WHEEL MOUNTING DEVICE

Abstract

The present application discloses an improved wheel mounting device. A support is fixed on a base, a flange positioning plate is fixed on the support, a sliding sleeve is fixed on the flange positioning plate, a sleeve is fixed with the sliding sleeve, a strut slides in the sleeve and a movable pin, the strut passes through the sleeve via a screw, the sleeve is tightened together with the strut, a spring I is put in the sleeve and the strut to adjust the vertical position of the strut, the movable pin moves up and down in the sliding sleeve, a spring II is put in the movable pin and the sleeve to adjust the vertical position of the movable pin.

Claims

1. An improved wheel mounting device comprising a base, a support, screws, first springs, sleeves, a flange positioning plate, sliding sleeves, second springs, movable pins, struts, a pressure cylinder, a connecting plate, guide posts, upper guide post flanges, a connector, lower guide post flanges and a pressure plate, wherein the support is fixed on the base, the flange positioning plate is fixed on the support, the sliding sleeve is fixed on the flange positioning plate, the sleeve is fixed with the sliding sleeve, the strut slides in the sleeve and the movable pin, the strut passes through the sleeve via the screw, the sleeve is tightened together with the strut, each of the first springs is put in the sleeve and the strut to adjust the vertical position of the strut, the movable pin moves up and down in the sliding sleeve, each of the second springs is put in the movable pin and the sliding sleeve to adjust the vertical position of the movable pin, the upper guide post flanges are fixed on the base, the guide posts pass through the upper guide post flanges and are fixed on the pressure plate together with the lower guide post flanges, the pressure cylinder and the connecting plate are fixed on the base, a pressure cylinder rod is in threaded connection with the connector, and the connector is fixed on the pressure plate.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0010] FIG. 1 is a structural schematic diagram of an improved wheel mounting device of the present application.

[0011] FIG. 2 is a top view of the improved wheel mounting device of the present application.

[0012] FIG. 3 is a structural schematic diagram when the improved wheel mounting device of the present application works.

[0013] In figures: 1base, 2support, 3screw, 4spring I, 5sleeve, 6flange positioning plate, 7sliding sleeve, 8spring II, 9movable pin, 10strut, 11pressure cylinder, 12connecting plate, 13guide post, 14upper guide post flange, 15connector, 16lower guide post flange, 17pressure plate.

DETAILED DESCRIPTION OF THE INVENTION

[0014] The details and working conditions of the specific device provided by the present application will be described below in combination with the accompanying drawings.

[0015] An improved wheel mounting device is composed of a base 1, a support 2, screws 3, springs I 4, sleeves 5, a flange positioning plate 6, sliding sleeves 7, springs II 8, movable pins 9, struts 10, a pressure cylinder 11, a connecting plate 12, guide posts 13, upper guide post flanges 14, a connector 15, lower guide post flanges 16 and a pressure plate 17. The support 2 is fixed on the base 1 by welding, the flange positioning plate 6 is fixed on the support 2 via six bolts, the sliding sleeve 7 is fixed on the flange positioning plate 6 via bolts, the sleeve 5 is fixed with the sliding sleeve 7 via bolts, the strut 10 slides in the sleeve 5 and the movable pin 9, the strut 10 passes through the sleeve 5 via the screw 3 and the sleeve 5 is tightened together with the strut 10, the spring I 4 is put in the sleeve 5 and the strut 10 to adjust the vertical position of the strut 10, the movable pin 9 slides up and down in the sliding sleeve 7, the spring II 8 is put in the movable pin 9 and the sliding sleeve 7 to adjust the vertical position of the movable pin 9, the upper guide post flanges 14 are fixed on the base 1 via bolts, the guide posts 13 pass through the upper guide post flanges 14 and are fixed on the pressure plate 17 together with the lower guide post flanges 16 via bolts, the pressure cylinder 11 and the connecting plate 12 are fixed on the base 1 by using bolts, a pressure cylinder rod is in threaded connection with the connector 15, and the connector 15 is fixed on the pressure plate 17 via a bolt.

[0016] In the working process, a lower flange plate is put on the upper surface of the movable pin 9, the upper surface of the lower flange plate is coated with a special bonding compound, then bolt holes of a carbon fiber wheel base body are aligned with the guide posts 13 and the movable pin 9, the carbon fiber wheel base body is put on the lower flange plate, and the lower surface of an upper flange plate is coated with the special bonding compound and aligned with the bolt holes of the carbon fiber wheel base body.

[0017] When the upper flange plate is aligned with the bolt holes of the carbon fiber wheel base body, the cylinder rod of the pressure cylinder 11 moves down and drives the connector 15 and the pressure plate 17 to move, the guide posts 13 move up and down in the upper guide post flanges 14 and the lower guide post flanges 16 to achieve a guiding effect, and the pressure plate 17 moving down presses the upper flange plate to gradually press bosses at the bolt holes of the upper flange plate into the carbon fiber wheel base body; the strut 10 begins moving down under pressure, then when the spring I 4 is in a maximum pressed state, the head of the strut 10 presses the movable pin 9 and pushes the movable pin 9 to move down, till the movable pin 9 is separated from the lower flange plate, the lower flange plate contacts the flange positioning plate 6, and the lower flange plate at the moment has arrived at the limit position; the pressure plate 17 continuously presses down, the bosses of the upper flange plate have been pressed into the carbon fiber wheel base body at the moment, then when the pressure reaches a certain value, the pressure value is kept for certain time, and bonding and interference fit between the carbon fiber wheel and the upper and lower flange plates are thus completed. Then, the pressure cylinder 11 is depressurized, the pressure plate moves up to the original position, and the mounting procedure of the carbon fiber wheel is finally realized.

[0018] The foregoing descriptions of specific exemplary embodiments of the present application have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teachings. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and their practical application, to thereby enable others skilled in the art to make and utilize various exemplary embodiments of the present application, as well as various alternatives and modifications thereof. It is intended that the scope of the invention be defined by the Claims appended hereto and their equivalents.