CN111792149A

CN111792149A - Alloy wheel hub rack

Info

Publication number: CN111792149A
Application number: CN202010669230.2A
Authority: CN
Inventors: 万金华
Original assignee: Jiangsu Perran Wheel Intelligent Manufacturing Co ltd
Current assignee: Jiangsu Perran Wheel Intelligent Manufacturing Co ltd
Priority date: 2020-07-13
Filing date: 2020-07-13
Publication date: 2020-10-20
Anticipated expiration: 2040-07-13
Also published as: CN111792149B

Abstract

The invention discloses an alloy hub placing frame which comprises an outer frame, wherein a first linear optical axis, a second linear optical axis, a third linear optical axis and a fourth linear optical axis are arranged between an upper supporting plate and a lower supporting plate of the outer frame, supporting devices are arranged on the first linear optical axis, the second linear optical axis, the third linear optical axis and the fourth linear optical axis respectively, a second linear bearing is arranged on the first linear optical axis and the fourth linear optical axis, a first linear bearing is arranged on the second linear optical axis and the third linear optical axis, and a hub clamping device is connected between the two linear optical axes in a sleeved mode through the linear bearings. According to the invention, the plurality of hub clamping devices are connected between the linear optical axes through the linear bearings, each layer can move up and down, and a single hub clamping device can be turned over.

Description

Alloy wheel hub rack

Technical Field

The invention relates to the technical field of placement racks, in particular to an alloy hub placement rack.

Background

Wheel hub is one of auto wheel's component part, all needs the rack to place in preparation or transportation, and the layer can't remove is placed to current rack, when wheel hub need make on the production line, can only put into by one by the manual work, not only the waste time still increases operating personnel's labour.

Therefore, the alloy wheel hub placing frame is invented through the problem to be solved, the placing layer can move up and down, a single wheel hub clamping device in the placing layer can be turned over, the placing frame can be operated on any side of a production line, the elastic handle is loosened when the placing layer is located above the production line, an operator is not required to carry the alloy wheel hub placing frame, and the time is saved and the working efficiency is improved.

Disclosure of Invention

According to the technical problem to be solved, the invention provides the alloy hub placing frame with the shape capable of being changed.

In order to solve the technical problem, the alloy hub placing frame comprises an outer frame, wherein a first linear optical axis, a second linear optical axis, a third linear optical axis and a fourth linear optical axis are arranged between an upper supporting plate and a lower supporting plate of the outer frame, supporting devices are arranged on the first linear optical axis, the second linear optical axis, the third linear optical axis and the fourth linear optical axis respectively, a second linear bearing is arranged on the first linear optical axis and the fourth linear optical axis, a first linear bearing is arranged on the second linear optical axis and the third linear optical axis, and a hub clamping device is connected between the two linear optical axes in a sleeved mode through the linear bearings.

Furthermore, the first linear optical axis telescopic block and the second linear optical axis telescopic block of the supporting device are internally provided with a first arc-shaped arm movable cavity and a second arc-shaped arm movable cavity, both side edges of the bottom are provided with protruding shafts, and the protruding shafts are inserted into counter bores on two sides of a movable groove of the telescopic block.

Furthermore, the first arc-shaped arm movable cavity and the second arc-shaped arm movable cavity are connected with the first arc-shaped connecting arm and the second arc-shaped connecting arm, and the other ends of the first arc-shaped connecting arm and the second arc-shaped connecting arm are overlapped and connected in the waist groove on the convex edge.

Furthermore, the second linear bearings are provided with a plurality of second linear bearings, the middle of each second linear bearing is connected with another linear bearing in the horizontal direction to form a tee joint, and a third fixing hole is formed in each second linear bearing in the horizontal direction.

Furthermore, the first linear bearings are provided with a plurality of first linear bearings, the middle of each first linear bearing is connected with another linear bearing in a cross shape in the horizontal direction, and third fixing holes are respectively formed in two ends of each linear bearing in the horizontal direction.

Furthermore, both ends of the rotating shaft of the hub clamping device are respectively connected to the second linear bearing horizontal direction linear bearing and the first linear bearing horizontal direction linear bearing.

Furthermore, the rotating shaft is fixedly connected to the arc surfaces of the first rotating shaft fixing block, the second rotating shaft fixing block, the third rotating shaft fixing block and the fourth rotating shaft fixing block, and the other ends of the first rotating shaft fixing block, the second rotating shaft fixing block, the third rotating shaft fixing block and the fourth rotating shaft fixing block are fixed on the inner wall of the clamping arm moving rail cavity.

Furthermore, the center of the clamping arm moving rail is provided with a shaft hole, the inner wall of the shaft hole is matched with a step shaft of the elastic turntable, and the lower end face of the shaft hole is fixedly connected with an elastic fixing sleeve.

Furthermore, be the spline in the elasticity carousel step axle, the spline meshes with the spline of elasticity handle, elasticity handle bottom screw thread and the fixed cover internal thread connection of elasticity, first arc linking arm and second arc linking arm are connected respectively to two connecting holes of elasticity carousel, second arm lock and first arm lock are connected to first arc linking arm and second arc linking arm other end.

Still further, the hub clamping device is provided in a plurality.

Has the advantages that: according to the alloy hub placing frame, when the production line needs, the placing frame is moved to any side of the production line, when the orientation is incorrect, the hub clamping device is turned over, when the hub in one layer is placed and moved to the lowest layer, the hub in the upper layer is moved to the proper position to be placed again, and the like, so that the time is saved, and the working efficiency is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is an overall schematic view of an alloy hub placing frame according to the present invention.

Fig. 2 is a front view of an alloy hub placing frame of the invention.

Fig. 3 is a schematic view of a hub clamping device of the alloy hub placing frame.

Fig. 4 is an exploded schematic view of an alloy hub placing frame according to the present invention.

Fig. 5 is an exploded schematic view of an alloy hub placing frame according to the present invention.

Fig. 6 is a schematic view of a position of a rotating shaft of the alloy hub placing rack according to the present invention.

Fig. 7 is an enlarged schematic view of a portion a of the alloy hub placing frame according to the present invention.

Fig. 8 is a schematic view of an alloy hub placing frame according to the present invention.

Fig. 9 is an enlarged schematic view of a B portion of an alloy hub placing frame according to the present invention.

In the figure: 1 is an outer frame; 2, a hub clamping device; 3 is a first linear bearing; 4 is a second linear bearing; 5 is a first straight optical axis; 6 is a second linear optical axis; 7 is a third linear optical axis; 8 is a first clamping arm; 9 is an elastic handle; 10 is an elastic turntable; 11 is a first arc-shaped connecting arm; 12 is a second clamping arm; 13 is an elastic fixing sleeve; 14 is a clamping arm moving rail; 15 is a second arc-shaped connecting arm; 16 is a first rotating shaft fixing block; a second rotating shaft fixing block 17; 18 is a rotating shaft; a third rotating shaft fixing block 19; 20 is a fourth rotating shaft fixing block; 21 is a first linear optical axis telescopic block; 22 is a second linear optical axis telescopic block; 23 is a first fixing hole; 24 is a second fixing hole; 25 is a third fixing hole; 26 is the fourth linear optical axis; 27 is a first arcuate link arm; 28 is a first arc arm movable cavity; 29 is a waist groove; 30 is a convex rib; 31 is a second arc arm movable cavity; and 32 is a second arcuate connecting arm.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the scope of the present invention.

As shown in fig. 1-9, an alloy wheel hub rack, includes outer frame, be provided with first straight line optical axis 5, second straight line optical axis 6, third straight line optical axis 7 and fourth straight line optical axis 26 between the backup pad about outer frame 1, all set up strutting arrangement on first straight line optical axis 5, second straight line optical axis 6, third straight line optical axis 7 and the fourth straight line optical axis 26, first straight line optical axis 5 and fourth straight line optical axis 26 set up second linear bearing 4, second straight line optical axis 6 and third straight line optical axis 7 set up first linear bearing 3, and it closes connection wheel hub clamping device 2 to fit through linear bearing between the two straight line optical axes. Wherein, the rack is connected through a plurality of optical axes from top to bottom, the cover has a plurality of second linear bearing 4 on first and last optical axis, the cover has a plurality of first linear bearing 3 on a plurality of optical axes in the middle of, connect through wheel hub clamping device 2 between the two bearings, analogize two liang continuous with this, during the use, put the rack in production line both sides because wheel hub clamping device 2 can overturn so no matter be located which side of production line all, put in when the one deck and finish, slide a whole layer to the bottom through linear bearing, slide last layer to required position, analogize with this.

As shown in fig. 2 and 7, a first arc-shaped arm movable cavity 28 and a second arc-shaped arm movable cavity 31 are arranged inside the first linear optical axis telescopic block 21 and the second linear optical axis telescopic block 22 of the supporting device, protruding shafts are arranged on two sides of the bottom of the supporting device, and the protruding shafts are inserted into counter bores on two sides of a movable groove of the telescopic block. Wherein, the flexible piece 21 of first sharp optical axis and the flexible piece 22 of second sharp optical axis arrange the protruding axle through the bottom both sides in the hole of flexible piece activity inslot inner wall both sides on the optical axis in, so, flexible piece can be impressed and pop out, and the inside first arc arm activity cavity 28 of flexible piece and second arc arm activity cavity 31 can make the linking arm activity not receive the interference when impressing and popping out.

As shown in fig. 2 and 7, the first arc-shaped arm moving cavity 28 and the second arc-shaped arm moving cavity 31 are connected with the first arc-shaped connecting arm 27 and the second arc-shaped connecting arm 32, and the other ends of the first arc-shaped connecting arm 27 and the second arc-shaped connecting arm 32 are overlapped and connected with the waist groove 29 on the convex rib 30. Wherein, when linear bearing need the lapse, with the flexible piece 22 of first straight line optical axis telescopic block 21 and second straight line optical axis, during the impressing, because first arc linking arm 27 and second arc linking arm 32 are connected in waist groove 29, so can be along the motion of waist groove 29 orbit, the back of impressing, linear bearing slips down, at this moment, the reset spring of waist groove 29 bottom is popped up, pop first arc linking arm 27 and second arc linking arm 32 connecting portion to the top, thereby pop out first straight line optical axis telescopic block 21 and second straight line optical axis telescopic block 22 once more.

As shown in fig. 2 and 9, the second linear bearings 4 are provided with a plurality of second linear bearings 4, the middle of the second linear bearing 4 is connected with another linear bearing in the horizontal direction to form a three-way shape, and a third fixing hole 25 is formed in the horizontal linear bearing. Wherein, set up a plurality of linear bearing on the first and last optical axis of rack and be the tee bend form.

As shown in fig. 2 and 9, the first linear bearing 3 is provided with a plurality of first linear bearings, the middle of the first linear bearing 3 is connected with another linear bearing in a horizontal direction to form a cross shape, and third fixing holes 25 are respectively arranged at two ends of the linear bearing in the horizontal direction. Wherein, set up a plurality of linear bearing on a plurality of optical axes between the first and last optical axis of rack for the cross, because wheel hub clamping device 2 all needs to be connected on the bearing both sides on the middle optical axis, so the design is cross linear bearing.

As shown in fig. 1, 2, 8 and 6, both ends of the rotating shaft 18 of the hub clamping device 2 are respectively connected to the horizontal linear bearing of the second linear bearing 4 and the horizontal linear bearing of the first linear bearing 3. Wherein, the both ends of rotation axis 18 are registrated respectively in the second linear bearing 4 horizontal direction linear bearing and the first linear bearing 3 horizontal direction linear bearing, and when the fixed orifices after the registrated coincide, use the fixed pin to insert fixedly, need extract the fixed pin when overturning, and the fixed orifices coincidence reinserts the fixed pin after the upset.

As shown in fig. 3 to 6, the rotating shaft 18 is fixedly connected to the arc surfaces of the first rotating shaft fixing block 16, the second rotating shaft fixing block 17, the third rotating shaft fixing block 19 and the fourth rotating shaft fixing block 20, and the other ends of the first rotating shaft fixing block 16, the second rotating shaft fixing block 17, the third rotating shaft fixing block 19 and the fourth rotating shaft fixing block 20 are fixed to the inner wall of the cavity of the clamping arm moving rail 14. The rotating shaft 18 is fixed on the inner wall of the cavity of the clamping arm moving rail 14 through four fixing blocks, the clamping arm is connected to the clamping arm moving rail 14, and as two ends of the rotating shaft 18 are inserted into the linear bearings, the rotating shaft 18 only needs to be rotated during overturning.

As shown in fig. 3-6, the center of the clamping arm moving rail 14 is provided with a shaft hole, the inner wall of the shaft hole is matched with the step shaft of the elastic turntable 10, and the lower end surface is fixedly connected with an elastic fixing sleeve 13. Wherein, elasticity carousel 10 one side is the step axle sleeve form, and the top registrates in the axle hole inner wall, and the second step supports in arm lock movable rail 14 planes, and arm lock movable rail 14 cavity one side is fixed in the axle hole with the coaxial mode of elasticity fixed cover 13.

As shown in fig. 3-6, the step shaft of the tightening/loosening turntable 10 is internally provided with a spline, the spline is engaged with the spline of the tightening/loosening handle 9, the bottom thread of the tightening/loosening handle 9 is connected with the internal thread of the tightening/loosening fixing sleeve 13, the two connecting holes of the tightening/loosening turntable 10 are respectively connected with the first arc-shaped connecting arm 11 and the second arc-shaped connecting arm 15, and the other ends of the first arc-shaped connecting arm 11 and the second arc-shaped connecting arm 15 are connected with the second clamping arm 12 and the first clamping arm 8. Wherein, the spline at elasticity handle 9 middle part and the epaxial spline meshing of 10 steps of elasticity carousel that cooperate in the shaft hole inner wall, the bottom again with be fixed in the fixed cover 13 threaded connection of elasticity of 14 cavity one sides of arm lock removal rail, when rotating elasticity handle 9, middle part spline meshing drives elasticity carousel 9 and rotates and makes first arc linking arm 11 and second arc linking arm 15 of connection on elasticity carousel 9 to the internal contraction with outside expansion, drive first arm lock 8 and second arm lock 12 of connection on first arc linking arm 11 and second arc linking arm 15 when shrink and expansion and press from both sides tightly and loosen.

As shown in fig. 1, the hub clamping device 2 is provided in a plurality.

In another embodiment, during transportation, the hub clamping device 2 can be used for clamping the hub and vertically placing the hub, the two sides of the placing frame are fixed by using a grating, and a plurality of placing frames are combined, so that the combined placing frame consisting of a plurality of placing frames can be transported at one time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The above examples are merely illustrative of the present invention and should not be construed as limiting the scope of the present invention, and all designs identical or similar to the present invention are within the scope of the present invention.

Claims

1. The utility model provides an alloy wheel hub rack, includes outer frame, its characterized in that: be provided with first straight line optical axis (5), second straight line optical axis (6), third straight line optical axis (7) and fourth straight line optical axis (26) between the backup pad about outer frame (1), all set up strutting arrangement on first straight line optical axis (5), second straight line optical axis (6), third straight line optical axis (7) and fourth straight line optical axis (26), first straight line optical axis (5) and fourth straight line optical axis (26) set up second linear bearing (4), second straight line optical axis (6) and third straight line optical axis (7) set up first linear bearing (3), and wheel hub clamping device (2) are connected through linear bearing registrates between two straight line optical axes.

2. The alloy hub placing rack according to claim 1, characterized in that: the support device is characterized in that a first linear optical axis telescopic block (21) and a second linear optical axis telescopic block (22) are internally provided with a first arc-shaped arm movable cavity (28) and a second arc-shaped arm movable cavity (31), both side edges of the bottom of the support device are provided with protruding shafts, and the protruding shafts are inserted into counter bores on two sides of a movable groove of the telescopic block.

3. Alloy wheel hub rack according to claim 2, characterized in that: the first arc-shaped arm movable cavity (28) and the second arc-shaped arm movable cavity (31) are connected with the first arc-shaped connecting arm (27) and the second arc-shaped connecting arm (32), and the other ends of the first arc-shaped connecting arm (27) and the second arc-shaped connecting arm (32) are overlapped and connected into the waist groove (29) on the rib (30).

4. The alloy hub placing rack according to claim 1, characterized in that: the second linear bearing (4) is provided with a plurality of linear bearings, the middle of the second linear bearing (4) is connected with another linear bearing in the horizontal direction to form a tee joint, and a third fixing hole (25) is formed in the linear bearing in the horizontal direction.

5. The alloy hub placing rack according to claim 1, characterized in that: first linear bearing (3) are provided with a plurality of, another linear bearing of horizontal direction connection is the cross in the middle of first linear bearing (3) and sets up third fixed orifices (25) respectively at horizontal direction linear bearing both ends.

6. The alloy hub placing rack according to claim 1, characterized in that: and two ends of a rotating shaft (18) of the hub clamping device (2) are respectively connected with the horizontal linear bearing of the second linear bearing (4) and the horizontal linear bearing of the first linear bearing (3).

7. The alloy hub placing rack of claim 6, wherein: the rotating shaft (18) is fixedly connected to the arc surfaces of the first rotating shaft fixing block (16), the second rotating shaft fixing block (17), the third rotating shaft fixing block (19) and the fourth rotating shaft fixing block (20), and the other ends of the first rotating shaft fixing block (16), the second rotating shaft fixing block (17), the third rotating shaft fixing block (19) and the fourth rotating shaft fixing block (20) are fixed to the inner wall of a cavity of the clamping arm moving rail (14).

8. The alloy hub placing rack of claim 7, wherein: the centre of the clamping arm moving rail (14) is provided with a shaft hole, the inner wall of the shaft hole is matched with a step shaft of the elastic turntable (10), and the lower end surface of the shaft hole is fixedly connected with an elastic fixing sleeve (13).

9. The alloy hub placing rack of claim 8, wherein: be the spline in elasticity carousel (10) step axle, the spline meshing of spline and elasticity handle (9), elasticity handle (9) bottom screw thread and the fixed cover of elasticity (13) female connection, first arc linking arm (11) and second arc linking arm (15) are connected respectively to two connecting holes of elasticity carousel (10), second arm lock (12) and first arm lock (8) are connected to first arc linking arm (11) and second arc linking arm (15) other end.

10. The alloy hub placing rack according to claim 1, characterized in that: the hub clamping device (2) is provided with a plurality of clamping devices.