CN211487673U - A horizontal reation kettle for counterpoint ester - Google Patents

Abstract

The utility model discloses a horizontal reaction kettle for para-ester, which comprises a tank body, a driving component and a stirring component; the rotating shaft of the driving assembly is coaxially arranged in the tank body; the stirring assembly is arranged in the tank body and comprises a rotating plate and a friction rod, the rotating plate is fixed on the rotating shaft, the friction rod is fixed on the inner wall of the tank body, a protrusion is arranged on the friction rod, a groove is arranged on the rotating plate, the groove rotates circumferentially around the rotating shaft of the driving assembly to form an annular groove, the protrusion is embedded in the annular groove, and a gap is formed between the protrusion and the annular groove; the problem of among the prior art horizontal reation kettle need stir for a long time just can guarantee to counterpoint ester misce bene, lead to machining efficiency to hang down is solved.

Description

A horizontal reation kettle for counterpoint ester

Technical Field

The utility model relates to a horizontal reation kettle technical field, concretely relates to horizontal reation kettle for counterpointing ester.

Background

A horizontal reation kettle that is used for processing counterpoint ester at present is of a great variety, but mostly makes counterpoint ester misce bene through centrifugal force's mode stirring mode, through this kind of mode, need usually through long-time stirring, just can guarantee counterpoint ester misce bene, and is consuming time long, and machining efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned technique not enough, provide a horizontal reation kettle for counterpointing ester, solved among the prior art horizontal reation kettle need long-time stirring just can guarantee to counterpoint the ester misce bene, lead to the problem that machining efficiency is low.

In order to solve the technical problem, the utility model provides a horizontal reaction kettle for para-ester, which comprises a tank body, a driving component and a stirring component; the rotating shaft of the driving assembly is coaxially arranged in the tank body; the stirring assembly is arranged in the tank body and comprises a rotating plate and a friction rod, the rotating plate is fixed on the rotating shaft, the friction rod is fixed on the inner wall of the tank body, a protrusion is arranged on the friction rod, a groove is formed in the rotating plate and winds the rotating shaft of the driving assembly to rotate circumferentially to form an annular groove, the protrusion is embedded in the annular groove, and a gap is formed between the protrusion and the annular groove.

The utility model has the advantages that: be different from prior art's condition, the utility model discloses a set up rotor plate and friction group, drive assembly drive rotor plate is at the internal rotation of jar, and at the pivoted in-process, the relative rotor plate of friction stick rotates, produces centrifugal force, stirring material, and the arch on the friction stick passes the recess on the rotor plate, and the clearance that forms between makes the material that passes through receive the extrusion, and the velocity of flow that makes the material of clearance department is different with the velocity of flow that only receives centrifugal force's material to accelerate the efficiency of mixing, stir more fast.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

fig. 3 is a cross-sectional view taken along the plane B-B of fig. 1 according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides a horizontal reation kettle for counterpoint ester, including jar body 100, drive assembly 200 and stirring subassembly 300, specifically, drive assembly 200 drives stirring subassembly 300 in the jar body 100 and rotates to realize the function of stirring, set forth in more detail below.

The tank 100 in this embodiment is a horizontal storage tank, and the specification and shape are not limited.

The rotational axis of the driving assembly 200 in this embodiment is coaxially built in the can 100.

Specifically, the driving assembly 200 includes a motor 210 and a rotating shaft 220, the motor 210 is installed on the side wall of the tank 100, an output shaft of the motor 210 is connected with one end of the rotating shaft 220, the other end of the rotating shaft 220 extends into the tank 100, the rotating shaft 220 is rotatably connected with the tank 100, and an outer wall of the rotating shaft 220 is connected with the rotating plate 310.

As shown in fig. 2-3, the stirring assembly 300 of the present embodiment is disposed inside the can body 100, the stirring assembly 300 includes a rotating plate 310 and a friction rod 320, the rotating plate 310 is fixed on the rotating shaft, the friction rod 320 is fixed on the inner wall of the can body 100, a protrusion 321 is disposed on the friction rod 320, a groove 311 is disposed on the rotating plate 310, the groove 311 rotates circumferentially around the rotating shaft of the driving assembly 200 to form an annular groove, the protrusion 321 is embedded in the annular groove, and a gap is formed between the protrusion 321 and the annular groove.

Preferably, the rotating plate 310 is provided with a through hole 312, so that the rotating plate 310 is prevented from being subjected to too large resistance in the rotating process, the material flows out from the through hole 312, and the effects of reducing pressure and prolonging the service life of the rotating plate 310 are achieved.

Preferably, the number of the rotating plates 310 is multiple, the multiple groups of rotating plates 310 are arranged at equal intervals along the length direction of the rotating shaft of the driving assembly 200, each group of rotating plates 310 includes multiple rotating plates 310, and the multiple rotating plates 310 of each group of rotating plates 310 are evenly arranged along the circumferential direction of the rotating shaft of the driving assembly 200.

Correspondingly, the quantity of friction stick 320 is the multiunit, multiunit friction stick 320 arranges along the length direction equidistance of drive assembly 200 axis of rotation, every group friction stick 320 all includes a plurality of friction sticks 320, a plurality of friction sticks 320 of every group friction stick 320 evenly arrange along drive assembly 200 axis of rotation circumference, all be provided with a set of friction stick 320 between every two sets of adjacent rotor plates 310, every friction stick 320 both sides all has protruding 321, protruding 321 of both sides on the same friction stick 320 respectively with two adjacent rotor plates 310 on the ring channel a pair.

Preferably, the friction bar 320 has a plurality of protrusions 321, the plurality of protrusions 321 are equidistantly arranged along the length direction of the friction bar 320, the rotating plate 310 is provided with a plurality of grooves 311, and the plurality of grooves 311 correspond to the plurality of protrusions 321 one to one.

Preferably, the protrusion 321 is spherical, the recess 311 is spherical, and the diameter of the recess 311 is greater than that of the protrusion 321, it can be understood that the shapes of the protrusion 321 and the recess 311 are not limited, the protrusion 321 is embedded in the annular groove formed by the recess 311, and a gap is formed between the protrusion 321 and the annular groove.

The stirring assembly 300 in this embodiment further includes a sliding block 313, one side of the sliding block 313 is connected to the rotating plate 310, and the other side of the sliding block 313 is slidably connected to the sliding groove 110 formed in the inner wall of the tank 100, so that the rotating plate 310 rotates more stably.

The working process is as follows: adding the para-ester raw material into the tank body 100, starting the motor 210 to drive the rotating shaft 220 to rotate, wherein the rotating shaft 220 rotates to drive the rotating plate 310 to rotate, in the rotating process of the rotating plate 310, the protrusion 321 on the friction rod 320 continuously penetrates through the groove 311 on the rotating plate 310, when the protrusion 321 is positioned in the groove 311, the gap is reduced, the material at the position is pressurized to be higher than the materials at other positions, and is sprayed out in an accelerating manner, compared with the material only subjected to centrifugal force, the speed is higher, and therefore the materials in the tank body 100 are mixed more uniformly.

Be different from prior art's condition, the utility model discloses a set up rotor plate 310 and friction group, drive assembly 200 drive rotor plate 310 is at jar body 100 internal rotations, at the pivoted in-process, the relative rotor plate 310 of friction stick 320 rotates, produce centrifugal force, the stirring material, protruding 321 on the friction stick 320 passes recess 311 on the rotor plate 310, the material that the clearance that forms between makes to pass through receives the extrusion, the velocity of flow of the material that makes clearance department is different with the velocity of flow that only receives the material of centrifugal force, thereby accelerate the efficiency of mixing, the stirring is faster.

It should be noted that the above embodiments belong to the same utility model concept, and the description of each embodiment has its emphasis, and the description of each embodiment is not described in detail, and reference may be made to the description of other embodiments.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. A horizontal reation kettle for para-ester, characterized by comprising:

a tank body;

the rotating shaft of the driving assembly is coaxially arranged in the tank body;

the stirring assembly is arranged in the stirring assembly in the tank body and comprises a rotating plate and a friction rod, the rotating plate is fixed on the rotating shaft, the friction rod is fixed on the inner wall of the tank body, a protrusion is arranged on the friction rod, a groove is formed in the rotating plate, the groove winds the rotating shaft of the driving assembly to rotate circumferentially to form an annular groove, the protrusion is embedded in the annular groove, and a gap is formed between the protrusion and the annular groove.

2. The horizontal reactor for para-ester according to claim 1, wherein the driving assembly comprises a motor and a rotating shaft, the motor is mounted on the side wall of the tank body, an output shaft of the motor is connected with one end of the rotating shaft, the other end of the rotating shaft extends into the tank body, the rotating shaft is rotatably connected with the tank body, and the outer wall of the rotating shaft is connected with the rotating plate.

3. The horizontal reactor for para-ester according to claim 1, wherein the rotating plate is provided with through holes.

4. The horizontal reactor for para-ester according to claim 1, wherein the stirring assembly further comprises a sliding block, one side of the sliding block is connected with the rotating plate, and the other side of the sliding block is slidably connected with a sliding groove arranged on the inner wall of the tank body.

5. The horizontal reactor according to claim 1, wherein the number of the rotating plates is multiple, the multiple groups of rotating plates are arranged equidistantly along the length direction of the rotating shaft of the driving assembly, each group of rotating plates comprises multiple rotating plates, and the multiple rotating plates of each group of rotating plates are arranged uniformly along the circumferential direction of the rotating shaft of the driving assembly.

6. The horizontal reactor for para-ester according to claim 5, wherein the number of the friction bars is multiple, multiple groups of the friction bars are arranged at equal intervals along the length direction of the rotating shaft of the driving assembly, each group of the friction bars comprises multiple friction bars, the friction bars of each group of the friction bars are evenly arranged along the circumferential direction of the rotating shaft of the driving assembly, a group of the friction bars is arranged between every two adjacent groups of the rotating plates, two sides of each friction bar are provided with protrusions, and the protrusions on two sides of the same friction bar are respectively in one-to-one correspondence with the annular grooves on two adjacent rotating plates.

7. The horizontal reactor of claim 1, wherein the friction bar has a plurality of protrusions, the protrusions are equidistantly arranged along the length direction of the friction bar, the rotating plate is provided with a plurality of grooves, and the grooves correspond to the protrusions one by one.

8. The horizontal reactor of claim 1, wherein the protrusions are spherical, the grooves are spherical, and the diameter of the grooves is larger than that of the protrusions.

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