CN113600579A - Inner wall rotation type preprocessing device based on tubular metal resonator manufacturing - Google Patents

Abstract

The invention provides an inner wall rotary type pretreatment device based on metal pipe manufacturing and processing, which comprises a fixed cylinder; a driving motor is embedded in the fixed cylinder, the rear supporting part is connected to the rear end side of the fixed cylinder, the front supporting mechanism is arranged on the outer side of the transverse driving shaft, and the preprocessing mechanism is connected to the front end of the transverse driving shaft; the outer side of the fixed cylinder is also connected with an outer connecting block, and a cleaning water pipe is inserted in the outer connecting block. Driving motor drives preliminary treatment mechanism through horizontal drive shaft and rotates, can also drive the preceding supporting wheel of downside and move forward, thrust unit is at metal container internal forward motion, and utilize the drive ratio of worm and worm wheel, make the rotational speed of preliminary treatment mechanism be greater than the speed of advancing of preceding supporting wheel, send into the spray pipe of three-jaw structure with the running water through clean water pipe, and spout metal container's inner wall through atomizer on, when carrying out preliminary treatment to the metal container inner wall, can clean it.

Description

Inner wall rotation type preprocessing device based on tubular metal resonator manufacturing

Technical Field

The invention belongs to the technical field of metal container inner wall treatment, and particularly relates to an inner wall rotary type pretreatment device based on metal pipe manufacturing and processing.

Background

In the production and processing process of metal containers, the inner walls of the containers are often required to be cleaned, manual cleaning is mostly adopted during the cleaning of the existing containers, and the cleaning is troublesome, so that a pretreatment device for the inner walls of the containers is required.

If the application number is: in CN 201610846037.5's patent, disclose adjustable belt cleaning device of pipeline inner wall, including motor, bearing washer and handheld pole, the motor is provided with the main shaft in the one side that is close to the bearing washer, the middle part of main shaft is provided with the water pipe, rotatory strutting arrangement is installed to the one end of main shaft, rotatory strutting arrangement's side fixedly connected with bracing piece, the bracing piece has the belt cleaning device dead lever through bolt swivelling joint, belt cleaning device is installed to the one end of belt cleaning device dead lever, belt cleaning device's surface is provided with the brush head, the motor is provided with the countershaft in the one side of keeping away from the bearing washer, the inside first spiral hole that is provided with of one end of countershaft. This adjustable belt cleaning device of pipeline inner wall is rational in infrastructure, can accomplish self-cleaning under the drive of motor, and can adjust through adjusting the belt cleaning device dead lever in order to adapt to the interior warp size of different pipelines, has improved the cleaning efficiency greatly.

Based on the above, when the inner wall of the metal container is pretreated, the treatment structure of the inner wall of the metal container needs to be independently adjusted to form an upper supporting structure and a lower supporting structure, linkage is lacked in the treatment process, and the inner wall of the metal container needs to be independently pushed to move forwards in the container, so that the overall cost of the device is high.

Disclosure of Invention

In order to solve the technical problems, the invention provides an inner wall rotary type pretreatment device based on metal pipe manufacturing and processing, which aims to solve the problems that when the inner wall of a metal container is pretreated, an upper support structure and a lower support structure of the treatment structure need to be independently adjusted, linkage is lacked in the treatment process, and the device needs to be independently pushed to move forwards in a pipeline.

The invention relates to an inner wall rotary type pretreatment device based on metal pipe manufacturing and processing, which is achieved by the following specific technical means:

the inner wall rotary type pretreatment device based on metal pipe manufacturing comprises a fixed cylinder;

a driving motor is embedded in the fixed cylinder, the front end of a motor shaft of the driving motor is connected with a transverse driving shaft, the motor shaft is in transmission connection with a vertical driving shaft A through a bevel gear, the vertical driving shaft A is rotatably installed on a T rotating sleeve through a clamping plate A, the T rotating sleeve is fixedly connected with a front guide cylinder on the lower side, the vertical driving shaft A is also in transmission connection with a vertical driving shaft B, the vertical driving shaft B is rotatably installed on the T rotating sleeve through a clamping plate B, the T rotating sleeve is fixedly connected with a front adjusting column on the lower side, the top end of the vertical driving shaft B is connected with a square inserting rod, the square inserting rod is slidably inserted into a square groove in the bottom of the vertical driving shaft A, and the bottom end of the vertical driving shaft B is connected with a worm C;

the rear supporting part is connected to the rear end side of the fixed cylinder, the front supporting mechanism is arranged on the outer side of the transverse driving shaft, and the preprocessing mechanism is connected to the front end of the transverse driving shaft;

the outside of a fixed cylinder is also connected with an outer connecting block, a cleaning water pipe is inserted into the outer connecting block, the rear end of the cleaning water pipe is connected with a quick coupling, the other end of the cleaning water pipe is upwards connected with a spray pipe with a three-claw structure, the spray pipe is arranged between a front supporting mechanism and a pretreatment mechanism, and the outer end of the spray pipe is provided with an atomizing nozzle.

Further, the rear support portion includes:

two groups of rear supporting wheels are arranged on the upper side and the lower side of the rear end of the fixed cylinder respectively, and two groups of baffles A are connected to a rotating shaft of the rear supporting wheels;

the outer ends of the rear adjusting columns are respectively sleeved on the rotating shaft of the rear support wheel and are clamped by the baffle A, and the other ends of the rear adjusting columns are respectively inserted into the rear guide cylinders;

one end of the rear guide cylinder is fixedly connected with the fixed cylinder, a worm wheel A is rotatably clamped at the other end of the rear guide cylinder, and a square guide groove A is formed in the inner side of the rear guide cylinder;

two sets of worms A are arranged and are respectively rotatably clamped on the outer end side of the rear guide cylinder and are in meshed connection with the worm wheel A, and a threaded hole is formed in the middle of the worm wheel A.

Furthermore, the rear adjusting column is provided with external threads, the rear adjusting column on the upper side is provided with forward threads and is meshed with the threaded hole of the worm wheel A on the upper side, and the rear adjusting column on the lower side is provided with reverse threads and is meshed with the threaded hole of the worm wheel A on the lower side.

Furthermore, the bottom of the rear adjusting column is connected with a square block, and the square block is slidably mounted in the square guide groove A of the rear guide cylinder.

Further, the front support mechanism includes:

the front supporting wheels are provided with four groups and are respectively arranged at the upper, lower, left and right sides of the front side of the fixed cylinder, and a rotating shaft of each front supporting wheel is also connected with two groups of baffles B;

the outer ends of the front adjusting columns are respectively sleeved on the rotating shafts of the front supporting wheels and are clamped by a baffle B, and the other ends of the front adjusting columns are respectively inserted in square guide grooves B in the front guide cylinders by square blocks;

one end of the front guide cylinder is fixedly connected with the middle rotary cylinder, and the other end of the front guide cylinder is rotatably clamped with a worm wheel B;

and four groups of worms B are arranged and are respectively rotatably clamped at the outer end side of the front guide cylinder and are respectively meshed with the worm wheel B, a threaded hole is also formed in the middle of the worm wheel B, one end of a rotating shaft of each worm B is also rotatably inserted in the outer connecting block, and the rotating shafts of the four groups of worms B are sequentially in transmission connection through a triangular belt.

Furthermore, the worm B on the upper side is connected with the worm A on the upper side through an upper connecting rod, the outer end of the upper connecting rod is connected with a hand wheel, and the worm B on the lower side is connected with the worm A on the lower side through a lower connecting rod.

Furthermore, the front adjusting column is also provided with external threads, the front adjusting column on the upper side and the right side is provided with forward threads, and the front adjusting column on the upper side and the right side is respectively meshed with the threaded holes of the worm wheel B on the upper side and the right side, and the lower side and the front adjusting column on the left side are provided with reverse threads and are meshed with the threaded holes of the worm wheel B on the lower side.

Further, the preceding regulation post of downside links to each other through the front wheel that props of U type structure with the downside, and this front wheel intermediate junction has worm wheel C, and worm wheel C is connected with worm C meshing.

Further, the preprocessing mechanism comprises:

the arc-shaped grinding blocks are provided with two groups and are respectively clamped in the mounting frame;

the middle of the inner arc end of the mounting frame is connected with an adjusting connecting rod;

the other end of the adjusting connecting rod is also arranged in the guide cylinder in a penetrating way and is connected with two groups of convex blocks, and the adjusting connecting rod is also sleeved with a spring;

the guide cylinder is provided with two groups of opposite notches, the convex blocks are arranged in the notches, the upper side and the lower side of the guide cylinder are respectively connected with the circular plate through rib rods,

and the circular plate is fixedly connected with the other end of the transverse driving shaft.

The invention at least comprises the following beneficial effects:

1. according to the invention, through arranging the rear supporting part and the front supporting mechanism, the hand wheel at the outer end of the upper connecting rod is rotated, and further through the meshing action of the worm and the worm wheel and the meshing action of the internal thread hole in the middle of the worm wheel and the external thread on the adjusting column, the supporting wheels respectively move outwards, so that the supporting wheels are synchronously attached to the inner wall of the metal container, and the fixing cylinder, the driving motor and the preprocessing mechanism are supported.

2. According to the invention, the vertical driving shaft A and the vertical driving shaft B are arranged, the driving motor drives the pretreatment mechanism to rotate through the transverse driving shaft, the bevel gear drives the vertical driving shaft A to rotate, the vertical driving shaft B is driven to rotate through the square inserted rod, the worm C at the bottom end of the vertical driving shaft B is meshed with the worm C on the front supporting wheel at the lower side, the front supporting wheel at the lower side is driven to move forwards, the pushing device moves forwards in the metal container, the rotating speed of the pretreatment mechanism is greater than the advancing speed of the front supporting wheel through the transmission ratio of the worm and the worm wheel, and the whole pretreatment of the inner wall of the metal container is realized through the arc-shaped grinding block.

3. According to the invention, the cleaning water pipe is arranged, the quick connector at the rear end of the cleaning water pipe is connected with the tap water hose, tap water is sent into the water spraying pipe with the three-claw structure through the cleaning water pipe and is sprayed onto the inner wall of the metal container through the atomizing nozzle, and the inner wall of the metal container can be cleaned when being pretreated.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of another structure of fig. 1 according to the present invention.

FIG. 3 is a schematic view of the pretreatment mechanism of FIG. 1 of the present invention shown disassembled.

Fig. 4 is an enlarged schematic view of the structure of fig. 3 a according to the present invention.

Fig. 5 is a schematic view of the structure of fig. 3 according to another aspect of the present invention.

Fig. 6 is a structural schematic diagram of the front guide cylinder in the front support structure of the invention after being cut.

Fig. 7 is a schematic view of the rear support part of the present invention.

FIG. 8 is a schematic view of a pretreatment device according to the present invention, wherein the guide cylinder is cut.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a fixed cylinder; 101. a drive motor; 102. an external connecting block; 103. a transverse drive shaft; 104. a vertical drive shaft A; 1041. a clamping plate A; 105. t rotating the sleeve; 106. a vertical drive shaft B; 1061. a clamping plate B; 1062. a square inserted link; 1063. a worm C;

2. a rear supporting part; 201. a rear support wheel; 2011. a baffle A; 202. a rear adjusting column; 203. a rear guide cylinder; 2031. a worm gear A; 2032. a square guide groove A; 204. a worm A;

3. a front support mechanism; 301. a front support wheel; 3011. a baffle B; 302. a front conditioning column; 303. a front guide cylinder; 3031. a worm gear B; 3032. a square guide groove B; 304. a worm B; 305. an intermediate drum; 306. a worm gear C;

4. an upper connecting rod;

5. a lower connecting rod;

6. a pretreatment mechanism; 601. an arc-shaped grinding block; 602. installing a frame; 603. adjusting the connecting rod; 6031. a bump; 6032. a spring; 604. a guide cylinder; 6041. a notch; 6042. a rib bar; 6045. a circular plate;

7. cleaning a water pipe; 701. a water spray pipe; 7011. an atomizing spray head; 702. a quick coupling.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "coaxial," "bottom," "one end," "top," "middle," "other end," "upper," "side," "top," "inner," "front," "center," "two ends," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing and simplifying the description, and are not intended to indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be understood broadly, and for example, they may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Example (b):

as shown in figures 1 to 8:

the invention provides an inner wall rotary type pretreatment device based on metal pipe manufacturing and processing, which comprises a fixed cylinder 1;

a driving motor 101 is embedded in the fixed cylinder 1, the front end of the motor shaft of the driving motor 101 is connected with a transverse driving shaft 103, the motor shaft is also in transmission connection with a vertical driving shaft A104 through a bevel gear, the vertical driving shaft A104 is rotatably installed on a T-turn sleeve 105 through a clamping plate A1041, the T-turn sleeve 105 is fixedly connected with a front guide cylinder 303 on the lower side, the vertical driving shaft A104 is also in transmission connection with a vertical driving shaft B106, the vertical driving shaft B106 is rotatably installed on the T-turn sleeve 105 through a clamping plate B1061, the T-turn sleeve 105 is fixedly connected with a front adjusting column 302 on the lower side, the top end of the vertical driving shaft B106 is connected with a square insertion rod 1062, the square insertion rod 1062 is slidably inserted into a square groove at the bottom of the vertical driving shaft A104, the bottom end of the vertical driving shaft B106 is connected with a worm C1063, so that the vertical driving shaft B106 is conveniently connected with the vertical driving shaft A104 through the square insertion rod 1062, when the vertical driving shaft A104 rotates, the vertical driving shaft A106 can drive the vertical driving shaft B106 to rotate through the square insertion rod 1062, when the adjustment is performed between the front adjusting column 302 on the lower side and the front adjusting column 302, the vertical driving shaft B106 can also follow the front adjusting column 302 on the lower side through the square inserting rod 1062 for adjustment;

a rear support part 2, the rear support part 2 being connected to the rear end side of the fixed cylinder 1, a front support mechanism 3 being provided outside the transverse drive shaft 103, and a pretreatment mechanism 6 being connected to the front end of the transverse drive shaft 103.

Referring to fig. 6, the preprocessing mechanism 6 includes:

the arc-shaped grinding blocks 601, two groups of arc-shaped grinding blocks 601 are arranged and are respectively clamped in the mounting frame 602; the middle of the inner arc end of the mounting frame 602 is connected with an adjusting connecting rod 603; the other end of the adjusting connecting rod 603 is further arranged in the guide cylinder 604 in a penetrating manner and is connected with two groups of bumps 6031, and the adjusting connecting rod 603 is further sleeved with a spring 6032; the guide cylinder 604 is provided with two sets of notches 6041 opposite to each other, the bump 6031 is arranged in the notch 6041, the upper and lower sides of the guide cylinder 604 are also respectively connected with the circular plate 605 through the rib 6042, the circular plate 605 and the other end of the transverse driving shaft 103 are fixedly connected, and the guide cylinder 604 specifically functions as: through inwards pushing two sets of arc-shaped grinding blocks 601 and the mounting frame 602, the pretreatment mechanism 6 is placed on the inner side of the metal container, so that the arc-shaped grinding blocks 601 are tightly attached to the inner wall of the metal container under the action of the spring 6032, and are connected with the transverse driving shaft 103 through the circular plate 605, so that the circular plate 605 can be driven to rotate through the driving motor 101, the pretreatment mechanism 6 is driven to rotate, and the inner wall of the metal container is subjected to polishing type pretreatment.

Referring to fig. 7, the rear support part 2 includes:

two groups of rear support wheels 201 are arranged on the rear support wheels 201 and are respectively arranged on the upper side and the lower side of the rear end of the fixed cylinder 1, and two groups of baffles A2011 are also connected to a rotating shaft of the rear support wheels 201; the outer ends of the rear adjusting columns 202 are respectively sleeved on the rotating shaft of the rear support wheel 201 and clamped by a baffle A2011, and the other ends of the rear adjusting columns 202 are respectively inserted into the rear guide cylinders 203; one end of each rear guide cylinder 203 is fixedly connected with the fixed cylinder 1, the other end of each rear guide cylinder 203 is rotatably clamped with a worm wheel A2031, and the inner side of each rear guide cylinder 203 is provided with a square guide groove A2032; two sets of worms a204 and a pair of worms a204 are respectively rotatably clamped on the outer end side of the rear guide cylinder 203 and are meshed with the worm wheel a2031, a threaded hole is formed in the middle of the worm wheel a2031, and the worm wheel a2031 is attached to the inner part of the metal container through the rear support wheel 201 on the rear support part 2, so that the fixed cylinder 1 and the driving motor 101 are supported.

Referring to fig. 7, the bottom end of the rear adjusting post 202 is connected with a square block, and the square block is slidably mounted in the square guide groove a2032 of the rear guide cylinder 203, so that the rear adjusting post 202 can slide in the rear guide cylinder 203 under the clamping action of the square block.

Referring to fig. 6, the front support mechanism 3 includes:

the front supporting wheels 301 are provided with four groups, and are respectively arranged at the upper, lower, left and right sides of the front side of the fixed cylinder 1, and two groups of baffle plates B3011 are connected to the rotating shaft of the front supporting wheels 301; the outer ends of the front adjusting columns 302 are respectively sleeved on the rotating shaft of the front support wheel 301 and clamped by a baffle B3011, and the other ends of the front adjusting columns 302 are respectively inserted in square guide grooves B3032 in the front guide cylinder 303 by square blocks, so that the front adjusting columns 302 can slide in the front guide cylinder 303 under the clamping action of the square blocks; one end of the front guide cylinder 303 is fixedly connected with the middle rotary cylinder 305, and the other end of the front guide cylinder 303 is rotatably clamped with a worm wheel B3031; four groups of worms B304 are arranged, the four groups of worms B304 are respectively rotatably clamped at the outer end side of the front guide cylinder 303 and are respectively meshed with the worm wheel B3031, a threaded hole is also formed in the middle of the worm wheel B3031, one end of a rotating shaft of the worm B304 is further rotatably inserted in the outer connecting block 102, the rotating shafts of the four groups of worms B304 are sequentially connected through a V-belt transmission, the transverse driving shaft 103 is supported through a front support wheel 301 on the front support mechanism 3, the front ends of the fixed cylinder 1 and the driving motor 101 are further supported, and the pretreatment mechanism 6 is further supported.

Wherein, the rear adjusting column 202 is also provided with external threads, the rear adjusting column 202 on the upper side is provided with forward threads and is meshed with the threaded hole of the worm wheel A2031 on the upper side, the rear adjusting column 202 on the lower side is provided with reverse threads and is meshed with the threaded hole of the worm wheel A2031 on the lower side, the worm B304 on the upper side is connected with the worm A204 on the upper side through the upper connecting rod 4, the outer end of the upper connecting rod 4 is connected with a hand wheel, the worm B304 on the lower side is connected with the worm A204 on the lower side through the lower connecting rod 5, the front adjusting column 302 is also provided with external threads, the front adjusting column 302 on the upper side and the right side is provided with forward threads and is respectively meshed with the threaded holes of the worm wheel B3031 on the upper side and the right side, the reverse threads are arranged on the lower side and the front adjusting column 302 on the left side and are meshed with the threaded hole of the worm wheel B3031 on the lower side, the worm A204 at the upper end of the rear supporting part 2 is driven to rotate with the worm B304 at the upper end of the front supporting mechanism 3 by rotating the hand wheel at the outer end of the upper connecting rod 4, the worm A204 is meshed with the worm wheel A2031 to drive the worm wheel A2031 to rotate, the worm B304 is meshed with the worm wheel B3031 to drive the worm wheel B3031 to rotate, the positive thread on the upper side rear adjusting column 202 is meshed with the internal thread hole of the worm wheel A2031 to drive the rear adjusting column 202 to move upwards in the rear guide cylinder 203, the positive thread on the upper side front adjusting column 302 is meshed with the internal thread hole of the worm wheel B3031 to drive the front adjusting column 302 to move upwards in the front guide cylinder 303, the worm B304 on the right side of the front supporting mechanism 3, the worm B304 on the lower side and the worm B304 on the left side are driven to rotate by the triangular belt, the worm wheel B3031 is driven to rotate by the meshing of the positive thread on the right side front adjusting column 302 and the internal thread hole of the worm wheel B3031, the front adjusting column 302 is driven to move rightwards in the front guide cylinder 303, the positive thread on the lower side front adjusting column 302 is meshed with the internal thread hole of the worm wheel B3031, the front adjusting column 302 is driven to move downwards in the front guide cylinder 303, meanwhile, the worm B304 on the lower side drives the worm A204 on the lower side to rotate through the lower connecting rod 5, further, the meshing effect of the reverse threads and the internal thread hole of the worm wheel A2031 on the rear adjusting column 202 on the lower side is utilized, the rear adjusting column 202 is driven to move downwards in the rear guide cylinder 203, the meshing effect of the forward threads and the internal thread hole of the worm wheel B3031 on the front adjusting column 302 on the left side drives the front adjusting column 302 to move upwards leftwards in the front guide cylinder 303, and therefore the rear supporting wheel 201 and the front supporting wheel 301 on the rear supporting part 2 and the front supporting mechanism 3 are respectively attached to the inner wall of the metal container.

Referring to fig. 2 and 6, the front adjusting column 302 on the lower side is connected with the front supporting wheel 301 on the lower side through a U-shaped structure, and a worm wheel C306 is connected in the middle of the front supporting wheel 301, and the worm wheel C306 is in meshed connection with a worm C1063, which specifically functions as: when the driving motor 101 rotates, a motor shaft of the driving motor 101 drives the vertical driving shaft a104 to rotate through the bevel gear, and drives the vertical driving shaft B106 to rotate through the square insertion rod 1062, the worm C at the bottom end of the vertical driving shaft B106 is meshed with the worm C306 on the lower front support wheel 301 to drive the lower front support wheel 301 to move forward, and then the pushing device moves forward in the metal container, and the transmission ratio of the worm and the worm wheel is utilized to enable the rotation speed of the preprocessing mechanism 6 to be greater than the forward speed of the front support wheel 301.

In another embodiment, the outer side of the fixed cylinder 1 is further connected with an external connecting block 102, the external connecting block 102 is inserted with a cleaning water pipe 7, the rear end of the cleaning water pipe 7 is connected with a quick coupling 702, the other end of the cleaning water pipe is upwards connected with a spray pipe 701 with a three-claw structure, the spray pipe 701 is arranged between the front supporting mechanism 3 and the preprocessing mechanism 6, the outer end of the spray pipe 701 is provided with an atomizing nozzle 7011, and the specific functions of the spray pipe are as follows: the quick connector 702 at the rear end of the cleaning water pipe 7 is connected with a tap water hose, tap water is sent into the spray pipe 701 with the three-claw structure through the cleaning water pipe 7 and is sprayed onto the inner wall of the metal container through the atomizing spray head 7011, and the inner wall of the metal container can be cleaned when being pretreated.

The specific use mode and function of the embodiment are as follows:

in the invention, two groups of arc-shaped grinding blocks 601 and a mounting frame 602 are pushed inwards, a pretreatment mechanism 6 is placed inside a metal container, the arc-shaped grinding blocks 601 are tightly attached to the inner wall of the metal container under the action of a spring 6032, a device is pushed inwards, a front supporting mechanism 3 and a rear supporting mechanism 2 are all placed inside the metal container, a hand wheel at the outer end of an upper connecting rod 4 is rotated to drive a worm A204 at the upper end of the rear supporting mechanism 2 and a worm B304 at the upper end of the front supporting mechanism 3 to rotate, a worm wheel A2031 is driven to rotate by the meshing of the worm A204 and the worm wheel A2031, a worm B304 and a worm wheel B3031 are driven to rotate by the meshing of the worm B304 and the worm wheel B3031, the rear adjusting column 202 is driven to move upwards in a rear guide cylinder 203 by the meshing of a forward thread on the upper rear adjusting column 302 and a worm wheel B3031, and the front adjusting column 302 is driven to move upwards in the front guide cylinder 303 by the meshing of the forward thread on the upper adjusting column 302 and the worm wheel B3031, the worm B304 at the right side, the worm B304 at the lower side and the worm B304 at the left side of the front supporting mechanism 3 are driven to rotate by a triangular belt, a worm wheel B3031 is driven to rotate by the meshing of the worm B304 and a worm wheel B3031, the front adjusting column 302 is driven to move to the right in the front guide cylinder 303 by the meshing of a forward thread on the front adjusting column 302 at the right side and a threaded hole on the worm wheel B3031, the front adjusting column 302 is driven to move downwards in the front guide cylinder 303 by the meshing of a forward thread on the front adjusting column 302 at the lower side and a threaded hole on the worm wheel B3031, meanwhile, the worm B304 at the lower side drives the worm A204 at the lower side to rotate by the lower connecting rod 5, further, the rear adjusting column 202 at the lower side is driven to move downwards in the rear guide cylinder 203 by the meshing of a reverse thread on the rear adjusting column 202 and the threaded hole on the worm wheel B3031, the forward thread on the front adjusting column 302 at the left side drives the front adjusting column 302 to move upwards in the front guide cylinder 303, so that the rear supporting part 2 and the rear supporting wheel 201 and the front supporting wheel 301 on the front supporting mechanism 3 are respectively attached to the inner wall of the metal container, the quick coupling 702 at the rear end of the cleaning water pipe 7 is connected with a tap water hose, the driving motor 101 is started to drive the transverse driving shaft 103 and the preprocessing mechanism 6 to rotate, the inner wall of the metal container is polished and preprocessed by the arc-shaped grinding block 601, meanwhile, the motor shaft of the driving motor 101 also drives the vertical driving shaft A104 to rotate through the bevel gear and drives the vertical driving shaft B106 to rotate through the square inserting rod 1062, the worm C at the bottom end of the vertical driving shaft B106 is meshed with the worm C306 on the front supporting wheel 301 at the lower side to drive the front supporting wheel 301 at the lower side to move forwards, the pushing device moves forwards in the metal container, and the transmission ratio of the worm is utilized to ensure that the rotation speed of the preprocessing mechanism 6 is greater than the advancing speed of the front supporting wheel 301, thereby realizing the whole pretreatment of the inner wall of the metal container, and cleaning the inside of the pipeline by the water mist sprayed by the atomizing spray head 7011.

The invention is not described in detail, but is well known to those skilled in the art.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. Inner wall rotation type preprocessing device based on tubular metal resonator manufacturing and processing, its characterized in that: comprises a fixed cylinder (1);

a driving motor (101) is embedded in the fixed cylinder (1), the front end of a motor shaft of the driving motor (101) is connected with a transverse driving shaft (103), the motor shaft is also in transmission connection with a vertical driving shaft A (104) through a bevel gear, the vertical driving shaft A (104) is rotatably arranged on a T-shaped rotating sleeve (105) through a clamping plate A (1041), the T-shaped rotating sleeve (105) is fixedly connected with a front guide cylinder (303) at the lower side, the vertical driving shaft A (104) is also in transmission connection with a vertical driving shaft B (106), and a vertical driving shaft B (106) is rotatably arranged on the T-shaped rotating sleeve (105) through a clamping plate B (1061), the T-shaped rotating sleeve (105) is fixedly connected with a front adjusting column (302) on the lower side, the top end of a vertical driving shaft B (106) is connected with a square insertion rod (1062), the square insertion rod (1062) is inserted into a square groove in the bottom of the vertical driving shaft A (104) in a sliding mode, and the bottom end of the vertical driving shaft B (106) is connected with a worm C (1063);

the rear supporting part (2) is connected to the rear end side of the fixed cylinder (1), the front supporting mechanism (3) is arranged on the outer side of the transverse driving shaft (103), and the preprocessing mechanism (6) is connected to the front end of the transverse driving shaft (103);

the outer side of the fixed cylinder (1) is also connected with an outer connecting block (102), a cleaning water pipe (7) is inserted into the outer connecting block (102), the rear end of the cleaning water pipe (7) is connected with a quick connector (702), the other end of the cleaning water pipe is upwards connected with a water spray pipe (701) with a three-claw structure, the water spray pipe (701) is arranged between the front supporting mechanism (3) and the pretreatment mechanism (6), and the outer end of the water spray pipe is provided with an atomizing spray head (7011);

the rear support part (2) includes:

two groups of rear support wheels (201) are arranged on the rear support wheels (201) and are respectively arranged on the upper side and the lower side of the rear end of the fixed cylinder (1), and two groups of baffles A (2011) are connected to a rotating shaft of the rear support wheels (201);

the outer ends of the rear adjusting columns (202) are respectively sleeved on the rotating shaft of the rear support wheel (201) and clamped by a baffle A (2011), and the other ends of the rear adjusting columns (202) are respectively inserted into the rear guide cylinders (203);

one end of the rear guide cylinder (203) is fixedly connected with the fixed cylinder (1), the other end of the rear guide cylinder (203) is rotatably clamped with a worm wheel A (2031), and the inner side of the rear guide cylinder (203) is provided with a square guide groove A (2032);

two groups of worms A (204) are arranged, are respectively rotatably clamped at the outer end side of the rear guide cylinder (203) and are in meshed connection with the worm wheel A (2031), and a threaded hole is formed in the middle of the worm wheel A (2031);

the front support mechanism (3) includes:

the front supporting wheels (301), four groups of the front supporting wheels (301) are arranged and are respectively arranged at the upper, lower, left and right sides of the front side of the fixed cylinder (1), and two groups of baffles B (3011) are connected to the rotating shaft of the front supporting wheels (301);

the outer end of the front adjusting column (302) is sleeved on the rotating shaft of the front supporting wheel (301) and clamped by a baffle B (3011), and the other end of the front adjusting column (302) is inserted in a square guide groove B (3032) in the front guide cylinder (303) by a square block;

one end of the front guide cylinder (303) is fixedly connected with the middle rotary cylinder (305) respectively, and the other end of the front guide cylinder (303) is rotatably clamped with a worm wheel B (3031);

the four groups of worms B (304) are arranged, are respectively rotatably clamped at the outer end side of the front guide cylinder (303) and are respectively meshed and connected with the worm wheel B (3031), a threaded hole is also formed in the middle of the worm wheel B (3031), one end of a rotating shaft of the worm B (304) is also rotatably inserted in the outer connecting block (102), and the rotating shafts of the four groups of worms B (304) are sequentially in transmission connection through a triangular belt;

the upper worm B (304) is connected with the upper worm A (204) through an upper connecting rod (4), the outer end of the upper connecting rod (4) is connected with a hand wheel, and the lower worm B (304) is connected with the lower worm A (204) through a lower connecting rod (5).

2. The rotary pretreatment device for inner wall based on metal pipe manufacturing according to claim 1, wherein the rear adjustment column (202) is further provided with external threads, the rear adjustment column (202) on the upper side is provided with forward threads and is engaged with the threaded hole of the worm wheel A (2031) on the upper side, and the rear adjustment column (202) on the lower side is provided with reverse threads and is engaged with the threaded hole of the worm wheel A (2031) on the lower side.

3. The rotary type pretreatment device for inner wall based on metal pipe manufacturing process according to claim 1, wherein a square block is connected to the bottom end of the rear adjusting post (202), and the square block is slidably installed in the square guide groove A (2032) of the rear guide cylinder (203).

4. The rotary pretreatment device for the inner wall based on the metal pipe manufacturing process as claimed in claim 1, wherein the front adjusting column (302) is also provided with external threads, and the front adjusting column (302) on the upper side and the right side is provided with forward threads and is respectively engaged with the threaded holes of the worm gear B (3031) on the upper side and the right side, and the front adjusting column (302) on the lower side and the left side is provided with reverse threads and is engaged with the threaded hole of the worm gear B (3031) on the lower side.

5. The rotary type pretreatment device for the inner wall based on the metal pipe manufacturing and processing as claimed in claim 1, wherein the front adjusting column (302) at the lower side is connected with the front support wheel (301) at the lower side through a U-shaped structure, a worm wheel C (306) is connected in the middle of the front support wheel (301), and the worm wheel C (306) is in meshed connection with the worm C (1063).

6. The rotary pretreatment device for inner wall based on manufacturing process of metal pipe according to claim 1, wherein said pretreatment means (6) comprises:

the arc-shaped grinding blocks (601), two groups of arc-shaped grinding blocks (601) are arranged and are respectively clamped in the mounting frame (602);

the middle of the inner arc end of the mounting frame (602) is connected with an adjusting connecting rod (603);

the other end of the adjusting connecting rod (603) is further arranged in the guide cylinder (604) in a penetrating mode and connected with two groups of convex blocks (6031), and a spring (6032) is further sleeved on the adjusting connecting rod (603);

the guide cylinder (604), two sets of opposite notches (6041) are arranged on the guide cylinder (604), the convex block (6031) is arranged in the notch (6041), the upper and lower sides of the guide cylinder (604) are respectively connected with the circular plate (605) through rib rods (6042),

and a circular plate (605), wherein the circular plate (605) is fixedly connected with the other end of the transverse driving shaft (103).

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