CN111408558B

CN111408558B - Use method of outer side wall descaling equipment for cylindrical rolling pin

Info

Publication number: CN111408558B
Application number: CN202010307327.9A
Authority: CN
Inventors: 高文杰
Original assignee: Nanjing Lishui Hi Tech Venture Capital Management Co Ltd
Current assignee: Nanjing Lishui Hi Tech Venture Capital Management Co Ltd
Priority date: 2018-10-26
Filing date: 2018-10-26
Publication date: 2021-04-06
Anticipated expiration: 2038-10-26
Also published as: CN109332237B; CN111408558A; CN109332237A

Abstract

The invention relates to the technical field of household articles and discloses a use method of outer side wall descaling equipment for a cylindrical rolling pin. This cylindrical lateral wall scale removal equipment for rolling pin, when the circulation activity was controlled to the rolling pin, the rolling pin still with horizontal sheathed tube direction of rotation opposite for brush on the horizontal brush piece can be scrubbed the clearance recess inboard of the different angles on the rolling pin, has changed traditional rolling pin and has scrubbed the mode, more effectually scrubbed the rolling pin, reduces the volume of remaining of dirt in the rolling pin recess clearance.

Description

Use method of outer side wall descaling equipment for cylindrical rolling pin

The invention relates to a divisional application of an outer side wall descaling device for a cylindrical rolling pin, which is applied for 10 and 26 months in 2018 and has the application number of CN 201811259361.2.

Technical Field

The invention relates to the technical field of household articles, in particular to a use method of outer side wall descaling equipment for a cylindrical rolling pin.

Background

The rolling pin is frequently used for making cooked wheaten food in a kitchen, the rolling pin is generally cylindrical, after the rolling pin is used for a long time, although the rolling pin is washed after each use, the tiny groove gaps on the surface of the rolling pin are adhered with flour dirt, the surface shape of the rolling pin is adhered with the dirt with strong adhesiveness due to long-term accumulation, people generally use a scraping blade to scrape off the dirt protruding out of the surface of the rolling pin, the surface of the rolling pin is easily damaged by the scraping blade which scrapes the surface of the rolling pin, the service life of the rolling pin is shortened, meanwhile, the dirt in the groove gaps of the rolling pin cannot be effectively scraped, a brush is required to repeatedly scrub so as to remove the dirt in the groove gaps of the rolling pin, the operation amount is large, the cleaning is difficult, more dirt is remained, and few devices for removing the dirt in the groove gaps on the surface of the rolling pin are available in the market, there is a need for an apparatus for brushing dirt from the grooves on the outside wall of a cylindrical rolling pin to reduce the residual amount of dirt on the surface of the rolling pin.

Disclosure of Invention

The rolling pin cleaning device solves the problem that dirt in a groove gap on the surface of the rolling pin is not easy to clean.

A using method of outer side wall descaling equipment for a cylindrical rolling pin comprises a machine body, two side partition plates, two positioning bearings, a transverse sleeve, an auxiliary positioning mechanism, a positioning seat, a double-shaft motor, two torque rotating shafts, two driving wheels, two driven wheels, two driving belts, a supporting frame, two electric lifting rods, a transverse bearing plate, a transverse driving mechanism, a servo motor, a transverse movable through groove, two auxiliary connecting rods, two auxiliary connecting mechanisms, two side clamping plates, an auxiliary clamping mechanism, a low-speed motor, two circular clamping seats, a water inlet pipe, a water outlet pipe, a leading-in cover and a control panel, wherein the two side partition plates are symmetrically arranged at the bottom of the inner side of the machine body, the two positioning bearings are respectively arranged at the inner sides of installation through holes of the two side partition plates, the two ends of the transverse sleeve respectively penetrate through bearing inner rings of the two positioning bearings, the positioning seat is arranged in the middle of the bottom of the inner side of the machine body, the double-shaft motor is arranged on the inner side of the positioning seat, the two torque rotating shafts are respectively connected with two output shafts of the double-shaft motor through two couplings, two driving wheels are respectively sleeved at the tail ends of the two torque rotating shafts, two driven wheels are respectively sleeved on a transverse sleeve, two transmission belts are respectively in transmission connection with the two driving wheels and the corresponding driven wheels through the two driving wheels, the supporting frame is positioned right above the machine body, two electric lifting rods are respectively and symmetrically arranged at the top of the inner side of the supporting frame through bolts, a transverse bearing plate is arranged between the tail ends of the two electric lifting rods, a transverse driving mechanism is arranged on the upper surface of the transverse bearing plate, the servo motor is connected with the transverse driving mechanism, a transverse movable through groove is arranged on the bottom surface of the transverse bearing plate, two auxiliary connection mechanisms are symmetrically installed on the lower surface of the transverse bearing plate respectively, the tail ends of two auxiliary connection rods are connected with the two auxiliary connection mechanisms respectively, two side clamping plates are connected with the bottoms of the two auxiliary connection mechanisms respectively, the side clamping plate positioned on the left side is connected with the auxiliary clamping mechanism, the low-speed motor is installed on the side clamping plate positioned on the right side through bolts and is connected with a circular clamping seat, the other circular clamping seat is connected with the auxiliary clamping mechanism, the water inlet pipe is arranged at a water guide opening of the machine body, the water discharge pipe is arranged at a bottom water discharge opening of the machine body 1, the guide-in cover is arranged on the inner side of a guide opening on the left side of the machine body.

The auxiliary positioning mechanism comprises a hollow annular air bag, two transverse brush pieces, an air guide joint and a switch air valve, the hollow annular air bag is bonded on the inner side of the transverse sleeve, the two transverse brush pieces are respectively and symmetrically connected to the inner side wall of the hollow annular air bag, and the air guide joint is installed at the air guide opening of the hollow annular air bag, penetrates through the inner side wall of the transverse sleeve, extends to the outer side of the transverse sleeve and is connected with the switch air valve.

Horizontal actuating mechanism includes horizontal quick-witted case, horizontal polished rod, impel the screw thread, two stoppers and two ball nuts, the upper surface at horizontal bearing plate is installed to horizontal machine case, servo motor passes through the bolt and installs the right flank at horizontal machine case, servo motor's output shaft runs through the right flank of horizontal machine case and is connected with horizontal polished rod through the shaft coupling, horizontal polished rod passes through bearing base swing joint at the left side inner wall of horizontal machine case, horizontal polished rod has seted up at horizontal machine incasement portion and has impeld the screw thread, the impel the screw thread part both ends of horizontal polished rod are connected with two stoppers respectively, two ball nuts all cup joint on impel the screw thread, the bottom surface of horizontal machine case is seted up and is led the siphunculus of being linked together with horizontal activity logical groove, the.

The two auxiliary connecting mechanisms comprise two auxiliary bearing supporting cylinders, two auxiliary movable blocks and two auxiliary sliding grooves, the two auxiliary bearing supporting cylinders are symmetrically arranged on two sides of the lower surface of the transverse bearing plate, the two auxiliary sliding grooves are respectively formed in the bottoms of the two auxiliary bearing supporting cylinders, and the two auxiliary movable blocks are respectively located on the inner sides of the two auxiliary bearing supporting cylinders and are respectively connected with the two auxiliary connecting rods.

Supplementary fixture is including impeling the threaded rod, the star handle, the mount pad, installation bearing and connecting axle, the through-hole fixedly connected with fixed thread ring that is located left side splint side, impel the threaded rod to run through the internal thread of fixed thread ring and the through-hole of side splint and be connected with the star handle, impel the other end of threaded rod to be connected with the mount pad, installation bearing installs the inboard at the mount pad, the fixed bearing inner circle of pegging graft at installation bearing of connecting axle, the other end and the circular grip slipper of connecting axle are connected.

Preferably, the control panel is electrically connected with the double-shaft motor, the electric lifting rod, the servo motor and the low-speed motor, the control panel can control the on-off and running states of the double-shaft motor, the electric lifting rod, the servo motor and the low-speed motor, and the two electric lifting rods are in synchronous running states.

Preferably, the transverse bearing plate is located right above the machine body, the transverse length of the transverse bearing plate is smaller than that of the inner side of the machine body, and the two auxiliary connecting mechanisms on the transverse bearing plate are arranged in a left-right symmetrical mode relative to the center of the transverse bearing plate.

Preferably, the auxiliary connecting rod is in an L-shaped supporting rod shape, the two ball nuts and the auxiliary connecting rod are arranged in a bilateral symmetry mode about the center of the transverse bearing plate, and the two limiting blocks on the transverse polish rod are arranged in a symmetry mode about the transverse polish rod.

Preferably, the two driving wheels are positioned between the two side partition plates and are arranged in bilateral symmetry about the center of the transverse sleeve, and the two driven wheels are respectively positioned right above the corresponding driving wheels.

Preferably, the centers of the two circular clamping seats are positioned on the same horizontal axis, the cross section of the inner side wall of each circular clamping seat is circular, the surfaces of the inner side walls, opposite to each other, of the two circular clamping seats are rough surfaces, and the two side clamping plates are arranged in a left-right symmetrical mode relative to the center of the transverse bearing plate.

Preferably, the length of the hollow annular air bag is slightly less than the length of the transverse sleeve by 1-3 cm, the outer side wall surface of the hollow annular air bag is completely attached and bonded with the inner side wall surface of the transverse sleeve, the hollow annular air bag is made of soft rubber materials, the side thickness of the hollow annular air bag is 2-3 mm, the transverse length of the transverse hairbrush sheet is equal to the length of the hollow annular air bag, and the hairbrush material on the transverse hairbrush sheet is a hard nylon brush.

Compared with the prior art:

(1) the cylindrical rolling pin outer side wall descaling equipment using method comprises the steps of arranging an auxiliary positioning mechanism and mutually matching with a transverse sleeve, leading the cylindrical rolling pin into the inner side of the transverse sleeve through an introduction port when the equipment is used, then externally connecting a high-pressure air guide device through an air guide joint, opening a switch air valve to inflate the inner side of a hollow annular air bag, inflating and expanding the inner side of the hollow annular air bag, inserting the inner side into the rolling pin to extrude and expand the inner side, so that the rolling pin is preliminarily positioned, clamping and fixing two ends of the rolling pin through a circular clamping seat by using the left auxiliary clamping mechanism when the equipment is operated, so that the rolling pin is positioned, driving two output shafts of a double-shaft motor to drive corresponding torque rotating shafts to rotate through shaft couplings respectively, and driving the output shafts of the torque rotating shafts to synchronously rotate through a driving wheel and a driving belt, thereby make horizontal sleeve pipe rotate, and inboard rolling pin is by the centre gripping of the circular holder centre gripping of both sides, and the horizontal brush piece of hollow annular gasbag inboard carries out comprehensive contact repeated scrubbing to the surface of rolling pin, has changed the tradition and has scrubbed the mode to the rolling pin, has reduced artifical manual intensity of labour who scrubs.

(2) The use method of the outer side wall descaling equipment for the cylindrical rolling pin comprises the steps that the auxiliary clamping mechanism is matched with the circular clamping seats, when the equipment is used, the star-shaped handle of the auxiliary clamping mechanism rotates to drive the pushing threaded rod to rotate, so that the pushing threaded rod pushes the mounting seat, the mounting seat pushes the circular clamping seats through the connecting shaft, the inner sides of the circular clamping seats on the left side push the rolling pin, the right end of the rolling pin pushes the inner sides of the circular clamping seats on the right side, the two ends of the rolling pin are clamped and positioned, when the equipment is operated, the transverse sleeve rotates, the rolling pin on the inner side is clamped by the circular clamping seats on the two sides, and the transverse hairbrush sheets on the inner side of the hollow annular air bag comprehensively contact and repeatedly scrub the surface of the rolling pin, and the output shaft of low-speed motor drives the circular holder that is located the right side and rotates to make the rolling pin by two circular holder centre grippings rotate, and the rolling pin that is located horizontal cover intraductal is scrubbed by the brush extrusion of the horizontal brush piece in the hollow annular gasbag, and the direction of rotation of rolling pin is opposite with horizontal sheathed tube direction of rotation, makes the brush relative motion of rolling pin and horizontal brush piece, thereby makes the surperficial dirt of rolling pin more effectual clear away.

(3) The use method of the outer side wall descaling device for the cylindrical rolling pin comprises the steps that the transverse driving mechanism, the auxiliary connecting mechanism and the auxiliary connecting rods are arranged to be matched with each other, when the device is used, the rolling pin is positioned and clamped through the auxiliary positioning mechanism, the auxiliary clamping mechanism and the two circular clamping seats, the transverse sleeve and the rolling pin rotate in opposite directions through the mutual matching of the double-shaft motor and the low-speed motor, the output shaft of the servo motor drives the transverse polished rod to rotate through the coupler, the propelling thread on the transverse polished rod pushes the two ball nuts, the two ball nuts synchronously drive the corresponding auxiliary connecting rods to move, the two auxiliary connecting rods respectively drive the auxiliary movable blocks in the auxiliary bearing support cylinders to move, and therefore the two auxiliary movable blocks respectively drive the two side clamping plates to move, thereby leading the two circular clamping seats to drive the rolling pin clamped between the two circular clamping seats to move transversely and rotate along with the reverse rotation of the output shaft of the servo motor, the rolling pin is enabled to move transversely in the reverse direction, the change of the positive and negative rotation of the output shaft of the servo motor enables the rolling pin to move circularly in the transverse position, the rolling cover moves left and right on the inner side of the hollow annular air bag, so that the brushes on the transverse brush sheets can effectively brush out dirt in the transverse groove gaps on the rolling pin repeatedly and effectively, while the rolling pin circularly moves left and right, the rolling pin is opposite to the rotating direction of the transverse sleeve, the brush on the transverse brush piece can scrub the inner sides of the gap grooves with different angles on the rolling pin, the traditional rolling pin scrubbing mode is changed, the rolling pin is scrubbed more effectively, and the residual quantity of dirt in the gap between the grooves of the rolling pin is reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of an auxiliary positioning mechanism according to the present invention;

FIG. 3 is a schematic view of the lateral driving mechanism of the present invention;

FIG. 4 is a schematic view of an auxiliary clamping mechanism according to the present invention;

fig. 5 is a schematic structural view of the auxiliary connecting mechanism of the present invention.

In the figure: 1 machine body, 2 side partition boards, 3 positioning bearings, 4 transverse sleeves, 5 auxiliary positioning mechanisms, 51 hollow annular air bags, 52 transverse brush sheets, 53 air guide joints, 54 on-off air valves, 6 positioning seats, 7 double-shaft motors, 8 torque rotating shafts, 9 driving wheels, 10 driven wheels, 11 transmission belts, 12 supporting frames, 13 electric lifting rods, 14 transverse bearing plates, 15 transverse driving mechanisms, 151 transverse machine boxes, 152 transverse polish rods, 153 pushing threads, 154 limiting blocks, 155 ball nuts, 16 servo motors, 17 transverse movable through grooves, 18 auxiliary connecting rods, 19 auxiliary connecting mechanisms, 191 auxiliary bearing support cylinders, 192 auxiliary movable blocks, 193 auxiliary sliding grooves, 20 side clamping plates, 21 auxiliary clamping mechanisms, 211 pushing threaded rods, 212 star-shaped handles, 213 mounting seats, 214 mounting bearings, 215 connecting shafts, 22 low-speed motors, 23 circular clamping seats, 24 water inlet pipes, 25 water outlet pipes, 26 leading into the cover, 27 control panel.

Detailed Description

As shown in fig. 1 to 5, the present invention provides a technical solution: a using method of outer side wall descaling equipment for a cylindrical rolling pin comprises a machine body 1, two side partition plates 2, two positioning bearings 3, a transverse sleeve 4, an auxiliary positioning mechanism 5, a positioning seat 6, a double-shaft motor 7, two torque rotating shafts 8, two driving wheels 9, two driven wheels 10, two transmission belts 11, a support frame 12, two electric lifting rods 13, a transverse bearing plate 14, a transverse driving mechanism 15, a servo motor 16, a transverse movable through groove 17, two auxiliary connecting rods 18, two auxiliary connecting mechanisms 19, two side clamp plates 20, an auxiliary clamping mechanism 21, a low-speed motor 22, two circular clamping seats 23, a water inlet pipe 24, a water outlet pipe 25, a guide cover 26 and a control panel 27, wherein the two side partition plates 2 are symmetrically arranged at the bottom of the inner side of the machine body 1, a mechanism between the side partition plates 2 is isolated from the inner side of the machine body 1 to prevent water sources from entering between the two, two positioning bearings 3 are respectively arranged at the inner sides of the installation through holes of the two side clapboards 2, two ends of a transverse sleeve 4 respectively penetrate through bearing inner rings of the two positioning bearings 3, an auxiliary positioning mechanism 5 is arranged at the inner side of the transverse sleeve 4, a positioning seat 6 is arranged at the middle position of the bottom of the inner side of a machine body 1, a double-shaft motor 7 is arranged at the inner side of the positioning seat 6, two torque rotating shafts 8 are respectively connected with two output shafts of the double-shaft motor 7 through two couplings, two driving wheels 9 are respectively sleeved at the tail ends of the two torque rotating shafts 8, two driven wheels 10 are both sleeved on the transverse sleeve 4, two transmission belts 11 are respectively in transmission connection with the corresponding driven wheels 10 through the two driving wheels 9, the two driving wheels 9 are positioned between the two side clapboards 2 and are arranged in bilateral symmetry relative to the, the supporting frame 12 is positioned right above the machine body 1, the two electric lifting rods 13 are respectively and symmetrically arranged at the top of the inner side of the supporting frame 12 through bolts, the transverse bearing plate 14 is arranged between the tail ends of the two electric lifting rods 13, the electric lifting rods 13 adopt electric rods with larger lifting moment, the matching stability between the mechanisms is ensured, the transverse driving mechanism 15 is arranged on the upper surface of the transverse bearing plate 14, the servo motor 16 is connected with the transverse driving mechanism 15, the transverse movable through groove 17 is arranged on the bottom surface of the transverse bearing plate 14 and communicated with the transverse driving mechanism 15, the two auxiliary connecting rods 18 penetrate through the inner side of the transverse movable through groove 17 and are connected with the transverse driving mechanism 15, the two auxiliary connecting mechanisms 19 are respectively and symmetrically arranged on the lower surface of the transverse bearing plate 14, and the tail ends of the two auxiliary connecting rods 18 are respectively connected with, the transverse bearing plate 14 is positioned right above the machine body 1, the transverse length of the transverse bearing plate 14 is smaller than that of the inner side of the machine body 1, two auxiliary connecting mechanisms 19 on the transverse bearing plate 14 are arranged in bilateral symmetry relative to the center of the transverse bearing plate 14, two side clamping plates 20 are respectively connected with the bottoms of the two auxiliary connecting mechanisms 19, the side clamping plate 20 positioned on the left side is connected with an auxiliary clamping mechanism 21, a low-speed motor 22 is installed on the side clamping plate 20 positioned on the right side through bolts and is connected with a circular clamping seat 23, the low-speed motor 22 can adopt a low-speed waterproof motor with the rotating speed of 20r/min, the other circular clamping seat 23 is connected with the auxiliary clamping mechanism 21, the centers of the two circular clamping seats 23 are positioned on the same horizontal axis, the cross section of the inner side wall of the circular clamping seat 23 is circular, the surface of the inner side wall opposite to the two circular, the two side clamping plates 20 are arranged in bilateral symmetry about the center of the transverse bearing plate 14, the water inlet pipe 24 is arranged at a water guide opening of the machine body 1, the water outlet pipe 25 is arranged at a water discharge opening at the bottom of the machine body 1, the guide-in cover 26 is arranged at the inner side of a guide-in opening at the left side of the machine body 1, the control panel 27 is arranged at the right side surface of the machine body 1, the control panel 27 is electrically connected with the double-shaft motor 7, the electric lifting rod 13, the servo motor 16 and the low-speed motor 22, the control panel 27 can control the on-off and running states of the double-shaft motor 7, the electric lifting rod 13, the servo motor 16 and the low-speed motor 22.

The auxiliary positioning mechanism 5 comprises a hollow annular air bag 51, two transverse brush sheets 52, an air guide joint 53 and a switch air valve 54, the hollow annular air bag 51 is adhered to the inner side of the transverse sleeve 4, the two transverse brush sheets 52 are respectively and symmetrically connected to the inner side wall of the hollow annular air bag 51, the air guide joint 53 is installed at the air guide opening of the hollow annular air bag 51, penetrates through the inner side wall of the transverse sleeve 4, extends to the outer side of the transverse sleeve 4 and is connected with the switch air valve 54, the air guide joint 53 can be externally connected with a high-pressure air supply device, the length of the hollow annular air bag 51 is slightly smaller than the length of the transverse sleeve 4 by 1-3 cm, the outer side wall surface of the hollow annular air bag 51 is completely adhered and bonded with the inner side wall surface of the transverse sleeve 4, the hollow annular air bag 51 is made of soft rubber material, the thickness of the side edge of, the brush material on the lateral brush pieces 52 is a hard nylon brush.

The transverse driving mechanism 15 comprises a transverse case 151, a transverse polish rod 152, a propelling thread 153, two limit blocks 154 and two ball nuts 155, the transverse case 151 is arranged on the upper surface of the transverse bearing plate 14, the servo motor 16 is arranged on the right side surface of the transverse case 151 through bolts, the servo motor 16 adopts a low-speed positive and negative rotation servo motor with the rotating speed of 20r/min, an output shaft of the servo motor 16 penetrates through the right side surface of the transverse case 151 and is connected with the transverse polish rod 152 through a coupler, the transverse polish rod 152 is movably connected with the inner wall of the left side of the transverse case 151 through a bearing base, the transverse polish rod 152 is provided with the propelling thread 153 on the inner side part of the transverse case 151, two ends of the propelling thread 153 part of the transverse polish rod 152 are respectively connected with the two limit blocks 154, the limit moving positions of the two ball nuts 155 are, the bottom surface of the transverse case 151 is provided with a communicating pipe communicated with the transverse movable through groove 17, one ends of the two auxiliary connecting rods 18 are respectively connected with the bottoms of the two ball nuts 155, the auxiliary connecting rods 18 are L-shaped supporting rods, the two ball nuts 155 and the auxiliary connecting rods 18 are arranged in bilateral symmetry about the center of the transverse bearing plate 14, and the two limit blocks 154 on the transverse polish rod 152 are arranged in symmetry about the transverse polish rod 152.

The two auxiliary connecting mechanisms 19 comprise two auxiliary bearing support cylinders 191, two auxiliary movable blocks 192 and two auxiliary sliding grooves 193, the two auxiliary bearing support cylinders 191 are symmetrically arranged on two sides of the lower surface of the transverse bearing plate 14, the two auxiliary sliding grooves 193 are respectively arranged at the bottoms of the two auxiliary bearing support cylinders 191, the two auxiliary movable blocks 192 are respectively positioned on the inner sides of the two auxiliary bearing support cylinders 191 and are respectively connected with the two auxiliary connecting rods 18, the auxiliary movable blocks 192 can move left and right on the inner sides of the auxiliary bearing support cylinders 191, and the auxiliary connecting mechanisms 19 are arranged to perform auxiliary connecting support on mechanisms connected with the bottoms.

The auxiliary clamping mechanism 21 comprises a pushing threaded rod 211, a star-shaped handle 212, a mounting seat 213, a mounting bearing 214 and a connecting shaft 215, a fixed threaded ring is fixedly connected to a through hole in the side surface of the left side clamping plate 20, the pushing threaded rod 211 penetrates through an internal thread of the fixed threaded ring and a through hole of the side clamping plate 20 and is connected with the star-shaped handle 212, the other end of the pushing threaded rod 211 is connected with the mounting seat 213, the mounting bearing 214 is mounted on the inner side of the mounting seat 213, the connecting shaft 215 is fixedly inserted into a bearing inner ring of the mounting bearing 214, and the other end of the connecting shaft 215 is connected with the circular.

When the device is used, the leading-in cover 26 is opened, the cylindrical rolling pin is led into the inner side of the transverse sleeve 4 through the leading-in opening and is inserted into the transverse sleeve 4, then the high-pressure air guide device is externally connected through the air guide joint 53, the switch air valve 54 is opened to inflate the inner side of the hollow annular air bag 51, the inner side of the hollow annular air bag 51 is inflated and expanded, the inner side of the hollow annular air bag 51 is inserted and connected on the rolling pin to be extruded and expanded, so that the rolling pin is preliminarily positioned, then the electric lifting rod 13 is started through the control panel 27, so that the two electric lifting rods 13 push the transverse bearing plate 14, the two circular clamping seats 23 are displaced to two ends of the rolling pin, then the star-shaped handle 212 of the auxiliary clamping mechanism 21 rotates, so that the star-shaped handle 212 drives the pushing threaded rod 211 to rotate, the pushing threaded rod 211 pushes the mounting seats 213, so that the mounting seats 213 push the circular, the rolling pin is pushed by the inner side of the circular clamping seat 23 on the left side, so that the right end of the rolling pin is pushed to enter the inner side of the circular clamping seat 23 on the right side, the two ends of the rolling pin are clamped and positioned, the water inlet pipe 24 is externally connected with water supply equipment to supply water to the inner side of the machine body 1, the transverse sleeve 4 can be soaked, when the equipment runs, the transverse sleeve 4 rotates, the rolling pin on the inner side is clamped by the circular clamping seats 23 on the two sides, the control panel 27 starts the low-speed motor 22, the double-shaft motor 7 and the servo motor 16, two output shafts of the double-shaft motor 7 respectively drive the corresponding torque rotating shafts 8 to rotate through the couplers, the output shafts of the torque rotating shafts 8 drive the corresponding driven wheels 10 to synchronously rotate through the driving wheels 9 and the driving belts 11, so that the transverse sleeve 4 rotates, and the rolling pin on the inner side is clamped by the circular clamping seats 23, the transverse hairbrush sheets 52 on the inner side of the hollow annular air bag 51 can be used for carrying out overall contact repeated brushing on the surface of the rolling pin, the traditional brushing mode of the rolling pin is changed, the labor intensity of manual brushing is reduced, the output shaft of the low-speed motor 22 drives the circular clamping seat 23 on the right side to rotate, so that the rolling pin clamped by the two circular clamping seats 23 rotates, the circular clamping seat 23 on the left end of the rolling pin drives the connecting shaft 215 to rotate in a bearing inner ring provided with the bearing 214, the rolling pin in the transverse sleeve 4 is extruded and brushed by the hairbrushes of the transverse hairbrush sheets 52 in the hollow annular air bag 51, the rotating direction of the rolling pin is opposite to that of the transverse sleeve 4, the rolling pin and the hairbrushes of the transverse hairbrushes 52 move relatively, so that the surface of the rolling pin is brushed, the output shaft of the servo motor 16 drives the transverse polish rod 152 to rotate through the coupler, so that the two ball nuts 155 are pushed by the pushing thread 153 on the transverse polish rod 152, the two ball nuts 155 synchronously drive the corresponding auxiliary connecting rods 18 to move, the two auxiliary connecting rods 18 respectively drive the auxiliary movable blocks 192 in the auxiliary bearing support tubes 191 to move, so that the two auxiliary movable blocks 192 respectively drive the two side clamping plates 20 to move, so that the two circular clamping seats 23 drive the rolling pin clamped between the two circular clamping seats to move transversely, the rolling pin moves transversely along with the reverse rotation of the output shaft of the servo motor 16, the rolling pin performs the circulating movement of the transverse position due to the forward and reverse rotation change of the output shaft of the servo motor 16, the rolling pin moves leftwards and rightwards inside the hollow annular air bag 51, and the brushes on the transverse brush sheets 52 effectively brush dirt in the transverse groove gaps on the rolling pin repeatedly and effectively, and when the rolling pin is moved in a left-right circulation manner, the rolling pin is opposite to the rotating direction of the transverse sleeve 4, so that the inner sides of the clearance grooves with different angles on the rolling pin can be scrubbed by the brushes on the transverse brush pieces 52, the traditional rolling pin scrubbing mode is changed, the rolling pin is scrubbed more effectively, the residual quantity of dirt in the clearance of the grooves of the rolling pin is reduced, the cleaned water is discharged through the drain pipe 25, and the drain pipe 25 can be plugged when the rolling pin is cleaned.

Claims

1. A using method of descaling equipment for the outer side wall of a cylindrical rolling pin comprises a machine body (1), two side partition plates (2), two positioning bearings (3), a transverse sleeve (4), an auxiliary positioning mechanism (5), a positioning seat (6), a double-shaft motor (7), two torque rotating shafts (8), two driving wheels (9), two driven wheels (10), two transmission belts (11), a support frame (12), two electric lifting rods (13), a transverse bearing plate (14), a transverse driving mechanism (15), a servo motor (16), a transverse movable through groove (17), two auxiliary connecting rods (18), two auxiliary connecting mechanisms (19), two side clamping plates (20), an auxiliary clamping mechanism (21), a low-speed motor (22), two circular clamping seats (23), a water inlet pipe (24), a water outlet pipe (25), a leading-in cover (26) and a control panel (27), the method is characterized in that: the two side clapboards (2) are symmetrically arranged at the bottom of the inner side of the machine body (1), the two positioning bearings (3) are respectively arranged at the inner sides of the installation through holes of the two side clapboards (2), the two ends of the transverse sleeve (4) respectively penetrate through the bearing inner rings of the two positioning bearings (3), the auxiliary positioning mechanism (5) is arranged at the inner side of the transverse sleeve (4), the positioning seat (6) is arranged at the middle position of the bottom of the inner side of the machine body (1), the double-shaft motor (7) is arranged at the inner side of the positioning seat (6), the two torque rotating shafts (8) are respectively connected with the two output shafts of the double-shaft motor (7) through two couplers, the two driving wheels (9) are respectively sleeved at the tail ends of the two torque rotating shafts (8), the two driven wheels (10) are respectively sleeved on the transverse sleeve (4), and the two transmission belts (11) are respectively in, the supporting frame (12) is positioned right above the machine body (1), the two electric lifting rods (13) are respectively and symmetrically installed at the top of the inner side of the supporting frame (12) through bolts, the transverse bearing plate (14) is installed between the tail ends of the two electric lifting rods (13), the transverse driving mechanism (15) is installed on the upper surface of the transverse bearing plate (14), the servo motor (16) is connected with the transverse driving mechanism (15), the transverse movable through groove (17) is formed in the bottom surface of the transverse bearing plate (14) and communicated with the transverse driving mechanism (15), the two auxiliary connecting rods (18) penetrate through the inner side of the transverse movable through groove (17) and are connected with the transverse driving mechanism (15), the two auxiliary connecting mechanisms (19) are respectively and symmetrically installed on the lower surface of the transverse bearing plate (14), and the tail ends of the two auxiliary connecting rods (18) are respectively connected with the two auxiliary connecting mechanisms (19), the two side clamping plates (20) are respectively connected with the bottoms of the two auxiliary connecting mechanisms (19), the side clamping plate (20) positioned on the left side is connected with the auxiliary clamping mechanism (21), the low-speed motor (22) is installed on the side clamping plate (20) positioned on the right side through bolts and is connected with one circular clamping seat (23), the other circular clamping seat (23) is connected with the auxiliary clamping mechanism (21), the water inlet pipe (24) is arranged at a water guide opening of the machine body (1), the water discharge pipe (25) is arranged at a water discharge opening at the bottom of the machine body (1), the guide cover (26) is arranged on the inner side of the guide opening on the left side of the machine body (1), and the control panel (27) is arranged on the right side surface of the machine body (1; the auxiliary positioning mechanism (5) comprises a hollow annular air bag (51), two transverse brush sheets (52), an air guide joint (53) and a switch air valve (54), the hollow annular air bag (51) is adhered to the inner side of the transverse sleeve (4), the two transverse brush sheets (52) are respectively and symmetrically connected to the inner side wall of the hollow annular air bag (51), the air guide joint (53) is installed at the air guide opening of the hollow annular air bag (51) and penetrates through the inner side wall of the transverse sleeve (4) to extend to the outer side of the transverse sleeve (4) and is connected with the switch air valve (54), the transverse driving mechanism (15) comprises a transverse case (151), a transverse polish rod (152), a propelling thread (153), two limiting blocks (154) and two ball nuts (155), the transverse case (151) is installed on the upper surface of a transverse bearing plate (14), and a servo motor (16) is installed on the right side surface of the transverse case (, an output shaft of the servo motor (16) penetrates through the right side face of the transverse case (151) and is connected with the transverse polish rod (152) through a coupler, the transverse polish rod (152) is movably connected to the inner wall of the left side of the transverse case (151) through a bearing base, the transverse polish rod (152) is provided with a pushing thread (153) on the inner side portion of the transverse case (151), two ends of the pushing thread (153) portion of the transverse polish rod (152) are respectively connected with two limiting blocks (154), two ball nuts (155) are both sleeved on the pushing thread (153), the bottom surface of the transverse case (151) is provided with a connecting through pipe communicated with the transverse movable through groove (17), and one ends of two auxiliary connecting rods (18) are respectively connected with the bottoms of the two ball nuts (155); the two auxiliary connecting mechanisms (19) comprise two auxiliary bearing support cylinders (191), two auxiliary movable blocks (192) and two auxiliary sliding grooves (193), the two auxiliary bearing support cylinders (191) are symmetrically arranged on two sides of the lower surface of the transverse bearing plate (14), the two auxiliary sliding grooves (193) are respectively formed in the bottoms of the two auxiliary bearing support cylinders (191), and the two auxiliary movable blocks (192) are respectively positioned on the inner sides of the two auxiliary bearing support cylinders (191) and are respectively connected with the two auxiliary connecting rods (18); the auxiliary clamping mechanism (21) comprises a pushing threaded rod (211), a star-shaped handle (212), a mounting seat (213), a mounting bearing (214) and a connecting shaft (215), a fixed threaded ring is fixedly connected to a through hole in the side surface of the left side clamping plate (20), the pushing threaded rod (211) penetrates through the internal thread of the fixed threaded ring and the through hole of the side clamping plate (20) and is connected with the star-shaped handle (212), the other end of the pushing threaded rod (211) is connected with the mounting seat (213), the mounting bearing (214) is mounted on the inner side of the mounting seat (213), the connecting shaft (215) is fixedly inserted into a bearing inner ring of the mounting bearing (214), and the other end of the connecting shaft (215) is connected with the circular clamping seat (23);

the control panel (27) is electrically connected with the double-shaft motor (7), the electric lifting rod (13), the servo motor (16) and the low-speed motor (22), the control panel (27) can control the on-off and running states of the double-shaft motor (7), the electric lifting rod (13), the servo motor (16) and the low-speed motor (22), and the two electric lifting rods (13) are in synchronous running states;

the transverse bearing plate (14) is positioned right above the machine body (1), the transverse length of the transverse bearing plate (14) is smaller than that of the inner side of the machine body (1), and two auxiliary connecting mechanisms (19) on the transverse bearing plate (14) are arranged in bilateral symmetry about the center of the transverse bearing plate (14);

the auxiliary connecting rod (18) is in an L-shaped support rod, the two ball nuts (155) and the auxiliary connecting rod (18) are arranged in a left-right symmetrical mode about the center of the transverse bearing plate (14), and the two limiting blocks (154) on the transverse polish rod (152) are arranged in a symmetrical mode about the transverse polish rod (152);

the two driving wheels (9) are positioned between the two side partition plates (2) and are arranged in bilateral symmetry about the center of the transverse sleeve (4), and the two driven wheels (10) are respectively positioned right above the corresponding driving wheels (9);

the centers of the two circular clamping seats (23) are positioned on the same horizontal axis, the cross section of the inner side wall of each circular clamping seat (23) is circular, the surfaces of the inner side walls, opposite to each other, of the two circular clamping seats (23) are rough surfaces, and the two side clamping plates (20) are arranged in a left-right symmetrical mode relative to the center of the transverse bearing plate (14);

the length of the hollow annular air bag (51) is slightly less than that of the transverse sleeve (4) by 1-3 cm, the outer side wall surface of the hollow annular air bag (51) is completely attached and bonded with the inner side wall surface of the transverse sleeve (4), the hollow annular air bag (51) is made of soft rubber materials, the side thickness of the hollow annular air bag (51) is 2-3 mm, the transverse length of the transverse hairbrush sheet (52) is equal to that of the hollow annular air bag (51), and the hairbrush material on the transverse hairbrush sheet (52) is a hard nylon brush;

when the novel rolling pin is used, the guide-in cover (26) is opened, the cylindrical rolling pin is guided into the inner side of the transverse sleeve (4) through the guide-in opening and penetrates through the transverse sleeve (4), then the high-pressure air guide device is externally connected with the air guide joint (53), the switch air valve (54) is opened to inflate the inner side of the hollow annular air bag (51), the inner side of the hollow annular air bag (51) is inflated and expanded, the inner side of the hollow annular air bag is inserted and connected on the rolling pin to be extruded and expanded, so that the rolling pin is initially positioned, then the electric lifting rod (13) is started through the control panel (27), so that the two electric lifting rods (13) push the transverse bearing plate (14), the two circular clamping seats (23) are displaced to the two ends of the rolling pin, then the star-shaped handle (212) of the auxiliary clamping mechanism (21) rotates, so that the star-shaped handle (212) drives the propelling, the push threaded rod (211) pushes the mounting seat (213), so that the mounting seat (213) pushes the circular clamping seat (23) through the connecting shaft (215), the inner side of the circular clamping seat (23) on the left side pushes the rolling pin, the right end of the rolling pin is pushed to enter the inner side of the circular clamping seat (23) on the right side, so that two ends of the rolling pin are clamped and positioned, the water inlet pipe (24) is externally connected with water supply equipment to supply water to the inner side of the machine body (1), the transverse sleeve (4) can be soaked, the control panel (27) starts the low-speed motor (22), the double-shaft motor (7) and the servo motor (16), two output shafts of the double-shaft motor (7) respectively drive the corresponding torque rotating shafts (8) to rotate through the couplers, so that the output shafts of the torque rotating shafts (8) drive the corresponding driven wheels (10) to synchronously rotate through the driving wheels (9) and the driving belt (11), thereby enabling the transverse sleeve (4) to rotate, the rolling pin at the inner side is clamped by the circular clamping seats (23) at the two sides, the transverse brush sheets (52) at the inner side of the hollow annular air bag (51) can be used for carrying out overall contact repeated brushing on the surface of the rolling pin, the traditional brushing mode of the rolling pin is changed, the labor intensity of manual brushing is reduced, the output shaft of the low-speed motor (22) drives the circular clamping seats (23) at the right side to rotate, so that the rolling pin clamped by the two circular clamping seats (23) can be rotated, the circular clamping seat (23) at the left end of the rolling pin drives the connecting shaft (215) to rotate at the bearing inner ring provided with the bearing (214), the rolling pin positioned in the transverse sleeve (4) is extruded and brushed by the brushes of the transverse brush sheets (52) in the hollow annular air bag (51), and the rotating direction of the rolling pin is opposite to the rotating direction of the transverse sleeve (4), the brushes of the rolling pin and the transverse brush sheets (52) move relatively, so that the surface of the rolling pin is scrubbed, the output shaft of the servo motor (16) drives the transverse polish rod (152) to rotate through a coupler, the propelling screw thread (153) on the transverse polish rod (152) pushes the two ball nuts (155), the two ball nuts (155) synchronously drive the corresponding auxiliary connecting rods (18) to move, the two auxiliary connecting rods (18) respectively drive the auxiliary movable blocks (192) in the auxiliary bearing support cylinders (191) to move, so that the two auxiliary movable blocks (192) respectively drive the two side clamping plates (20) to move, the two circular clamping seats (23) drive the rolling pin clamped between the two circular clamping seats to move transversely, and the rolling pin moves reversely along with the reverse rotation of the output shaft of the servo motor (16), the change that servo motor's (16) output shaft is just reversing makes the rolling pin carry out the circulation activity of transverse position, the rolling pin is controlled the activity about the inboard of hollow annular gasbag (51), make the effectual dirt to in the horizontal groove clearance on the rolling pin of brush on the horizontal brush piece (52) carry out effectual brushing off repeatedly, and in the circulation activity about the rolling pin, the rolling pin is still opposite with the direction of rotation of horizontal sleeve pipe (4), make the brush on the horizontal brush piece (52) can scrub the clearance recess inboard of different angles on the rolling pin, traditional rolling pin scrubbing mode has been changed, more effectual scrubbing the rolling pin, reduce the volume of remaining of dirt in the rolling pin recess clearance, the water after the washing is discharged through drain pipe (25), can block drain pipe (25) when wasing.