CN218036421U - ICP-OES metal element quantitative analysis device for preparing lithium hexafluorophosphate - Google Patents

Abstract

The utility model discloses a preparation ICP-OES metallic element quantitative analysis device for lithium hexafluorophosphate, the device comprises a device seat, the top of device seat is fixed with analysis chamber and display portion, the inside of analysis chamber is equipped with the mobile station, the bottom of mobile station is connected with the drive division, the side of mobile station is rotated and is connected with one row of gyro wheel, the gyro wheel is in the side spout of analysis chamber, the top of mobile station is equipped with rotation portion, the inside top of analysis chamber is fixed with analysis portion. The utility model discloses a set up the rotation portion, like this when the analysis, can start rotating the motor and make the revolving stage rotate, the ball freely rolls on the mobile station top simultaneously, improves pivoted stability to make the sample driven the rotation, improve the accurate nature of analysis data.

Description

ICP-OES metal element quantitative analysis device for preparing lithium hexafluorophosphate

Technical Field

The utility model relates to a metallic element quantitative analysis technical field especially relates to a preparation ICP-OES metallic element quantitative analysis device for lithium hexafluorophosphate.

Background

Lithium hexafluorophosphate is an inorganic substance, white crystals or powder. The fluorine-containing compound is easy to dissolve in water and low-concentration organic solvents such as methanol, ethanol, acetone, carbonates and the like, and in the fluorine chemical industry, although the comparable amplitude reduction of the traditional products is obvious, the demand of high-end products is increased and strong momentum is kept. Especially lithium hexafluorophosphate production and marketing continue to maintain a good situation. With the continuous expansion of the new energy field in the future, the lithium hexafluorophosphate is expected to continuously burst, and in the preparation process of the lithium hexafluorophosphate, an ICP-OES device is required to be used for carrying out quantitative analysis on metal elements in a sample.

The sample of the existing quantitative analysis device is placed on an analysis table and is motionless, so that the accuracy of analysis data can be influenced, the analysis device is inconvenient to take, and the height of the analysis device from the sample is fixed, so that the ICP-OES quantitative analysis device for preparing lithium hexafluorophosphate is required to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems mentioned in the background art, and providing an ICP-OES metal element quantitative analysis device for preparing lithium hexafluorophosphate.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the ICP-OES quantitative analysis device for preparing lithium hexafluorophosphate comprises a device base, wherein an analysis chamber and a display part are fixed at the top end of the device base, a moving platform is arranged in the analysis chamber, the bottom end of the moving platform is connected with a driving part, a row of rollers are rotatably connected to the side end of the moving platform, the rollers are arranged in side end sliding grooves of the analysis chamber, a rotating part is arranged at the top end of the moving platform, and an analysis part is fixed at the top end in the analysis chamber.

Preferably, the openings at the two ends of the device seat are nailed with heat dissipation screen plates, and the heat dissipation screen plates are made of stainless steel.

Preferably, the display part includes supporting sleeve, bracing piece and display screen, the supporting sleeve is fixed on the top of device seat, the bracing piece inserts inside the supporting sleeve and through bolt fixed connection, and the bolt hole on the bracing piece is equipped with many places, and the top nail of display screen and bracing piece connects.

Preferably, the drive division includes driving motor, two-way axle, drive gear and rack plate, driving motor fixes on the inside top of analysis room, and the driving motor both ends rotate and are connected with two-way axle, and two-way epaxial being fixed with drive gear, and drive gear is connected with the rack plate meshing, and the rack plate is fixed in the removal platform bottom.

Preferably, the portion of rotating is including rotating the motor, rotating platform, ball and putting the frid, rotate the motor and fix on the mobile station top, and the top of rotating the motor is connected with and rotates the platform, it is equipped with the ball groove of annular distribution to rotate the platform bottom, and the ball freely rolls in the ball groove, and the ball with rotate the platform contact, and rotate the inside frid of putting that is fixed with of platform.

Preferably, the outer wall of the placing groove plate is attached to the inner wall of the rotating table, and the placing groove plate is connected with the rotating table through a clamping groove.

Preferably, the analysis portion comprises an electric push rod, a lifting plate and quantitative analysis heads, the electric push rod is fixedly connected with the top end of the interior of the analysis chamber, the lifting plate is fixed at the bottom end of the electric push rod, and the quantitative analysis heads are distributed in a rectangular array at the bottom end of the lifting plate.

Compared with the prior art, the utility model discloses possess following advantage:

1. the utility model discloses a set up the rotation portion, when the analysis like this, can start the rotation motor and make the revolving stage rotate, the ball rolls freely on the mobile station top simultaneously, improves the stability of rotation, thereby makes the sample driven to rotate, improves the precision of analysis data;

2. the utility model discloses a set up the drive division, when placeing like this, can start driving motor and make two-way axle drive gear rotate, drive gear makes the mobile station pass through the gyro wheel through the rack board and toward removing outward, place analysis sample place the cell-board inside back repetitive operation with the mobile station move into analysis indoor portion can, very convenient.

Drawings

Fig. 1 is a schematic front view of an ICP-OES quantitative analyzer for preparing lithium hexafluorophosphate;

fig. 2 is a schematic structural diagram of a driving part of an ICP-OES quantitative analyzer for preparing lithium hexafluorophosphate;

fig. 3 is a schematic structural view of a rotating part of the ICP-OES quantitative analyzer for preparing lithium hexafluorophosphate;

fig. 4 is a schematic structural diagram of an analysis part of an ICP-OES quantitative analyzer for preparing lithium hexafluorophosphate.

In the figure: 1. a device base; 2. a heat dissipation screen plate; 3. an analysis chamber; 4. a display unit; 401. a support sleeve; 402. a support bar; 403. a display screen; 5. a mobile station; 6. a drive section; 601. a drive motor; 602. a bi-directional shaft; 603. a drive gear; 604. a rack plate; 7. a roller; 8. a rotating part; 801. rotating the motor; 802. a rotating table; 803. a ball bearing; 804. placing a groove plate; 9. an analysis unit; 901. an electric push rod; 902. a lifting plate; 903. a quantitative analysis head.

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.

Referring to fig. 1 to 4, an ICP-OES quantitative analyzer for preparing lithium hexafluorophosphate comprises a device base 1, an analysis chamber 3 and a display part 4 are fixed on the top of the device base 1, a moving table 5 is arranged in the analysis chamber 3, a driving part 6 is connected to the bottom end of the moving table 5, a row of rollers 7 are rotatably connected to the side end of the moving table 5, the rollers 7 are arranged in side end sliding grooves of the analysis chamber 3, a rotating part 8 is arranged on the top end of the moving table 5, and an analysis part 9 is fixed on the top end of the analysis chamber 3.

It is worth noting that the heat dissipation screen plates 2 are nailed at the openings at the two ends of the device seat 1, the heat dissipation screen plates 2 are made of stainless steel, and the heat dissipation screen plates 2 are arranged, so that heat dissipation of electronic equipment inside the device seat 1 is facilitated, and meanwhile dust prevention is facilitated.

It is worth noting that display portion 4 includes supporting sleeve 401, bracing piece 402 and display screen 403, supporting sleeve 401 is fixed on the top of device seat 1, bracing piece 402 inserts supporting sleeve 401 inside and through bolt fixed connection, and the bolt hole on the bracing piece 402 is equipped with the multiple department, and the top nail of display screen 403 and bracing piece 402 connects, through setting up display portion 4, display screen 403 and quantitative analysis head 903 electric connection like this, can show the branch office data and be convenient for watch, and be connected between supporting sleeve 401 and the bracing piece 402 and can adjust the display screen 403 height, it is very convenient.

It should be noted that the driving portion 6 includes a driving motor 601, a bidirectional shaft 602, a driving gear 603 and a rack plate 604, the driving motor 601 is fixed at the top end inside the analysis chamber 3, two ends of the driving motor 601 are rotatably connected with the bidirectional shaft 602, the driving gear 603 is fixed on the bidirectional shaft 602, the driving gear 603 is meshed with the rack plate 604, the rack plate 604 is fixed at the bottom of the mobile station 5, and by arranging the driving portion 6, when placing, the driving motor 601 can be started to enable the bidirectional shaft 602 to drive the driving gear 603 to rotate, the driving gear 603 enables the mobile station 5 to move outwards through the roller 7 through the rack plate 604, after placing an analysis sample inside the placing groove plate 804, the mobile station 5 can be moved into the analysis chamber 3 through repeated operation, which is very convenient.

It is worth noting that the rotating portion 8 comprises a rotating motor 801, a rotating table 802, balls 803 and a placing groove plate 804, the rotating motor 801 is fixed at the top end of the moving table 5, the top end of the rotating motor 801 is connected with the rotating table 802, the bottom of the rotating table 802 is provided with the ball grooves distributed in an annular mode, the balls 803 freely roll in the ball grooves, the balls 803 are in contact with the rotating table 802, the placing groove plate 804 is fixed inside the rotating table 802, and the rotating portion 8 is arranged, so that the rotating motor 801 can be started to enable the rotating table 802 to rotate during analysis, meanwhile, the balls 803 freely roll at the top end of the moving table 5, and the rotating stability is improved, so that a sample is driven to rotate, and the accuracy of analysis data is improved.

It is worth noting that the outer wall of the placing groove plate 804 is attached to the inner wall of the rotating table 802, and the placing groove plate 804 is connected with the rotating table 802 through a clamping groove, so that the placing groove plate 804 can be used for placing samples for a long time and is easy to leave scraps, and the clamping groove is connected to facilitate the detachment and cleaning of the placing groove plate 804.

It should be noted that the analysis part 9 includes an electric push rod 901, a lifting plate 902 and a quantitative analysis head 903, the electric push rod 901 is fixedly connected to the top end of the interior of the analysis chamber 3, the lifting plate 902 is fixed to the bottom end of the electric push rod 901, and the quantitative analysis heads 903 are distributed in a rectangular array at the bottom end of the lifting plate 902, by arranging the analysis part 9, in this way, the electric push rod 901 can be started to lower the lifting plate 902 to a proper position during analysis, and then the quantitative analysis head 903 is started to analyze the sample.

Now, the use principle of the present invention is described as follows:

the utility model discloses during the use, at first when placeing, can start driving motor 601 and make two-way axle 602 drive gear 603 rotate, drive gear 603 makes mobile station 5 through gyro wheel 7 toward outer removal through rack plate 604, place analysis sample place put behind the frid 804 inside repetitive operation with mobile station 5 move into analysis room 3 inside can, it is very convenient, then when the analysis, can start electric push rod 901 and make lifter plate 902 descend to suitable position, later start quantitative analysis head 903 carry out the analysis to the sample can, at last when the analysis, can start rotating motor 801 and make the rotation platform 802 rotate, ball 803 is at 5 top free rolls of mobile station simultaneously, improve pivoted stability, thereby make the sample driven the rotation, improve the accurate nature of analytical data.

In the present invention, unless otherwise expressly stated or limited, the terms "sliding", "rotating", "fixed", "provided", and the like are to be understood in a broad sense, e.g. as welded connections, as bolted connections, or as integral parts; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (7)

1. The ICP-OES quantitative analysis device for preparing lithium hexafluorophosphate comprises a device base (1) and is characterized in that an analysis chamber (3) and a display part (4) are fixed to the top end of the device base (1), a moving platform (5) is arranged inside the analysis chamber (3), a driving part (6) is connected to the bottom end of the moving platform (5), a row of rollers (7) are rotatably connected to the side end of the moving platform (5), the rollers (7) are arranged in side end sliding grooves of the analysis chamber (3), a rotating part (8) is arranged at the top end of the moving platform (5), and an analysis part (9) is fixed to the top end inside the analysis chamber (3).

2. The ICP-OES quantitative analysis device for lithium hexafluorophosphate according to claim 1, wherein the heat dissipation mesh plates (2) are nailed at the openings of the two ends of the device base (1), and the heat dissipation mesh plates (2) are made of stainless steel.

3. The ICP-OES quantitative analysis device for lithium hexafluorophosphate according to claim 1, wherein the display part (4) comprises a support sleeve (401), a support rod (402) and a display screen (403), the support sleeve (401) is fixed at the top end of the device base (1), the support rod (402) is inserted into the support sleeve (401) and fixedly connected through a bolt, a plurality of bolt holes are formed in the support rod (402), and the display screen (403) is nailed with the top end of the support rod (402).

4. The ICP-OES quantitative analysis device for lithium hexafluorophosphate according to claim 1, wherein the driving part (6) comprises a driving motor (601), a bidirectional shaft (602), a driving gear (603) and a rack plate (604), the driving motor (601) is fixed on the top end inside the analysis chamber (3), the bidirectional shaft (602) is rotatably connected to both ends of the driving motor (601), the driving gear (603) is fixed on the bidirectional shaft (602), the driving gear (603) is engaged with the rack plate (604), and the rack plate (604) is fixed on the bottom of the moving platform (5).

5. The ICP-OES quantitative analysis device for lithium hexafluorophosphate preparation according to claim 1, wherein the rotating part (8) comprises a rotating motor (801), a rotating platform (802), balls (803) and a placing groove plate (804), the rotating motor (801) is fixed on the top end of the moving platform (5), the rotating platform (802) is connected to the top end of the rotating motor (801), the bottom of the rotating platform (802) is provided with ball grooves distributed in an annular shape, the balls (803) freely roll in the ball grooves, the balls (803) are in contact with the rotating platform (802), and the placing groove plate (804) is fixed inside the rotating platform (802).

6. The ICP-OES quantitative analysis device for lithium hexafluorophosphate according to claim 5, wherein the outer wall of the placing groove plate (804) is attached to the inner wall of the rotating table (802), and the placing groove plate (804) is connected with the rotating table (802) through a clamping groove.

7. The ICP-OES quantitative analysis device for lithium hexafluorophosphate according to claim 1, wherein the analysis part (9) comprises an electric push rod (901), an elevating plate (902) and a quantitative analysis head (903), the electric push rod (901) is fixedly connected with the top end of the interior of the analysis chamber (3), the elevating plate (902) is fixed at the bottom end of the electric push rod (901), and the quantitative analysis heads (903) are distributed in a rectangular array at the bottom end of the elevating plate (902).

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