阅读说明：本技术 一种新能源电机转子精车机 (Fine car machine of new forms of energy electric motor rotor ) 是由 姚伟 于 2020-12-29 设计创作，主要内容包括：本发明涉及一种新能源电机转子精车机,台面板(1),所述台面板(1)上设置有用于放置转子(100)的升降机构(14),所述台面板(1)上一侧设置有用于夹紧所述转子(100)一端的夹紧机构(12),所述台面板(1)上另一侧还设置有用于挤压所述转子(100)另一端的顶紧机构(13),所述台面板(1)上位于所述升降机构(14)的后方设置有能够在横、纵向调节的用于切割所述转子(100)上线圈的切割机构(15)；本装置通过顶紧机构和夹紧机构能够实现固定转子,通过夹紧机构的旋转能够使得转子也旋转,通过能够横向纵向移动的切割结构,能够实现对转子上线圈的切割。(The invention relates to a new energy motor rotor finishing machine, which comprises a table top plate (1), wherein a lifting mechanism (14) for placing a rotor (100) is arranged on the table top plate (1), a clamping mechanism (12) for clamping one end of the rotor (100) is arranged on one side of the table top plate (1), a jacking mechanism (13) for extruding the other end of the rotor (100) is also arranged on the other side of the table top plate (1), and a cutting mechanism (15) which can be adjusted transversely and longitudinally and is used for cutting coils on the rotor (100) is arranged behind the lifting mechanism (14) on the table top plate (1); the device can fix the rotor through the jacking mechanism and the clamping mechanism, the rotor can also rotate through the rotation of the clamping mechanism, and the cutting of the coil on the rotor can be realized through the cutting structure capable of transversely and longitudinally moving.)

1. The utility model provides a new forms of energy electric motor rotor car polisher which characterized in that:

the coil cutting machine comprises a table top plate (1), wherein a lifting mechanism (14) used for placing a rotor (100) is arranged on the table top plate (1), a clamping mechanism (12) used for clamping one end of the rotor (100) is arranged on one side of the table top plate (1), a jacking mechanism (13) used for extruding the other end of the rotor (100) is further arranged on the other side of the table top plate (1), and a cutting mechanism (15) which can be adjusted transversely and longitudinally and is used for cutting coils on the rotor (100) is arranged behind the lifting mechanism (14) on the table top plate (1);

the cutting mechanism (15) comprises an adjusting rod (158) which is rotatably and spirally arranged on the table panel (1), an adjusting block (157) is arranged at the end part of the adjusting rod (158), and the adjusting block (159) is connected with a transverse moving plate (159) which is arranged on the table panel (1) in a sliding manner through a sliding rail;

a longitudinal moving plate (156) is arranged on the transverse moving plate (159) in a sliding mode through a sliding rail, and the longitudinal moving plate (156) is driven through a moving cylinder (154) arranged on the transverse moving plate (159);

the driving directions of the moving air cylinder (154) and the adjusting rod (158) are vertical;

the cutting machine is characterized in that a cutting motor (151) is arranged on the longitudinal moving plate (156), the cutting motor (151) is connected with a cutter seat (152) through a belt, and a cutter (153) used for cutting a coil on the rotor (100) is arranged on the cutter seat (152).

2. The new forms of energy motor rotor car polisher of claim 1, characterized in that:

the jacking mechanism (13) comprises a jacking cylinder (131) mounted on the table panel (1), a jacking head (132) is arranged at the end part of the jacking cylinder (131), and the jacking head (132) is used for jacking one end of the rotor (100).

3. The new forms of energy motor rotor car polisher of claim 1, characterized in that:

the lifting mechanism comprises a lifting fixing plate (142) arranged on the table top plate (1) and a lifting cylinder (141) mounted below the lifting fixing plate (142), a sliding rod is arranged on the lifting fixing plate (142), a moving plate (143) is arranged on the upper portion of the sliding rod in a sliding mode, the driving end of the lifting cylinder (141) is connected with the moving plate (143), two cylindrical supporting rods (144) are arranged on the moving plate (143), and the rotor (100) is placed between the two supporting rods (144).

4. The new forms of energy motor rotor car polisher of claim 1, characterized in that: the clamping mechanism (12) comprises a spindle box (123) arranged on the table panel (1), a clamping sleeve (124) is arranged at the end part of the spindle box, the clamping sleeve (124) is used for clamping the rotor (100), a spindle in the spindle box (123) is connected with the clamping sleeve (124), the spindle is connected with a gear located on the spindle box (123), and the gear is driven by a motor (121) located on the table panel (1).

5. The new forms of energy motor rotor car polisher of claim 4, characterized in that: the motor (121) is connected with a gear of the spindle box (123) through a belt.

6. The new forms of energy motor rotor car polisher of claim 1, characterized in that: still be provided with on deck plate (1) and be located protection machanism (11) in elevating system (14) outside, protection machanism (11) are including setting up cylinder (111) on deck plate (1), deck plate (1) still is provided with a set of guide pillar (112), be provided with slider (113) on guide pillar (112), be connected with guard gate (114) behind slider (113), guard gate (114) are connected the drive end of cylinder (111), the top of guide pillar (112) is connected with glass door (115), the inboard of guard gate (114) still is connected with rather than vertically upper guard plate (116), upper guard plate (116) are located directly over tight mechanism (13) in top.

Technical Field

The invention relates to a finish turning device, in particular to a finish turning machine for a coil on a new energy motor rotor.

Background

After the coil of new forms of energy electric motor rotor is installed, because the length of coil itself differs and the precision when each coil groove is installed differs for the coil can not satisfy actual requirement, need cut the coil through a cutting device, realizes that the coil reaches predetermined length, and the terminal surface that realizes the coil is in the coplanar. .

In view of the above-mentioned defects, the present designer actively makes research and innovation to create a new energy motor rotor finishing machine with a novel structure, so that the new energy motor rotor finishing machine has more industrial utilization value.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide a new energy motor rotor car refiner.

The technical scheme of the invention is as follows:

the utility model provides a new forms of energy electric motor rotor car polisher which characterized in that:

the coil cutting machine comprises a table top plate (1), wherein a lifting mechanism (14) used for placing a rotor (100) is arranged on the table top plate (1), a clamping mechanism (12) used for clamping one end of the rotor (100) is arranged on one side of the table top plate (1), a jacking mechanism (13) used for extruding the other end of the rotor (100) is further arranged on the other side of the table top plate (1), and a cutting mechanism (15) which can be adjusted transversely and longitudinally and is used for cutting coils on the rotor (100) is arranged behind the lifting mechanism (14) on the table top plate (1);

the cutting mechanism (15) comprises an adjusting rod (158) which is rotatably and spirally arranged on the table panel (1), an adjusting block (157) is arranged at the end part of the adjusting rod (158), and the adjusting block (159) is connected with a transverse moving plate (159) which is arranged on the table panel (1) in a sliding manner through a sliding rail;

a longitudinal moving plate (156) is arranged on the transverse moving plate (159) in a sliding mode through a sliding rail, and the longitudinal moving plate (156) is driven through a moving cylinder (154) arranged on the transverse moving plate (159);

the driving directions of the moving air cylinder (154) and the adjusting rod (158) are vertical;

the cutting machine is characterized in that a cutting motor (151) is arranged on the longitudinal moving plate (156), the cutting motor (151) is connected with a cutter seat (152) through a belt, and a cutter (153) used for cutting a coil on the rotor (100) is arranged on the cutter seat (152).

Further, the jacking mechanism (13) comprises a jacking cylinder (131) mounted on the table top plate (1), a jacking head (132) is arranged at the end of the jacking cylinder (131), and the jacking head (132) is used for jacking one end of the rotor (100).

Furthermore, the lifting mechanism comprises a lifting fixing plate (142) arranged on the table panel (1) and a lifting cylinder (141) mounted below the lifting fixing plate (142), a sliding rod is arranged on the lifting fixing plate (142), a moving plate (143) is arranged on the upper portion of the sliding rod in a sliding mode, the driving end of the lifting cylinder (141) is connected with the moving plate (143), two cylindrical supporting rods (144) are arranged on the moving plate (143), and the rotor (100) is placed between the two supporting rods (144).

Furthermore, the clamping mechanism (12) comprises a spindle box (123) arranged on the table panel (1), a clamping sleeve (124) is arranged at the end of the spindle box, the clamping sleeve (124) is used for clamping the rotor (100), a spindle in the spindle box (123) is connected with the clamping sleeve (124), the spindle is connected with a gear positioned on the spindle box (123), and the gear is driven by a motor (121) positioned on the table panel (1).

Further, the motor (121) is connected with a gear of the spindle box (123) through a belt.

Furthermore, a protection mechanism (11) located on the outer side of the lifting mechanism (14) is further arranged on the table top plate (1), the protection mechanism (11) comprises an air cylinder (111) arranged on the table top plate (1), the table top plate (1) is further provided with a group of guide pillars (112), a sliding block (113) is arranged on each guide pillar (112), a protection door (114) is connected behind each sliding block (113), the protection door (114) is connected with the driving end of the air cylinder (111), the top of each guide pillar (112) is connected with a glass door (115), an upper protection plate (116) perpendicular to the protection door (114) is further connected to the inner side of the protection door (114), and the upper protection plate (116) is located right above the jacking mechanism (13).

By the scheme, the invention at least has the following advantages:

the device can fix the rotor through the jacking mechanism and the clamping mechanism, the rotor can also rotate through the rotation of the clamping mechanism, and the cutting of the coil on the rotor can be realized through the cutting structure capable of transversely and longitudinally moving.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate a certain embodiment of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic view of another aspect of the present invention;

FIG. 4 is a schematic view of another aspect of the present invention;

in the figure:

100-a rotor;

1-a table top board;

11-a guard mechanism; 111-cylinder; 112-guide posts; 113-a slider; 114-a guard gate; 115-glass door; 116-upper guard plate;

12-a clamping mechanism; 121-a motor; 122-a belt; 123-a main spindle box; 124-clamping sleeve;

13-a jacking mechanism; 131-a jacking cylinder; 132-a puller head;

14-a lifting mechanism; 141-a lifting cylinder; 142-a lifting fixed plate; 143-moving the board; 144-a support bar;

15-a cutting mechanism; 151-cutting motor; 152-a cutter seat; 153-a cutter; 154-a traveling cylinder; 155-cutting the guide rail; 156-moving the plate longitudinally; 157-a conditioning block; 158-adjusting rod; 159-moving the plate laterally.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 to 4, a new energy motor rotor finishing machine according to a preferred embodiment of the present invention,

the coil cutting machine comprises a table top plate 1, wherein a lifting mechanism 14 used for placing a rotor 100 is arranged on the table top plate 1, a clamping mechanism 12 used for clamping one end of the rotor 100 is arranged on one side of the table top plate 1, a jacking mechanism 13 used for extruding the other end of the rotor 100 is further arranged on the other side of the table top plate 1, and a cutting mechanism 15 which can be adjusted transversely and longitudinally and used for cutting a coil on the rotor 100 is arranged behind the lifting mechanism 14 on the table top plate 1;

the cutting mechanism 15 comprises an adjusting rod 158 which is rotatably and spirally arranged on the table panel 1, an adjusting block 157 is arranged at the end of the adjusting rod 158, and the adjusting block 159 is connected with a transverse moving plate 159 which is arranged on the table panel 1 in a sliding way through a sliding rail;

a longitudinal moving plate 156 is slidably arranged on the transverse moving plate 159 through a slide rail, and the longitudinal moving plate 156 is driven by a moving cylinder 154 arranged on the transverse moving plate 159;

the driving directions of the moving cylinder 154 and the adjusting rod 158 are vertical;

the longitudinal moving plate 156 is provided with a cutting motor 151, the cutting motor 151 is connected with a cutter seat 152 through a belt, and the cutter seat 152 is provided with a cutter 153 for cutting the coil on the rotor 100.

The tightening mechanism 13 includes a tightening cylinder 131 mounted on the table panel 1, and a tightening head 132 is provided at an end of the tightening cylinder 131, and the tightening head 132 is used for tightening one end of the rotor 100.

The lifting mechanism comprises a lifting fixing plate 142 arranged on the table panel 1, and a lifting cylinder 141 mounted below the lifting fixing plate 142, wherein a sliding rod is arranged on the lifting fixing plate 142, a moving plate 143 is arranged on the upper part of the sliding rod in a sliding manner, the driving end of the lifting cylinder 141 is connected with the moving plate 143, two cylindrical supporting rods 144 are arranged on the moving plate 143, and the rotor 100 is placed between the two supporting rods 144.

The clamping mechanism 12 comprises a headstock 123 arranged on the table top plate 1, the end of which is provided with a clamping sleeve 124, the clamping sleeve 124 being used for clamping the rotor 100, a spindle in the headstock 123 being connected to the clamping sleeve 124, the spindle being connected to a gear wheel located on the headstock 123, the gear wheel being driven by a motor 121 located on the table top plate 1.

The motor 121 is connected to the gear of the headstock 123 by a belt.

The table top board 1 is further provided with a protection mechanism 11 located outside the lifting mechanism 14, the protection mechanism 11 includes an air cylinder 111 provided on the table top board 1, the table top board 1 is further provided with a set of guide posts 112, a slide block 113 is provided on the guide posts 112, a protection door 114 is connected behind the slide block 113, the protection door 114 is connected to a driving end of the air cylinder 111, a glass door 115 is connected to a top of the guide posts 112, an upper protection plate 116 perpendicular to the guide posts 114 is further connected to an inner side of the protection door 114, and the upper protection plate 116 is located right above the tightening mechanism 13.

The working principle of the invention is as follows:

in this device, elevating system is used for going up and down rotor 100, moves to suitable height, and clamping mechanism presss from both sides tight rotor 100's one end and can drive its rotation, and tight mechanism in top can push up the other end of tight rotor, and cutting mechanism has included the fine-tuning of a direction, and the feed mechanism of a direction can accomplish the cutting to the coil on the rotor 100. The protection mechanism mainly plays a role in protection and prevents the generation of scraps.

The invention has at least the following advantages:

the device can fix the rotor through the jacking mechanism and the clamping mechanism, the rotor can also rotate through the rotation of the clamping mechanism, and the cutting of the coil on the rotor can be realized through the cutting structure capable of transversely and longitudinally moving.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.