CN219256969U - Auxiliary tyre pressing device - Google Patents

Abstract

The utility model belongs to the technical field of tire mounting equipment, in particular to an auxiliary tire pressing device which comprises a stand column, wherein a horizontal moving seat capable of sliding horizontally relative to the stand column is arranged on the stand column, a vertical moving seat capable of sliding vertically relative to the stand column is arranged on the horizontal moving seat, an axial tire pressing support capable of sliding vertically relative to the vertical moving seat is arranged on the vertical moving seat, and a tire pressing angle plate capable of abutting against the upper end face of a tire and an outer annular wall is arranged on the axial tire pressing support. According to the utility model, the horizontal moving seat can drive the tire pressing angle plate to horizontally move, the vertical moving seat can drive the tire pressing angle plate to vertically move, in actual operation, the horizontal and vertical positions of the tire pressing angle plate are adjusted according to the specification and the size of an actual tire, then the tire pressing angle plate is driven by the axial tire pressing bracket to press the tire, the tire is manually pressed, and the pressing position of the tire pressing angle plate can be horizontally and vertically adjusted so as to be suitable for tires with different specifications and sizes.

Description

Auxiliary tyre pressing device

Technical field:

the utility model belongs to the technical field of tire mounting equipment, and particularly relates to an auxiliary tire pressing device.

The background technology is as follows:

in the process of mounting or dismounting the tire, the lip part of the tire needs to be firstly pressed down to the bottom of the tire groove of the hub, so that the rest part of the lip part of the tire can be guided into or out of the tire groove of the hub by means of a tire mounting tool, and the tire can be mounted and dismounted correctly. If not pressed into the groove bottom of the tire groove, damage to the tire lip may result. However, because the tires with different specifications have different strengths, the process of pressing the lip edges of the tires to the bottoms of the tire grooves of the hubs by using the artificial arms is limited to the tires with smaller specifications and sizes, and the manual pressing of the tires with larger specifications and sizes is very difficult and laborious, so that the tires with larger specifications and sizes are more precisely limited.

The utility model comprises the following steps:

the utility model aims to provide an auxiliary tire pressing device which does not need to manually press tires, can horizontally and vertically adjust the pressing position of a tire pressing angle plate, and is suitable for tires with different specifications and sizes.

The utility model is realized in the following way:

the auxiliary tire pressing device comprises a stand column, wherein a horizontal moving seat capable of sliding horizontally relative to the stand column is arranged on the stand column, a vertical moving seat capable of sliding vertically relative to the stand column is arranged on the horizontal moving seat, an axial tire pressing support capable of sliding vertically relative to the vertical moving seat is arranged on the vertical moving seat, and a tire pressing angle plate capable of being abutted against the upper end face of a tire and the outer annular wall is arranged on the axial tire pressing support.

In the auxiliary tire pressing device, a plurality of parallel horizontal guide rods or/and horizontal sliding rails are arranged on the upright posts along the horizontal direction, the horizontal moving seat is connected to the horizontal guide rods or/and the horizontal sliding rails in a sliding mode, a horizontal power source fixed on the upright posts is in transmission connection with the horizontal moving seat, and the horizontal power source drives the horizontal moving seat to move horizontally.

In the auxiliary tire pressing device, the horizontal power source is a horizontal servo motor, the upright post is horizontally connected with a horizontal screw rod in a rotating mode, one end of the horizontal screw rod is linked with an output shaft of the horizontal servo motor through a coupler, and the horizontal moving seat is provided with a horizontal nut which is in threaded connection with the horizontal screw rod.

In the auxiliary tire pressing device, the horizontal moving seat is slidably connected to the horizontal sliding rail through the sliding block, the horizontal moving seat is connected with the nut seat through the floating joint, the nut seat is slidably connected to the horizontal guide rod through the sliding sleeve, and the horizontal nut is fixed to the nut seat.

In the above-mentioned auxiliary tire pressing device, a plurality of parallel vertical sliding rails I are vertically arranged on the horizontal moving seat, the vertical moving seat is connected to the vertical sliding rails I through sliding blocks in a sliding manner, a vertical power source fixed on the horizontal moving seat is in transmission connection with the vertical moving seat, and the vertical power source drives the vertical moving seat to move vertically.

In the auxiliary tire pressing device, the vertical power source is a vertical servo motor, the horizontal moving seat is vertically rotationally connected with a vertical screw rod, one end of the vertical screw rod is linked with an output shaft of the vertical servo motor through a coupler, and the vertical moving seat is provided with a vertical nut which is in threaded connection with the vertical screw rod.

In the auxiliary tire pressing device, the second vertical sliding rail is vertically arranged on the axial tire pressing support, the vertical moving seat is connected to the second vertical sliding rail through the sliding block in a sliding mode, the telescopic end of the vertical cylinder fixed to the vertical moving seat is connected with the axial tire pressing support, and the vertical cylinder drives the axial tire pressing support and the tire pressing corner plate to vertically move.

In the auxiliary tire pressing device, the tire pressing angle plates are respectively abutted against the upper end face of the tire and the side walls on the outer annular wall, and tire pressing base plates are respectively arranged on the side walls.

Compared with the prior art, the utility model has the outstanding advantages that:

according to the utility model, the horizontal moving seat can drive the tire pressing angle plate to horizontally move, the vertical moving seat can drive the tire pressing angle plate to vertically move, in actual operation, the horizontal and vertical positions of the tire pressing angle plate are adjusted according to the specification and the size of an actual tire, then the tire pressing angle plate is driven by the axial tire pressing bracket to press the tire, the tire is manually pressed, and the pressing position of the tire pressing angle plate can be horizontally and vertically adjusted so as to be suitable for tires with different specifications and sizes.

Description of the drawings:

FIG. 1 is an overall perspective view of the present utility model;

FIG. 2 is a second perspective view of the whole of the present utility model;

fig. 3 is an overall cross-sectional view of the present utility model.

In the figure: 1. a column; 2. a horizontal moving seat; 3. a vertical moving seat; 4. an axial tyre pressing bracket; 5. pressing a tire corner plate; 6. a horizontal guide rod; 7. a horizontal slide rail; 8. a horizontal servo motor; 9. a horizontal screw rod; 10. a horizontal nut; 11. a floating joint; 12. a nut seat; 13. a first vertical sliding rail; 14. a vertical servo motor; 15. a vertical screw rod; 16. a vertical sliding rail II; 17. a vertical cylinder; 18. and (5) pressing a tire pad.

The specific embodiment is as follows:

the utility model is further described below with reference to the specific examples, see fig. 1-3:

the auxiliary tire pressing device comprises a stand column, wherein a horizontal moving seat capable of sliding horizontally relative to the stand column is arranged on the stand column, a vertical moving seat capable of sliding vertically relative to the stand column is arranged on the horizontal moving seat, an axial tire pressing support capable of sliding vertically relative to the vertical moving seat is arranged on the vertical moving seat, and a tire pressing angle plate capable of being abutted against the upper end face of a tire and the outer annular wall is arranged on the axial tire pressing support.

According to the utility model, the horizontal moving seat can drive the tire pressing angle plate to horizontally move, the vertical moving seat can drive the tire pressing angle plate to vertically move, in actual operation, the horizontal and vertical positions of the tire pressing angle plate are adjusted according to the specification and the size of an actual tire, then the tire pressing angle plate is driven by the axial tire pressing bracket to press the tire, the tire is manually pressed, and the pressing position of the tire pressing angle plate can be horizontally and vertically adjusted so as to be suitable for tires with different specifications and sizes.

In order to enable the horizontal moving seat to stably and horizontally move relative to the upright post, in the embodiment, a plurality of horizontal guide rods and horizontal sliding rails which are parallel are arranged on the upright post along the horizontal direction, the horizontal moving seat is slidably connected to the horizontal guide rods or/and the horizontal sliding rails, a horizontal power source fixed on the upright post is in transmission connection with the horizontal moving seat, and the horizontal power source drives the horizontal moving seat to horizontally move.

Still further, the horizontal power source may be a telescopic cylinder, and in this embodiment, the horizontal power source is a horizontal servo motor, and a specific transmission structure between the horizontal servo motor and the horizontal moving seat is: the horizontal screw rod is horizontally connected to the upright post in a rotating mode, one end of the horizontal screw rod is linked with an output shaft of the horizontal servo motor through a coupler, and a horizontal nut which is in threaded connection with the horizontal screw rod is arranged on the horizontal moving seat.

In addition, in order to avoid the excessively bloated structure of the horizontal moving seat, the inconvenience in assembly is caused, and the concrete connection structure of the horizontal moving seat sliding on the horizontal sliding rail and the horizontal guide rod is as follows: the horizontal moving seat is connected to the horizontal sliding rail through a sliding block in a sliding manner, the horizontal moving seat is connected with a nut seat through a floating joint, the nut seat is connected to the horizontal guide rod through a sliding sleeve in a sliding manner, and the horizontal nut is fixed to the nut seat.

Similarly, in order to enable the vertical moving seat to stably and vertically move relative to the horizontal moving seat, a plurality of parallel vertical sliding rails I are vertically arranged on the horizontal moving seat, the vertical moving seat is connected to the vertical sliding rails I through sliding blocks in a sliding mode, a vertical power source fixed to the horizontal moving seat is in transmission connection with the vertical moving seat, and the vertical power source drives the vertical moving seat to vertically move.

And vertical power supply also can be telescopic cylinder, in this embodiment, vertical power supply is vertical servo motor, vertical rotation is connected with vertical lead screw on the horizontal migration seat, and the one end of vertical lead screw passes through the output shaft linkage of shaft coupling and vertical servo motor, be provided with the vertical nut of spiro union on vertical lead screw on the vertical migration seat.

Still further, in order to make the axial press child support can effectively drive press child angle plate downwardly moving to accomplish the purpose to pressing down the tire, be provided with vertical slide rail two along vertical on the axial press child support, vertical movable seat passes through slider sliding connection on vertical slide rail two, fixes the flexible end and the axial press child support connection of the vertical cylinder on the vertical movable seat, carries out vertical movement by vertical cylinder drive axial press child support and press child angle plate. Of course, the cylinder can be used for driving the tire pressing bracket and the tire pressing angle plate to vertically move.

In order to protect the tire from damage when the tire is pressed down by the tire pressing angle plate, the tire pressing angle plate is respectively abutted against the upper end surface of the tire and the side wall on the outer annular wall, and tire pressing base plates are arranged on the side walls of the tire.

The above embodiment is only one of the preferred embodiments of the present utility model, and is not intended to limit the scope of the present utility model, therefore: all equivalent changes in shape, structure and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. An auxiliary tire pressing device is characterized in that: including stand (1), be equipped with on stand (1) can relative its horizontal slip horizontal migration seat (2), be equipped with on horizontal migration seat (2) can relative its vertical slip vertical migration seat (3), be equipped with on vertical migration seat (3) can relative its vertical slip axial pressure child support (4), be provided with on axial pressure child support (4) and can support and lean on pressing child scute (5) on tire up end and the outer rampart.

2. An auxiliary tyre pressing device as claimed in claim 1, wherein: the horizontal movable support is characterized in that a plurality of parallel horizontal guide rods (6) or/and horizontal sliding rails (7) are arranged on the upright posts (1) along the horizontal direction, the horizontal movable support (2) is connected to the horizontal guide rods (6) or/and the horizontal sliding rails (7) in a sliding mode, a horizontal power source fixed on the upright posts (1) is in transmission connection with the horizontal movable support (2), and the horizontal power source drives the horizontal movable support (2) to horizontally move.

3. An auxiliary tyre pressing device as claimed in claim 2, wherein: the horizontal power source is a horizontal servo motor (8), a horizontal screw rod (9) is horizontally connected to the upright post (1) in a rotating mode, one end of the horizontal screw rod (9) is linked with an output shaft of the horizontal servo motor (8) through a coupler, and a horizontal nut (10) which is in threaded connection with the horizontal screw rod (9) is arranged on the horizontal moving seat (2).

4. An auxiliary tire pressing device according to claim 3, wherein: the horizontal moving seat (2) is connected to the horizontal sliding rail (7) through a sliding block in a sliding way, the horizontal moving seat (2) is connected with a nut seat (12) through a floating joint (11), the nut seat (12) is connected to the horizontal guide rod (6) through a sliding sleeve in a sliding way, and the horizontal nut (10) is fixed to the nut seat (12).

5. An auxiliary tyre pressing device as claimed in claim 1, wherein: the horizontal moving seat (2) is vertically provided with a plurality of parallel vertical sliding rails I (13), the vertical moving seat (3) is connected to the vertical sliding rails I (13) through sliding blocks in a sliding mode, a vertical power source fixed on the horizontal moving seat (2) is in transmission connection with the vertical moving seat (3), and the vertical power source drives the vertical moving seat (3) to vertically move.

6. An auxiliary tire pressing device according to claim 5, wherein: the vertical power source is a vertical servo motor (14), a vertical screw rod (15) is vertically connected to the horizontal moving seat (2) in a rotating mode, one end of the vertical screw rod (15) is linked with an output shaft of the vertical servo motor (14) through a coupler, and a vertical nut which is in threaded connection with the vertical screw rod (15) is arranged on the vertical moving seat (3).

7. An auxiliary tyre pressing device as claimed in claim 1, wherein: the axial tire pressing support (4) is vertically provided with a second vertical sliding rail (16), the vertical moving seat (3) is connected to the second vertical sliding rail (16) through a sliding block in a sliding mode, the telescopic end of a vertical cylinder (17) fixed to the vertical moving seat (3) is connected with the axial tire pressing support (4), and the vertical cylinder (17) drives the axial tire pressing support (4) and the tire pressing angle plate (5) to vertically move.

8. An auxiliary tyre pressing device as claimed in claim 1, wherein: the tire pressing angle plates (5) are respectively abutted against the upper end face of the tire and the side walls on the outer annular wall, and tire pressing cushion plates (18) are respectively arranged on the side walls.

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