CN111994581A - Multifunctional forming system for frequency converter - Google Patents

Abstract

The invention provides a multifunctional forming system for a frequency converter, which comprises a vibrating tray, a stamping machine and a forming machine, wherein a material pushing seat is arranged below an outlet of a discharge plate of the vibrating tray, an embossing pushing assembly is arranged on the material pushing seat, the outlet of the embossing pushing assembly is right opposite to an embossing station of the stamping machine, a centering and positioning assembly is arranged on the stamping machine on one side of the embossing station, a turnover assembly is arranged above the embossing station, the forming machine is positioned at the output end of the turnover assembly, and the forming assembly is arranged on the forming machine. Compact structure after this scheme of adoption, degree of automation is high, excellent in use effect.

Description

Multifunctional forming system for frequency converter

Technical Field

The invention relates to the technical field of frequency converters, in particular to a multifunctional forming system for a frequency converter.

Background

Traditional frequency converter all adopts the part operation when carrying out impression, connecting pin and taking shape, and it removes to the imprinter through the charging tray blowing that shakes earlier and carries out the impression, collects through the transfer frame after the impression is accomplished, and with transfer frame transfer to former department again, carries out reverse row material through the charging tray that shakes once more, and rethread former carries out the stitch after arranging the material and takes shape, and this kind of equipment occupation area is big, and the process is many, complex operation.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a multifunctional forming system for a frequency converter, which has the advantages of compact structure, high automation degree and good use effect.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: the multifunctional forming system for the frequency converter comprises a vibrating tray, a stamping machine and a forming machine, wherein a material pushing seat is installed below an outlet of a discharging plate of the vibrating tray, an impression pushing assembly is installed on the material pushing seat, the outlet of the impression pushing assembly is right opposite to an impression station of the stamping machine, a centering and positioning assembly is installed on the stamping machine on one side of the impression station, a turnover assembly is installed above the impression station, the forming machine is located at the output end of the turnover assembly, and the forming assembly is installed on the forming machine.

The forming assembly comprises a lower forming plate, an upper forming plate and a shaping plate, wherein the lower forming plate is arranged on the table top of the forming machine, the upper forming plate is arranged at the bottom of a lifting arm of the forming machine, a concave forming cavity is formed in the top of the lower forming plate, the shaping plate is arranged in the forming cavity, a stripping groove with an n-shaped section is arranged at the bottom of the shaping plate, an ejector spring is arranged in the stripping groove, stripping holes are formed in the shaping plate above the stripping groove, the ejector pin is movably arranged in the stripping holes, and the bottom of the ejector pin penetrates through the stripping holes downwards to abut against the top of the ejector spring; the bottom of the upper forming plate is provided with an n-shaped pressing plate groove, an outer forming plate is movably embedded in the pressing plate groove, an intermediate plate groove is formed in the outer forming plate, an intermediate forming plate is movably installed in the intermediate plate groove, a pressing element groove is formed in the bottom of the intermediate forming plate, a pressing rod is arranged in the pressing element groove, the top of the pressing rod penetrates through the intermediate forming plate, the outer forming plate and the upper forming plate upwards and then is connected with a limiting plate, and a buffer spring is sleeved on the pressing rod between the limiting plate and the upper forming plate; an intermediate cushion pad is arranged between the top of the intermediate forming plate and the top of the inner cavity of the intermediate plate groove, and is made of rubber materials; an outer plate cushion pad is arranged between the top of the outer forming plate and the top of the inner cavity of the pressure plate groove, and the outer plate cushion pad is made of rubber materials.

The turnover component comprises a turnover plate and a turnover sliding block, the power extension board, the trip shaft, wherein, the trip plate is fixed on the imprinter of impression station top, the upset slider passes through the lift unit and installs on the trip plate, the lift unit is cylinder or pneumatic cylinder, upset slider middle part is fixed with the power extension board, be horizontal installation on the power extension board and have the trip shaft, unsettled formation upset end of trip shaft one end, install the sucking disc through branch on the upset end, the sucking disc after the installation is located impression station top, the trip shaft other end is fixed with the upset extension board, upset extension board edge is equipped with recessed spacing groove that forms, be fixed with the spacer pin that quantity is greater than 2 on the trip plate lateral wall of upset slider one side from top to bottom, the quantity of spacer pin is greater than 3, the quantity of spacer pin is at least three, centre-to-distance between the adjacent spacer pin equals the centre.

The centering and positioning assembly comprises a centering seat, a pushing plate and a pushing cylinder, wherein the centering seat is installed on a stamping machine on one side of a stamping station, the pushing cylinder is horizontally fixed at one end of the top of the centering seat, the pushing plate is fixed at the end part of a piston rod of the pushing cylinder, racks are arranged on the side walls of two sides of the pushing plate, a rotating shaft is movably installed at the top of the centering seat on two sides of the pushing plate through a bearing ring, a gear is fixed in the middle of the rotating shaft and meshed with the corresponding racks, a rotating arm is fixed at the top of the rotating shaft and hinged with one end of a swinging arm, a hinged arm is hinged with the middle of the swinging arm and hinged with the top of the centering seat, the hinged arm is parallel to the rotating arm, the central line of the installed swinging arm is parallel to the central line of the pushing cylinder, an adjusting rod is vertically, be fixed with the locating arm on the sliding sleeve, form the locating area between two locating arms after the installation, the impression station is located the locating area, the guide way that runs through from top to bottom is equipped with on the push pedal middle part, the guide way is rectangular shape, the length direction of guide way is unanimous with the length direction of propelling movement cylinder, the guide way below is fixed with the guide pillar to the vertical well seat top, the guide pillar top upwards passes the guide way and is fixed with limiting plate connection, limiting plate bottom both sides are equipped with the ball, ball bottom and push pedal top contact after the installation.

The stamping pushing assembly comprises a lifting arm and an eccentric wheel, wherein a lifting groove which penetrates through the lifting arm up and down is arranged on a pushing seat, the lifting arm is movably inserted in the lifting groove, the top of the lifting arm is fixedly provided with the lifting seat, the center of the top of the lifting seat is provided with a concave pushing groove, a pushing plate is movably arranged in the pushing groove, one end of the pushing groove is opened to form a pushing outlet, the pushing outlet is opposite to a stamping station, the bottom of the lifting arm is fixedly provided with a lifting ring, the bottom of the pushing seat is provided with a rotating motor, a transmission shaft of the rotating motor is provided with the eccentric wheel, the eccentric wheel is positioned in the lifting ring, the outer edge of the eccentric wheel is connected with a first hinged arm, the first hinged arm is hinged with one end of a second hinged arm, the other end of the second hinged arm is hinged with the bottom of a third hinged arm, the top of the third hinged arm is hinged with one end of a fourth hinged arm, the, the other end of the supporting arm is fixedly connected with the material pushing seat.

After the scheme is adopted, the vibrating tray discharges and feeds the frequency converter to be processed, the imprinting pushing assembly pushes the frequency converter to be processed to the imprinting station, the centering positioning assembly is used for centering, the imprinting machine impresses the surface of the frequency converter after centering, the frequency converter is sucked and sent to the forming machine through the overturning assembly after imprinting is finished, and the forming assembly is used for forming the connecting pins.

Drawings

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

FIG. 2 is a schematic view of an imprint pushing assembly according to the present invention.

FIG. 3 is a schematic view of a centering assembly of the present invention.

Fig. 4 is a schematic view of the flip assembly of the present invention.

FIG. 5 is a schematic view of a forming assembly of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which preferred embodiments of the invention are: referring to fig. 1 to 5, the multifunctional forming system for the frequency converter in this embodiment includes a material vibrating tray, a stamping press, and a forming machine, wherein a material pushing seat 1 is installed below an outlet of a material discharging plate of the material vibrating tray, an impression pushing assembly is installed on the material pushing seat 1, an outlet of the impression pushing assembly faces an impression station of the stamping press, a centering assembly is installed on the stamping press on one side of the impression station, a turning assembly is installed above the impression station, the forming machine is located at an output end of the turning assembly, and the forming assembly is installed on the forming machine.

The forming assembly comprises a lower forming plate 301, an upper forming plate 302 and a shaping plate 303, wherein the lower forming plate 301 is arranged on the table top of the forming machine, the upper forming plate 302 is arranged at the bottom of a lifting arm of the forming machine, a forming cavity formed by sinking is arranged at the top of the lower forming plate 301, the shaping plate 303 is arranged in the forming cavity, a stripping groove 304 with an n-shaped section is arranged at the bottom of the shaping plate 303, an ejecting spring 305 is arranged in the stripping groove 304, a stripping hole is arranged on the shaping plate 303 above the stripping groove 304, an ejecting pin 306 is movably arranged in the stripping hole, and the bottom of the ejecting pin 306 downwards penetrates through the stripping hole to abut against the top of the ejecting spring 305; the bottom of the upper forming plate 302 is provided with an n-shaped pressing plate groove 307, an outer forming plate 308 is movably embedded in the pressing plate groove 307, a middle plate groove is arranged in the outer forming plate 308, a middle forming plate 3010 is movably arranged in the middle plate groove, the bottom of the middle forming plate 3010 is provided with a pressing piece groove 3012, a pressing rod 3013 is arranged in the pressing piece groove 3012, the top of the pressing rod 3013 upwards penetrates through the middle forming plate 3010, the outer forming plate 308 and the upper forming plate 302 and then is connected with a limiting plate 3014, and a buffer spring 3015 is sleeved on the pressing rod 3013 between the limiting plate 3014 and the upper forming plate 302; a middle cushion 3011 is arranged between the top of the middle forming plate 3010 and the top of the inner cavity of the middle plate slot, and the middle cushion 3011 is made of rubber material; an outer plate buffer pad 309 is arranged between the top of the outer forming plate 308 and the top of the inner cavity of the pressure plate groove 307, and the outer plate buffer pad 309 is made of rubber materials.

The turnover assembly comprises a turnover plate 201, a turnover slide block 202, a power support plate 203 and a turnover shaft 204, the turnover plate 201 is fixed on a stamping machine above a stamping station, the turnover sliding block 202 is installed on the turnover plate 201 through a lifting unit 206, the lifting unit 206 is an air cylinder or a hydraulic cylinder, a power support plate 203 is fixed in the middle of the turnover sliding block 202, a turnover shaft 204 is horizontally installed on the power support plate 203, one end of the turnover shaft 204 is suspended to form a turnover end, a suction cup 209 is installed on the turnover end through a support rod, the installed suction cup 209 is located above the stamping station, a turnover support plate 207 is fixed at the other end of the turnover shaft 204, a concave limiting groove 208 is formed in the edge of the turnover support plate 207, limiting pins 205 with the number larger than 2 are fixed on the side wall of the turnover plate 201 on one side of the turnover sliding block 202 from top to bottom, the number of the limiting grooves 208 is larger than 3, the number of the limiting pins 205 is at least three, and the center.

The centering and positioning assembly comprises a centering seat 101, a pushing plate 103 and a pushing cylinder 102, wherein the centering seat 101 is installed on a stamping machine on one side of a stamping station, the pushing cylinder 102 is horizontally fixed at one end of the top of the centering seat 101, the pushing plate 103 is fixed at the end part of a piston rod of the pushing cylinder 102, racks 104 are arranged on the side walls on two sides of the pushing plate 103, a rotating shaft 105 is movably installed at the top of the centering seat 101 on two sides of the pushing plate 103 through a bearing ring, a gear 106 is fixed in the middle of the rotating shaft 105, the gear 106 is meshed with the corresponding rack 104, a rotating arm 107 is fixed at the top of the rotating shaft 105, the rotating arm 107 is hinged with one end of a swinging arm 108, a hinged arm 109 is hinged with the top of the centering seat 101, the hinged arm 109 is parallel to the rotating arm 107, the central line of the installed swinging arm 108 is parallel to the, the movable sleeve is equipped with sliding sleeve 1011 on adjusting pole 1010, sliding sleeve 1011 passes through adjusting bolt locking after the suit, be fixed with location arm 1012 on the sliding sleeve 1011, form the locating area between two location arm 1012 after the installation, the impression station is located the locating area, be equipped with the guide way 1013 that runs through from top to bottom on the push plate 103 middle part, guide way 1013 is rectangular shape, the length direction of guide way 1013 is unanimous with the length direction of push cylinder 102, the vertical guide pillar 1014 that is fixed with of the seat 101 top in the middle of guide way 1013 below, guide pillar 1014 top upwards passes guide way 1013 and is connected fixedly with the limiting plate 1015, limiting plate 1015 bottom both sides are equipped with ball 1016, ball 1016 bottom and push plate 103 top contact after the installation.

The stamping pushing assembly comprises a lifting arm 2 and an eccentric wheel 8, wherein a lifting groove which penetrates through the material pushing seat 1 up and down is arranged on the lifting seat, the lifting arm 2 is movably inserted in the lifting groove, a lifting seat 3 is fixed at the top of the lifting arm 2, a pushing groove 4 is formed by sinking the center of the top of the lifting seat 3, a pushing plate 5 is movably arranged in the pushing groove 4, an opening at one end of the pushing groove 4 forms a material pushing outlet, the material pushing outlet is opposite to a stamping station, a lifting ring 7 is fixed at the bottom of the lifting arm 2, a rotating motor 9 is arranged at the bottom of the material pushing seat 1, the eccentric wheel 8 is arranged on a transmission shaft of the rotating motor 9, the eccentric wheel 8 is positioned in the lifting ring 7, a first hinged arm 10 is connected at the outer edge of the eccentric wheel 8, the first hinged arm 10 is hinged with one end of a second hinged arm 11, the other end of the second hinged arm 11 is hinged with the bottom of a third hinged, the other end of the fourth hinge arm 13 is movably hinged with the pushing plate 5, the middle part of the third hinge arm 12 is hinged with one end of the supporting arm 14 through a hinge shaft, and the other end of the supporting arm 14 is fixedly connected with the pushing seat 1.

The outlet of the storage disc is positioned above the material pushing outlet, the rotating motor rotates to drive the eccentric wheel to rotate through the transmission shaft, the eccentric wheel drives the lifting ring to ascend, the lifting ring drives the lifting seat to ascend through the lifting arm, the pushing groove ascends to the bottom of the outlet of the storage disc, the frequency converter in the storage disc falls into the pushing groove from the outlet, the eccentric wheel drives the first hinge arm to rotate, the first hinge arm drives the second hinge arm to operate, the second hinge arm pushes the bottom of the third hinge arm to rotate around the hinge shaft, the top of the third hinge arm pushes the pushing plate through the fourth hinge arm, and the pushing plate pushes the frequency converter in the pushing groove from the material pushing outlet to the imprinting station;

when the frequency converter moves to an embossing station, the piston rod of the pushing cylinder contracts to drive the pushing plate to move, the pushing plate drives the gear to rotate through the rack, the gear drives the rotating arm to rotate inwards, the rotating arm drives the swinging arm to move towards the external machining platform, and the two positioning arms are driven by the swinging arm to relatively operate to position the frequency converter; the height of the positioning arm can be adjusted according to needs, the adjusting bolt is unscrewed during adjustment, the sliding sleeve slides up and down, the sliding sleeve drives the positioning arm to move up and down, and when the positioning arm moves to a proper position, the joint bolt is screwed down to fix the sliding sleeve on the adjusting rod, so that the frequency converters of different models can be centered;

the frequency converter is sucked by the sucker, the lifting unit acts to drive the turnover sliding block to ascend, the turnover sliding block synchronously drives the power support plate to ascend when ascending, the turnover support plate rotates by taking the turnover shaft as the center as the limiting pin is embedded with one limiting groove, and the rest limiting grooves are gradually embedded with the other limiting pins when ascending, so that the turnover support plate drives the turnover shaft to rotate while rotating, the frequency converter is turned by the sucker, and the frequency converter enters the forming assembly after being turned;

the top of the buffer spring is abutted against the bottom of the limiting plate, the bottom of the buffer spring is abutted against the top of the upper forming plate, the outer plate buffer cushion and the middle buffer cushion are respectively provided with a screw hole, the screw holes are sleeved with a pressure rod, the pressure rod is used for limiting the middle forming plate and the middle forming plate, the bottom of the pressure rod is used for limiting the capacitor main body, when the upper forming plate is pressed downwards, the pressure rod is contacted with the surface of the frequency converter, the bottom of the frequency converter is pressed downwards to press a jacking pin so that the surface of the jacking pin is flush with the surface of the shaping plate, the jacking spring is compressed under force, the frequency converter main body is limited through the pressure rod and the jacking pin, the upper forming plate is pressed downwards and simultaneously forms a connecting pin through the outer forming plate and the middle forming plate, the buffer cushion buffers the forming plate, after the connecting pin is formed, the upper forming plate rises, the jacking spring is unstressed and stretched, the material discharging, material pushing, centering and positioning, impressing, overturning and connecting pin forming are integrated, and the device has the advantages of reasonable structure, high automation degree, high efficiency and small occupied space.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The multifunctional forming system for the frequency converter comprises a vibration tray, a stamping machine and a forming machine, and is characterized in that: the material pushing seat (1) is installed below the outlet of the discharging plate of the material vibrating disc, the stamping pushing assembly is installed on the material pushing seat (1), the outlet of the stamping pushing assembly is right opposite to a stamping station of a stamping machine, the centering and positioning assembly is installed on the stamping machine on one side of the stamping station, the overturning assembly is installed above the stamping station, the forming machine is located at the output end of the overturning assembly, and the forming assembly is installed on the forming machine.

2. The multi-function shaping system for a frequency converter of claim 1, wherein: the forming assembly comprises a lower forming plate (301), an upper forming plate (302) and a shaping plate (303), wherein the lower forming plate (301) is arranged on the table top of the forming machine, the upper forming plate (302) is arranged at the bottom of a lifting arm of the forming machine, a forming cavity formed by sinking is arranged at the top of the lower forming plate (301), the shaping plate (303) is arranged in the forming cavity, a stripping groove (304) with an n-shaped section is arranged at the bottom of the shaping plate (303), an ejection spring (305) is arranged in the stripping groove (304), stripping holes are formed in the shaping plate (303) above the stripping groove (304), an ejection pin (306) is movably arranged in the stripping holes, and the bottom of the ejection pin (306) downwards penetrates through the stripping holes to abut against the tops of the ejection spring (305); an n-shaped pressing plate groove (307) is formed in the bottom of the upper forming plate (302), an outer forming plate (308) is movably embedded in the pressing plate groove (307), a middle plate groove is formed in the outer forming plate (308), a middle forming plate (3010) is movably installed in the middle plate groove, a pressing member groove (3012) is formed in the bottom of the middle forming plate (3010), a pressing rod (3013) is arranged in the pressing member groove (3012), the top of the pressing rod (3013) penetrates upwards through the middle forming plate (3010), the outer forming plate (308), the upper forming plate (302) and then is connected with a limiting plate (3014), and a buffer spring (3015) is sleeved on the pressing rod (3013) between the limiting plate (3014) and the upper forming plate (302); a middle cushion pad (3011) is arranged between the top of the middle forming plate (3010) and the top of the inner cavity of the middle plate groove, and the middle cushion pad (3011) is made of rubber materials; an outer plate buffer pad (309) is arranged between the top of the outer forming plate (308) and the top of the inner cavity of the pressing plate groove (307), and the outer plate buffer pad (309) is made of rubber materials.

3. The multi-function shaping system for a frequency converter of claim 1, wherein: the overturning assembly comprises an overturning plate (201), an overturning slider (202), a power support plate (203) and an overturning shaft (204), wherein the overturning plate (201) is fixed on a stamping machine above a stamping station, the overturning slider (202) is installed on the overturning plate (201) through a lifting unit (206), the lifting unit (206) is an air cylinder or a hydraulic cylinder, the power support plate (203) is fixed in the middle of the overturning slider (202), the overturning shaft (204) is horizontally installed on the power support plate (203), one end of the overturning shaft (204) is suspended to form an overturning end, a sucking disc (209) is installed on the overturning end through a support rod, the installed sucking disc (209) is located above the stamping station, the overturning support plate (207) is fixed at the other end of the overturning shaft (204), a concave limiting groove (208) is formed at the edge of the overturning support plate (207), and limiting pins (205) with the number larger than 2 are fixed on the side wall of the overturning plate (201) on, the number of the limiting grooves (208) is larger than 3, the number of the limiting pins (205) is at least three, and the center distance between the adjacent limiting pins (205) is equal to that between the adjacent limiting grooves (208).

4. The multi-function shaping system for a frequency converter of claim 1, wherein: the centering and positioning assembly comprises a centering seat (101), a pushing cylinder (103) and a pushing cylinder (102), wherein the centering seat (101) is installed on a stamping machine on one side of a stamping station, the pushing cylinder (102) is horizontally fixed at one end of the top of the centering seat (101), the pushing cylinder (103) is fixed at the end part of a piston rod of the pushing cylinder (102), racks (104) are arranged on the side walls of two sides of the pushing plate (103), a rotating shaft (105) is movably installed at the tops of the centering seats (101) on two sides of the pushing plate (103) through a bearing ring, a gear (106) is fixed in the middle of the rotating shaft (105), the gear (106) is meshed with the corresponding rack (104), a rotating arm (107) is fixed at the top of the rotating shaft (105), the rotating arm (107) is hinged with one end of a swinging arm (108), a hinged arm (109) is hinged with the middle of the swinging arm (108), the hinged arm (109) after hinged is parallel to the rotating arm (107), the central line of the swing arm (108) after installation is parallel to the central line of the pushing cylinder (102), the top of the other end of the swing arm (108) is vertically fixed with an adjusting rod (1010), the adjusting rod (1010) is movably sleeved with a sliding sleeve (1011), the sliding sleeve (1011) after sleeving is locked by an adjusting bolt, the sliding sleeve (1011) is fixed with a positioning arm (1012), a positioning area is formed between the two positioning arms (1012) after installation, the stamping station is positioned in the positioning area, the middle part of the pushing plate (103) is provided with a guide groove (1013) which penetrates up and down, the guide groove (1013) is in a long strip shape, the length direction of the guide groove (1013) is consistent with the length direction of the pushing cylinder (102), the top of the centering seat (101) below the guide groove (1013) is vertically fixed with a guide pillar (1014), the top of the guide pillar (1014) upwards penetrates through, and the two sides of the bottom of the limit plate (1015) are provided with balls (1016), and the bottom of the mounted balls (1016) is contacted with the top of the push plate (103).

5. The multi-function shaping system for a frequency converter of claim 1, wherein: the imprinting pushing assembly comprises a lifting arm (2) and an eccentric wheel (8), wherein a lifting groove which penetrates through the material pushing seat (1) up and down is formed in the material pushing seat, the lifting arm (2) is movably inserted in the lifting groove, a lifting seat (3) is fixed to the top of the lifting arm (2), a pushing groove (4) is formed in the center of the top of the lifting seat (3) in a downward concave mode, a pushing plate (5) is movably installed in the pushing groove (4), a pushing outlet is formed in one end of the pushing groove (4) in an opening mode and faces an imprinting station, a lifting ring (7) is fixed to the bottom of the lifting arm (2), a rotating motor (9) is installed at the bottom of the material pushing seat (1), the eccentric wheel (8) is installed on a transmission shaft of the rotating motor (9), the eccentric wheel (8) is located in the lifting ring (7), a first hinge arm (10) is connected to the outer side edge of the eccentric wheel (8), and the first, the other end of the second hinged arm (11) is hinged to the bottom of the third hinged arm (12), the top of the third hinged arm (12) is hinged to one end of the fourth hinged arm (13), the other end of the fourth hinged arm (13) is movably hinged to the push plate (5), the middle of the third hinged arm (12) is hinged to one end of the supporting arm (14) through a hinged shaft, and the other end of the supporting arm (14) is fixedly connected with the material pushing seat (1).

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