CN211358424U - Mixer capable of mixing fully - Google Patents

Abstract

The utility model relates to a blendor that can intensive mixing, be in including support frame, setting blowing jar on the support frame, rotate to be connected axis of rotation on the blowing jar still includes the rigid coupling air pump in the support frame and with the air pump rigid coupling just communicate to the breather pipe of blowing tank bottoms portion, the breather pipe is a hose, the blowing jar with the support frame rotates to be connected. The utility model discloses have and also to drive the material that is located blowing tank bottoms portion, all can the intensive mixing effect to all materials.

Description

Mixer capable of mixing fully

Technical Field

The utility model relates to a blendor especially relates to a blendor that can intensive mixing.

Background

At present, some food factories, such as those for making pickled vegetables or chafing dish seasonings, need to mix various seasonings together during the processing process, or stir the vegetables and the seasonings together, and then perform the subsequent processing operation. The blender mixer that generally uses at present, it includes the support frame, sets up the blowing jar on the support frame, rotates the axis of rotation of connecting on blowing jar, the stirring vane of rigid coupling on the axis of rotation and rigid coupling just with the motor of axis of rotation rigid coupling in the support frame. During the use directly place the condiment and/or the vegetables that will mix in the blowing tank, then the starter motor, the motor will drive the axis of rotation, and the stirring vane who is located the axis of rotation will stir the mixture to the material in the blowing tank. But because stirring vane has certain distance to blowing jar bottom, so the material that is located blowing jar bottom when stirring vane stirring will sink in the tank bottoms, can't mix with the material of above-mentioned to cause the inhomogeneous condition of mixing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a blendor that can intensive mixing can also drive the material that is located the blowing tank bottoms portion, can all intensive mixing even to all materials.

The above object of the present invention can be achieved by the following technical solutions: the utility model provides a blendor that can intensive mixing, includes the support frame, sets up blowing jar on the support frame, rotate to be connected rotation axis on the blowing jar still includes the rigid coupling air pump in the support frame and with the air pump rigid coupling just communicates to the breather pipe of blowing tank bottoms portion, the breather pipe is a hose, the blowing jar with the support frame rotates to be connected.

Through the technical scheme, during the use, the seasoning and the vegetables to be mixed are placed in the material discharging tank, the air pump is started simultaneously, the air pump conveys compressed air to the bottom of the material discharging tank through the vent pipe, so that the material positioned at the bottom of the material discharging tank is blown up, and the material at the bottom and the material at the upper part are stirred and mixed together through the stirring blades. The material at the bottom of the discharging tank can be driven, and all the materials can be fully and uniformly mixed.

The utility model discloses further set up to: the blowing tank bottom rigid coupling have a plurality of with the air duct of breather pipe intercommunication, the air duct orientation the open-ended one end rigid coupling of blowing tank have with the blast pipe of the perpendicular intercommunication of air duct.

Through above-mentioned technical scheme, the compressed air who carries through the air pump passes through the blast pipe and discharges to the material that is arranged in blowing tank bottoms portion, can both blow the material that is arranged in blowing tank bottoms portion to the material that makes the bottom can both carry out intensive mixing with the material of top, makes the more even of material mixture.

The utility model discloses further set up to: the exhaust pipe is far away from one end of the air guide pipe and is spliced with a baffle plate, and the baffle plate is provided with an air hole for inserting the exhaust pipe.

Through the technical scheme, the phenomenon that the discharging is incomplete due to the fact that materials after mixing is finished are left at the bottom of the discharging tank due to the blocking of the air guide tube during discharging can be avoided, and the materials can be directly placed on the baffle plate to facilitate discharging through the arrangement of the baffle plate.

The utility model discloses further set up to: an anti-slip edge is fixedly connected to the outer circumferential surface of the exhaust pipe, and a groove for the anti-slip edge to be embedded into is formed in the inner wall of the vent hole.

Through above-mentioned technical scheme, when the blast pipe inserted in the venthole on the baffle, the relative position of fixed baffle and blast pipe in the recess is also inlayed to the antiskid arris. The baffle plate and the exhaust pipe can be prevented from moving relatively under the action of external force, so that normal stirring work is not influenced.

The utility model discloses further set up to: and a handle is fixedly connected to one side of the baffle plate, which is far away from the air guide tube.

Through above-mentioned technical scheme, can directly make anti-skidding arris follow the interior roll-off of recess through to keeping away from air duct direction pulling handle when needs wash the baffle to thereby make baffle and blast pipe remove the cooperation relation, thereby just can directly take off the baffle and wash the baffle.

The utility model discloses further set up to: the rotating shaft is provided with a sliding groove, the sliding groove is connected with a sliding block in a sliding mode, and the material placing tank is provided with an embedded groove for the sliding block to be embedded into.

Through above-mentioned technical scheme, the normality lower slider is located the spout, when the material mixes and finishes the needs and pours the material out, the relative position of slider in the spout slides until sliding the slider to embedded groove department, half this moment the slider is arranged in the spout half and is arranged in the embedded groove, just can fix the relative position of axis of rotation and blowing material jar through the slider, the axis of rotation of operation this moment rotates, thereby the axis of rotation also drives the blowing material jar through the slider and rotates together and pour out the material that is arranged in the blowing material jar.

The utility model discloses further set up to: one end of the sliding block, which is far away from the material discharge tank, is fixedly connected with a sleeve.

Through above-mentioned technical scheme, the staff just can the relative position of sliding block in the spout with regard to the sliding sleeve through sliding sleeve, and it is more convenient to operate, also can avoid the slider to drop from the spout simultaneously.

The utility model discloses further set up to: one side of the discharging tank is processed into an included angle smaller than 180 degrees.

Through the technical scheme, all materials can be poured out from the material discharging tank smoothly when the materials are poured conveniently.

To sum up, the utility model discloses a beneficial technological effect does:

1. the material at the bottom of the discharging tank can be driven, and all the materials can be fully and uniformly mixed;

2. the arrangement of the baffle can ensure that the material is directly placed on the baffle for discharging conveniently, and the phenomenon that the discharging is incomplete because the mixed material is left at the bottom of the discharging tank due to the blockage of the gas guide tube during discharging can be avoided;

3. the setting of handle makes things convenient for the staff to take off the baffle thereby washs the baffle.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram made to reflect the internal structure;

FIG. 3 is a schematic illustration made to reflect a slider structure;

fig. 4 is a schematic view for reflecting the structure of the anti-slip rib.

In the figure, 1, a support frame; 2. placing a material tank; 21. a baffle plate; 211. a vent hole; 2111. a groove; 212. a handle; 22. an auxiliary cylinder; 221. a groove is embedded; 3. a rotating shaft; 31. a stirring blade; 32. a chute; 33. a slider; 34. a sleeve; 4. a motor; 5. an air pump; 51. a breather pipe; 52. an air duct; 53. an exhaust pipe; 531. and (4) anti-slip edges.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a blendor that can intensive mixing, including support frame 1, rotate the blowing jar 2 of connection on support frame 1, rotate the axis of rotation 3 of connection on blowing jar 2, rigid coupling stirring vane 31 in axis of rotation 3, rigid coupling in support frame 1 and with motor 4 of axis of rotation 3 rigid coupling, the air pump 5 of rigid coupling in support frame 1 and with the air pump 5 rigid coupling and communicate to the breather pipe 51 of blowing jar 2 bottom. The material placing tank 2 is an open box with an arc-shaped bottom and a rectangular upper part, and the air pipe 51 is a hose. When the air pump is used, the air pump 5 is started, the air pump 5 conveys compressed air to the bottom of the discharging tank 2 through the vent pipe 51 so as to blow up materials at the bottom of the discharging tank 2, and the materials at the bottom and the materials at the upper part are stirred and mixed together through the stirring blade 31.

Referring to fig. 2 and 4, a plurality of air ducts 52 communicated with the air duct 51 are fixedly connected to the bottom of the emptying tank 2, the air ducts 52 are uniformly distributed at the bottom of the emptying tank 2, and an exhaust pipe 53 vertically communicated with the air ducts 52 is fixedly connected to one end of each air duct 52 facing the opening of the emptying tank 2 at intervals. Compressed air through air pump 5 transport is discharged to the material that is arranged in the bottom of the emptying tank 2 through the exhaust pipe 53, and the material that is arranged in the bottom of the emptying tank 2 can be blown up, so that the material at the bottom can be fully mixed with the material above, and the material is more uniform.

Referring to fig. 2 and 4, a baffle plate 21 is inserted into one end of the exhaust pipe 53 away from the air duct 52, the baffle plate 21 is arc-shaped, and the baffle plate 21 is provided with a vent hole 211 into which the exhaust pipe 53 is inserted. When exhaust tube 53 is inserted into vent hole 211, the side of baffle plate 21 facing airway tube 52 abuts airway tube 52, and the end of exhaust tube 53 remote from airway tube 52 is flush with the side of baffle plate 21 remote from airway tube 52. When the material discharging tank is used, materials are directly placed on the baffle plate 21 and blow up the materials at the bottom through the exhaust pipe 53 in the vent hole 211, so that the situation that the mixed materials are left at the bottom of the material discharging tank 2 due to the blocking of the air guide pipe 52 during discharging can be avoided, and discharging is incomplete.

Referring to fig. 4, an anti-slip rib 531 is fixed to the outer circumferential surface of the exhaust pipe 53 inserted into the vent hole 211, and a groove 2111 into which the anti-slip rib 531 is inserted is formed in the inner wall of the vent hole 211, so that when the exhaust pipe 53 is inserted into the vent hole 211 of the baffle plate 21, the anti-slip rib 531 is inserted into the groove 2111 to fix the relative position of the baffle plate 21 and the exhaust pipe 53. The baffle plate 21 and the exhaust pipe 53 can be prevented from moving relatively under the action of external force, so that the normal stirring operation is prevented from being influenced.

Referring to fig. 2 and 4, two handles 212 are fixedly connected to the side of the baffle plate 21 away from the air duct 52, the handles 212 are respectively located at two ends of the baffle plate 21, when the baffle plate 21 needs to be cleaned, the anti-slip ribs 531 can directly slide out of the grooves 2111 by pulling the handles 212, so that the baffle plate 21 and the exhaust pipe 53 are disengaged, and the baffle plate 21 can be directly taken down to clean the baffle plate 21.

Referring to fig. 2 and 3, a chute 32 is formed on the rotating shaft 3, the chute 32 is positioned between the motor 4 and the dispensing can 2, a sliding block 33 is connected in the sliding chute 32 in a sliding way, an auxiliary cylinder 22 which is rotationally connected with the supporting frame 1 is fixedly connected at one end of the discharging tank 2 facing the sliding chute 32, an embedded groove 221 for embedding the sliding block 33 is arranged at one end of the auxiliary cylinder 22 far away from the discharging tank 2, the sliding block 33 is positioned in the sliding chute 32 under the normal state, when the materials are mixed and need to be poured out, the relative position of the sliding block 33 in the chute 32 is slid until the sliding block 33 is slid to the embedded groove 221, at the moment, half of the sliding block 33 is positioned in the chute 32 and half is positioned in the embedded groove 221, just can fix the relative position of axis of rotation 3 and blowing jar 2 through slider 33, starting motor 4 this moment, motor 4 drives axis of rotation 3 and rotates, thereby axis of rotation 3 also drives blowing jar 2 through slider 33 and rotates together thereby pours out the material that is arranged in blowing jar 2.

In order to facilitate the worker to slide the relative position of the sliding block 33 in the chute 32 and to prevent the sliding block 33 from falling off from the chute 32, a sleeve 34 is fixedly connected to one end of the sliding block 33 away from the material discharge tank 2, and when the material is normally stirred, the sleeve 34 rotates along with the rotating shaft 3 through the sliding block 33 fixedly connected with the sleeve 34. After the materials are mixed, the sleeve 34 is slid towards the discharging tank 2, and the sleeve 34 drives the sliding block 33 to move towards the discharging tank 2 in the chute 32 until the sliding block 33 slides into the embedded groove 221.

Referring to fig. 1, simultaneously, in order to facilitate pouring of all materials smoothly from the material discharging tank 2, an included angle smaller than 180 degrees is formed on one side of the material discharging tank 2, an opening of the included angle faces the inside of the material discharging tank 2, and when the materials are poured, all the materials can be poured smoothly along the included angle.

The implementation principle of the embodiment is as follows: during the use, place the condiment and the vegetables that will mix in blowing jar 2, then starting motor 4, motor 4 drives axis of rotation 3 rotatory, and the rigid coupling just can directly stir the material in blowing jar 2 at the stirring vane 31 on axis of rotation 3. And simultaneously, the air pump 5 is started, and the air pump 5 conveys compressed air into the air guide pipe 52 through the air pipe 51 and discharges the compressed air into the materials at the bottom of the discharging tank 2 through the air discharge pipe 53, so that the materials precipitated at the bottom are blown up and are uniformly stirred together with the materials at the upper part through the stirring blades 31. When the stirring is finished and the discharging is needed, the sleeve 34 slides towards the discharging tank 2, the sleeve 34 drives the sliding block 33 to slide in the sliding groove 32 until the sliding block 33 slides to the embedded groove 221, the relative positions of the rotating shaft 3 and the discharging tank 2 are fixed, the motor 4 is started at the moment, the motor 4 drives the rotating shaft 3 to rotate, the rotating shaft 3 drives the discharging tank 2 to rotate together through the sliding block 33, and therefore materials in the discharging tank 2 are poured out. When the baffle 21 at the bottom of the charging bucket 2 needs to be cleaned, the baffle 21 is pulled by the handle 212 in the direction away from the air duct 52 to release the matching relationship between the anti-slip ribs 531 and the grooves 2111, and then the baffle 21 can be directly taken out for cleaning.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a blendor that can intensive mixing, is in including support frame (1), setting material discharging tank (2), rotation on support frame (1) are connected rotation axis (3) on the material discharging tank (2), its characterized in that: still include the rigid coupling in air pump (5) in support frame (1) and with air pump (5) rigid coupling and intercommunication to breather pipe (51) of blowing jar (2) bottom, breather pipe (51) are a hose, blowing jar (2) with support frame (1) rotate to be connected.

2. A mixer for intensive mixing according to claim 1, characterized in that: the air guide pipe (52) that air discharge tank (2) bottom rigid coupling have a plurality of with breather pipe (51) intercommunication, air guide pipe (52) orientation air discharge tank (2) open-ended one end rigid coupling have with air guide pipe (52) perpendicular intercommunication blast pipe (53).

3. A mixer for intensive mixing according to claim 2, characterized in that: one end of the exhaust pipe (53), which is far away from the air guide pipe (52), is spliced with a baffle plate (21), and the baffle plate (21) is provided with an air vent (211) for inserting the exhaust pipe (53).

4. A mixer for intensive mixing according to claim 3, characterized in that: the exhaust pipe (53) is fixedly connected with an anti-slip rib (531) on the outer circumferential surface, and a groove (2111) for embedding the anti-slip rib (531) is formed in the inner wall of the vent hole (211).

5. A mixer for intensive mixing according to claim 4, characterized in that: and a handle (212) is fixedly connected to one side of the baffle plate (21) far away from the air guide pipe (52).

6. A mixer for intensive mixing according to claim 1, characterized in that: the material placing tank is characterized in that a sliding groove (32) is formed in the rotating shaft (3), a sliding block (33) is connected to the sliding groove (32) in a sliding mode, and an embedded groove (221) for the sliding block (33) to be embedded is formed in the material placing tank (2).

7. A mixer for intensive mixing according to claim 6, characterized in that: one end of the sliding block (33) far away from the material discharge tank (2) is fixedly connected with a sleeve (34).

8. A mixer for intensive mixing according to claim 1, characterized in that: one side of the material placing tank (2) is processed into an included angle smaller than 180 degrees.

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