CN217068728U - Agitator tank is used in nanometer calcium production with damper - Google Patents

Abstract

The utility model discloses an agitator tank is used in nanometer calcium production with damper, this agitator tank aim at solving prior art lower agitator tank and lack when stirring and carry out dual absorbing protective structure to agitator tank bottom and side, also do not set up the technical problem that can scrape the mechanism of getting with the agitator tank inner wall simultaneously. The stirring tank comprises a stirring tank body, a feeding module and a stirring module, wherein the feeding module is installed on the stirring tank body, and the stirring module is connected to the stirring tank body and is used for stirring the inside of the stirring tank body; the stirring module outside is provided with and is used for scraping the wall module of scraping of getting to agitator tank body inner wall, agitator tank body downside is provided with and is used for the bottom to carry out absorbing first damper assembly. This agitator tank makes the agitator tank body can play the effect of connecting the absorbing to its bottom when using through first damper assembly, and can carry out the shock attenuation to agitator tank body side through second damper assembly to play dual shock attenuation effect.

Description

Agitator tank is used in nanometer calcium production with damper

Technical Field

The utility model belongs to agitator tank equipment field, concretely relates to agitator tank is used in nanometer calcium production with damper.

Background

Today, the agitator tank structure of nanometer calcium production usefulness on the market is comparatively simple, lacks when stirring and carries out dual absorbing protective structure to agitator tank bottom and side to lead to the agitator tank holistic stability when using not enough, also not set up simultaneously and can scrape the mechanism of getting with the agitator tank inner wall, further lead to the agitator tank mixing efficiency lower.

At present, the utility model with the patent number of CN202022147452.6 discloses a mixed stirring tank for heating production of a mineral separation agent, which comprises a stirring tank shell, wherein an inner stirring tank barrel is arranged in the stirring tank shell, the top end in the stirring tank shell is fixedly connected with the inner stirring tank barrel, the upper end surface of the stirring tank shell is provided with a motor, a stirring shaft is arranged on a motor output shaft, the stirring shaft penetrates through the stirring tank shell and the inner stirring tank barrel and is arranged in the inner stirring tank barrel, a plurality of stirring blades are symmetrically arranged on the stirring shaft, a feeding funnel is arranged at one side of the motor, the inner stirring tank barrel and the stirring tank shell are penetrated by a discharging pipe, a heating coil is arranged in a cavity between the inner wall of the stirring tank shell and the outer wall of the inner stirring tank shell, the heating coil uniformly winds the outer wall of the stirring tank shell, and the joint of the heating coil penetrates through the stirring tank shell and is connected with a heater, but this agitator tank lacks the protective structure who carries out dual shock attenuation to agitator tank bottom and side when stirring to lead to the agitator tank holistic stability when using not enough, also not set up the mechanism that can scrape the agitator tank inner wall simultaneously, further lead to the agitator tank mixing efficiency lower.

Therefore, to the problem that the agitator tank lacks the protective structure that carries out dual shock attenuation to agitator tank bottom and side when stirring, also does not set up the mechanism that can scrape the agitator tank inner wall simultaneously, needs to be solved urgently to improve the use scene of agitator tank.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

An object of the utility model is to prior art not enough, the utility model is to provide an agitator tank is used in nanometer calcium production with damper, this agitator tank aim at solving prior art lower agitator tank and lack when stirring and carry out dual absorbing protective structure to agitator tank bottom and side, also do not set up the technical problem that can scrape the mechanism of getting with the agitator tank inner wall simultaneously.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a stirring tank with a damping mechanism for producing nano calcium, which comprises a stirring tank body, a feeding module arranged on the stirring tank body, and a stirring module connected with the stirring tank body and used for stirring the inside of the stirring tank body; the stirring module outside is provided with and is used for scraping the wall module of scraping of getting to agitator tank body inner wall, agitator tank body downside is provided with and is used for the bottom to carry out absorbing first damper assembly, the agitator tank body outside is provided with and is used for carrying out absorbing second damper assembly to agitator tank body side, the second damper assembly outside is provided with and is used for carrying out the connection supporting component that the shock attenuation is connected, the inside shock attenuation pressure-bearing diaphragm that is provided with of first damper assembly.

When the stirring tank adopting the technical scheme is used, the stirring tank body can play a role in connecting shock absorption to the bottom of the stirring tank body when the stirring tank is used through the first shock absorption assembly, and shock absorption can be carried out on the side face of the stirring tank body through the arrangement of the second shock absorption assembly, so that a dual shock absorption effect is played, a supporting and connecting effect can be played by utilizing the connecting and supporting assembly, and the use stability is further ensured.

Preferably, the upper side of the shock absorption pressure-bearing transverse plate is provided with a shock absorption bottom plate, and the upper side of the shock absorption bottom plate is provided with a shock absorption sleeve. Through damping bottom plate's setting, can play certain shock attenuation effect, and through damping sleeve's setting, can play and connect absorbing effect.

Furthermore, the inside first damping spring that is provided with of shock attenuation sleeve, first damping spring upside is provided with spacing cardboard, spacing cardboard upside is provided with the shock attenuation vaulting pole. Through first damping spring's setting, can drive the shock attenuation vaulting pole and carry out the shock attenuation in step, and through the setting of spacing cardboard, can play limiting displacement.

Still further, a damping outer sleeve is arranged inside the second damping assembly, a damping elastic block is arranged inside the damping outer sleeve, and a second damping spring is arranged outside the damping elastic block. Through the setting of shock attenuation outer sleeve, can carry out the shock attenuation to agitator tank body side, and through second damping spring's setting, can improve holistic shock attenuation effect.

Still further, the second damping spring outside is provided with connects the arc and fills up, it is provided with the buffering arc to connect the arc to fill up the outside, the buffering arc outside is provided with the elastic cushion, fixed recess has been seted up to the shock attenuation outer sleeve surface. Through the setting of connecting the arc pad, can play the connection effect, and through the setting of buffering arc and elastic cushion, can play shock attenuation buffering effect to agitator tank body side.

Still further, the inside support swash plate that is provided with of connection support subassembly, the support swash plate outside is provided with the positioning fixture block that is used for the joint in fixed recess, support swash plate downside is provided with the installation hypoplastron. Through the setting of location fixture block, can agree with in fixed recess to make the swash plate that supports can play the supporting role.

Preferably, stirring module inside is provided with agitator motor, agitator motor's output is provided with the stirring pivot, scrape inside being provided with of wall module and stirring pivot and be connected scrape wall branch, it is provided with and scrapes the wall arc board to scrape the wall branch outside. Through agitator motor's setting, can drive the stirring pivot and rotate to the messenger scrapes wall branch and scrapes the wall arc board and can scrape to agitator tank body inner wall and get, has further improved the mixing efficiency of agitator tank.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses an agitator tank utilizes first damper assembly to make the agitator tank body can play to its bottom when using and connect absorbing effect, and can carry out the shock attenuation to agitator tank body side through second damper assembly to play dual absorbing effect, utilize connection support assembly to play the effect of supporting the connection simultaneously, further ensured the stability of using.

Drawings

In order to clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, it is obvious that the drawings in the following description are only one embodiment of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of the stirring tank of the present invention;

FIG. 2 is a cross-sectional view of one embodiment of the agitator tank of the present invention;

FIG. 3 is a schematic structural view of a shock-absorbing outer sleeve according to an embodiment of the stirring tank of the present invention;

fig. 4 is a top cross-sectional view of the shock absorbing outer sleeve of one embodiment of the blender jar of the present invention.

The labels in the figures are: 1. a stirred tank body; 2. a feed module; 3. a stirring module; 4. a wall scraping module; 5. a first dampening member; 6. a second dampening member; 7. connecting the support component; 8. a damping pressure-bearing transverse plate; 9. a damping bottom plate; 10. a shock-absorbing sleeve; 11. a first damping spring; 12. a limiting clamping plate; 13. a shock-absorbing stay bar; 14. a shock-absorbing outer sleeve; 15. a shock-absorbing spring block; 16. a second damping spring; 17. connecting the arc pad; 18. a buffer arc plate; 19. an elastic cushion; 20. fixing the groove; 21. supporting the inclined plate; 22. positioning a fixture block; 23. mounting a lower plate; 24. a stirring motor; 25. a stirring rotating shaft; 26. a wall scraping support rod; 27. and a wall scraping arc plate.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the following description is made for the technical solution of the present invention in the embodiments to explain the present invention clearly and completely, obviously, the described embodiments are only a part of the embodiments of the present invention, but not all the embodiments.

Example 1

The specific embodiment is a stirring tank with a damping mechanism for producing nano calcium, the structural schematic diagram of the stirring tank is shown in fig. 1, and the sectional view of the stirring tank is shown in fig. 2, the stirring tank comprises a stirring tank body 1, a feeding module 2 installed on the stirring tank body 1, and a stirring module 3 connected to the stirring tank body 1 and used for stirring the inside of the stirring tank body 1; the stirring module 3 outside is provided with and is used for scraping the wall module 4 of scraping of getting to 1 inner wall of agitator tank body, and 1 downside of agitator tank body is provided with and is used for the bottom to carry out absorbing first damper assembly 5, and 1 outside of agitator tank body is provided with and is used for carrying out absorbing second damper assembly 6 to 1 side of agitator tank body, and 6 outsides of second damper assembly are provided with and are used for carrying out the connection supporting component 7 that the shock attenuation is connected, and first damper assembly 5 inside is provided with shock attenuation pressure-bearing diaphragm 8.

Wherein, the upper side of the shock absorption pressure-bearing transverse plate 8 is provided with a shock absorption bottom plate 9, the upper side of the shock absorption bottom plate 9 is provided with a shock absorption sleeve 10, a first shock absorption spring 11 is arranged inside the shock absorption sleeve 10, the upper side of the first shock absorption spring 11 is provided with a limiting clamping plate 12, the upper side of the limiting clamping plate 12 is provided with a shock absorption support rod 13, a shock absorption outer sleeve 14 is arranged inside the second shock absorption assembly 6, a shock absorption elastic block 15 is arranged inside the shock absorption outer sleeve 14, and a second shock absorption spring 16 is arranged outside the shock absorption elastic block 15. The number of the shock absorption bottom plates 9 can be correspondingly increased or decreased according to the use requirement.

In addition, a connecting arc pad 17 is arranged on the outer side of the second damping spring 16, a buffering arc plate 18 is arranged on the outer side of the connecting arc pad 17, an elastic cushion 19 is arranged on the outer side of the buffering arc plate 18, a fixed groove 20 is formed in the outer surface of the damping outer sleeve 14, a supporting inclined plate 21 is arranged inside the connecting and supporting assembly 7, a positioning fixture block 22 used for being connected in the fixed groove 20 in a clamping mode is arranged on the outer side of the supporting inclined plate 21, an installation lower plate 23 is arranged on the lower side of the supporting inclined plate 21, a stirring motor 24 is arranged inside the stirring module 3, a stirring rotating shaft 25 is arranged at the output end of the stirring motor 24, a wall scraping support rod 26 connected with the stirring rotating shaft 25 is arranged inside the wall scraping module 4, and a wall scraping arc plate 27 is arranged on the outer side of the wall scraping support rod 26.

The construction of the shock-absorbing outer sleeve in the mixing tank is schematically shown in fig. 3, wherein the top cross-sectional view of the shock-absorbing outer sleeve is shown in fig. 4.

It should be noted that the arc degree of the wall scraping arc plate 27 can be adjusted according to the shape of the stirring tank body 1.

When the stirring tank of the technical scheme is used, firstly, a certain damping effect can be achieved through the damping bottom plate 9, the damping sleeve 10 can achieve the effect of connecting and damping, the damping strut 13 can be driven to achieve synchronous damping through the first damping spring 11, then, the side surface of the stirring tank body 1 can be damped through the damping outer sleeve 14, the overall damping effect can be improved through the second damping spring 16, meanwhile, the damping buffer effect can be achieved on the side surface of the stirring tank body 1 through the buffer arc-shaped plate 18 and the elastic cushion 19, the dual damping effect is further achieved, the positioning fixture block 22 can be matched in the fixed groove 20, so that the supporting inclined plate 21 can achieve the supporting effect, the use stability is ensured, finally, the stirring rotating shaft 25 can be driven to rotate through the stirring motor 24, so that the wall scraping support rod 26 and the wall scraping arc plate 27 can scrape the inner wall of the stirring tank body 1, the mixing efficiency of the stirring tank is further improved.

Having thus described the principal technical features and basic principles of the invention, and the advantages thereof, it will be apparent to those skilled in the art that the present invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other embodiments without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description is described in terms of various embodiments, not every embodiment includes only a single embodiment, and such descriptions are provided for clarity only, and those skilled in the art will recognize that the embodiments described herein can be combined as a whole to form other embodiments as would be understood by those skilled in the art.

Claims (7)

1. A stirring tank with a damping mechanism for producing nano calcium comprises a stirring tank body, a feeding module and a stirring module, wherein the feeding module is installed on the stirring tank body; the stirring tank is characterized in that a wall scraping module used for scraping the inner wall of the stirring tank body is arranged on the outer side of the stirring module, a first shock absorption assembly used for absorbing shock from the bottom is arranged on the lower side of the stirring tank body, a second shock absorption assembly used for absorbing shock from the side face of the stirring tank body is arranged on the outer side of the stirring tank body, a connecting and supporting assembly used for connecting shock absorption is arranged on the outer side of the second shock absorption assembly, and a shock absorption and pressure bearing transverse plate is arranged inside the first shock absorption assembly.

2. The stirring tank with the damping mechanism for nano-calcium production as claimed in claim 1, wherein a damping bottom plate is arranged on the upper side of the damping pressure-bearing transverse plate, and a damping sleeve is arranged on the upper side of the damping bottom plate.

3. The stirring tank with the damping mechanism for nano calcium production as claimed in claim 2, wherein a first damping spring is arranged inside the damping sleeve, a limiting clamping plate is arranged on the upper side of the first damping spring, and a damping stay bar is arranged on the upper side of the limiting clamping plate.

4. The stirring tank with the damping mechanism for nano-calcium production as claimed in claim 3, wherein a damping outer sleeve is arranged inside the second damping assembly, a damping elastic block is arranged inside the damping outer sleeve, and a second damping spring is arranged outside the damping elastic block.

5. The stirring tank with the damping mechanism for nano-calcium production as claimed in claim 4, wherein a connection arc pad is arranged outside the second damping spring, a buffering arc plate is arranged outside the connection arc pad, an elastic soft pad is arranged outside the buffering arc plate, and a fixing groove is formed on the outer surface of the outer damping sleeve.

6. The stirring tank with the damping mechanism for nano-calcium production as claimed in claim 5, wherein a supporting sloping plate is arranged inside the connecting support assembly, a positioning fixture block for being clamped in the fixing groove is arranged outside the supporting sloping plate, and a mounting lower plate is arranged below the supporting sloping plate.

7. The stirring tank with the damping mechanism for nano calcium production as claimed in claim 1, wherein a stirring motor is disposed inside the stirring module, a stirring rotating shaft is disposed at an output end of the stirring motor, a wall scraping support rod connected with the stirring rotating shaft is disposed inside the wall scraping module, and a wall scraping arc plate is disposed outside the wall scraping support rod.

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