  • the pressure detecting device 12 is for inductively detecting the pressure value inside the stirring vessel 3.
  • the control mechanism 13 controls the operation of the vacuum pump unit 11 to form a vacuum inside the agitating vessel 3.
  • the control mechanism 13 specifically employs a PCRA panel, and the pressure detecting device 12 specifically employs a pressure sensor.
  • the vacuum pump assembly 11 specifically employs a suction pump, and the vacuum pump unit 11 is provided with an intake port 111 for sucking air in the agitating container 3, an air outlet 113 for discharging the sucked air, and between the air inlet 111 and the air outlet 113.
  • a communicating air duct 112 is provided.
  • the ventilation duct 112 uses a silicone ventilation duct.
  • An intake port 15 connected to the intake port 111 of the vacuum pump unit 11 is provided at the front end of the head main body 18, and an intake port 14 is attached to the outside of the intake port 15.
  • the suction nozzle 14 is screwed to the nose body 18.
  • the suction nozzle 14 is detachably mounted on the handpiece 1, and specifically includes a bowl type suction head 142, a filter net 141 disposed in the bowl type suction head 142, and an annular suction nozzle 143 installed at the bottom of the bowl type suction head 142. .
  • the head body 18 at the suction port 15 is suspended downwardly from a bowl-shaped protrusion 19, and the outer wall of the bowl-shaped protrusion 19 is provided with a buckle 191, and the suction nozzle 14 is mounted on the bowl-shaped convex body below the head main body 18. After 19, it is rotated and the suction nozzle 14 is fixed to the outside of the bowl-shaped projection 19 through the turnbuckle 191.
  • a vertical rail length slot 16 extending downward is disposed on both sides of the head 1; and a plurality of vertically aligned positioning slots 17 are disposed on the outer wall of the rear end of the head 1.
  • the positioning groove 17 is a continuous vertically arranged groove having a semicircular cross section. The shape of the positioning groove 17 is not limited thereto.
  • the upper end of the fuselage 2 is provided with a head placement cavity 24
  • the inner wall on both sides of the cavity 24 is provided with a vertical rail column 21 which cooperates with the track long groove 16 on both sides of the head 1 .
  • An elastic positioning device 22 that cooperates with the rear end positioning groove 17 of the head 1 is fixed to the inner wall of the rear end of the cavity 24.
  • the elastic positioning device 22 includes a bracket 221 fixed to the inner wall of the cavity, and a bolt 224 disposed inside the bracket 221 and passing through the inner wall to abut against the nut and the inner wall of the bolt 224.
  • the spring 223 and the small ball 222 placed at the front end of the bolt 224 nut and exposed outside the center hole of the bracket 221.
  • the exposed portion of the small sphere 222 of the elastic positioning device 22 is caught in a recess 17 having a semicircular cross section.
  • the track post 21 is inserted into the track long groove 16 on both sides of the head 1 and the elastic positioning device 22 is stuck in the positioning groove 17 of the head 1; the head 1 is oriented When moving downward, the slot wall of the positioning slot 17 of the head 1 abuts against the small ball 222 of the elastic positioning device 22 and the bolt 224 to move outward until the small ball 222 of the elastic positioning device 222 is pushed out of the positioning slot 17, and the spring 223 is generated. Inward elastic potential energy.
  • the track long groove 16 on both sides of the machine 1 moves downward along the track column 21 until the bolt 224 of the elastic positioning device 22 moves inwardly under the elastic potential energy, so that the small ball 222 at the front end of the bolt 224 is stuck in the upper positioning groove 17 Inside.
  • the body 2 is provided with a power unit 25 for driving the bottom cutter assembly 32 of the stirring vessel 3 to rotate, and a second control unit 26 for connecting the power unit 25 for controlling the operation of the power unit 25.
  • the horizontal base of the fuselage 2 is provided with a placement position 27 for mounting the agitating vessel 3, and in use, the agitating vessel 3 is mounted to the placement position 27, the spline of the bottom cutter assembly 32 of the agitating vessel 3 and the power unit 25 of the fuselage 2 Turn the head to dock.
  • the top cover of the agitation vessel 3 is provided with an exhaust hole 33 to which an exhaust nozzle 31 is attached.
  • the exhaust nozzle 31 is a silicone exhaust nozzle.
  • the height position of the head 1 is moved up and down so that the suction nozzle 14 of the handpiece 1 is brought into contact with the discharge nozzle 31 of the stirring container 3 to realize the airtight connection between the handpiece 1 and the stirring container 3.
  • a cutter assembly 32 for agitation is also provided at the bottom of the agitation vessel 3.
  • the agitating vessel 3 is attached to the body 2, and the head 1 is moved up and down to achieve a gas-tight connection between the head 1 and the agitating vessel 3.
  • the control device 13 controls the vacuum pump assembly 11 to start working, and draws a vacuum inside the stirring container 3.
  • the control device 13 controls the vacuum pump assembly 11 to stop working.
  • the second control device 26 controls the operation of the power unit 25 to drive the cutter assembly 32 at the bottom of the agitating vessel 3 to perform agitation in a vacuum state.
  • the handpiece 1 of the present invention can be moved up and down with respect to the body 2, so that it can be mixed with different types of agitating containers 3 to be vacuumed and then conveniently used.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Mechanical Engineering (AREA)
  • Food Science & Technology (AREA)
  • Mixers With Rotating Receptacles And Mixers With Vibration Mechanisms (AREA)
  • Food-Manufacturing Devices (AREA)

Abstract

一种真空搅拌器,包括机身(2),安置于机身(2)上的机头(1)和搅拌容器(3),机头(1)安装于机身(2)上并可相对机身(2)上下移动;机头(1)与搅拌容器(3)气密连接且机头(2)内安装有用于抽取搅拌容器(3)内部气体使其内部形成真空状态的真空泵组件(11);工作时,将搅拌容器(3)安装于机身(2)上,上下移动调节机头(1)的位置高度直至机头(1)与搅拌容器(3)形成气密性连接,真空泵组件(11)工作,将搅拌容器(3)内部抽至真空状态时,搅拌容器(3)开始搅拌工作。

Description

一种真空搅拌器 技术领域
本发明涉及一种搅拌器,尤其涉及一种能将搅拌容器内形成真空状态下,对食材进行处理的真空搅拌器。
背景技术
现代人在生活中对营养的需求越来越高,并且越来越偏爱于新鲜果汁、蔬菜汁等汁、浆、糊类的食物,以满足个人对健康的追求。因此,对食物进行搅拌的搅拌器受到越来越多人的欢迎。但是目前现有的搅拌器多数是将食材放进容器后直接进行搅拌,在搅拌的过程中,制作的果汁、浓汤等食物会因为接触空气而分解或氧化致使最终制作的果汁等食物的营养成分减少,使人们无法享用高营养的料理食物。
为了解决上述问题,市场上也出现了将搅拌容器抽真空的搅拌器,但是这种搅拌器的真空泵安装在机身基部,真空泵的进气口连接一长长管道,管道另一端从机身内部绕至机头端部后才与搅拌容器气密连接。真空泵的这种安装方式需要一长长的管道,该管道从机身延伸至机头,需要的材料较多,成本增加。此外,真空泵抽气过程中难免会将食物的细小颗粒吸入管道中进而造成管道阻塞。因为管道的布设一直从机身延伸至机头,因此更换也具有一定的难度。
此外,目前的搅拌器多数都是匹配固定型号的搅拌容器,当搅拌容器被占用或损坏的时候,必须腾出搅拌容器或重新购置固定型号大小的搅拌容器才能继续正常工作。
基于上述存在的问题,现在亟需一种既能抽真空,匹配多型号搅拌容器又 能避免管道堵塞难以更换的真空搅拌器。
发明内容
本发明的目的是提供一种既能真空搅拌又能匹配不同型号搅拌容器的真空搅拌器。
为达到上述目的,本发明提供了一种真空搅拌器,包括机身,安置于所述机身上的机头和搅拌容器,其特征在于:
所述机头安装于所述机身上并可相对所述机身上下移动;
所述机头与所述搅拌容器气密连接且所述机头内安装有用于抽取所述搅拌容器内部气体使其内部形成真空状态的真空泵组件;
工作时,将所述搅拌容器安装于所述机身上,上下移动调节所述机头的位置高度直至所述机头与所述搅拌容器形成气密性连接,所述真空泵组件工作,将所述搅拌容器内部抽至真空状态时,所述搅拌容器开始搅拌工作。
所述机头两侧开设有竖向的轨道长槽;所述机头后端外壁上设置有若干个竖向排列的定位槽;
所述机身上端设有机头安置空腔,该空腔两侧内壁上设置有竖向的轨道柱,该空腔后端内壁上固定一弹性定位装置;
所述机头安装于所述机身上端空腔时,所述轨道柱插入所述机头两侧的轨道长槽内且所述弹性定位装置卡置于所述机头的定位槽内;所述机头向下移动时,所述机头的定位槽槽壁顶抵所述弹性定位装置向外运动直至将所述弹性定位装置顶出所述定位槽,所述机头两侧的轨道长槽沿所述轨道柱向下移动直至所述弹性定位装置在弹性势能的作用下向内运动并卡置于上一定位槽内。
所述定位槽为连续竖向排列的截面为半圆形的凹槽;
所述弹性定位装置包括固定于所述空腔内壁上的支架,置于所述支架内部且穿过内壁的螺栓,顶抵于所述螺栓的螺帽与所述内壁之间的弹簧以及置于所述螺栓螺帽前端并露出所述支架中心孔外的小球体;
所述机头安装于所述机身上时,所述弹性定位装置的小球体的外露部分卡置于所述半圆形凹槽中。
所述机头前端设置有与所述真空泵组件进气口连接的吸气口,所述吸气口的外部安装有吸气嘴;
所述搅拌容器的顶盖设置有排气孔,该排气孔上安装有排气嘴;
使用时,上下移动所述机头的高度位置使所述机头的吸气嘴与所述搅拌容器的排气嘴对接进而实现所述机头与搅拌容器的气密连接。
所述吸气嘴可拆卸地安装于所述机头上,所述吸气嘴包括吸头,置于所述吸头内的过滤网和安装于所述吸头底部的环形吸嘴。
所述机头内还设置有用于检测所述搅拌容器内部压力值的压力检测装置。
所述机身内设置有驱动所述搅拌容器底部刀具组件转动的动力装置。
所述机身的水平基体上设置有用于安装所述搅拌容器的放置位,使用时,将所述搅拌容器安装于所述放置位,所述搅拌容器底部的刀具组件的花键与所述动力装置的转动头连接。
本发明首先对搅拌容器抽真空后才对食材进行搅拌进而保证了搅拌食物的营养成分。本发明真空泵组件安装于机头内进而克服了真空泵进气口与出气口 之间的气道过长造成的材料浪费以及堵塞后难以更换的问题。此外,本发明的机头能相对机身上下移动继而可以针对不同型号的搅拌容器进行搅拌,方便实用。
附图说明
参照附图,本发明将得到更好的理解,附图如下:
图1是本发明真空搅拌器的立体图;
图2是本发明真空搅拌器安装后的机头与机身、以及搅拌容器示意图;
图3是本发明真空搅拌器的机头爆炸图;
图4是本发明真空搅拌器的机头剖面图;
图5是本发明真空搅拌器的机头部分组件示意图;
图6是本发明真空搅拌器的机身示意图;
图7是本发明真空搅拌器的安装后的机头与机身的剖面图;
图8是本发明真空搅拌器的机头与机身的分解图;
图9是本发明真空搅拌器的搅拌容器示意图;
图10是本发明真空搅拌器的搅拌容器剖面图;
图11是本发明真空搅拌器的部分剖面示意图。
图12是图11中本发明真空搅拌器A部分的放大图;
图13是本发明真空搅拌器使用状态变化图。
具体实施方式
为了使本发明的目的、技术方案、有益效果更加清楚明白,以下结合附图及实施例,对本发明做进一步详细说明。应当理解,此处所描述的具体实施例仅仅用于解释本发明,并不用于限定本发明。
以下结合具体实施例对本发明的实现进行详细描述:
如图图1至图2所示,本发明真空搅拌容器包括机身2,安置于机身2上的机头1和搅拌容器3。机头1安装于机身2上并可相对机身2上下移动。机头1与搅拌容器3气密连接且机头1内安装有用于抽取搅拌容器3内部气体使其内部形成真空状态的真空泵组件11。工作时,将搅拌容器3安装于机身2上,上下移动调节机头1的位置高度直至机头1与搅拌容器3形成气密性连接,真空泵组件11工作,将搅拌容器3内部抽至真空状态时,搅拌容器3开始搅拌工作。
如图3至图5所示,机头1包括机头主体18以及安装于机头主体18顶部的机头盖17。机头主体18内部安装有控制机构13以及与该控制机构13连接的真空泵组件11以及压力检测装置12。压力检测装置12用于对搅拌容器3内部的压力值进行感应检测。控制机构13控制真空泵组件11工作进而使搅拌容器3内部形成真空。控制机构13具体采用PCRA面板,压力检测装置12具体采用压力传感器。真空泵组件11具体采用吸引泵,真空泵组件11设有对搅拌容器3内的空气进行吸引的进气口111、将被吸引的空气排出的出气口113、将进气口111与出气口113之间进行连通的通气管道112。所述通气管道112采用硅胶通气管道。机头主体18前端设置有与真空泵组件11进气口111连接的吸气口15,吸气口15的外部安装有吸气嘴14。吸气嘴14与机头主体18旋扣连接。吸气嘴14可拆卸的安装于机头1上,具体包括碗型吸头142,置于所述碗型吸头142内的过滤网141和安装于碗型吸头142底部的环形吸嘴143。吸气口15处的机头主体18向下悬伸一碗型凸起19,该碗型凸起19的外壁上设有旋扣191,吸气嘴14安装于机头主体18下方的碗型凸起19后旋转并透过旋扣191将吸气嘴14固定碗型凸起19外侧。拆卸吸气嘴14时,倒旋吸气嘴14,吸气嘴14从旋 扣191中退出进而被卸下。机头1两侧开设有向下延伸的竖向的轨道长槽16;机头1后端外壁上设置有若干个竖向排列的定位槽17。定位槽17为连续竖向排列的截面为半圆形的凹槽。所述定位槽17的形状不限于此。
如图6至图8所示,机身2上端设有机头安置空腔24,该空腔24两侧内壁上设置有与机头1两侧轨道长槽16配合的竖向的轨道柱21,该空腔24后端内壁上固定一与机头1后端定位槽17配合的弹性定位装置22。如图11至图12所示,弹性定位装置22包括固定于空腔内壁上的支架221,置于支架221内部且穿过内壁的螺栓224,顶抵于螺栓224的螺帽与内壁之间的弹簧223以及置于螺栓224螺帽前端并露出所述支架221中心孔外的小球体222。机头1安装于机身2上时,弹性定位装置22的小球体222的外露部分卡置于截面为半圆形的凹槽17中。
机头1安装于机身2上端空腔24时,轨道柱21插入机头1两侧的轨道长槽16内且弹性定位装置22卡置于机头1的定位槽内17;机头1向下移动时,机头1的定位槽17槽壁顶抵弹性定位装置22的小球体222以及螺栓224向外运动直至将弹性定位装置222的小球体222顶出定位槽17,此时弹簧223产生向内的弹性势能。机1头两侧的轨道长槽16沿轨道柱21向下移动直至弹性定位装置22的螺栓224在弹性势能的作用下向内运动使螺栓224前端的小球体222卡置于上一定位槽17内。机身2内设置有驱动搅拌容器3底部刀具组件32转动的动力装置25以及与动力装置25连接用于控制动力装置25工作的第二控制装置26。机身2的水平基体上设置有用于安装搅拌容器3的放置位27,使用时,将搅拌容器3安装于放置位27,搅拌容器3底部刀具组件32的花键与机身2动力装置25的转动头对接。
如图9至图10所示,所述搅拌容器3的顶盖设置有排气孔33,该排气孔33上安装有排气嘴31。所述排气嘴31为硅胶排气嘴。使用时,上下移动机头1的高度位置使机头1的吸气嘴14与搅拌容器3的排气嘴31对接进而实现机头1与搅拌容器3的气密连接。搅拌容器3底部还设置用于搅拌的刀具组件32。
使用时,将搅拌容器3安装于机身2上,上下移动机头1使机头1与搅拌容器3实现气密连接。控制装置13控制真空泵组件11开始工作,对搅拌容器3内部抽真空,当压力检测装置12检测到搅拌容器3内压力值达到预设的真空状态值时,控制装置13控制真空泵组件11停止工作,第二控制装置26控制动力装置25工作进而带动搅拌容器3底部的刀具组件32转动进行真空状态下的搅拌工作。
如图13所示,本发明的机头1能收相对机身2上下移动,因此可以配合不同型号的搅拌容器3进行抽真空后再搅拌,方便使用。
以上所述仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明的保护范围之内。

Claims (8)

  1. 一种真空搅拌器,包括机身(2),安置于所述机身(2)上的机头(1)和搅拌容器(3),其特征在于:
    所述机头(1)安装于所述机身(2)上并可相对所述机身(2)上下移动;
    所述机头(1)与所述搅拌容器(3)气密连接且所述机头(2)内安装有用于抽取所述搅拌容器(3)内部气体使其内部形成真空状态的真空泵组件(11);
    工作时,将所述搅拌容器(3)安装于所述机身(2)上,上下移动调节所述机头(1)的位置高度直至所述机头(1)与所述搅拌容器(3)形成气密性连接,所述真空泵组件(11)工作,将所述搅拌容器(3)内部抽至真空状态时,所述搅拌容器(3)开始搅拌工作。
  2. 如权利要求1所述的真空搅拌器,其特征在于:
    所述机头(1)两侧开设有竖向的轨道长槽(16);所述机头(1)后端外壁上设置有若干个竖向排列的定位槽(17);
    所述机身(2)上端设有机头安置空腔(24),该空腔(24)两侧内壁上设置有竖向的轨道柱(21),该空腔(24)后端内壁上固定一弹性定位装置(22);
    所述机头(1)安装于所述机身(2)上端空腔时,所述轨道柱(21)插入所述机头(1)两侧的轨道长槽(16)内且所述弹性定位装置(22)卡置于所述机头(1)的定位槽内(17);所述机头(1)向下移动时,所述机头(1)的定位槽(17)槽壁顶抵所述弹性定位装置(22)向外运动直至将所述弹性定位装置(22)顶出所述定位槽(17),所述机头(1)两侧的轨道长槽(16)沿所述轨道柱(21)向下移动直至所述弹性定位装置(22)在弹性势能的作用下向内运动并卡置于上一定位槽(17)内。
  3. 如权利要求2所述的真空搅拌器,其特征在于:
    所述定位槽(17)为连续竖向排列的截面为半圆形的凹槽;
    所述弹性定位装置(22)包括固定于所述空腔(24)内壁上的支架(221),置于所述支架(221)内部且穿过内壁的螺栓(224),顶抵于所述螺栓(224)的螺帽与所述内壁之间的弹簧(223)以及置于所述螺栓(224)螺帽前端并露出所述支架(221)中心孔外的小球体(222);
    所述机头(1)安装于所述机身(2)上时,所述弹性定位装置(22)的小球体(222)的外露部分卡置于所述半圆形凹槽中。
  4. 如权利要求1至3任一项所述的真空搅拌器,其特征在于:
    所述机头(1)前端设置有与所述真空泵组件(11)进气口(111)连接的吸气口(15),所述吸气口(15)的外部安装有吸气嘴(14);
    所述搅拌容器(3)的顶盖设置有排气孔(33),该排气孔(33)上安装有排气嘴(31);
    使用时,上下移动所述机头(1)的高度位置使所述机头(1)的吸气嘴(14)与所述搅拌容器(3)的排气嘴(31)对接进而实现所述机头(1)与搅拌容器(3)的气密连接。
  5. 如权利要求4所述的真空搅拌器,其特征在于:所述吸气嘴(14)可拆卸地安装于所述机头(1)上,所述吸气嘴(14)包括吸头(142),置于所述吸头(142)内的过滤网(141)和安装于所述吸头(142)底部的环形吸嘴(143)。
  6. 如权利要求1所述的真空搅拌器,其特征在于:所述机头(1)内还设 置有用于检测所述搅拌容器(3)内部压力值的压力检测装置(12)。
  7. 如权利要求1所述的真空搅拌器,其特征在于:所述机身(2)内设置有驱动所述搅拌容器(3)底部刀具组件转动的动力装置(25)。
  8. 如权利要求7所述的真空搅拌器,其特征在于:所述机身(2)的水平基体上设置有用于安装所述搅拌容器(3)的放置位(27),使用时,将所述搅拌容器(3)安装于所述放置位(27),所述搅拌容器(3)底部的刀具组件(32)的花键与所述动力装置(25)的转动头连接。
PCT/CN2017/000753 2017-01-06 2017-12-25 一种真空搅拌器 WO2018126350A1 (zh)

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