阅读说明：本技术 一种氧传感器用锆管 (Zirconium tube for oxygen sensor ) 是由 陈博 于 2021-07-22 设计创作，主要内容包括：本发明公开了一种氧传感器用锆管,其结构包括操作器、基座、外壳、出气孔,外壳上设有基座,外壳与基座活动连接,出气孔设在操作器上,操作器与出气孔为一体化结构,操作器设有壳体、加热棒、固定座、涂刷器、锆管,壳体内部设有锆管,锆管与壳体活动连接,本发明的浆液箱可根据锆管的管口直径沿着安装轴滑动,进行调整,使得器体上的涂抹块均与锆管管壁相接触,增加了涂抹结构块,便可减少锆管涂抹过程中,涂抹结构需取出沾浆的次数,而转动涂刷器时,涂刷器上的涂抹块是同时对锆管管壁进行涂抹的,涂抹块的同时转动涂抹,可使锆管涂抹更加均匀。(The invention discloses a zirconium tube for an oxygen sensor, which structurally comprises an operator, a base, a shell and an air outlet, wherein the base is arranged on the shell, the shell is movably connected with the base, the air outlet is arranged on the operator, the operator and the air outlet are of an integrated structure, the operator is provided with a shell, a heating rod, a fixed seat, a squeegee and a zirconium tube, the zirconium tube is arranged in the shell, and the zirconium tube is movably connected with the shell.)

1. A zirconium tube for an oxygen sensor, characterized in that: the structure of the air conditioner comprises an operator (1), a base (2), a shell (3) and an air outlet (4), wherein the base (2) is arranged on the shell (3), and the operator (1) and the air outlet (4) are of an integrated structure;

the manipulator (1) is provided with a shell (1a), a heating rod (1b), a fixed seat (1c), a squeegee (1d) and a zirconium tube (1e), wherein the zirconium tube (1e) is arranged inside the shell (1a), the zirconium tube (1e) is embedded with the heating rod (1b), the squeegee (1d) is arranged on the zirconium tube (1e), and the shell (1a) is movably connected with the fixed seat (1 c).

2. The zirconium tube for an oxygen sensor according to claim 1, wherein: the squeegee (1d) is provided with a squeezing block (d1), an applicator (d2), a processor (d3), a rotating block (d4), an applying block (d5), a body (d6), a squeezing shaft (d7) and a regulator (d8), wherein the rotating block (d4) is in clearance fit with the body (d6), the applicator (d2) is installed on the body (d6), the body (d6) is movably clamped with the regulator (d8), the squeezing block (d1) is arranged on the rotating block (d4), the body (d6) is connected with the processor (d3), the applicator (d2) is provided with the applying block (d5), and the applicator (d2) is movably clamped with the squeezing shaft (d 7).

3. The zirconium tube for an oxygen sensor according to claim 2, wherein: applicator (d2) is equipped with thick liquid case (d21), installation axle (d22), block axle (d23), locating piece (d24), reinforcing block (d25), the both sides of thick liquid case (d21) all are equipped with installation axle (d22), block axle (d23) and installation axle (d22) clearance fit, reinforcing block (d25) are established on block axle (d23), block axle (d23) are connected with locating piece (d 24).

4. The zirconium tube for an oxygen sensor according to claim 3, wherein: the clamping shaft (d23) is an arc shaft body, and one end of the clamping shaft (d23) is provided with a handle.

5. The zirconium tube for an oxygen sensor according to claim 3, wherein: the slurry tank (d21) is provided with a closing plate (211), a bottom plate (212), a tank body (213), a pressing block (214) and a combined plate (215), the closing plate (211) is arranged on the tank body (213), the bottom plate (212) is in clearance fit with the tank body (213), the combined plate (215) is installed at the center of the bottom plate (212), and the pressing block (214) is movably connected with the combined plate (215).

6. The zirconium tube for an oxygen sensor according to claim 2, wherein: regulator (d8) are equipped with upset piece (d81), equipment piece (d82), clamping block (d83), compression piece (d84), upset axle (d85), upset piece (d81) and upset axle (d85) activity block, install on equipment piece (d82) compression piece (d84), clamping block (d83) and upset piece (d81) clearance fit.

7. The zirconium tube for an oxygen sensor according to claim 6, wherein: the clamping block (d83) is an arc-shaped connecting block, and one side of the clamping block (d83) is provided with a convex block.

8. The zirconium tube for an oxygen sensor according to claim 2, wherein: processor (d3) are equipped with and cut to scratch case (d31), buckle board (d32), cut to scratch piece (d33), detain axle (d34), roll wheel (d35), stabilizing block (d36), buckle board (d32) inside is equipped with cuts to scratch piece (d33), cut to scratch piece (d33) and stabilizing block (d36) clearance fit, it cuts to scratch case (d31) to be equipped with on detaining axle (d34), cut to scratch case (d31) and roll wheel (d35) clearance fit.

Technical Field

The invention relates to the field of sensors, in particular to a zirconium tube for an oxygen sensor.

Background

In an engine using a three-way catalytic converter to reduce exhaust pollution, an oxygen sensor is an essential element, and since the purification ability of a three-way catalyst for CO and HC is drastically reduced as soon as the air-fuel ratio of the mixture deviates from the theoretical air-fuel ratio, the oxygen sensor is installed in an exhaust pipe to detect the concentration of oxygen in exhaust gas, and the excellent nuclear performance and corrosion resistance of a zirconium tube for the oxygen sensor are important components in the oxygen sensor;

platinum slurry is required to be coated inside the zirconium tube for the oxygen sensor, and when the zirconium tube is coated, the brush body is required to be repeatedly taken out for slurry coating, so that the coating process is changed into intermittent coating, and when the coating brush body is extended into the tube body again, the brush body is difficult to continue coating according to the last coating position, so that some positions inside the zirconium tube are easily repeatedly coated, and some positions are not coated, and the slurry coating is uneven.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a zirconium tube for an oxygen sensor structurally comprises an operator, a base, a shell and an air outlet, wherein the base is arranged on the shell, the shell is movably connected with the base, the air outlet is formed in the operator, and the operator and the air outlet are of an integrated structure;

the manipulator is provided with a shell, a heating rod, a fixed seat, a squeegee and a zirconium tube, wherein the zirconium tube is arranged in the shell and is movably connected with the shell, the heating rod is arranged in the zirconium tube, the zirconium tube is embedded with the heating rod, the squeegee is arranged on the zirconium tube, the zirconium tube is in clearance fit with the squeegee, the fixed seat is arranged on the shell, and the shell is movably connected with the fixed seat.

As a further optimization of the technical scheme, the squeegee is provided with a squeezing block, a coater, a processor, a rotating block, a coating block, a body, a squeezing shaft and a regulator, wherein the body is provided with the rotating block, the rotating block is in clearance fit with the body, the coater is arranged on the body, the body is embedded with the coater, the regulator is arranged on the body, the body is movably clamped with the regulator, the rotating block is provided with the squeezing block, the squeezing block is movably connected with the rotating block, the processor is arranged on the body, the body is connected with the processor, the coater is provided with the coating block, the coating block is movably connected with the coater, the squeezing shaft is arranged inside the coater, the coater is movably clamped with the squeezing shaft, the rotating block is internally provided with a groove, the center position of the groove is provided with a threaded hollow, and the squeezing block is provided with a movable cavity, the utility model discloses a portable vacuum coating device, including extrusion piece, connecting axle, connecting cylinder, the central point of extrusion piece is put and is equipped with the connection cylinder, be equipped with the screw thread handle on the turning block, the epaxial propelling movement piece gomphosis that is equipped with of extrusion is inside the obliterator, the other end of extrusion axle is the arc axis body, be equipped with the sponge layer on the daubing piece, the obliterator is equipped with the through-hole towards one side of daubing the piece.

As a further optimization of the technical scheme, the applicator is provided with a slurry tank, an installation shaft, a clamping shaft, a positioning block and a reinforcing block, the installation shaft is arranged on both sides of the slurry tank and movably clamped with the slurry tank, the clamping shaft is arranged on the installation shaft and is in clearance fit with the installation shaft, the reinforcing block is arranged on the clamping shaft and is in clearance fit with the reinforcing block, the positioning block is arranged on the clamping shaft and is connected with the positioning block, sliding rails are arranged on both sides of the slurry tank, notches which are matched with the clamping structures of the reinforcing block and the clamping shaft are arranged on the slurry tank, a hollow hole is arranged on the positioning block, the positioning block is a circular ring structure block, the positioning block is in threaded connection with a handle of the clamping shaft, and a threaded groove is arranged on the installation shaft.

As a further optimization of this technical scheme, the block axle is the arc axis body, the one end of block axle is equipped with the handle, the other end of block axle is equipped with circular fretwork mouth, the on-hand screw thread that is equipped with of block axle, the epaxial spliced pole that is equipped with of block, the reinforcement piece passes through the connecting block gomphosis on the spliced pole of block axle, the reinforcement piece is equipped with two axis bodies, two axis bodies of reinforcement piece pass through loose axle swing joint at the connecting block, the gomphosis has the screw thread cylinder on the reinforcement piece.

As a further optimization of the technical scheme, the slurry tank is provided with a closed plate, a bottom plate, a tank body, a pressing block and a combined plate, the closed plate is arranged on the tank body and embedded with the tank body, the bottom plate is arranged in the tank body and in clearance fit with the tank body, the combined plate is arranged at the center of the bottom plate and connected with the bottom plate, the pressing block is arranged in the combined plate and movably connected with the combined plate, a buckle notch is arranged at the top of the tank body, a convex block is arranged at the edge of the closed plate, the surface of the convex block is provided with a soft adhesive layer, the convex block of the closed plate and the buckle notch of the tank body are both provided with a thread connecting groove, the combined plate is provided with a sliding groove, the two sides of the pressing block are provided with convex blocks, and the convex blocks of the pressing block are embedded on the sliding groove of the combined plate, the combined plate is provided with a movable ball at the connecting end of the pressing block, the movable ball is filled with gas, and arc-shaped notches are formed in the two sides of the sliding groove of the combined plate. The arc-shaped notch of the combined plate is communicated with the sliding groove.

As a further optimization of the technical scheme, the regulator is provided with a turning block, an assembling block, a clamping block, a compressing block and a turning shaft, the turning shaft is provided with the turning block, the turning block is movably clamped with the turning shaft, the compressing block is installed on the assembling block, the assembling block is connected with the compressing block, the turning block is provided with the clamping block, the clamping block is in clearance fit with the turning block, the assembling block is arranged above the turning shaft, a connecting shaft of the compressing block is movably connected with the turning block through a movable shaft, the other end of the connecting shaft of the compressing block is embedded in a connecting cavity, and the turning shaft is an arc connecting block.

As a further optimization of the technical scheme, the clamping block is an arc-shaped connecting block, a protruding block is arranged on one side of the clamping block, threaded cylinders are arranged on both sides of the clamping block, grooves matched with the threaded cylinders of the clamping block are arranged on both sides of the turnover block, the clamping block is an arch-shaped fan-shaped connecting block, and arc-shaped buckle grooves are arranged on the clamping block.

As a further optimization of the technical scheme, the processor is provided with a scraping and rubbing box, a buckling plate, a scraping and rubbing block, a buckling shaft, a rolling wheel and a stabilizing block, wherein the scraping and rubbing block is arranged inside the buckling plate, the buckling plate is movably connected with the scraping and rubbing block, stabilizing blocks are arranged on two sides of the scraping and rubbing block, the scraping and rubbing block is in clearance fit with the stabilizing block, the scraping and rubbing box is arranged on the buckling shaft, the scraping and rubbing box is connected with the buckling shaft, the rolling wheel is arranged on the scraping and rubbing box, the scraping and rubbing box is in clearance fit with the rolling wheel, the buckling shaft is provided with two shaft bodies, a sliding groove is arranged on one shaft body of the buckling shaft, the other shaft body of the buckling shaft is connected on the sliding recess through an embedded connecting shaft, a pressing ball is arranged at the junction of the shaft body and the shaft body, the inner pressing ball part is filled with gas, and a notch matched with a connecting block of the scraping and rubbing block is arranged on the buckling plate, the utility model discloses a stable piece of rubbing case, including the piece of rubbing, cut to pieces and be equipped with T font connecting block on the piece, cut to pieces the both sides circular arc piece of rubbing piece, and be equipped with the fretwork mouth on the circular arc piece, the inside connecting plate that is equipped with of stable piece, the connecting plate of stable piece passes through connecting axle and a spliced pole swing joint, be equipped with the thread stripe on the spliced pole of stable piece, be equipped with the connection chamber on the stable piece, be equipped with the screw thread on the wall body of stable piece connection chamber, the one end of cutting to pieces the piece of rubbing is equipped with the triangular pyramid connecting block, the rolling wheel surface is equipped with the sponge layer, cut to pieces one side of rubbing the case towards the rolling wheel and be equipped with the triangular pyramid bulge piece, cut to pieces and be equipped with the closing door on the case, cut to pieces the closing door through the movable axis and cut to pieces swing joint.

Advantageous effects

Compared with the prior art, the zirconium tube for the oxygen sensor has the following advantages:

1. the slurry box can slide along the installation shaft according to the diameter of the pipe orifice of the zirconium pipe and is adjusted, so that the smearing blocks on the device body are all in contact with the pipe wall of the zirconium pipe, the smearing structure blocks are added, the frequency of taking out the smearing structure to dip slurry in the smearing process of the zirconium pipe can be reduced, when the squeegee is rotated, the smearing blocks on the squeegee simultaneously smear the pipe wall of the zirconium pipe, and the smearing blocks simultaneously rotate and smear, so that the zirconium pipe can be smeared more uniformly.

2. The invention can fill the slurry into the slurry box, and in the coating process, if the slurry is insufficient, the slurry in the slurry box can be pushed and extruded through the extrusion shaft, so that the slurry in the slurry box can permeate into the coating block to fill the slurry required by the coating block, and in the process, the coating block does not need to be taken out for slurry coating.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of the overall structure of a zirconium tube for an oxygen sensor according to the present invention.

Fig. 2 is a schematic structural diagram of the manipulator of the present invention.

Fig. 3 is a schematic view of the structure of the squeegee of the present invention.

Fig. 4 is a schematic view of the applicator of the present invention.

FIG. 5 is a schematic view of the slurry tank of the present invention.

Fig. 6 is a schematic view of the regulator of the present invention.

FIG. 7 is a diagram of a processor according to the present invention

In the figure: the device comprises an operator 1, a base 2, an outer shell 3, an air outlet 4, a shell 1a, a heating rod 1b, a fixed seat 1c, a squeegee 1d, a zirconium tube 1e, a pressing block d1, an applicator d2, a processor d3, a rotating block d4, an applying block d5, a device body d6, a pressing shaft d7, an adjuster d8, a slurry box d21, a mounting shaft d22, a clamping shaft d23, a positioning block d24, a reinforcing block d25, a closing plate 211, a bottom plate 212, a box body 213, a pressing block 214, a combination plate 215, an overturning block d81, an assembly block d82, a clamping block d83, a compression block d84, an overturning shaft d85, a scratch box d31, a buckling plate d32, a scratch block d33, a butt shaft d34, a rolling wheel d35 and a stabilizing block d 36.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, a zirconium tube for an oxygen sensor structurally comprises an operator 1, a base 2, a housing 3 and an air outlet 4, wherein the housing 3 is provided with the base 2, the housing 3 is movably connected with the base 2, the air outlet 4 is arranged on the operator 1, and the operator 1 and the air outlet 4 are of an integrated structure;

the manipulator 1 is provided with a shell 1a, a heating rod 1b, a fixed seat 1c, a brush applicator 1d and a zirconium tube 1e, wherein the zirconium tube 1e is arranged inside the shell 1a, the zirconium tube 1e is movably connected with the shell 1a, the heating rod 1b is installed inside the zirconium tube 1e, the zirconium tube 1e is embedded with the heating rod 1b, the brush applicator 1d is arranged on the zirconium tube 1e, the zirconium tube 1e is in clearance fit with the brush applicator 1d, the fixed seat 1c is installed on the shell 1a, and the shell 1a is movably connected with the fixed seat 1c to detect the concentration of oxygen in exhaust.

The squeegee 1d is provided with a squeezing block d1, an applicator d2, a processor d3, a rotating block d4, an application block d5, a body d6, a squeezing shaft d7 and an adjuster d8, the body d6 is provided with the rotating block d4, the rotating block d4 is in clearance fit with the body d6, the applicator d2 is arranged on the body d6, the body d6 is embedded with the applicator d2, the adjuster d8 is arranged on the body d6, the body d6 is movably clamped with the adjuster d8, the rotating block d4 is provided with a squeezing block d1, the squeezing block d1 is movably connected with the rotating block d4, the processor d3 is arranged on the d6, the body d6 is connected with the processor d6, the applicator d6 is provided with the application block d6, the squeezing block d6 is movably connected with the applicator d6, the squeezing shaft d6 is arranged inside the applicator d6, the groove 6 is provided with the squeezing block d6, and recess central point puts and is equipped with the screw thread fretwork mouth, be equipped with movable chamber on the extrusion piece d1, the movable intracavity portion of extrusion piece d1 is equipped with the connecting axle, and the other end of connecting axle is equipped with the spheroid connecting block, the connecting axle of extrusion piece d1 is equipped with the spiral connection post that pops out the copper wire and make with movable chamber link, the central point of the connecting axle of extrusion piece d1 puts and is equipped with the connection cylinder, be equipped with the screw thread handle on the turning block d4, be equipped with the propelling movement piece gomphosis on the extrusion axle d7 inside the obliterator d2, the other end of extrusion axle d7 is the arc axis body, be equipped with the sponge layer on the obliterator d5, obliterator d2 is equipped with the through-hole towards one side of obliterator d5, realizes that the thick liquids are paintd.

The applicator d2 is provided with a slurry tank d21, a mounting shaft d22, a clamping shaft d23, a positioning block d24 and a reinforcing block d25, both sides of the slurry tank d21 are provided with mounting shafts d22, the mounting shaft d22 is movably clamped with the slurry tank d21, the mounting shaft d22 is provided with a clamping shaft d23, the clamping shaft d23 is in clearance fit with the mounting shaft d22, the reinforcing block d25 is arranged on the clamping shaft d23, the clamping shaft d23 is in clearance fit with the reinforcing block d25, the positioning block d24 is arranged on the clamping shaft d23, the clamping shaft d23 is connected with the positioning block d24, both sides of the slurry tank d21 are provided with sliding rails, the slurry tank d21 is provided with notches which are matched with the clamping structures of the reinforcing block d25 and the reinforcing block d23, the positioning block d24 is provided with a hollowed-out ring 63 24, the positioning block d23 is connected with the mounting shaft d24, and a hand thread groove 22 is provided on the mounting shaft d 4645, the application is performed by rotating the pressing structure.

The utility model discloses a joint, including block d23, joint d25, reinforcing piece d23, joint shaft d23, joint shaft d23, joint shaft d23, reinforcing piece d25, reinforcing piece d25, movable shaft swing joint is connected in the connecting block, the adjustment of laminating contact jaw is paintd to the realization, the one end of joint shaft d23 is equipped with the handle, the other end of joint shaft d23 is equipped with circular fretwork mouth, the handle of joint shaft d23 is equipped with the screw thread, be equipped with the spliced pole on the joint shaft d23, reinforcing piece d25 passes through the connecting block gomphosis on the spliced pole of joint shaft d23, reinforcing piece d25 is equipped with two axis bodies, two axis bodies of reinforcing piece d25 pass through movable shaft swing joint at the connecting block, the gomphosis has the screw thread cylinder on the reinforcing piece d 25.

The slurry tank d21 is provided with a closing plate 211, a bottom plate 212, a tank body 213, a pressing block 214 and a combined plate 215, the tank body 213 is provided with the closing plate 211, the closing plate 211 is embedded with the tank body 213, the inside of the tank body 213 is provided with the bottom plate 212, the bottom plate 212 is in clearance fit with the tank body 213, the central position of the bottom plate 212 is provided with the combined plate 215, the combined plate 215 is connected with the bottom plate 212, the inside of the combined plate 215 is provided with the pressing block 214, the pressing block 214 is movably connected with the combined plate 215, the top of the tank body 213 is provided with a buckle notch, the edge of the closing plate 211 is provided with a convex block, the surface of the convex block is provided with a soft adhesive layer, the convex block of the closing plate 211 and the buckle notch of the tank body 213 are both provided with a thread connecting groove, the combined plate 215 is provided with a sliding groove, the two sides of the pressing block 214 are provided with convex blocks, the convex blocks of the convex block 214 are embedded on the sliding groove of the combined plate 215, the combined plate 215 is provided with a movable ball at the connecting end of the pressing block 214, the movable ball is filled with gas, and arc-shaped notches are arranged on two sides of the sliding groove of the combined plate 215. The arc-shaped notch of the combined plate 215 is communicated with the sliding groove, so that residual slurry can be taken out, and waste is prevented.

The using method comprises the following steps: adjusting an applicator d2 according to the diameter of a zirconium pipe 1e, sliding a slurry box d21 along an installation shaft d22, when the slurry box d21 slides to a certain position, a positioning block d24 rotates along a handle of an engaging shaft d23, the engaging shaft d23 is clamped and fixed on the installation shaft d22 through clamping, an engaging shaft d23 slides along a sliding opening of the installation shaft d22, so that a hollowed-out opening on the engaging shaft d23 is attached to a notch on a slurry box d21, the slurry box d21 is connected together through a column provided with threads, a reinforcing block d25 is turned over along a connecting column, the zirconium pipe 1e is coated through a threaded connecting column on a shaft body of the reinforcing block d25 and further connected with a connecting notch on the slurry box d21, so as to realize the connection of the adjustment position of the slurry box d21, filling and coating slurry in the slurry box d 42, rotating the applicator d2 coats the zirconium pipe 1e through a coating block d5, and during coating, the rotating block d4, the extrusion block d1 on the rotating block d1 extrudes an extrusion shaft 24 d 57345, the squeezing shaft d7 pushes the slurry in the slurry tank d21, so that the slurry permeates to the smearing block d5 through the through hole on the smearing block d2, the smearing block d5 is filled with the slurry, after the device is completely coated, the applicator d2 is taken out, the closing plate 211 is taken out, the pressing shaft d7 is pulled at the moment, the pressing shaft d7 slides to the edge of the bottom plate 212, the pressing shaft d7 is prevented from pressing the bottom plate 212, a connecting column is taken out, the two sides of the connecting column are provided with convex blocks which are matched with the sliding grooves of the combination board 215, the pressing blocks 214 are pressed through the connecting column, the pressing block 214 slides toward the interior of the combination board 215 to show the arc-shaped notch of the combination board 215, the connecting post is rotated to make the convex block of the connecting post snap into the arc-shaped notch, then the bottom plate 212 is pulled out, the edge of the bottom plate 212 scratches and rubs the slurry in the slurry tank d21, and the slurry is scraped and rubbed out of the tank body 213, so that the slurry is prevented from remaining, and the resource waste is avoided.

Example two

Referring to fig. 1-7, a zirconium tube for an oxygen sensor structurally comprises an operator 1, a base 2, a housing 3 and an air outlet 4, wherein the housing 3 is provided with the base 2, the housing 3 is movably connected with the base 2, the air outlet 4 is arranged on the operator 1, and the operator 1 and the air outlet 4 are of an integrated structure;

the manipulator 1 is provided with a shell 1a, a heating rod 1b, a fixed seat 1c, a brush applicator 1d and a zirconium tube 1e, wherein the zirconium tube 1e is arranged inside the shell 1a, the zirconium tube 1e is movably connected with the shell 1a, the heating rod 1b is installed inside the zirconium tube 1e, the zirconium tube 1e is embedded with the heating rod 1b, the brush applicator 1d is arranged on the zirconium tube 1e, the zirconium tube 1e is in clearance fit with the brush applicator 1d, the fixed seat 1c is installed on the shell 1a, and the shell 1a is movably connected with the fixed seat 1c to detect the concentration of oxygen in exhaust.

The squeegee 1d is provided with a squeezing block d1, an applicator d2, a processor d3, a rotating block d4, an application block d5, a body d6, a squeezing shaft d7 and an adjuster d8, the body d6 is provided with the rotating block d4, the rotating block d4 is in clearance fit with the body d6, the applicator d2 is arranged on the body d6, the body d6 is embedded with the applicator d2, the adjuster d8 is arranged on the body d6, the body d6 is movably clamped with the adjuster d8, the rotating block d4 is provided with a squeezing block d1, the squeezing block d1 is movably connected with the rotating block d4, the processor d3 is arranged on the d6, the body d6 is connected with the processor d6, the applicator d6 is provided with the application block d6, the squeezing block d6 is movably connected with the applicator d6, the squeezing shaft d6 is arranged inside the applicator d6, the groove 6 is provided with the squeezing block d6, and recess central point puts and is equipped with the screw thread fretwork mouth, be equipped with movable chamber on the extrusion piece d1, the movable intracavity portion of extrusion piece d1 is equipped with the connecting axle, and the other end of connecting axle is equipped with the spheroid connecting block, the connecting axle of extrusion piece d1 is equipped with the spiral connection post that pops out the copper wire and make with movable chamber link, the central point of the connecting axle of extrusion piece d1 puts and is equipped with the connection cylinder, be equipped with the screw thread handle on the turning block d4, be equipped with the propelling movement piece gomphosis on the extrusion axle d7 inside the obliterator d2, the other end of extrusion axle d7 is the arc axis body, be equipped with the sponge layer on the obliterator d5, obliterator d2 is equipped with the through-hole towards one side of obliterator d5, realizes that the thick liquids are paintd.

The applicator d2 is provided with a slurry tank d21, a mounting shaft d22, a clamping shaft d23, a positioning block d24 and a reinforcing block d25, both sides of the slurry tank d21 are provided with mounting shafts d22, the mounting shaft d22 is movably clamped with the slurry tank d21, the mounting shaft d22 is provided with a clamping shaft d23, the clamping shaft d23 is in clearance fit with the mounting shaft d22, the reinforcing block d25 is arranged on the clamping shaft d23, the clamping shaft d23 is in clearance fit with the reinforcing block d25, the positioning block d24 is arranged on the clamping shaft d23, the clamping shaft d23 is connected with the positioning block d24, both sides of the slurry tank d21 are provided with sliding rails, the slurry tank d21 is provided with notches which are matched with the clamping structures of the reinforcing block d25 and the reinforcing block d23, the positioning block d24 is provided with a hollowed-out ring 63 24, the positioning block d23 is connected with the mounting shaft d24, and a hand thread groove 22 is provided on the mounting shaft d 4645, the application is performed by rotating the pressing structure.

The utility model discloses a joint, including block d23, joint d25, reinforcing piece d23, joint shaft d23, joint shaft d23, joint shaft d23, reinforcing piece d25, reinforcing piece d25, movable shaft swing joint is connected in the connecting block, the adjustment of laminating contact jaw is paintd to the realization, the one end of joint shaft d23 is equipped with the handle, the other end of joint shaft d23 is equipped with circular fretwork mouth, the handle of joint shaft d23 is equipped with the screw thread, be equipped with the spliced pole on the joint shaft d23, reinforcing piece d25 passes through the connecting block gomphosis on the spliced pole of joint shaft d23, reinforcing piece d25 is equipped with two axis bodies, two axis bodies of reinforcing piece d25 pass through movable shaft swing joint at the connecting block, the gomphosis has the screw thread cylinder on the reinforcing piece d 25.

The slurry tank d21 is provided with a closing plate 211, a bottom plate 212, a tank body 213, a pressing block 214 and a combined plate 215, the tank body 213 is provided with the closing plate 211, the closing plate 211 is embedded with the tank body 213, the inside of the tank body 213 is provided with the bottom plate 212, the bottom plate 212 is in clearance fit with the tank body 213, the central position of the bottom plate 212 is provided with the combined plate 215, the combined plate 215 is connected with the bottom plate 212, the inside of the combined plate 215 is provided with the pressing block 214, the pressing block 214 is movably connected with the combined plate 215, the top of the tank body 213 is provided with a buckle notch, the edge of the closing plate 211 is provided with a convex block, the surface of the convex block is provided with a soft adhesive layer, the convex block of the closing plate 211 and the buckle notch of the tank body 213 are both provided with a thread connecting groove, the combined plate 215 is provided with a sliding groove, the two sides of the pressing block 214 are provided with convex blocks, the convex blocks of the convex block 214 are embedded on the sliding groove of the combined plate 215, the combined plate 215 is provided with a movable ball at the connecting end of the pressing block 214, the movable ball is filled with gas, and arc-shaped notches are arranged on two sides of the sliding groove of the combined plate 215. The arc-shaped notch of the combined plate 215 is communicated with the sliding groove, so that residual slurry can be taken out, and waste is prevented.

The regulator d8 is provided with an overturning block d81, an assembling block d82, a clamping block d83, a compressing block d84 and an overturning shaft d85, the overturning shaft d85 is provided with an overturning block d81, the overturning block d81 is movably clamped with an overturning shaft d85, the compressing block d84 is installed on an assembling block d82, the assembling block d82 is connected with a compressing block d84, the overturning block d81 is provided with a clamping block d83, the clamping block d83 is in clearance fit with the overturning block d81, the assembling block d82 is arranged above the overturning shaft d85, a connecting shaft of the compressing block d84 is movably connected with the overturning block d81 through a movable shaft, the other end of the connecting shaft of the compressing block d84 is embedded in a connecting cavity, and the overturning shaft d85 is an arc connecting block, so that the arc end of the pipe body is coated.

The clamping block d83 is an arc-shaped connecting block, a protruding block is arranged on one side of the clamping block d83, threaded cylinders are arranged on two sides of the clamping block d83, grooves matched with the threaded cylinders of the clamping block d83 are arranged on two sides of the overturning block d81, the clamping block d83 is an arch-shaped fan-shaped connecting block, and an arc-shaped buckling groove is formed in the clamping block d83 to realize compression of the smearing contact end.

The processor d3 is provided with a scraping box d31, a buckling plate d32, a scraping block d33, a deducting shaft d34, a rolling wheel d35 and a stabilizing block d36, the inside of the buckling plate d32 is provided with a scraping block d33, the buckling plate d32 is movably connected with the scraping block d33, both sides of the scraping block d33 are provided with stabilizing blocks d36, the scraping block d36 is in clearance fit with the stabilizing blocks d36, the deducting shaft d36 is provided with a scraping box d36, the deducting box d36 is connected with the deducting shaft d36, the rolling wheel d36 is installed on the scraping box d36, the scraping box d36 is in clearance fit with the rolling wheel d36, the deducting shaft d36 is provided with two shaft bodies, one shaft body of the deducting shaft d36 is provided with a sliding groove, the deducting shaft body is provided with a ball-pressing connection block, and a ball-pressing connection block is arranged on the deducting shaft body 36, cut and be equipped with T font connecting block on the piece d33 of scraping, cut and rub both sides circular arc piece of piece d33, and be equipped with the fretwork mouth on the circular arc piece, the inside connecting plate that is equipped with of stable piece d36, the connecting plate of stable piece d36 passes through connecting axle and a spliced pole swing joint, be equipped with the thread stripe on the spliced pole of stable piece d36, be equipped with the connection chamber on the stable piece d36, be equipped with the screw on the wall body of stable piece d36 connection chamber, the one end of cutting and rubbing piece d33 is equipped with the triangular pyramid connecting block, rolling wheel d35 surface is equipped with the sponge layer, cut and rub case d31 and be equipped with the triangular pyramid protruding piece towards one side of rolling wheel d35, be equipped with the closing gate on the box d31 of scraping, the closing gate of scraping case d31 passes through the movable shaft and cuts and rubs case d31 swing joint, further realizes the planarization of scribbling the layer.

On the basis of the first embodiment, an adjuster d8 and a processor d3 are installed, a sponge sheet is taken out, one side of the sponge sheet is placed between an overturning block d81 and a clamping block d83, cylinders on two sides of the clamping block d83 penetrate through the sponge sheet and are connected with a notch of an overturning block d81, the sponge sheet is fixed, the adjuster d8 is wrapped into a hemispheroid structural block by the sponge sheet at the moment, slurry is smeared on the sponge sheet, the adjuster d8 is in contact with the circular arc end of a zirconium tube 1e, the overturning block d81 rotates along an overturning shaft d85 according to the contacted diameter, the overturning block d81 pushes a shaft body of a compression block d84 to move along a connecting cavity, the adjustment of a contact structure is realized, the overturning block d81 is of a fan-shaped structure, the area which is large and can be smeared is large, the slurry box d32 9 is replaced by a clamping plate d2 to be connected with a mounting shaft d8 according to needs, a rubbing block d33 is clamped into a clamping block of a clamping groove of a clamping block d32, and a connecting column 36 is rotated stably, the connecting column pushes the connecting plate to further clamp the scraping block d33, when the device is rotated, the contact edge of the scraping block d33 scrapes the zirconium tube 1e, a protruding section appears due to overlapping when the zirconium tube 1e scrapes slurry, the protruding section is ground flat, the shaft body of the buckling shaft d34 pushes the rolling wheel d35 according to the contact end of the device, the buckling shaft d34 rolls along the tube body, the scraped fine scraps are attached to the sponge layer on the surface of the rolling wheel d35, when the rolling wheel d35 rotates to the inside of the scraping box d31, the triangular pyramid on the scraping box d31 scrapes the rolling wheel d35 again, and the fine scraps attached to the rolling wheel d35 fall into the scraping box d31, so that the smearing surface of the zirconium tube 1e is smoother.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.