CN212168692U - Racket notching device - Google Patents

Abstract

The utility model relates to the technical field of racket notching, in particular to a notching device of a racket, which comprises a feeding seat, a notching box and an auxiliary transmission box, wherein the bottom of the notching box is connected with the top of the feeding seat through screws, and one side of the auxiliary transmission box is connected with one side of the notching box through screws; the feeding seat comprises a feeding box, a feeding channel, a plurality of material conveying wheel sets, an auxiliary notching box, an auxiliary notching assembly, a traction assembly and supporting legs, wherein the feeding channel is formed in the feeding box; not only factor of safety is high, can prevent that the staff from receiving the injury, and the notching efficiency obtains improving moreover, and this device operation is convenient simultaneously, can alleviate staff's burden.

Description

Racket notching device

Technical Field

The utility model relates to a racket notching technical field, specifically say a notching device of racket.

Background

The badminton racket is composed of a racket face, a racket rod, a racket handle and a racket frame and a racket rod joint, and with the development of science and technology, the development of the badminton racket is developed towards the direction that the racket is lighter in weight, the racket frame is harder and the racket rod is better in elasticity. In the manufacturing process of the badminton racket frame, the groove needs to be formed in the outer side of the racket frame, so that the phenomenon that the binding wire rubs the ground to cause abrasion damage when playing a badminton is avoided, and the service life of the badminton racket is prolonged.

However, through analysis and discovery, the existing racket notching device places a single circular steel tube which is not formed with a racket frame in a groove of a storage table, then holds the circular steel tube with a hand to limit, and steps on a switch by a foot to enable an upper pressing table to descend for notching, so that the method is low in safety coefficient, unnecessary injury can be caused to workers, and meanwhile, notching efficiency is low.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned not enough, the utility model provides a notching device of racket here, factor of safety is high not only, can effectually prevent that the staff from receiving the injury, and notching efficiency obtains improving moreover, and this device operation is convenient simultaneously, can alleviate staff's burden.

The utility model is realized in such a way, the notching device of the racket is constructed, which comprises a feeding seat, a notching box and an auxiliary transmission box, the bottom of the notching box is connected with the top of the feeding seat through screws, one side of the auxiliary transmission box is connected with one side of the notching box through screws; the feeding seat comprises a feeding box, a feeding channel, a plurality of material conveying wheel sets, an auxiliary notching box, an auxiliary notching assembly, a traction assembly and supporting legs, wherein the feeding channel is formed in the feeding box; the notching box comprises a small cavity, a notching iron I-shaped wheel, a supporting shaft, a large cavity and a motor A, one end of the supporting shaft is connected to one side of the small cavity through a bearing, the other end of the supporting shaft penetrates through the middle part of the notching iron I-shaped wheel, the part of the supporting shaft penetrating through the notching iron I-shaped wheel further penetrates through the side wall of the other side of the small cavity, the other end of the supporting shaft penetrates through the middle part of the notching iron I-shaped wheel, the two parts are connected through a screw, the other end of the supporting shaft is connected through the bearing when further penetrating through the side wall of the other side of the small cavity, the other end of the supporting shaft further penetrates; the auxiliary transmission case comprises a motor B, a connecting shaft, a transmission belt A, a transmission gear B and a cross shaft, one end of the connecting shaft is vertically connected with one end of the motor B through a screw, the other end of the connecting shaft penetrates through the middle of the transmission gear A and penetrates through the transmission gear A while the transmission gear A and the transmission gear A are connected through the screw, one end of the cross shaft is connected to the inner wall of one side of the auxiliary transmission case through a bearing, the other end of the cross shaft penetrates through the middle of the transmission gear B and penetrates through the transmission gear B while.

Further, the material transfer wheel group comprises a material transfer iron character wheel A, a material transfer iron character wheel B, a transmission gear C and a transmission belt B, the material transfer iron character wheel A is installed at the bottom of the material transfer iron character wheel B and is meshed with the material transfer iron character wheel B, one end of the material transfer iron character wheel B penetrates through the side wall of the feeding channel and is connected with the feeding channel through a bearing, one end of the material transfer iron character wheel B penetrates through the side wall part of the feeding channel and is nested with the transmission gear C, the transmission belt B is wound on the surface of the transmission gear C, an external power supply of the motor B is switched on, the motor B drives the connection shaft to rotate, the other end of the connection shaft is connected with a support shaft B through a screw, the connection shaft rotates and simultaneously drives the transmission gear A and the support shaft B to rotate, the transmission gear A drives the transmission gear B to rotate through the transmission belt A, the transmission, thereby the cross axle rotates and drives material transmission iron I-shaped wheel B to rotate, and the rotation of material transmission iron I-shaped wheel B also can drive gear C to rotate, and drive gear C rotates the operation through drive belt B drives drive gear C in other material transmission wheelsets to move, drives other material transmission wheelsets to operate through the operation of drive gear C in other material transmission wheelsets simultaneously, rotates through material transmission iron I-shaped wheel B and drives the material transmission iron I-shaped wheel A reverse rotation rather than the meshing, imbeds the racket frame round steel pipe that will dash the groove in the space between material transmission iron I-shaped wheel A and the material transmission iron I-shaped wheel B recess, conveys the racket frame round steel pipe that needs the die groove to inside the supplementary die groove case through the feed inlet through material transmission iron I-shaped wheel A and the meshing rotation of material transmission iron I-shaped wheel B.

Further, supplementary towards cell case includes discharge gate and feed inlet, and the discharge gate is seted up and is leaned on the upper portion in supplementary towards cell case one end, and the feed inlet is seted up and is leaned on the upper portion in supplementary towards cell case other end, and the badminton racket frame circular steel tube that needs the dashing groove conveys to the feed inlet through passing material wheelset and gets into supplementary towards cell case, then passes through the discharge gate through the traction assembly and sees off.

Furthermore, the auxiliary notching assembly comprises an auxiliary notching iron I-shaped wheel and a support shaft A, one end of the support shaft A penetrates through the middle part of the auxiliary notching iron I-shaped wheel and is connected with the auxiliary notching iron I-shaped wheel through a screw, one end of the support shaft A penetrates through the part of the auxiliary notching iron I-shaped wheel and is connected with the side wall of one side of the auxiliary notching box through a bearing, the other end of the support shaft A is connected with the side wall of the other side of the auxiliary notching box through a bearing, the auxiliary notching iron I-shaped wheel is meshed with the notching iron I-shaped wheel, a badminton racket frame round steel pipe conveyed through a material conveying wheel set enters a gap between the auxiliary notching iron I-shaped wheel and a notch of the notching iron I-shaped wheel, the notch of the auxiliary notching iron I-shaped wheel is used as a support bottom surface, then, notching is rolled and notched through a notching edge in the notching iron I-shaped wheel, and a gap between the groove of the material conveying iron I-shaped wheel A and the groove B and a gap between the auxiliary notching iron I-shaped, and the size of the gap between the grooves is consistent.

Further, the traction assembly comprises a support shaft B and a traction iron I-shaped wheel, one end of the support shaft B penetrates through the middle of the traction iron I-shaped wheel 162 and is connected with the support shaft B through a screw, the penetrating part of the support shaft B is connected with the side wall of one side of the auxiliary punching tank through a bearing, the other end of the support shaft B penetrates through the side wall of the other side of the auxiliary punching tank and is connected with the side wall of the other side of the auxiliary punching tank through a bearing, the penetrating part of the support shaft B enters the auxiliary transmission box and is connected with an external power supply of a motor B, the motor B drives a connecting shaft to rotate, the other end of the connecting shaft is connected with the support shaft B through a screw, the connecting shaft rotates and simultaneously drives a transmission gear A and the support shaft B to rotate, the traction iron I-shaped wheel is driven to rotate through the support shaft B, when a circular racket frame steel pipe, because the circular steel tube of the racket frame of the badminton racket is straight, the circular steel tube of the racket frame of the badminton racket can be driven to move towards one end when the traction iron I-shaped wheel rotates, and the circular steel tube of the racket frame of the badminton racket is conveyed out of the auxiliary punching tank through the discharge hole.

Furthermore, the notching iron I-shaped wheel comprises a notching edge and a rack D, the notching edge is arranged on the surface of a groove of the notching iron I-shaped wheel, the rack D is arranged at the top of the side edge of the notching iron I-shaped wheel, a motor A external power supply is switched on, a support shaft is driven to rotate by the motor A, the support shaft drives the notching iron I-shaped wheel to rotate, the notching iron I-shaped wheel is meshed with the auxiliary notching iron I-shaped wheel through the rack D, the notching iron I-shaped wheel drives the notching edge to press the circular steel tube of the racket frame to notch the racket frame, the circumference of the notching edge is the same as the length of the groove of the racket frame needing to be notched, the circumference of the notching iron I-shaped wheel is the same as the length of the single racket frame, and the circumference of the notching edge is smaller than.

Further, a rack A is arranged at the top of the side edge of the material transmission iron I-shaped wheel A, a rack B is arranged at the top of the material transmission iron I-shaped wheel B, and the material transmission iron I-shaped wheel A and the material transmission iron I-shaped wheel B are meshed through the rack A and the rack B.

Furthermore, a rack C is arranged at the top of the side edge of the auxiliary notching iron I-shaped wheel, and the auxiliary notching iron I-shaped wheel is meshed with the notching iron I-shaped wheel through the rack C.

Furthermore, the groove of the traction iron I-shaped wheel is provided with a magnetic stripe, the circular steel tube of the racket frame is attracted through the magnetic stripe, and when the traction iron I-shaped wheel drives the magnetic stripe to rotate, a strand of pulling force is generated on the circular steel tube of the racket frame, so that the circular steel tube of the racket frame is pulled and conveyed away.

The utility model discloses an improve and provide a notching device of racket here, compare with the notching device of current racket, have following advantage: the safety factor is high, and workers can be effectively prevented from being injured; the notching efficiency is improved; simultaneously, the device is convenient to operate, can reduce the burden of workers, and is embodied as follows:

the method has the advantages that: the circular steel tube of the badminton racket frame conveyed by the material conveying wheel group enters a gap between the auxiliary notching iron I-shaped wheel and the notch of the notching iron I-shaped wheel, the notch of the auxiliary notching iron I-shaped wheel serves as a supporting bottom surface, and then the notching is carried out by rolling through the notching edges in the notching iron I-shaped wheel, so that the circular steel tube of the badminton racket frame does not need to be held by hands by workers for limiting, the safety coefficient is high, and the workers can be effectively prevented from being injured during notching;

the method has the advantages that: the whole round steel pipe to be made into the racket frame is conveyed to the inside of the auxiliary notching box through the material conveying wheel set to be notched, and then is uniformly conveyed to other equipment for cutting off after notching, so that notching efficiency is improved;

the method has the advantages that: the staff only needs the switching of control motor A and motor B power, and this device just can automatic operation, and the operation is convenient, has alleviateed staff's burden, pressure.

Drawings

Fig. 1 is a schematic structural view of the notching device of the racket of the present invention.

Fig. 2 is a schematic view of the structure of the feeding base of the present invention.

Fig. 3 is a schematic structural view of the feeding wheel set of the present invention.

Fig. 4 is a schematic structural view of the material-transferring iron I-shaped wheel A of the present invention.

Fig. 5 is a schematic structural view of the auxiliary notching assembly of the present invention.

Fig. 6 is a schematic structural view of the rack C of the present invention.

Fig. 7 is a schematic structural view of the traction assembly of the present invention.

Fig. 8 is a schematic structural view of the auxiliary transmission case of the present invention.

Fig. 9 is a side sectional view of the auxiliary transmission case of the present invention.

Fig. 10 is a schematic structural view of the notching box of the present invention.

Fig. 11 is a schematic structural view of the notching iron I-shaped wheel of the present invention.

The figure illustrates the format: the device comprises a feeding seat 1, a notching box 2, an auxiliary transmission box 3, a feeding box 11, a feeding channel 12, a material conveying wheel set 13, an auxiliary notching box 14, an auxiliary notching assembly 15, a traction assembly 16, a supporting leg 17, a small cavity 21, a notching iron I-shaped wheel 22, a supporting shaft 23, a large cavity 24, a motor A25, a motor B31, a connecting shaft 32, a transmission belt A33, a transmission gear A34, a transmission gear B35, a transverse shaft 36, a transmission iron I-shaped wheel A131, a transmission iron I-shaped wheel B132, a transmission gear C133, a transmission belt B134, a discharge port 141, a feeding port 142, an auxiliary notching iron I-shaped wheel 151, a supporting shaft A152, a supporting shaft B161, a traction iron I-shaped wheel 162, a rack A1311, a rack B1312, a rack C1511, a magnetic stripe 1621, a notching 221 and a rack D222.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides a punching device of a racket by improvement, as shown in the attached drawing of the specification, the punching device can be implemented as follows; the automatic feeding device comprises a feeding seat 1, a notching box 2 and an auxiliary transmission box 3, wherein the bottom of the notching box 2 is connected to the top of the feeding seat 1 through a screw, and one side of the auxiliary transmission box 3 is connected to one side of the notching box 2 through a screw; the feeding seat 1 comprises a feeding box 11, a feeding channel 12, a material conveying wheel set 13, an auxiliary notching box 14, an auxiliary notching assembly 15, a traction assembly 16 and supporting legs 17, wherein the feeding channel 12 is formed in the feeding box 11, the material conveying wheel sets 13 are installed in the feeding channel 12 through bearings, the auxiliary notching box 14 is connected to the bottom of the feeding box 11 through screws, the auxiliary notching assembly 15 and the traction assembly 16 are installed in the auxiliary notching box 14 through bearings, the auxiliary notching assembly 15 is adjacent to the traction assembly 16, and the supporting legs 17 are connected to the periphery of the bottom of the feeding box 11 through screws; the notching box 2 comprises a small cavity 21, a notching iron I-shaped wheel 22, a supporting shaft 23, a large cavity 24 and a motor A25, one end of the supporting shaft 23 is connected to one side of the small cavity 21 through a bearing, the other end of the supporting shaft 23 penetrates through the middle of the notching iron I-shaped wheel 22, the supporting shaft penetrates through the portion, penetrating through the notching iron I-shaped wheel 22, of the side wall of the small cavity 21, the other end of the supporting shaft 23 penetrates through the middle of the notching iron I-shaped wheel 22 and is connected with the notching iron I-shaped wheel through a screw, the other end of the supporting shaft 23 further penetrates through the side wall of the small cavity 21 and is connected with the notching iron I-shaped wheel through a bearing when penetrating through the side wall of the small cavity 21; the auxiliary transmission case 3 comprises a motor B31, a connecting shaft 32, a transmission belt A33, a transmission gear A34, a transmission gear B35 and a transverse shaft 36, one end of the connecting shaft 32 is vertically connected with one end of the motor B31 through a screw, the other end of the connecting shaft 32 penetrates through the middle of the transmission gear A34 and penetrates through the transmission gear A34, the transmission gear A34 and the transmission gear B are connected through a screw, one end of the transverse shaft 36 is connected with the inner wall of one side of the auxiliary transmission case 3 through a bearing, the other end of the transverse shaft 36 penetrates through the middle of the transmission gear B35 and penetrates through the transmission gear B35, the transmission gear A

More specifically, the material transfer wheel group 13 comprises a material transfer iron character wheel a131, a material transfer iron character wheel B132, a transmission gear C133 and a transmission belt B134, the material transfer iron character wheel a131 is mounted at the bottom of the material transfer iron character wheel B132 and is meshed with the material transfer iron character wheel B132, one end of the material transfer iron character wheel B132 passes through the side wall of the feeding channel 12 and is connected with the feeding channel 12 through a bearing, one end of the material transfer iron character wheel B132 passes through the side wall part of the feeding channel 12 and is nested with the transmission gear C133, the transmission belt B134 is wound on the surface of the transmission gear C133, by switching on an external power supply of a motor B31, the motor B31 drives the connecting shaft 32 to rotate, the other end of the connecting shaft 32 is connected with a supporting shaft B161 through a screw, the connecting shaft 32 rotates and simultaneously drives the transmission gear a34 and the supporting shaft B161 to rotate, the transmission gear a34 drives the transmission gear B35 to rotate through the transmission belt a33, the transmission gear, thereby the cross shaft 36 rotates to drive the material conveying iron I-shaped wheel B132 to rotate, meanwhile, the rotation of the material conveying iron I-shaped wheel B132 also drives the transmission gear C133 to operate and rotate, the transmission gear C133 operates and rotates to drive the transmission gears C133 in other material conveying wheel groups 13 to operate through the transmission belt B134, simultaneously, the operation of the transmission gears C133 in other material conveying wheel groups 13 drives other material conveying wheel groups 13 to operate, the material conveying iron I-shaped wheel B132 rotates to drive the material conveying iron I-shaped wheel A131 meshed with the transmission gears to rotate reversely, a badminton racket frame round steel pipe needing notching is embedded into a gap between the grooves of the material conveying iron I-shaped wheel A131 and the material conveying iron I-shaped wheel B132, and the badminton racket frame round steel pipe needing notching is conveyed to the inside the auxiliary notching box 14 through the material inlet 142.

More specifically, the auxiliary notching box 14 includes a discharge port 141 and a feed port 142, the discharge port 141 is opened at an upper portion of one end of the auxiliary notching box 14, the feed port 142 is opened at an upper portion of the other end of the auxiliary notching box 14, a circular badminton racket frame steel pipe needing notching is conveyed to the feed port 142 through the material conveying wheel set 13 to enter the auxiliary notching box 14, and then is sent out through the discharge port 141 through the traction assembly 16.

More specifically, the auxiliary notching assembly 15 includes an auxiliary notching iron I-shaped wheel 151 and a support shaft A152, one end of the support shaft A152 passes through the middle of the auxiliary notching iron I-shaped wheel 151 and is connected with the auxiliary notching iron I-shaped wheel by screws, one end of the support shaft A152 passes through the part of the auxiliary notching iron I-shaped wheel 151 and is connected with one side wall of the auxiliary notching box by a bearing, the other end of the support shaft A152 is connected with the other side wall of the auxiliary notching box 14 by a bearing, the auxiliary notching iron I-shaped wheel 151 is meshed with the notching iron I-shaped wheel 22, a badminton racket frame round steel tube conveyed by the material conveying wheel set 13 enters a gap between the auxiliary notching iron I-shaped wheel 151 and a groove of the notching iron I-shaped wheel 22, the groove of the auxiliary notching iron I-shaped wheel 151 serves as a support bottom surface, notching is performed by a notching rib 221 in the notching iron I-shaped wheel 22, and a gap between the grooves of the material conveying iron I-shaped wheel A131 and the material conveying iron I-shaped wheel B132 and a gap between the auxiliary notching iron I-shaped wheel 151 and the notching iron And the size of the gap between the grooves is consistent.

More specifically, the pulling assembly 16 includes a supporting shaft B161 and a pulling ironwork character wheel 162, one end of the supporting shaft B161 passes through the middle of the pulling ironwork character wheel 162 and is connected with the middle of the pulling ironwork character wheel 162 by a screw, the passing part of the supporting shaft B161 is connected with one side wall of the auxiliary notching box 14 by a bearing, the other end of the supporting shaft B161 passes through the other side wall of the auxiliary notching box 14 and is connected with the other side wall of the auxiliary notching box by a bearing, the passing part of the supporting shaft B passes through the auxiliary transmission box 3, the external power of the motor B31 is switched on, the motor B31 drives the connecting shaft 32 to rotate, the other end of the connecting shaft 32 is connected with the supporting shaft B161 by a screw, the connecting shaft 32 rotates and drives the transmission gear a34 and the supporting shaft B161 to rotate, the pulling ironwork character wheel 162 is driven to rotate by the supporting shaft B161, when the circular racket frame steel tube punched through the groove is meshed with the auxiliary notching, because the circular tube of the racket frame is straight, the circular tube of the racket frame is driven to move towards one end when the traction iron I-shaped wheel 162 rotates, and the circular tube of the racket frame is conveyed out of the auxiliary punching tank 14 through the discharge port 141.

More specifically, the notching iron I-shaped wheel 22 comprises a notching edge 221 and a rack D222, the notching edge 221 is arranged on the surface of a groove of the notching iron I-shaped wheel 22, the rack D222 is arranged at the top of the side edge of the notching iron I-shaped wheel 22, an external power supply of a motor A25 is switched on, a support shaft 23 is driven to rotate by a motor A25, the support shaft 23 drives the notching iron I-shaped wheel 22 to rotate, the rack D222 is meshed with the auxiliary notching iron I-shaped wheel 151, the notching iron I-shaped wheel 22 drives the notching edge 221 to press and notch a circular steel tube of a racket frame of the badminton racket, the circumference of the notching edge 221 is the same as the length of the groove of the racket frame needing to be notched, the circumference of the groove of the notching iron I-shaped wheel 22 is the same as the length of a single racket frame, and the circumference of the notching edge 221 is smaller than the circumference of.

More specifically, a rack bar a1311 is arranged at the top of the side edge of the material transfer iron character wheel a131, a rack bar B1312 is arranged at the top of the material transfer iron character wheel B132, and the material transfer iron character wheel a131 and the material transfer iron character wheel B132 are meshed through the rack bar a1311 and the rack bar B1312.

More specifically, a rack C1511 is disposed at the top of the side of the auxiliary notching iron I-shaped wheel 151, and the auxiliary notching iron I-shaped wheel 151 is engaged with the notching iron I-shaped wheel 22 through the rack C1511.

More specifically, the groove of the traction iron I-shaped wheel 162 is provided with a magnetic strip 1621, the circular steel tube of the racket frame is sucked through the magnetic strip 1621, and when the traction iron I-shaped wheel 162 drives the magnetic strip 1621 to rotate, a strand of pulling force is generated on the circular steel tube of the racket frame, so that the circular steel tube of the racket frame is pulled and conveyed away.

The working principle of the notching device of the racket is as follows: the user is connected with an external power supply of a motor B31, the motor B31 drives a connecting shaft 32 to rotate, the other end of the connecting shaft 32 is connected with a supporting shaft B161 through a screw, the connecting shaft 32 rotates and drives a transmission gear A34 and the supporting shaft B161 to rotate simultaneously, the transmission gear A34 drives a transmission gear B35 to rotate through a transmission belt A33, a transmission gear B35 drives a cross shaft 36 to rotate, the other end of the cross shaft 36 and a material transmission iron I-shaped wheel B132 penetrate through the side wall part of a feeding channel 12 through screws to be connected, so that the cross shaft 36 rotates to drive a material transmission iron I-shaped wheel B132 to rotate, the material transmission iron I-shaped wheel B132 rotates to drive a material transmission iron I-shaped wheel A131 meshed with the cross shaft to rotate reversely, the badminton racket frame round steel pipe needing punching is embedded into a gap between the material transmission iron-shaped wheel A131 and the material transmission iron-shaped wheel B132, and the badminton racket frame round steel pipe needing punching is meshed to rotate through a feeding hole 142 to the auxiliary notching box 14, and at the same time, the motor A25 external power is switched on, the motor A25 drives the support shaft 23 to rotate, the support shaft 23 drives the notching iron I-shaped wheel 22 to rotate, the rack D222 is meshed with the auxiliary notching iron I-shaped wheel 151, the badminton racket frame round steel tube needing notching is conveyed to the gap between the auxiliary notching iron I-shaped wheel 151 and the notching iron I-shaped wheel 22 in the auxiliary notching box 14 through the material conveying wheel set 13, the notching iron I-shaped wheel 22 drives the notching edge 221 to press and notch the badminton racket frame round steel tube, after notching, the notching iron I-shaped wheel 22 and the auxiliary notching iron I-shaped wheel 151 are meshed to rotate to convey the badminton racket frame round steel tube into the groove of the traction iron I-shaped wheel 162, when the traction iron I-shaped wheel 162 drives the magnetic strip 1621 in the groove to rotate, a strand of the badminton racket frame round steel tube is generated, the circular steel tube of the racket frame is pulled to be conveyed out of the material conveying wheel set 13 at the other end of the material conveying channel 12 through the material outlet 141, and then the circular steel tube is conveyed out of the device through the material conveying wheel set 13, wherein the motor A25 and the motor B31 are R57-52-Y80-4-M1 speed reducing motors.

In conclusion; compared with the prior notching device of the racket, the notching device of the racket has high safety factor and can effectively prevent workers from being injured; the notching efficiency is improved; meanwhile, the device is convenient to operate and can reduce the burden of workers.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a notching device of racket, includes stack pallet (1), notching case (2) and auxiliary transmission case (3), its characterized in that: the bottom of the notching box (2) is connected to the top of the feeding seat (1) through a screw, and one side of the auxiliary transmission box (3) is connected to one side of the notching box (2) through a screw; the feeding seat (1) comprises a feeding box (11), a feeding channel (12), a material conveying wheel set (13), an auxiliary notching box (14), an auxiliary notching assembly (15), a traction assembly (16) and supporting legs (17), wherein the feeding channel (12) is formed in the feeding box (11), the material conveying wheel sets (13) are installed in the feeding channel (12) through bearings, the auxiliary notching box (14) is connected to the bottom of the feeding box (11) through screws, the auxiliary notching assembly (15) and the traction assembly (16) are installed in the auxiliary notching box (14) through bearings, the auxiliary notching assembly (15) is adjacent to the traction assembly (16), and the supporting legs (17) are connected to the periphery of the bottom of the feeding box (11) through screws; the notching box (2) comprises a small cavity (21), a notching iron I-shaped wheel (22), a supporting shaft (23), a large cavity (24) and a motor A (25), one end of the supporting shaft (23) is connected to one side of the small cavity (21) through a bearing, the other end of the supporting shaft (23) penetrates through the middle of the notching iron I-shaped wheel (22), the other end of the supporting shaft (23) penetrates through the side wall of the other side of the small cavity (21) and further penetrates through the side wall of the other side of the small cavity (21), the other end of the supporting shaft (23) penetrates through the middle of the notching iron I-shaped wheel (22) and is connected with the notching iron I-shaped wheel through a screw, the other end of the supporting shaft (23) is connected with the side wall of the other side of the small cavity (21) through the bearing, the other end of the supporting shaft (23) further penetrates through the side wall of the small; auxiliary transmission case (3) include motor B (31), connecting axle (32), driving belt A (33), drive gear A (34), drive gear B (35), cross axle (36), connecting axle (32) one end pass through the screw immediately connect in motor B (31) one end, connecting axle (32) other end pass drive gear A (34) middle part, it passes drive gear A (34) and both pass through screwed connection simultaneously, cross axle (36) one end is passed through the bearing and is connected in auxiliary transmission case (3) one side inner wall, and the cross axle (36) other end passes drive gear B (35) middle part, and it passes drive gear B (35) and both pass through screwed connection simultaneously, and drive gear A (34) and drive gear B (35) pass through driving belt A (33) swing joint.

2. The notching device of a racket of claim 1, wherein: pass material wheelset (13) including passing material worker character wheel A (131), passing material worker character wheel B (132), drive gear C (133) and driving belt B (134), pass material worker character wheel A (131) install in pass material worker character wheel B (132) bottom, and both mesh mutually, pass material worker character wheel B (132) one end and pass pay-off passageway (12) lateral wall, and both pass the bearing and connect, pass material worker character wheel B (132) one end and pass pay-off passageway (12) nested lateral wall portion have drive gear C (133), drive gear C (133) surface winding has driving belt B (134).

3. The notching device of a racket of claim 1, wherein: the auxiliary notching box (14) comprises a discharge hole (141) and a feed hole (142), the discharge hole (141) is arranged at the upper part of one end of the auxiliary notching box (14),

the feed inlet (142) is arranged at the upper part of the other end of the auxiliary punching tank (14).

4. The notching device of a racket of claim 1, wherein: supplementary notching subassembly (15) are including supplementary notching iron worker character wheel (151) and back shaft A (152), back shaft A (152) one end is passed supplementary notching iron worker character wheel (151) middle part, and both pass through screwed connection, and back shaft A (152) one end is passed supplementary notching iron worker character wheel (151) part and is passed through the bearing and connect in supplementary notching case one side lateral wall, and back shaft A (152) other end passes through the bearing and connects in supplementary notching case (14) opposite side lateral wall.

5. The notching device of a racket of claim 1, wherein: traction assembly (16) is including back shaft B (161) and traction iron I-shaped wheel (162), back shaft B (161) one end is passed traction iron I-shaped wheel (162) middle part, and both pass through screwed connection, and its pass part passes through the bearing and connects in supplementary towards groove case (14) one side lateral wall, and the supplementary towards groove case (14) opposite side lateral wall is passed to back shaft B (161) other end, and both pass through the bearing and connect, and it passes the part and gets into inside supplementary transmission case (3).

6. The notching device of a racket of claim 1, wherein: the notching iron I-shaped wheel (22) comprises a notching edge (221) and a rack D (222), the notching edge (221) is arranged on the surface of a groove of the notching iron I-shaped wheel (22), and the rack D (222) is arranged at the top of the side edge of the notching iron I-shaped wheel (22).

7. The notching device of a racket of claim 2, wherein: the top of the side edge of the material transmission iron I-shaped wheel A (131) is provided with a rack A (1311), and the top of the material transmission iron I-shaped wheel B (132) is provided with a rack B (1312).

8. The notching device of a racket of claim 4, wherein: and a rack C (1511) is arranged at the top of the side edge of the auxiliary notching iron I-shaped wheel (151).

9. The notching device of a racket of claim 5, wherein: the groove of the traction iron I-shaped wheel (162) is provided with a magnetic strip (1621).

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