CN210553970U - Automatic wheel optimizing machine - Google Patents

Automatic wheel optimizing machine Download PDF

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Publication number
CN210553970U
CN210553970U CN201921696618.0U CN201921696618U CN210553970U CN 210553970 U CN210553970 U CN 210553970U CN 201921696618 U CN201921696618 U CN 201921696618U CN 210553970 U CN210553970 U CN 210553970U
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CN
China
Prior art keywords
cover plate
wheel
optimizer
frustum
automatic wheel
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Application number
CN201921696618.0U
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Chinese (zh)
Inventor
裴庆军
高佳龙
宫耀旺
刘洪波
刘佳杨
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Jinzhou Wonder Machinery Equipment Co ltd
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Jinzhou Wonder Machinery Equipment Co ltd
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Priority to CN201921696618.0U priority Critical patent/CN210553970U/en
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Abstract

The utility model discloses an automatic optimization machine of wheel, include: a cover plate; the upper detection positioning mechanism is arranged above the cover plate; a sliding device disposed under the cover plate; the tops of the pressure frames are detachably connected with the sliding devices, and the sliding devices can drive the pressure frames to slide between the outer side and the inner side of the cover plate; a plurality of pressing wheels rotatably supported within the pressing frame; the body is positioned below the pressure applying frame, is fixedly connected with the cover plate and can support the cover plate. The assembly and the fitting performance of the tire and the rim are optimized through the automatic wheel optimizing machine, so that the tire and the rim are tightly combined, and the driving stability of the wheel on the road surface is improved.

Description

Automatic wheel optimizing machine
Technical Field
The utility model relates to an automatic optimization equipment field of wheel especially relates to an automatic optimization machine of wheel.
Background
With the increase of the number of automobiles, the safety problem of automobiles draws high attention from all social circles. The wheels run on various road surfaces for a long time, and various performances of the wheels are concerned. The prior art has the problems of long optimization time, poor adhesion between the optimized tire and the rim, poor long-term running stability of the wheel and the like.
SUMMERY OF THE UTILITY MODEL
The utility model relates to a developed a wheel automatic optimization machine, driven the extrusion wheel through slider, carry out the application of dummy load at the tire tread, ensured to combine closely between tire and the rim, avoided aerifing the back tire resilience not in place, optimization time is short, optimization effect is good.
The utility model provides a technical scheme does:
an automatic wheel optimizer comprising:
a cover plate;
the upper detection positioning mechanism is arranged above the cover plate;
a sliding device disposed under the cover plate;
the tops of the plurality of pressing frames are detachably connected with the sliding devices;
the sliding device can drive the pressure frame to slide between the outer side and the inner side of the cover plate;
a plurality of pressing wheels rotatably supported within the pressing frame;
the body is positioned below the pressure applying frame, is fixedly connected with the cover plate and can support the cover plate.
Preferably, the sliding device includes:
a pulley fixed to the cover plate and having external teeth;
a slide rail having internal teeth engageable with the external teeth;
the sliding rail is provided with main teeth, the pressure frame is provided with auxiliary teeth, and the main teeth and the auxiliary teeth can be mutually occluded and fixed; and
the pulley can drive the slide rail to move, so that the pressure applying frame is driven to slide along the slide rail.
Preferably, the automatic wheel optimizing machine further comprises a driving motor for driving the pulley.
Preferably, the pressing wheel includes:
a central shaft rotatably supported within the pressure frame;
a cylinder fixedly sleeved on the central shaft, coaxially arranged with the central shaft, and capable of rotating along with the central shaft;
wherein, adjacent barrel installation direction is opposite in a plurality of extrusion wheels.
Preferably, the cartridge comprises:
a frustum portion which is a truncated cone;
the frustum bottom is cylindrical, the diameter of the cross section of the frustum bottom is the same as that of the cone bottom of the frustum part, and one end of the frustum bottom is integrally connected with the cone bottom of the frustum part;
the cylindrical part is cylindrical, and one end of the cylindrical part is integrally connected with the top surface of the frustum part; and
a boss portion having a cylindrical shape, the boss portion integrally connecting the other end of the cylindrical portion;
wherein the diameter of the bottom surface of the frustum portion is different from the diameter of the cross section of the boss portion.
Preferably, the body comprises:
the surface of the operating platform is provided with a plurality of holes;
the middle of the supporting column is fixed at four corners of the operating platform, and the upper part of the supporting column is detachably connected with the cover plate.
Preferably, the automatic wheel optimizer further comprises a fixing pin detachably arranged below the cover plate.
Preferably, the automatic wheel optimizing machine further comprises a lower detection positioning mechanism which is detachably arranged on the lower portion of the machine body and can detect and position the wheels.
Preferably, the wheel automatic optimization machine further includes a roller conveyor, which is disposed at one side of the machine body, and the roller conveyor includes:
a plurality of rollers, which are cylindrical;
the conveying belt is sequentially sleeved with the plurality of rollers;
the conveying motor is connected with the roller and is used for driving the roller to rotate;
and the conveying stopping machine is arranged at one end of the roller.
Preferably, the automatic wheel optimizing machine further includes a supporting structure located below the operation table, and the supporting structure includes:
the supporting plate is a square plate;
the two ends of the fixed rod are detachably connected with the supporting plate;
one end of the telescopic supporting rod is supported in the middle of the fixing rod;
and the hydraulic machine is arranged at the lower part of the machine body, is detachably connected with the other end of the telescopic supporting rod and is used for driving the telescopic supporting rod.
Beneficial effect:
the utility model provides an automatic optimization machine of wheel can optimize the assembly laminating nature of tire and rim, ensures to combine closely between tire and the rim, improves the stability that the wheel traveles on the road surface. Meanwhile, the automation degree of the equipment is high, and the wheel optimization time is reduced.
Drawings
Fig. 1 is a front view of the automatic wheel optimizing machine according to the present invention.
Fig. 2 is a left side view of the automatic wheel optimizing machine according to the present invention.
Fig. 3 is a top view of the automatic wheel optimizing machine according to the present invention.
Fig. 4 is a schematic structural diagram of the extrusion wheel of the present invention.
Detailed Description
The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.
As shown in fig. 1-4, the utility model provides an automatic wheel optimizer, the main structure of which comprises an optimizing structure, a positioning device, a supporting structure, a conveying device and a supporting structure;
the method specifically comprises the following steps:
the upper detection positioning mechanism 150 is detachably fixed above the cover plate 110 by bolts and functions to detect the size of the wheel to be optimized, thereby positioning the pressing wheel 140 by the sliding device 120.
The sliding device 120 includes: a slide rail 121, a pulley 122, a driving motor 123 and a main tooth 124; wherein, the pulley 122 is fixed below the cover plate 110 in a suspension way, and the pulley 122 is provided with external teeth; the sliding rail 121 is sleeved outside the pulley 122 and can be meshed with the external teeth of the pulley 122; the slide rail 121 is further provided with a main tooth 124, and the pressing frame 130 is provided with an auxiliary tooth 131, wherein the main tooth 124 and the auxiliary tooth 131 can be engaged and fixed with each other to drive the pressing frame 130 to slide along the slide rail 121.
As shown in fig. 4, the pressing wheel 140 is rotatably supported in the pressing frame 130, and the main structure includes: a center shaft 141 rotatably supported in the pressure frame 130; a cylinder 142 fixedly fitted to the center shaft 141; the cylinder 142 is coaxial with the central axis 141 and is rotatable with the central axis 141.
The cylinder 142 includes: a frustum portion 142b which is a truncated cone; the frustum bottom 142a is cylindrical, the diameter of the cross section of the frustum bottom 142a is the same as that of the frustum bottom of the frustum portion 142b, and one end of the frustum bottom 142a is integrally connected with the frustum bottom; a cylindrical portion 142c having a cylindrical shape, one end of the cylindrical portion 142c being integrally connected to a top surface of the frustum portion 142 b; a boss portion 142d having a cylindrical shape integrally connected to the other end of the cylindrical portion 142 c; wherein, the diameter of the bottom surface of the frustum part 142b is different from the diameter of the cross section of the boss part 142 d; the adjacent cylinders 142 are mounted in opposite directions and act to apply pressure in opposite directions to the wheels to stabilize the wheels during the optimization process.
In another embodiment, the body 100 is composed of an operation table 101 and a support column 102; the operating table 101 is of a flat structure, the surface of the operating table is provided with a plurality of holes which are used for the supporting plate 181 to shuttle up and down, and the holes are used for the supporting plate 181 to shuttle up and down; and a detecting hole for detecting and positioning the tire by the lower detecting mechanism 160; the middle part of the supporting column 102 is welded with four corners of the console 101, the upper part of the supporting column 102 is fixed with the cover plate 110, and the supporting column 102 is used for supporting the console 101 and the cover plate 110.
In another embodiment, a fixing pin 170 is fastened under the cover plate 110 by a bolt for fixing the wheel.
In another embodiment, the lower detecting and positioning mechanism 160 is detachably disposed at the lower portion of the machine body 100 and corresponds to the position of the fixing pin 170, and when the wheel is detected, if the lower detecting and positioning mechanism 160 can pass through the hub center of the tire to be optimized, the positioning is completed. If the lower test fixture 160 cannot pass through the hub center of the tire to be optimized, the wheel position is adjusted and repositioned.
In another embodiment, the rollgang 190 comprises: a plurality of cylindrical rollers 191; the annular conveyer belt 192 is sequentially sleeved with the rollers 191 and can rotate along with the rollers 191; the conveying motor 193 is connected with the roller 191 and can drive the roller 191 to rotate; the stopper 194 is provided at one end of the roller 191 and can apply resistance to the roller 191.
In another embodiment, the stand-off structure 180 includes: the supporting plate 181 is a square plate; a fixing rod 182, both ends of which are screwed with the supporting plates 181; a telescopic support bar 183 having one end supported at the middle of the fixing bar 182; the hydraulic machine 184 is disposed at the other end of the telescopic support rod 183 and is capable of driving the telescopic support rod 183.
The utility model discloses a working process as follows:
firstly, conveying wheels to be optimized to one side of a machine body 100 through a conveying roller way 190, and moving the wheels to be optimized to a machine body operation table 101 by an operator;
secondly, after the lower detection positioning mechanism 160 detects the wheel, the center of the wheel is accurately positioned;
after positioning, the wheel to be optimized is supported by the supporting mechanism 180, and after the central hole of the hub is fixed by the fixing pin 170, the supporting mechanism 180 retracts;
fourthly, the upper detection positioning mechanism 150 identifies the type of the wheel through detection, positions the position of the extrusion wheel 140 through the sliding device 120, rotates the extrusion wheel 140, applies a simulation load to the tread of the tire, and performs extrusion optimization on the wheel, so that the assembly and the fitting performance of the tire and the rim are better;
and step five, lowering the optimized wheel to the operating platform 101 through the supporting mechanism 180, and conveying the wheel to the next station through the conveying roller way 190.
As above, through the utility model discloses the optimization that goes on tire and rim assembly laminating nature has the effect that improves the stability that the wheel goes on the road surface, and optimization process automation degree is high simultaneously, can effectual reduction wheel optimization time.
While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (10)

1. An automatic wheel optimizer, comprising:
a cover plate;
the upper detection positioning mechanism is arranged above the cover plate;
a sliding device disposed under the cover plate;
the tops of the plurality of pressing frames are detachably connected with the sliding devices;
the sliding device can drive the pressure frame to slide between the outer side and the inner side of the cover plate;
a plurality of pressing wheels rotatably supported within the pressing frame;
the body is positioned below the pressure applying frame, is fixedly connected with the cover plate and can support the cover plate.
2. The automatic wheel optimizer according to claim 1, wherein the sliding device comprises:
a pulley detachably fixed to the cover plate and having external teeth;
a slide rail having internal teeth engageable with the external teeth;
the sliding rail is provided with main teeth, the pressure applying frame is provided with auxiliary teeth, and the main teeth and the auxiliary teeth can be mutually meshed and fixed; and
the pulley can drive the slide rail to move, so that the pressure applying frame is driven to slide along the slide rail.
3. The automatic wheel optimizer of claim 2, further comprising:
a driving motor for driving the pulley.
4. The automated wheel optimizer of claim 1, wherein the squeeze wheel comprises:
a central shaft rotatably supported within the pressure frame;
a cylinder fixedly sleeved on the central shaft, coaxially arranged with the central shaft, and capable of rotating along with the central shaft;
wherein, adjacent barrel installation direction is opposite in a plurality of extrusion wheels.
5. The automatic wheel optimizer of claim 4, wherein the barrel comprises:
a frustum portion which is a truncated cone;
the frustum bottom is cylindrical, the diameter of the cross section of the frustum bottom is the same as that of the cone bottom of the frustum part, and one end of the frustum bottom is integrally connected with the cone bottom;
a cylindrical portion having a cylindrical shape, one end of the cylindrical portion being integrally connected to a top surface of the frustum portion; and
a boss portion having a cylindrical shape, the boss portion integrally connecting the other end of the cylindrical portion;
wherein a bottom surface diameter of the frustum portion is different from a cross-sectional diameter of the boss portion.
6. The automatic wheel optimizer of claim 1, wherein the body comprises:
the surface of the operating platform is provided with a plurality of holes;
the middle of the supporting column is fixed at four corners of the operating platform, and the upper part of the supporting column is detachably connected with the cover plate.
7. The automatic wheel optimizer of claim 1, further comprising:
the fixed pin, it can dismantle and establish the apron below.
8. The automatic wheel optimizer of claim 1, further comprising:
and the lower detection positioning mechanism is detachably arranged on the lower part of the machine body and can detect and position the wheels.
9. The automatic wheel optimizer of claim 1, further comprising:
a rollgang disposed on one side of the machine body, the rollgang comprising:
a plurality of rollers, which are cylindrical;
the conveying belt is sequentially sleeved with the rollers and can rotate along with the rollers;
the conveying motor is connected with the roller and is used for driving the roller to rotate;
and the conveying stopping machine is arranged at one end of the roller.
10. The automatic wheel optimizer of claim 6, further comprising:
a holding structure located below the operation table, and the holding structure includes:
the supporting plate is a square plate;
the two ends of the fixed rod are detachably connected with the supporting plate;
one end of the telescopic supporting rod is supported in the middle of the fixing rod;
and the hydraulic machine is arranged at the lower part of the machine body, is detachably connected with the other end of the telescopic supporting rod and is used for driving the telescopic supporting rod.
CN201921696618.0U 2019-10-11 2019-10-11 Automatic wheel optimizing machine Active CN210553970U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921696618.0U CN210553970U (en) 2019-10-11 2019-10-11 Automatic wheel optimizing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921696618.0U CN210553970U (en) 2019-10-11 2019-10-11 Automatic wheel optimizing machine

Publications (1)

Publication Number Publication Date
CN210553970U true CN210553970U (en) 2020-05-19

Family

ID=70675374

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921696618.0U Active CN210553970U (en) 2019-10-11 2019-10-11 Automatic wheel optimizing machine

Country Status (1)

Country Link
CN (1) CN210553970U (en)

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