CN210938808U - A multistage feed mechanism for shot blasting of aluminium wheel hub surface - Google Patents

Abstract

The utility model provides a multistage feed mechanism for shot blasting on aluminum wheel hub surface belongs to wheel hub processing field. It is including being annular track frame, the track frame on swing joint have a chain, the chain place and can be along track frame circulation transmission along the track frame, the chain on be equipped with a plurality of and track frame swing joint put the material pole, put and be equipped with a plurality of roots and be used for hanging aluminium wheel hub's pole of wearing on the material pole. The utility model discloses the advantage lies in putting the material pole among the device and can hang a plurality of wheel hub, and can take a plurality of wheel hub to send into and throw ball work among the shot blasting device to can throw ball work to a plurality of wheel hub simultaneously, improve work efficiency.

Description

A multistage feed mechanism for shot blasting of aluminium wheel hub surface

Technical Field

The utility model belongs to wheel hub processing field especially relates to a multistage feed mechanism that is used for shot blasting on aluminium wheel hub surface.

Background

The shot blasting is a mechanical surface treatment process, the work is a cold treatment process, impurities such as surface oxide skin and the like can be cleaned and removed, the appearance quality is improved, in the existing hub shot blasting process, hubs are often sequentially transported to a hub shot blasting device one by one, only one or a small number of hubs are shot blasted at each time, a large amount of time is consumed for shot blasting, and therefore the work efficiency is low.

For example, chinese patent document discloses a hub blasting machine [ patent application No.: CN201320535064.2], it includes the frame, is provided with clean room and rollgang in the frame, and the rollgang passes in the clean room, its characterized in that: the conveying roller way consists of a plurality of conveying rollers, the distance between every two conveying rollers is l, and the range of the distance l is 170-185 mm; the cleaning chamber is divided into an upper cleaning chamber and a lower cleaning chamber by the conveying roller way, and the left side wall and the right side wall of the upper cleaning chamber and the lower cleaning chamber are respectively composed of two parts, namely a left vertical wall, a left inclined wall, a right vertical wall and a right inclined wall, when the conveying roller way is seen from the advancing direction; the left vertical wall and the left inclined wall form an included angle a, the right vertical wall and the right inclined wall also form an included angle a, and the range of the included angle a is 125-145 degrees. Two upper impeller heads are respectively arranged on the left inclined wall and the right inclined wall of the upper cleaning chamber, and two lower impeller heads are respectively arranged on the left inclined wall and the right inclined wall of the lower cleaning chamber. This wheel hub shot-blasting machine is rational in infrastructure, the impeller head angle is comprehensive, work efficiency is high, throw effectual, nevertheless this utility model when throwing ball during operation, send into wheel hub in proper order in the device, and throw ball work to wheel hub in proper order, need consume a large amount of time and throw ball work to make work efficiency lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a multistage feed mechanism for shot blasting is thrown to aluminium wheel hub surface.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a multistage feed mechanism for shot-blasting on aluminum wheel hub surface, is including being annular track frame, the track frame on swing joint have a chain, the chain place and can be along track frame circulation transmission along the track frame, the chain on be equipped with a plurality of and track frame swing joint put the material pole, put and be equipped with a plurality of roots on the material pole and be used for hanging aluminum wheel hub's pole of wearing.

In foretell a multistage feed mechanism for aluminium wheel hub surface is thrown ball, a plurality of poles of wearing are placed along putting material pole axial from the top down in proper order, and every pole of wearing is placed and is perpendicular with putting the material pole along the horizontal direction, and the both ends of every pole of wearing are bent back and are formed one and can extend into the axostylus axostyle in the wheel hub shaft hole, the axostylus axostyle be vertical setting. .

In foretell a multistage feed mechanism for shot-blasting of aluminium wheel hub surface, the chain on be connected with a plurality of and put the connecting rod of material pole one-to-one, just put material pole and the connecting rod swing joint that corresponds, the connecting rod be close to the tip of putting the material pole and be equipped with the crotch, just put the tip that the material pole is close to the connecting rod be equipped with and can establish the lantern ring on the crotch.

In foretell a multistage feed mechanism for shot-blasting on aluminum wheel hub surface, the chain set firmly the chain piece of a plurality of and connecting rod one-to-one, a plurality of chain piece can form the joint with the connecting rod that corresponds.

In the above-mentioned multistage feed mechanism for shot blasting of aluminum wheel hub surface, the track frame in be equipped with the round spread groove, articulated on every chain piece have extend into the spread groove and with spread groove swing joint's gyro wheel.

In foretell a multistage feed mechanism for shot blasting on aluminum wheel hub surface, the tip of chain piece articulated have the axis of rotation, the axis of rotation can form the joint with the connecting rod that corresponds, and be equipped with the meshing gear on the every connecting rod.

In the above multistage feeding mechanism for shot blasting on the surface of the aluminum hub, the end part of each material placing rod, which is far away from the rail base, is provided with the gravity block, and the gravity block is movably connected with the material placing rods.

In the above multistage feeding mechanism for shot blasting on the surface of the aluminum hub, the projections of two adjacent penetrating rods on each material placing rod in the axial direction of the material placing rods are mutually perpendicular and staggered to form a cross shape.

In the multistage feeding mechanism for shot blasting on the surface of the aluminum wheel hub, the track base is provided with the rotating motor, and an output shaft of the rotating motor is connected with the transmission gear meshed with the chain.

In the multi-stage feeding mechanism for shot blasting on the surface of the aluminum hub, the plurality of material placing rods are placed at equal intervals along the chain.

Compared with the prior art, the utility model has the advantages of:

1. the material placing rod in the shot blasting device can hang a plurality of hubs and can drive the hubs to be sent into the shot blasting device to perform shot blasting operation, so that the plurality of hubs can be shot blasting operation simultaneously, and the work efficiency is improved.

2. The end of the material placing rod in the device is provided with the gravity block, and the gravity block has certain weight, so that the stability of the material placing rod can be improved, and the material placing rod is prevented from swinging too much.

3. The material placing rod and the connecting rod in the device are movably connected through the hooks and the lantern ring, the material placing rod can be replaced correspondingly according to the size and the weight of the wheel hub and the number of the wheel hubs polished simultaneously, and the diversity of the mechanism is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the connection of the rail housing to the connecting rod.

In the figure: the track comprises a track base 10, a chain 11, a material placing rod 12, a penetrating rod 13, a shaft rod 14, a connecting rod 15, a hook 16, a lantern ring 17, a chain block 18, a connecting groove 19, a roller 20, a rotating shaft 21, a meshing gear 22, a gravity block 23 and a transmission gear 24.

Detailed Description

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

Combine shown in fig. 1-2, a multistage feed mechanism for shot-blasting on aluminum wheel hub surface, including being annular track frame 10, track frame 10 on swing joint have a chain 11, chain 11 place and can be along track frame 10 circular transmission along track frame 10, chain 11 on be equipped with a plurality of and track frame 10 swing joint put material pole 12, put and be equipped with a plurality of poles 13 that wear that are used for hanging aluminum wheel hub on the material pole 12.

In the existing wheel hub shot blasting process, the wheel hubs are often sequentially transported to a wheel hub shot blasting device one by one, shot blasting work is only carried out on one or a small number of wheel hubs at each time, and the work efficiency is low.

The utility model discloses in, on a plurality of wheel hub can overlap and establish and wear pole 13 at a plurality of roots on putting material pole 12, drive chain 11 along the transmission of track frame 10 to the drive is put material pole 12 and is removed, makes and puts a plurality of wheel hub on the material pole 12 and remove together and move and throw ball work in advancing the shot-blasting device, thereby can throw ball work to a plurality of wheel hub simultaneously, improves work efficiency.

The plurality of penetrating rods 13 are sequentially arranged from top to bottom along the axial direction of the material placing rod 12, each penetrating rod 13 is arranged along the horizontal direction and is perpendicular to the material placing rod 12, two ends of each penetrating rod 13 are bent to form a shaft rod 14 which can extend into a hub shaft hole, and the shaft rod 14 is vertically arranged.

The wheel hub cover is established on axostylus axostyle 14, and consequently the tip homoenergetic on every pole 13 of wearing has hung a wheel hub to make and put material pole 12 and go up to hang and have a plurality of wheel hubs, when increasing work efficiency, because every both ends of wearing on the pole 13 all overlap and are equipped with a wheel hub, make the power that the both ends of wearing pole 13 bore the same, thereby improve the stability of mechanism.

Chain 11 on be connected with a plurality of and put the connecting rod 15 of material pole 12 one-to-one, just put material pole 12 and the connecting rod 15 swing joint that corresponds, connecting rod 15 be close to the tip of putting material pole 12 and be equipped with crotch 16, just the tip of putting material pole 12 and being close to connecting rod 15 be equipped with and can overlap the lantern ring 17 on crotch 16.

In this example, the material placing rod 12 is movably connected with the connecting rod 15 through the hook 16 and the sleeve ring 17, the material placing rod 12 can be correspondingly replaced according to the size and the weight of the wheel hub and the number of the wheel hubs which are simultaneously ground, and the diversity of the mechanism is improved.

The chain 11 set have a plurality of with connecting rod 15 one-to-one corresponding chain piece 18, a plurality of chain piece 18 can form the joint with the connecting rod 15 that corresponds.

In this example, the connecting rod 15 and the chain block 18 may be snapped together in the form of a snap fit, so that the end of the connecting rod 15 extends into the chain block 18 or the chain block 18 extends into the end of the connecting rod 15.

When the mechanism needs to perform shot blasting work on the hubs, the connecting rod 15 is clamped with the chain block 18, the material placing rod 12 with the hubs hung is connected with the connecting rod 15, the driving chain 11 is driven along the rail machine base 10 to drive the material placing rod 12 to move, a plurality of hubs on the material placing rod 12 move together and move into a shot blasting device to perform shot blasting work, when the mechanism stops working, the material placing rod 12 and the connecting rod 15 can be taken down, and the service lives of the connecting rod 15, the chain block 18 and the material placing rod 12 are prolonged.

A circle of connecting groove 19 is arranged in the track machine base 10, and each chain block 18 is hinged with a roller 20 which extends into the connecting groove 19 and is movably connected with the connecting groove 19.

The chain 11 is used as a transportation component, the track machine base 10 is used as a support component, that is, the track machine base 10 supports the weight of the chain block 18, and during the moving process of the chain block 18, friction is formed with the track machine base 10, if the friction force is large, the moving flexibility of the chain block 18 is affected, and even the chain block 18 and the track machine base 10 are worn, so in this example, the chain block 18 is connected with the track machine base 10 through the roller 20, the friction force between the chain block 18 and the track machine base 10 is reduced, and the flexibility of the mechanism is improved.

The tip of chain piece 18 articulated have axis of rotation 21, axis of rotation 21 can form the joint with corresponding connecting rod 15, and be equipped with meshing gear 22 on every connecting rod 15.

When the shot blasting device is used for blasting shot to the wheel hub, impact can be generated on the surface of the wheel hub, the impact force can drive the connecting rod 15 to rotate when driving the rotation of the wheel hub, and therefore the connecting rod 15 rotates when driving the rotation of the wheel hub, and the working efficiency is improved.

Each material placing rod 12 is provided with a gravity block 23 at the end far away from the track machine base 10, and the gravity block 23 is movably connected with the material placing rod 12.

This gravity piece 23 possesses certain weight, can make in throwing the work of ball put material pole 12 swing, and this gravity piece 23 can increase the stability of putting material pole 12, prevents to put material pole 12 swing amplitude too big.

The projections of two adjacent penetrating rods 13 on each material placing rod 12 in the axial direction of the material placing rod 12 are mutually vertical and staggered to form a cross shape. The hubs are uniformly distributed around the material placing rod 12, and the stability of the material placing rod 12 is improved.

The track machine base 10 is provided with a rotating motor, and an output shaft of the rotating motor is connected with a transmission gear 24 meshed with the chain 11.

The rotating motor works to drive the transmission gear 24 to rotate, so that the driving chain 11 is driven to rotate along the rail machine base 10, the material placing rod 12 is driven to move, and a plurality of hubs on the material placing rod 12 move together and move into the shot blasting device to perform shot blasting work.

The plurality of material placing rods 12 are placed at equal intervals along the chain 11.

The utility model discloses a theory of operation does: according to the size and the weight of the wheel hubs and the number of the wheel hubs polished simultaneously, the material placing rods 12 can be replaced correspondingly, then the rotating motor works to drive the transmission gear 24 to rotate, so that the driving chain 11 is driven to transmit along the rail machine base 10, the material placing rods 12 are driven to move, and a plurality of wheel hubs on the material placing rods 12 move together and move into the shot blasting device to perform shot blasting work.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although track bed 10, chain 11, material placement rod 12, threading rod 13, shaft rod 14, connecting rod 15, hook 16, collar 17, chain block 18, connecting groove 19, roller 20, rotating shaft 21, meshing gear 22, gravity block 23, and drive gear 24 are more used herein. Etc. are merely intended to more readily describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a multistage feed mechanism for shot-blasting on aluminum wheel hub surface, is including being annular track frame (10), its characterized in that, track frame (10) on swing joint have chain (11), chain (11) place and can be along track frame (10) cyclic transmission along track frame (10), chain (11) on be equipped with a plurality of and track frame (10) swing joint put material pole (12), put and be equipped with pole (13) of wearing that a plurality of roots are used for hanging aluminum wheel hub on material pole (12).

2. The multistage feeding mechanism for shot blasting on the surface of the aluminum hub as claimed in claim 1, wherein a plurality of penetrating rods (13) are sequentially arranged from top to bottom along the axial direction of the material placing rod (12), each penetrating rod (13) is arranged along the horizontal direction and is perpendicular to the material placing rod (12), two ends of each penetrating rod (13) are bent to form a shaft rod (14) capable of extending into a hub shaft hole, and the shaft rod (14) is vertically arranged.

3. The multistage feeding mechanism for shot blasting on the surface of an aluminum hub as claimed in claim 1, wherein the chain (11) is connected with a plurality of connecting rods (15) in one-to-one correspondence with the material placing rods (12), the material placing rods (12) are movably connected with the corresponding connecting rods (15), hooks (16) are arranged at the end parts, close to the material placing rods (12), of the connecting rods (15), and lantern rings (17) capable of being sleeved on the hooks (16) are arranged at the end parts, close to the connecting rods (15), of the material placing rods (12).

4. The multistage feeding mechanism for shot blasting on the surface of the aluminum hub as claimed in claim 3, wherein a plurality of chain blocks (18) corresponding to the connecting rods (15) in a one-to-one manner are fixedly arranged on the chain (11), and the plurality of chain blocks (18) can be clamped with the corresponding connecting rods (15).

5. The multistage feeding mechanism for shot blasting of the surface of the aluminum hub as claimed in claim 4, wherein a circle of connecting groove (19) is formed in the rail base (10), and each chain block (18) is hinged with a roller (20) which extends into the connecting groove (19) and is movably connected with the connecting groove (19).

6. The multistage feeding mechanism for shot blasting on the surface of an aluminum hub as claimed in claim 4, wherein a rotating shaft (21) is hinged to the end of each chain block (18), the rotating shaft (21) can be clamped with the corresponding connecting rod (15) in a clamping manner, and each connecting rod (15) is provided with a meshing gear (22).

7. The multistage feeding mechanism for shot blasting on the surface of the aluminum hub as claimed in claim 1, wherein a gravity block (23) is arranged at the end of each material placing rod (12) far away from the rail base (10), and the gravity block (23) is movably connected with the material placing rod (12).

8. The multistage feeding mechanism for shot blasting on the surface of the aluminum hub as claimed in claim 2, wherein the projections of two adjacent penetrating rods (13) on each material placing rod (12) in the axial direction of the material placing rod (12) are mutually vertically staggered to form a cross shape.

9. The multistage feeding mechanism for shot blasting on the surface of the aluminum hub as claimed in claim 3, wherein a rotating motor is arranged on the rail base (10), and a transmission gear (24) meshed with the chain (11) is connected to an output shaft of the rotating motor.

10. The multistage feeding mechanism for shot blasting of the surface of an aluminum hub as recited in claim 1, wherein the plurality of material placing rods (12) are equidistantly placed along the chain (11).

Images