CN112846903B

CN112846903B - Slot wedge processing device

Info

Publication number: CN112846903B
Application number: CN202011623240.9A
Authority: CN
Inventors: 侯有林
Original assignee: Anhui Shengxin Insulating Material Co ltd
Current assignee: Anhui Shengxin Insulating Material Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2022-08-26
Anticipated expiration: 2040-12-31
Also published as: CN112846903A

Abstract

A slot wedge processing device comprises a frame, a material pressing mechanism, a pre-feeding mechanism, a machine tool reciprocating motion platform and a cutting device; a material pressing mechanism is arranged at the feeding front end of the rack, and a machine tool reciprocating motion platform and a cutting device connected with the machine tool reciprocating motion platform are arranged at the rear end of the rack; the pre-feeding mechanism is arranged in the middle of the rack and is close to the feeding side of the reciprocating motion platform of the machine tool; a plurality of batch feeding plates which are uniformly and horizontally distributed and extend to the lower part of the cutting device along the feeding end of the rack are arranged on the upper surface of the rack; a material receiving device is arranged below the discharge end of the rack and gradually descends to collect groove wedge strips cut off by the cutting device. The device collects the slot wedges through the liftable material receiving device, so that a time interval is generated, the length detection, collection and packaging of the slot wedge strips can be performed by operators, and the situation that the slot wedge strips are inclined and overlapped when batch slot wedges are conveyed simultaneously is avoided due to the carding of the slot wedge strips, so that the processing efficiency is high.

Description

Slot wedge processing device

Technical Field

The invention relates to the technical field of machining, in particular to a slot wedge machining device.

Background

The slot wedge is widely applied to the motor, is mostly prepared from polyester resin, glass fiber and reduced iron powder, and has the characteristics of certain mechanical strength and relative magnetic permeability. The slot wedges generally need to be chamfered and then cut into slot wedges of consistent length. The slot wedge processing equipment in the existing market can only process small batch of slot wedges generally, controls the machine through an operator at one side, collects and cuts off the back slot wedges at the other side, and because the machining speed of the machine is high, the manual collection and arrangement speed of the slot wedges is low, so that the beat is greatly reduced, and in the slot wedge processing process, the inclination and the superposition condition easily appear, so that the processing quality is influenced.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, it is an object of the present invention to provide a slot wedge processing apparatus.

The invention is realized by adopting the following technical scheme:

a slot wedge processing device comprises a frame, a material pressing mechanism, a pre-feeding mechanism, a machine tool reciprocating motion platform and a cutting device; a material pressing mechanism is arranged at the feeding front end of the rack, and a machine tool reciprocating motion platform and a cutting device connected with the machine tool reciprocating motion platform are arranged at the rear end of the rack; the pre-feeding mechanism is arranged in the middle of the rack and is close to the feeding side of the reciprocating motion platform of the machine tool; a plurality of batch feeding plates which are uniformly and horizontally distributed and extend to the lower part of the cutting device along the feeding end of the rack are arranged on the upper surface of the rack; a material receiving device is arranged below the discharge end of the rack and used for gradually descending the groove wedge cut off by the cutting device to collect the groove wedge strips.

The material receiving device comprises a collecting plate, a lower connecting plate, a lifting motor, a notch, an end face fixing plate, a sliding rod, a fixing seat, a sliding sleeve and a screw rod; the end surface fixing plate is fixed on the side surface of the discharging tail end of the rack; a lifting motor is fixed on the upper outer side surface of the end surface fixing plate, and a fixing seat is fixed on the lower outer side surface of the end surface fixing plate; a sliding rod is vertically arranged on the fixed seat; the sliding rod is fixed on the inner side surface of the lower connecting plate through a sliding sleeve; a U-shaped collecting plate is fixed on the upper surface of the lower connecting plate, and a notch for a lifting motor to penetrate through is formed in the middle of the lower connecting plate; the lifting motor is fixed with the lower surface of the lower connecting plate through the screw rod, and the screw rod can be driven to move up and down through the lifting motor, so that the lower connecting plate and the U-shaped collecting plate are driven to move up and down.

The cutting device comprises a driving motor, a connecting piece, a protective cover, a cutting wheel piece, a first controller, a first press roller group, a second press roller group and a second controller; the left end of the connecting piece is provided with a driving motor, and the right end of the connecting piece is provided with a protective cover; the driving motor penetrates through the connecting piece through the driving shaft and is connected with the cutting wheel piece arranged in the protective cover; the first compression roller group and the second compression roller group are arranged on the frame and positioned on two sides of the cutting wheel sheet; the first compression roller group is connected with a first controller; the second press roller group is connected with a second controller; the connecting mechanism comprises a horizontal moving plate and a connecting plate; the horizontal moving plate is fixed on a reciprocating motion platform of the machine tool; one end of the connecting plate is fixed on the horizontal moving plate, and the other end of the connecting plate is fixed on the connecting piece.

The rack is also provided with a first strip tidying mechanism, a second strip tidying mechanism and a third strip tidying mechanism; the first strip tidying mechanism comprises a fixing plate and a strip tidying device; the fixed plate is fixed on the upper surface of the rack, and the lower surface of the fixed plate is uniformly provided with the strip tidying devices along the discharging direction; the strip tidying device is arranged into a downward arc-shaped structure and faces downwards to a position between two adjacent batch feeding plates; the strip tidying devices arranged on the first strip tidying mechanism correspond to the batch feeding plates one by one; the second strip tidying mechanism and the third strip tidying mechanism have the same structure as the first strip tidying mechanism; the first strip tidying mechanism is positioned at the rear end of the material pressing mechanism; the second strip tidying mechanism is positioned between the pre-feeding mechanism and the machine tool reciprocating motion platform; and the third strip tidying mechanism is positioned between the machine tool reciprocating motion platform and the cutting device.

The pre-feeding mechanism comprises a side plate, a guard bar, a control motor, a pneumatic control piece, an upper bracket, a press roller, a slot wedge strip end point control plate and a pneumatic execution element; the side plates are arranged on two sides of the frame; a protective rod, two compression rollers and an upper bracket are arranged between the two side plates; the protective rod and the upper bracket are positioned at the head end and the tail end of the side plate, and the two press rollers are arranged in the middle of the side plate; the side plates on the two sides are respectively provided with a pneumatic control piece; the outer side surfaces of the side plates on the two sides are provided with control motors for controlling the compression rollers to rotate; the lower surface of the upper support is provided with a group of pneumatic actuating elements, the lower ends of the pneumatic actuating elements are connected with a slot wedge strip end point control plate arranged right below the upper support, and the slot wedge strip end point control plate can be pushed and pulled to move up and down.

The slot wedge strip end point control plate is provided with an open slot and a sliding block, wherein the open slot is arranged downwards and corresponds to the batch feeding plates one by one; the sliding block corresponds to the sliding groove on the inner side face of the upper support, and the slot wedge strip end point control plate is driven to move up and down under the control of the pneumatic control piece and the pneumatic execution element, so that the slot wedge strip is positioned.

The rack is also provided with a lower cutting die; the upper surface of the lower cutting die is provided with a cutting groove, two sides of the lower cutting die are provided with fixing holes, and the upper surface of the lower cutting die is provided with a plurality of aligners along the feeding direction; the cutting groove of the lower cutting die corresponds to the cutting wheel piece of the cutting device; the aligners correspond to the batch feed plates one to one.

The material pressing mechanism comprises an adjusting block, a pressing rod and a bolt; the regulating block passes through the bolt activity and sets up in the frame both sides, is provided with the depression bar between the regulating block of both sides, and the depression bar is located the upper surface of frame, and the regulating block uses the bolt to rotate as rotation center, drives the depression bar and presses the material to the groove gib block.

In conclusion, the invention has the following beneficial effects: the device can detect the length of the slot wedge strips and collect and package the slot wedge strips at a time interval generated in the collecting process through the material receiving device, the overall adjustment is convenient, the slot wedge strips are combed, the conditions of inclination and superposition caused by simultaneous conveying of batch slot wedges are avoided, and the processing efficiency is high.

Drawings

Fig. 1 is a schematic front view of the present invention.

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

FIG. 3 is an enlarged schematic view of the present invention at H.

Fig. 4 is a schematic structural view in the direction a.

Fig. 5 is a schematic structural diagram of the first strip tidying mechanism.

Fig. 6 is a schematic structural view of a slot wedge strip end point control plate.

Fig. 7 is a schematic structural view of the pre-feeding mechanism.

Fig. 8 is a schematic structural view of the cutting lower die.

Wherein: a frame 1; a material pressing mechanism 2; a first strip arranging mechanism 3; a pre-feeding mechanism 4; a second strip arranging mechanism 5; a batch feed plate 6; a machine tool reciprocating motion platform 7; a connecting mechanism 8; a cutting device 9; a material receiving device 10; a third carding mechanism 11; cutting the lower die 12; a regulating block 201; a pressure lever 202; a bolt 203; a fixing plate 31; a bar organizer 32; side plates 41; a guard bar 42; a control motor 43; a pneumatic control 44; an upper bracket 45; a press roll 46; slot wedge strip end control plate 47; a pneumatic actuator 48; a horizontal moving plate 81; a connecting plate 82; a drive motor 91; a connecting member 92; a protective cover 93; a cutting wheel piece 94; a first controller 95; a first set of nip rollers 96; a second nip roller group 97; a second controller 98; a collection plate 101; a lower connecting plate 102; a lift motor 103; notches 104; an end fixing plate 105; a slide bar 106; a fixed seat 107; a sliding sleeve 108; a screw 109; an open groove 471; a slider 472; cutting the groove 121; a fixing hole 122; an aligner 123.

Detailed Description

As shown in fig. 1 to 8, the present invention is further explained in conjunction with the embodiments and the accompanying drawings.

A slot wedge processing device comprises a frame 1, a material pressing mechanism 2, a pre-feeding mechanism 4, a machine tool reciprocating motion platform 7 and a cutting device 9; a material pressing mechanism 2 is arranged at the feeding front end of the rack 1, and a machine tool reciprocating motion platform 7 and a cutting device 9 connected with the machine tool reciprocating motion platform 7 are arranged at the rear end of the rack 1; the pre-feeding mechanism 4 is arranged in the middle of the rack 1 and close to the feeding side of the machine tool reciprocating motion platform 7; the method is characterized in that: a plurality of batch feeding plates 6 which are uniformly and horizontally distributed and extend to the lower part of the cutting device 9 along the feeding end of the rack 1 are arranged on the upper surface of the rack 1; the receiving device 10 is arranged below the discharge end of the rack 1, the receiving device 10 gradually descends the slot wedges cut off by the cutting device 9 to collect slot wedge strips, in the prior art, the slot wedges need to be stopped after being cut off, and then the cut slot wedges are collected in an arranging manner, so that the production and processing efficiency is greatly influenced, in the application, the slot wedge strips can be increased ten times by adopting the batch feeding plate 6 to convey the slot wedge strips, therefore, the processing speed of a machine which is difficult to be followed by conventional operators is high, the cut slot wedges are disorderly arranged after being accumulated, the collection difficulty is high, the arrangement is very inconvenient, through the follow-up lifting receiving device 10, the cut slot wedges can fall on the collecting plate 101, and under the control of the lifting motor 103, the collecting plate 101 gradually descends, the structure of the rack 1 and the structure of the collecting plate 101 form an arranging structure, make the slot wedge that falls down level the whereabouts along the end of frame 1 and pile up, owing to controlled elevator motor 103's speed, thereby make collecting plate 101 even the upper surface height after piling up some slot wedges and the terminal height of frame 1 remain throughout unchanged, make the slot wedge that falls down newly can not lead to the fact in disorder because of piling up the height too high, also can not cause because of the terminal surface fall of collecting plate 101 upper surface height and frame 1 too big falls to fall to scatter, but level collection slot wedge, and the in-process of collecting through material collecting device, the time interval of production, enough operating personnel carry out length detection and collection packing to the slot wedge strip. The machine tool reciprocating platform 7 adopts a horizontal reciprocating mechanism which is commonly used in machine tools in the prior art and consists of a machine frame, a motor and a drag chain, and the horizontal reciprocating mechanism is not described in detail.

Preferably, the material receiving device 10 comprises a collecting plate 101, a lower connecting plate 102, a lifting motor 103, a notch 104, an end fixing plate 105, a sliding rod 106, a fixing seat 107, a sliding sleeve 108 and a screw rod 109; the end face fixing plate 105 is fixed on the side face of the discharging tail end of the rack 1; the upper outer side surface of the end surface fixing plate 105 is fixed with a lifting motor 103, and the lower outer side surface of the end surface fixing plate is fixed with a fixing seat 107; a sliding rod 106 is vertically arranged on the fixed seat 107; the sliding rod 106 is fixed on the inner side surface of the lower connecting plate 102 through a sliding sleeve 108; a U-shaped collecting plate 101 is fixed on the upper surface of the lower connecting plate 102, and a notch 104 for a lifting motor 103 to penetrate is arranged in the middle of the lower connecting plate 102; the lifting motor 103 is fixed to the lower surface of the lower connecting plate 102 through a screw rod 109, and the screw rod 109 can be driven to move up and down through the lifting motor 103, so that the lower connecting plate 102 and the U-shaped collecting plate 101 are driven to move up and down.

Preferably, the cutting device 9 includes a driving motor 91, a connecting member 92, a protective cover 93, a cutting wheel piece 94, a first controller 95, a first pinch roller set 96, a second pinch roller set 97, and a second controller 98; the left end of the connecting piece 92 is provided with a driving motor 91, and the right end is provided with a protective cover 93; the driving motor 91 is connected with a cutting wheel piece 94 arranged in a protective cover 93 through a driving shaft passing through a connecting piece 92; the first compression roller group 96 and the second compression roller group 97 are arranged on the frame 1 and positioned at two sides of the cutting wheel sheet 94; the first platen roller set 96 is connected to a first controller 95; the second platen-roller group 97 is connected to a second controller 98; the connecting mechanism 8 comprises a horizontal moving plate 81 and a connecting plate 82; the horizontal moving plate 81 is fixed on the machine tool reciprocating motion platform 7; one end of the connecting plate 82 is fixed on the horizontal moving plate 81, the other end of the connecting plate is fixed on the connecting piece 92, the connecting plate is cut off along the direction perpendicular to the advancing direction of the slot wedge strips through the cutting device 9, then the slot wedges cut off by the cutting device 9 gradually descend through the material receiving device 10 to collect the slot wedge strips, in the using process, the first press roller group 96 is controlled to rotate through the first controller 95, the slot wedge strips to be cut are sent into, the slot wedge strips continue to rotate and are sent to the lower side of the second press roller group 97, the first press roller group 96 and the second press roller group 97 stop rotating and are then cut off, at the moment, the first press roller group 96 is not moved, the second press roller group 97 rotates, the processed slot wedges fall into the material receiving device 10, circular motion is achieved, and processing efficiency and product quality are improved.

As a priority scheme, the rack 1 is further provided with a first strip tidying mechanism 3, a second strip tidying mechanism 5 and a third strip tidying mechanism 11; the first strip tidying mechanism 3 comprises a fixing plate 31 and a strip tidying device 32; the fixed plate 31 is fixed on the upper surface of the frame 1, and the lower surface of the fixed plate 31 is uniformly provided with the strip tidying devices 32 along the discharging direction; the strip tidying device 32 is arranged in a downward arc-shaped structure and faces downwards to a position between two adjacent batch feeding plates 6; the strip tidying devices 32 arranged on the first strip tidying mechanism 3 correspond to the batch feeding plates 6 one by one; the second strip tidying mechanism 5 and the third strip tidying mechanism 11 have the same structure as the first strip tidying mechanism 3; the first strip arranging mechanism 3 is positioned at the rear end of the pressing mechanism 2; the second strip tidying mechanism 5 is positioned between the pre-feeding mechanism 4 and the machine tool reciprocating motion platform 7; the third strip tidying mechanism 11 is positioned between the machine tool reciprocating motion platform 7 and the cutting device 9, the lengths of conveyed wedge strips of the groove to be processed are guaranteed to be consistent through the first strip tidying mechanism 3, the second strip tidying mechanism 5 and the third strip tidying mechanism 11, superposition and inclination cannot be generated, and the processing and cutting effects are guaranteed.

Preferably, the pre-feeding mechanism 4 comprises a side plate 41, a guard bar 42, a control motor 43, a pneumatic control piece 44, an upper bracket 45, a press roller 46, a slot wedge bar endpoint control plate 47 and a pneumatic actuator 48; the side plates 41 are arranged on two sides of the frame 1; a guard bar 42, two compression rollers 46 and an upper bracket 45 are arranged between the two side plates 41; the guard bar 42 and the upper bracket 45 are positioned at the head end and the tail end of the side plate 41, and the two press rollers 46 are arranged in the middle of the side plate 41; the side plates 41 on the two sides are respectively provided with a pneumatic control piece 44; the outer side surfaces of the side plates 41 on the two sides are provided with control motors 43 for controlling the rotation of the compression rollers 46; the lower surface of the upper bracket 45 is provided with a group of pneumatic actuating elements 48, the lower ends of the pneumatic actuating elements 48 are connected with a slot wedge strip end point control plate 47 arranged right below the upper bracket 45, the slot wedge strip end point control plate 47 can be pushed and pulled to move up and down, and the length of the slot wedge strips conveyed to the next process is guaranteed to be consistent by adjusting and limiting the length of the slot wedge strips conveyed to the next process through the slot wedge strip end point control plate 47 of the pre-feeding mechanism 4 below the upper bracket 45.

As a preferential scheme, the slot wedge strip end point control plate 47 is provided with an open slot 471 and a sliding block 472, and the open slot 471 is arranged downwards and corresponds to the batch feeding plate 6 one by one; the sliding block 472 corresponds to the sliding groove on the inner side surface of the upper bracket 45, and the slot wedge strip end point control plate 47 is driven to move up and down under the control of the pneumatic control piece 44 and the pneumatic execution element 48, so that the slot wedge strip is positioned, and the situations of inconsistent length and oblique superposition of the slot wedge strip in the conveying process are prevented.

As a priority scheme, the frame 1 is also provided with a cutting lower die 12; the upper surface of the lower cutting die 12 is provided with a cutting groove 121, two sides of the cutting groove are provided with fixing holes 122, and the upper surface is provided with a plurality of aligners 123 along the feeding direction; the cutting groove 121 of the lower cutting die 12 corresponds to the cutting wheel piece 94 of the cutting device 9; the aligners 123 correspond to the batch feed plates 6 one-to-one, making the cutting of the slot wedges more efficient.

As a preferential scheme, the swaging mechanism 2 comprises an adjusting block 201, a pressing rod 202 and a bolt 203; regulating block 201 sets up in 1 both sides of frame through the bolt 203 activity, is provided with depression bar 202 between the regulating block 201 of both sides, and depression bar 202 is located the upper surface of frame 1, and regulating block 201 uses bolt 203 to rotate as rotation center, drives depression bar 202 and presses the material to the slot wedge strip, just arranges the confusion and the irregular slot wedge of just carrying from the feed end.

Although particular embodiments of the invention have been described and illustrated in detail, it should be understood that various equivalent changes and modifications could be made to the above embodiments in accordance with the spirit of the invention, and the resulting functional effects would still fall within the scope of the invention.

Claims

1. A slot wedge processing device comprises a frame, a material pressing mechanism, a pre-feeding mechanism, a machine tool reciprocating motion platform and a cutting device; a material pressing mechanism is arranged at the feeding front end of the rack, and a machine tool reciprocating motion platform and a cutting device connected with the machine tool reciprocating motion platform are arranged at the rear end of the rack; the pre-feeding mechanism is arranged in the middle of the rack and is close to the feeding side of the reciprocating motion platform of the machine tool; the method is characterized in that: a plurality of batch feeding plates which are uniformly and horizontally distributed and extend to the lower part of the cutting device along the feeding end of the rack are arranged on the upper surface of the rack; a material receiving device is arranged below the discharge end of the rack and is used for gradually descending the slot wedge cut off by the cutting device to collect the slot wedge strip;

the material receiving device comprises a collecting plate, a lower connecting plate, a lifting motor, a notch, an end face fixing plate, a sliding rod, a fixing seat, a sliding sleeve and a screw rod; the end face fixing plate is fixed on the side face of the tail end of the frame discharging; a lifting motor is fixed on the upper outer side surface of the end surface fixing plate, and a fixing seat is fixed on the lower outer side surface of the end surface fixing plate; a sliding rod is vertically arranged on the fixed seat; the sliding rod is fixed on the inner side surface of the lower connecting plate through a sliding sleeve; a U-shaped collecting plate is fixed on the upper surface of the lower connecting plate, and a notch for a lifting motor to penetrate through is formed in the middle of the lower connecting plate; the lifting motor is fixed with the lower surface of the lower connecting plate through a screw rod, and the screw rod can be driven to move up and down through the lifting motor, so that the lower connecting plate and the U-shaped collecting plate are driven to move up and down, and the height of the upper surface of the collecting plate after a part of slot wedges are accumulated and the height of the tail end of the rack are always kept unchanged;

the pre-feeding mechanism comprises a side plate, a protective rod, a control motor, a pneumatic control piece, an upper bracket, a press roller, a slot wedge strip endpoint control plate and a pneumatic execution element; the side plates are arranged on two sides of the frame; a protective rod, two compression rollers and an upper bracket are arranged between the two side plates; the protective rod and the upper bracket are positioned at the head end and the tail end of the side plate, and the two press rollers are arranged in the middle of the side plate; the side plates on the two sides are respectively provided with a pneumatic control piece; the outer side surfaces of the side plates on the two sides are provided with control motors for controlling the compression rollers to rotate; the lower surface of the upper bracket is provided with a group of pneumatic actuating elements, the lower ends of the pneumatic actuating elements are connected with a slot wedge strip end point control plate arranged right below the upper bracket, and the slot wedge strip end point control plate can be pushed and pulled to move up and down;

2. A slot wedge processing apparatus according to claim 1, wherein: the cutting device comprises a driving motor, a connecting piece, a protective cover, a cutting wheel piece, a first controller, a first press roller group, a second press roller group and a second controller; the left end of the connecting piece is provided with a driving motor, and the right end of the connecting piece is provided with a protective cover; the driving motor penetrates through the connecting piece through the driving shaft and is connected with the cutting wheel piece arranged in the protective cover; the first compression roller group and the second compression roller group are arranged on the frame and positioned on two sides of the cutting wheel sheet; the first compression roller group is connected with a first controller; the second press roller group is connected with a second controller; the connecting mechanism comprises a horizontal moving plate and a connecting plate; the horizontal moving plate is fixed on a reciprocating motion platform of the machine tool; one end of the connecting plate is fixed on the horizontal moving plate, and the other end of the connecting plate is fixed on the connecting piece.

3. A slot wedge processing apparatus according to claim 1, wherein: the rack is also provided with a lower cutting die; the upper surface of the lower cutting die is provided with a cutting groove, two sides of the lower cutting die are provided with fixing holes, and the upper surface of the lower cutting die is provided with a plurality of aligners along the feeding direction; the cutting groove of the lower cutting die corresponds to the cutting wheel piece of the cutting device; the aligners correspond to the batch feed plates one to one.

4. A slot wedge processing apparatus according to claim 1, wherein: the material pressing mechanism comprises an adjusting block, a pressing rod and a bolt; the regulating block passes through the bolt activity and sets up in the frame both sides, is provided with the depression bar between the regulating block of both sides, and the depression bar is located the upper surface of frame, and the regulating block uses the bolt to rotate as rotation center, drives the depression bar and presses the material to the groove gib block.