CN112604619A - Scrape wall fluorescent material reation kettle - Google Patents

Abstract

The invention discloses a scraped wall fluorescent material reaction kettle, which structurally comprises: the invention discloses a shaft-driven motor, a shaft sleeve barrel seat, a tank body, a binding sleeve hoop, a support column foot block and a shuttle wheel frame kettle body, which realize that the tank body is matched with the shuttle wheel frame kettle body, a low-position reaction kettle blade seat is matched with a high-position rolling brush disk to press and scrape when a sliding shuttle rack of a shuttle wheel frame stirs a tank barrel groove scraping wall through fluorescent materials, the rolling friction force during lifting and circling is effectively ensured to flexibly wrap the inner wall and prevent bonding of stirred materials, the anti-dropping and anti-abrasion operation effects are improved, the high efficiency of the shaft frame linkage scraping wall is also ensured, the groove opening of a shaft sleeve fin seat of the low-position reaction kettle blade seat is permeated, purified and blanked efficiently, the subsequent pipeline dredging continuity is ensured, and the reaction kettle body is continuously maintained and processed.

Description

Scrape wall fluorescent material reation kettle

Technical Field

The invention relates to a scraped wall fluorescent material reaction kettle, belonging to the field of reaction kettles.

Background

Scrape wall reation kettle and form a compounding and brighten and the operating effect of thickening to fluorescent material's step processing, the purification degree density that the wall adhesion degree of guarantee material promoted and follow-up processing strengthens, lets reation kettle stir the processing material and obtains efficient combined treatment operating effect, and the public shortcoming of treating optimizing of prior art has:

the scratch of the inner cylinder generated by the low-level wall hanging and the swing wall hanging of the wall hanging reaction kettle made of the fluorescent material is large, the phenomenon that the bearing force of the subsequent inner wall of the tank body is reduced due to the friction of the patch and the wall of the inner cylinder is stretched easily, the impact force generated by collapse during the sedimentation and rotation operation of the high-level shaft motor is easy to cause potential safety hazard of the tank explosion, the wall scraping continuous abrasion degree is large, impurities falling off from the inner wall are mixed into the fluorescent material, and the purity of the stirred material is reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a wall scraping fluorescent material reaction kettle, which solves the problems that the wall scraping reaction kettle made of a fluorescent material has large scratches on an inner cylinder generated by a low-level wall hanging and a swing wall hanging, the subsequent inner wall of a tank body is thinned and the bearing force is reduced easily due to the friction of a paster on the inner cylinder wall, the high-level shaft motor is easy to generate collapse impact force during the sedimentation and rotation operation, the tank explosion potential safety hazard is caused, the wall scraping continuous abrasion degree is large, impurities falling off from the inner wall are mixed into the fluorescent material, and the purity of stirred materials is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a kind of wall-scraping fluorescent material reaction kettle, its structure includes: a shaft-driven motor, a shaft sleeve seat, a tank body, a collar hoop, a support column foot block and a shuttle wheel frame kettle body, the sliding shuttle wheel frame kettle body is arranged in the tank body, the axes of the sliding shuttle wheel frame kettle body are collinear, the sliding shuttle wheel frame kettle body is inserted and embedded under the bottom of the shaft sleeve barrel seat, the axes of the sliding shuttle wheel frame kettle body are collinear, the shaft-driven motor is mechanically connected with the shaft sleeve seat and the axes of the shaft-driven motor and the shaft sleeve seat are collinear, the tank body and the collar ring are nested into a whole and the axes of the tank body and the collar ring are collinear, the support column foot block is inserted and embedded under the bottom of the tank body, the shuttle wheel frame kettle body is provided with a shuttle wheel plate rack, a reaction kettle knife seat, a damping filler strip and a rotating shaft column, the two shuttle wheel disc frames are respectively arranged at the left side and the right side of the rotating shaft column, the damping filler strip is inserted and embedded in the rotating shaft column and is positioned on the same vertical surface, the rotating shaft column is inserted and embedded on the top of the reaction kettle knife holder and the axis of the rotating shaft column is collinear, and the rotating shaft column is installed in the tank body and the axis of the rotating shaft column is collinear.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the shuttle wheel disc frame consists of a rotor shaft wheel, a rolling brush disc and a shuttle frame, wherein the rolling brush disc and the shuttle frame are nested into a whole and are positioned on the same vertical plane, and the rotor shaft wheel is mechanically connected with the rolling brush disc and the shaft center is collinear.

As a further improvement of the invention, the rotor shaft wheel consists of a three-phase rotor block and a fan plate wheel ring groove, the three-phase rotor block is arranged inside the fan plate wheel ring groove, the axes of the three-phase rotor block are collinear, and the three-phase rotor block is mechanically connected with the fan plate wheel ring groove.

As a further improvement of the invention, the reaction kettle knife holder consists of a shaft sleeve fin holder and two hook knife blade blades, wherein the two hook knife blade blades are respectively arranged at the left side and the right side of the shaft sleeve fin holder, and the shaft sleeve fin holder and the hook knife blade are welded into a whole and are positioned on the same horizontal plane.

As a further improvement of the invention, the shaft sleeve fin seat consists of two triangular grating pieces and a wheel pad sleeve cap, wherein the two triangular grating pieces are respectively arranged at the left side and the right side of the wheel pad sleeve cap, and the triangular grating pieces and the wheel pad sleeve cap are inserted and embedded into a whole and are positioned on the same horizontal plane.

As a further improvement of the invention, the shaft sleeve seat consists of a concave buckle cover seat and a sleeve groove, the concave buckle cover seat is arranged below the bottom of the sleeve groove, and the concave buckle cover seat and the sleeve groove are buckled together and the axes of the concave buckle cover seat and the sleeve groove are collinear.

As a further improvement of the invention, the concave buckle cover seat is composed of a through hole cotton cushion block and a concave buckle cover groove, the through hole cotton cushion block is arranged below the bottom of the concave buckle cover groove and is positioned on the same horizontal plane, and the through hole cotton cushion block and the concave buckle cover groove are nested into a whole.

As a further improvement of the invention, the tank body consists of a limiting clamping plate and a tank barrel groove, the limiting clamping plate is arranged inside the tank barrel groove, and the limiting clamping plate and the tank barrel groove are inserted and embedded into a whole and the axes of the limiting clamping plate and the tank barrel groove are collinear.

As a further improvement of the invention, the limiting clamping plate consists of a plate groove body and an ellipsoid spacer block, the ellipsoid spacer block is arranged in the plate groove body and is positioned on the same vertical surface, and the ellipsoid spacer block is tightly attached to the plate groove body.

As a further improvement of the invention, the shaft core small-sized stepping motor frame structure of the three ear plates of the three-phase rotor block inserted with the rotor coil block is convenient for the flexible operation effect of wall scraping rolling friction formed by the contraposition winding of the left and right spacers.

As a further improvement of the invention, the wheel pad sleeve cap is of a composite cap seat structure with left and right petal blocks and wheel pad grid grooves in the middle, so that the low-position shaft core of the stirring kettle is convenient to lock, adapt and rotate to receive the blanking efficiently.

As a further improvement of the invention, the through-hole cotton cushion block is of a cotton block structure with through holes, which is concavely buckled at the tops of the left convex arc and the right convex arc and at the bottom of the convex arc, so that the friction force of the shaft-driven butt joint is conveniently increased, and the rotation efficiency is improved.

As a further improvement of the invention, the ellipsoidal spacer block is a composite sectional spacer strip structure with a three-position spacer block inserted with an ellipsoidal spacer core, so that the left and right traction, pressing and covering of the movable limiting and deflection preventing amount of the lifting shaft are facilitated.

Advantageous effects

According to the wall scraping fluorescent material reaction kettle, a worker starts a sleeve groove of a motor plug-in shaft sleeve seat to enable a through-hole cotton cushion block of a concave buckle cover seat and the top of a concave buckle cover groove wrapping pressing tank groove body to butt a binding sleeve hoop and a support column foot block to be tightened and supported in an auxiliary mode, a damping filler strip and a rotating shaft column are enabled to drive a rotating shaft column to drive a rotating shaft wheel to form a three-phase rotor block and a sector wheel ring groove winding and resisting linkage operation effect in a rolling brush disc and a sliding shuttle rack butt joint mode, the high efficiency of flexible rolling friction wall scraping is guaranteed, and then a triangular grating sheet of a hook cutter blade plug-in shaft sleeve fin seat and a wheel sleeve cap are used for rotating and stirring downward placing fluorescent materials, so that the purification and thickening efficiency is improved, the wall scraping fluorescent material reaction kettle is enabled to be wear-resistant in a mechanical linkage mode, and the materials are maintained and purified efficiently.

The invention has the following advantages after operation:

application tank body and shuttle wheel carrier cauldron body cooperate, scrape the operation through fluorescent material when the wall stirring is scraped to tank barrel groove at the shuttle frame of shuttle wheel carrier's shuttle blade holder low-order reation kettle blade holder cooperation high-order rolling brush dish pressure, the flexible parcel inner wall anti-drop of high-efficient friction force when guaranteeing to go up and down to circle round and the material of antiseized knot stirring, promote the operation effect of unloading and abrasionproof loss, also guarantee the high efficiency of wall is scraped in the shaft bracket linkage, let the axle sleeve fin seat slot seam infiltration purification unloading of low-order reation kettle blade holder high-efficient, guarantee subsequent pipeline dredge the continuity, let the reation kettle tank body obtain lasting maintenance processing operation effect.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural diagram of a scraped wall fluorescent material reactor according to the present invention.

FIG. 2 is a schematic sectional view of the shaft sleeve seat and the shuttle wheel frame and the cage body of the present invention.

FIG. 3 is a detailed cross-sectional structural diagram of the tank body and the shuttle wheel carrier kettle body of the present invention.

FIG. 4 is a schematic cross-sectional view of the shuttle wheel frame kettle body, the shuttle wheel disk rack and the reaction kettle tool apron of the present invention.

FIG. 5 is an enlarged cross-sectional view of the female buckle cover base according to the present invention.

Fig. 6 is a cross-sectional enlarged structural view of the stop splint according to the present invention in an operating state.

FIG. 7 is an enlarged cross-sectional view of the rotor shaft wheel of the present invention in operation.

Fig. 8 is an enlarged cross-sectional structural view of the bushing fin base according to the present invention in an operating state.

Description of reference numerals: a shaft motor-1, a shaft sleeve seat-2, a tank body-3, a collar hoop-4, a support column foot block-5, a shuttle wheel frame kettle body-6, a shuttle wheel frame-6A, a reaction kettle knife seat-6B, a damping filler strip-6C, a rotating shaft column-6D, a rotor shaft wheel-6A 1, a rolling brush disk-6A 2, a shuttle frame-6A 3 and a three-phase rotor block-6A 11, the fan plate wheel ring groove-6A 12, the shaft sleeve fin seat-6B 1, the hook knife paddle blade-6B 2, the triangular grid sheet-6B 11, the wheel pad sleeve cap-6B 12, the concave buckle cover seat-21, the sleeve groove-22, the through hole cotton cushion block-211, the concave buckle cover groove-212, the limit clamp plate-31, the tank groove-32, the plate groove body-311 and the ellipsoid isolation cushion block-312.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-8, the present invention provides a scraped wall phosphor reactor, which comprises: the device comprises a shaft-driven motor 1, a shaft sleeve seat 2, a tank body 3, a collar hoop 4, a support column foot block 5 and a shuttle wheel frame kettle body 6, wherein the shuttle wheel frame kettle body 6 is arranged inside the tank body 3, the axes of the shuttle wheel frame kettle body 6 are collinear, the shuttle wheel frame kettle body 6 is inserted and embedded under the bottom of the shaft sleeve seat 2, the shaft-driven motor 1 is mechanically connected with the shaft sleeve seat 2, the axes of the shuttle wheel frame kettle body and the shaft sleeve seat are collinear, the tank body 3 and the collar hoop 4 are nested into a whole and the axes of the tank body are collinear, the support column foot block 5 is inserted and embedded under the bottom of the tank body 3, the shuttle wheel frame kettle body 6 is provided with a shuttle wheel disc frame 6A, a reaction kettle tool holder 6B, damping cushion strips 6C and a rotating shaft column 6D, the shuttle wheel disc frame 6A is provided with two damping cushion strips and is respectively arranged at the left side and the right side of the rotating shaft column 6D, the damping cushion strips 6C are inserted, the rotating shaft column 6D is inserted and embedded on the top of the reaction kettle knife holder 6B and the axes of the rotating shaft column 6D are collinear, and the rotating shaft column 6D is installed inside the tank body 3 and the axes of the rotating shaft column are collinear.

Referring to fig. 4, the shuttle wheel disc frame 6A is composed of a rotor shaft wheel 6A1, a rolling brush disc 6A2 and a shuttle frame 6A3, the rolling brush disc 6A2 and the shuttle frame 6A3 are nested into a whole and are located on the same vertical plane, the rotor shaft wheel 6A1 and the rolling brush disc 6A2 are mechanically connected and have collinear axes, the reactor tool apron 6B is composed of a shaft sleeve fin seat 6B1 and a hook blade paddle blade 6B2, the hook blade paddle blade 6B2 is provided with two and is respectively installed on the left side and the right side of the shaft sleeve fin seat 6B1, the shaft sleeve fin seat 6B1 and the hook blade 6B2 are welded into a whole and are located on the same horizontal plane, the rolling brush disc 6A2 forms the operation effect of scraping walls at the high position of the hook blade 6B2, and ensures the high efficiency of low-position material sedimentation.

Referring to fig. 7, the rotor shaft wheel 6a1 is composed of a three-phase rotor block 6a11 and a sector wheel groove 6a12, the three-phase rotor block 6a11 is installed inside the sector wheel groove 6a12, the axes of the three-phase rotor block 6a11 are collinear, the three-phase rotor block 6a11 is mechanically connected with the sector wheel groove 6a12, and the three ear plates of the three-phase rotor block 6a11 are inserted into the small-sized stepper motor frame structure of the shaft core of the rotor coil block, so that the flexible operation effect of wall scraping rolling friction is formed by the alignment and winding of the left and right spacers, the axial motion operation effect of the insertion teeth meshing is formed in the sector wheel groove 6a12 through the three-phase rotor block 6a11, and the high efficiency of matching degree and coupling motion is guaranteed.

Referring to fig. 8, the shaft sleeve fin seat 6B1 is composed of two triangular grid plates 6B11 and a wheel pad sleeve cap 6B12, the triangular grid plates 6B11 are respectively installed on the left and right sides of the wheel pad sleeve cap 6B12, the triangular grid plates 6B11 and the wheel pad sleeve cap 6B12 are inserted and embedded into a whole and are located on the same horizontal plane, the wheel pad sleeve cap 6B12 is a composite cap seat structure with left and right petal blocks and wheel pad lattice grooves in the middle, so that the stirring kettle is convenient to lock the lower shaft core to adapt to rotate and receive the high efficiency of blanking, and the triangular grid plates 6B11 receive the materials stirred centripetally on the left and right sides of the wheel pad sleeve cap 6B12 to form the operation effect of grid permeation blanking.

Referring to fig. 2, the shaft sleeve seat 2 is composed of a concave buckle cover seat 21 and a sleeve groove 22, the concave buckle cover seat 21 is installed below the bottom of the sleeve groove 22, the concave buckle cover seat 21 and the sleeve groove 22 are buckled together, the axes of the concave buckle cover seat and the sleeve groove 22 are collinear, and the bottom of the sleeve groove 22 forms a lifting operation effect of concentric rotation of shaft movement through the concave buckle cover seat 21.

Referring to fig. 5, the female buckle cover seat 21 is composed of a through-hole cotton pad 211 and a female buckle cover groove 212, the through-hole cotton pad 211 is installed below the bottom of the female buckle cover groove 212 and is located on the same horizontal plane, the through-hole cotton pad 211 and the female buckle cover groove 212 are nested into a whole, the through-hole cotton pad 211 is a cotton block structure with through holes on the left and right convex arcs and the concave arcs at the bottoms, so that the friction force of the shaft-driven butt joint is increased conveniently, the rotation efficiency is improved, and the rotation ladle pressure operation effect of the wrapped cotton friction is increased by the through-hole cotton pad 211 formed at the bottom of the female buckle cover groove 212.

The working process is as follows: the worker starts the shaft-driven motor 1 to be inserted into the sleeve groove 22 of the shaft sleeve seat 2, so that the through hole cotton cushion block 211 of the concave buckle cover seat 21 and the concave buckle cover groove 212 wrap the top of the pressure tank groove body 3 to be butted with the top of the slip shuttle wheel frame kettle body 6 which is tightened and supported by the binding sleeve hoop 4 and the support column foot block 5 in an auxiliary manner, the damping filler strip 6C and the rotating shaft column 6D are driven to rotate the slip shuttle wheel disk frame 6A and the reaction kettle tool apron 6B, thereby drive rotor arbor wheel 6A1 in round brush dish 6A2 with shuttle frame 6A3 butt joint end form three-phase rotor block 6A11 and fan board wheel ring groove 6A12 windingly move the operating effect of linkage, ensure flexible rolling friction and scrape the wall high efficiency, the fluorescent material that the rotatory stirring of triangle grid piece 6B11 and wheel pad sleeve cap 6B12 of rethread bush fin seat 6B1 of grafting through broach oar blade 6B2 descends, make purification and thickening efficiency promote, let scrape wall fluorescent material reation kettle mechanical linkage abrasionproof and wear and maintenance material purification high efficiency.

Example two:

referring to fig. 1 to 8, the present invention provides a scraped wall phosphor reactor, which is otherwise the same as in example 1 except that:

referring to fig. 3, the tank body 3 is composed of a limiting clamp plate 31 and a tank groove 32, the limiting clamp plate 31 is installed inside the tank groove 32, the limiting clamp plate 31 and the tank groove 32 are inserted and embedded into a whole, the axes of the limiting clamp plate 31 and the tank groove 32 are collinear, and the limiting clamp shaft lever is arranged at the center of the top of the tank groove 32 through the limiting clamp plate 31 to guarantee the high efficiency of rotation deviation prevention.

Referring to fig. 6, the limiting clamp plate 31 is composed of a plate groove 311 and an ellipsoid spacer block 312, the ellipsoid spacer block 312 is installed inside the plate groove 311 and is located on the same vertical plane, the ellipsoid spacer block 312 is tightly attached to the plate groove 311, the ellipsoid spacer block 312 is a composite segmented filler strip structure in which three spacer blocks are inserted into an ellipsoid filler core, so that the left and right traction supports are convenient to cover the lifting shaft to limit the displacement, and the stability of hoisting and clamping is improved by the left end of the ellipsoid spacer block 312 in the plate groove 311.

Inside the jar groove 32 of the rotatory round brush jar cell body 3 of motor axle through earlier stage traction frame, the wall fluorescent material fluid that forms and scrapes the operation effect, and the gyration of adaptation reation kettle is through the board cell body 311 and the ellipsoid of spacing splint 31 and is separated cushion block 312 and guarantee the axle and move the deflection-proof volume, promotes subsequent integration operating efficiency.

The invention achieves the aim that the tank body 3 is matched with the shuttle wheel carrier kettle body 6, the low-position reaction kettle knife holder 6B is matched with the high-position rolling brush disk 6A2 to press and scrape when the wall of the tank groove 32 is scraped and stirred by the shuttle rack 6A3 of the shuttle wheel carrier 6A through fluorescent materials, the rolling friction force during lifting and circling is efficiently ensured to flexibly wrap the inner wall to prevent the materials from falling off and bonding and stirring, the operation effects of blanking and abrasion resistance are improved, the high efficiency of the shaft carrier linkage wall scraping is also ensured, the slot opening of the shaft sleeve fin seat 6B1 of the low-position reaction kettle knife holder 6B is efficiently permeated and purified to blank, the subsequent pipeline dredging continuity is ensured, the reaction kettle tank body is continuously maintained and processed, the problem that the inner cylinder generated by the wall-hung reaction kettle of the fluorescent materials to low-position scratch and is large and is easy to be scraped due to the friction of the inner cylinder wall of a patch, the phenomenon that the bearing force of the subsequent inner wall of the tank body is reduced due to thinning is caused, the impact force of collapse is easily generated during the sedimentation and convolution operation of the high-level shaft motor, the potential safety hazard of tank explosion is caused, the continuous abrasion degree of the scraping wall is large, impurities falling off from the inner wall are mixed into the fluorescent material, and the purity of the stirred material is reduced.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (9)

1. A kind of wall-scraping fluorescent material reaction kettle, its structure includes: shaft motor (1), axle sleeve seat (2), the jar groove body (3), bundle cover hoop (4), support column foot piece (5), shuttle wheel carrier cauldron body (6), its characterized in that:

the shuttle wheel carrier kettle body (6) is arranged inside the tank body (3), the shuttle wheel carrier kettle body (6) is inserted and embedded under the bottom of the shaft sleeve seat (2), the shaft moving motor (1) is mechanically connected with the shaft sleeve seat (2), the tank body (3) and the binding sleeve hoop ring (4) are embedded into a whole, and the support column foot block (5) is inserted and embedded under the bottom of the tank body (3);

the shuttle wheel frame kettle body (6) is provided with a shuttle wheel plate rack (6A), a reaction kettle tool apron (6B), a damping filler strip (6C) and a rotating shaft column (6D);

the shuttle wheel plate racks (6A) are provided with two and are respectively installed on the left side and the right side of the rotating shaft column (6D), the damping filler strips (6C) are inserted and embedded in the rotating shaft column (6D), the rotating shaft column (6D) is inserted and embedded in the top of the reaction kettle knife holder (6B), and the rotating shaft column (6D) is installed in the tank body (3).

2. The scraped wall phosphor reactor of claim 1, wherein: the shuttle wheel disc rack (6A) is composed of a rotor shaft wheel (6A 1), a rolling brush disc (6A 2) and a shuttle rack (6A 3), the rolling brush disc (6A 2) and the shuttle rack (6A 3) are nested into a whole, and the rotor shaft wheel (6A 1) is mechanically connected with the rolling brush disc (6A 2).

3. The scraped wall phosphor reactor of claim 2, wherein: rotor shaft wheel (6A 1) comprises three-phase rotor piece (6A 11), fan plate wheel ring groove (6A 12), three-phase rotor piece (6A 11) is installed in the inside of fan plate wheel ring groove (6A 12), three-phase rotor piece (6A 11) and fan plate wheel ring groove (6A 12) mechanical connection.

4. The scraped wall phosphor reactor of claim 1, wherein: the reaction kettle knife holder (6B) is composed of two shaft sleeve fin seats (6B 1) and two hook knife paddle blades (6B 2), the two hook knife paddle blades (6B 2) are respectively installed on the left side and the right side of the shaft sleeve fin seats (6B 1), and the shaft sleeve fin seats (6B 1) and the hook knife paddle blades (6B 2) are welded into a whole.

5. The scraped wall phosphor reactor of claim 4, wherein: the axle sleeve fin seat (6B 1) comprises triangle grid piece (6B 11), wheel pad sleeve cap (6B 12), triangle grid piece (6B 11) are equipped with two and install respectively in the left and right sides of wheel pad sleeve cap (6B 12), triangle grid piece (6B 11) and wheel pad sleeve cap (6B 12) are inserted and are inlayed integratively.

6. The scraped wall phosphor reactor of claim 1, wherein: the shaft sleeve seat (2) is composed of a concave buckle cover seat (21) and a sleeve groove (22), the concave buckle cover seat (21) is installed below the bottom of the sleeve groove (22), and the concave buckle cover seat (21) is buckled with the sleeve groove (22) together.

7. The scraped wall phosphor reactor of claim 6, wherein: the concave buckle cover seat (21) is composed of a through hole cotton cushion block (211) and a concave buckle cover groove (212), the through hole cotton cushion block (211) is installed below the bottom of the concave buckle cover groove (212), and the through hole cotton cushion block (211) and the concave buckle cover groove (212) are nested into a whole.

8. The scraped wall phosphor reactor of claim 1, wherein: the tank body (3) is composed of a limiting clamping plate (31) and a tank barrel groove (32), the limiting clamping plate (31) is installed inside the tank barrel groove (32), and the limiting clamping plate (31) and the tank barrel groove (32) are inserted and embedded into a whole.

9. The scraped wall phosphor reactor of claim 8, wherein: the limiting clamping plate (31) is composed of a plate groove body (311) and an ellipsoid spacer block (312), the ellipsoid spacer block (312) is installed inside the plate groove body (311), and the ellipsoid spacer block (312) is tightly attached to the plate groove body (311).

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