CN111014442A - Part processing is with beating device fast - Google Patents

Part processing is with beating device fast Download PDF

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Publication number
CN111014442A
CN111014442A CN201911327534.4A CN201911327534A CN111014442A CN 111014442 A CN111014442 A CN 111014442A CN 201911327534 A CN201911327534 A CN 201911327534A CN 111014442 A CN111014442 A CN 111014442A
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CN
China
Prior art keywords
spiral spring
annular array
coil
type annular
array rotation
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
CN201911327534.4A
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Chinese (zh)
Inventor
王晓刚
Original Assignee
王晓刚
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Filing date
Publication date
Application filed by 王晓刚 filed Critical 王晓刚
Priority to CN201911327534.4A priority Critical patent/CN111014442A/en
Publication of CN111014442A publication Critical patent/CN111014442A/en
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D31/00Other methods for working sheet metal, metal tubes, metal profiles
    • B21D31/06Deforming sheet metal, tubes or profiles by sequential impacts, e.g. hammering, beating, peen forming
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B1/00Presses, using a press ram, characterised by the features of the drive therefor, pressure being transmitted directly, or through simple thrust or tension members only, to the press ram or platen
    • B30B1/26Presses, using a press ram, characterised by the features of the drive therefor, pressure being transmitted directly, or through simple thrust or tension members only, to the press ram or platen by cams, eccentrics, or cranks
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B1/00Presses, using a press ram, characterised by the features of the drive therefor, pressure being transmitted directly, or through simple thrust or tension members only, to the press ram or platen
    • B30B1/42Presses, using a press ram, characterised by the features of the drive therefor, pressure being transmitted directly, or through simple thrust or tension members only, to the press ram or platen by magnetic means, e.g. electromagnetic
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • B30B15/28Arrangements for preventing distortion of, or damage to, presses or parts thereof

Abstract

The invention discloses a quick hammering device for processing a part, which comprises a main body shell. The device can control the impact strength by utilizing the driving motor, the crank rod connection and the electromagnetic principle, thereby controlling the beating strength, can realize the circulating beating under the action of rotation, has simple structure and strong practicability, has a spiral spring abutting annular array rotation strength control mechanism, controls the maximum rotation capacity by utilizing the elasticity of a spiral spring, and prevents the driving motor from being damaged due to overlarge resistance.

Description

Part processing is with beating device fast
Technical Field
The invention relates to the technical field of part processing, in particular to a quick hammering device for part processing.
Background
At present, when parts are processed, a hammering device is sometimes needed, and the main functions of the hammering device are as follows: the physical properties of the parts are improved, and the prior equipment has poor control capability on grinding and lower control strength on impact strength.
Disclosure of Invention
The invention aims to provide a quick hammering device for processing components, which solves the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a quick hammering device for component processing comprises a main body shell, wherein a main connecting plate structure of an integrated structure with the main body shell is arranged at the bottom of the main body shell, a main bolt hole is formed in the main connecting plate structure, a component mounting space is formed in the center of the main body shell, a driving motor is mounted in the main body shell, a spiral spring abutting type annular array rotating strength control mechanism is mounted at the end part of a motor spindle in the driving motor, a main rotating shaft is mounted at the center of one end of the spiral spring abutting type annular array rotating strength control mechanism and penetrates into the component mounting space, a rotating plate is mounted at one end of the main rotating shaft in the component mounting space, three tooth protruding structures of the integrated structure with the rotating plate are arranged at the edge part of the rotating plate, a movable rod body moving space is arranged at the top of the component mounting space of the main body shell, one side in activity body of rod removal space is provided with the part and beats the space, the top in activity body of rod removal space is provided with a plurality of main through-hole structures, one side of main through-hole structure is provided with part installation groove structure, an internally mounted movable rod in activity body of rod removal space, the bottom of movable rod is provided with three tooth groove structure, the movable rod is beating the piece at the one end installation that is located the part and beats the space inside, a coil installation formula electromagnetic field intensity produces the mechanism at the position installation of part installation groove structure, the movable rod is lieing in a permanent magnetism formula magnetism principle recoil effort drive arrangement is beaten to the one end of main through-hole structure.
Further, the spiral spring abutting type annular array rotation strength control mechanism comprises a main hollow shell for the spiral spring abutting type annular array rotation strength control mechanism, a main hollow section for the spiral spring abutting type annular array rotation strength control mechanism, a rotary column for the spiral spring abutting type annular array rotation strength control mechanism, a semicircular groove structure for the spiral spring abutting type annular array rotation strength control mechanism, an auxiliary hollow section for the spiral spring abutting type annular array rotation strength control mechanism, a movable plate for the spiral spring abutting type annular array rotation strength control mechanism, a spiral spring for the spiral spring abutting type annular array rotation strength control mechanism and a push rod for the spiral spring abutting type annular array rotation strength control mechanism; the center of one end face of the main hollow shell for the spiral spring contact type annular array rotation strength control mechanism is fixedly connected with the end part of a motor spindle, the center of the inside of the main hollow shell for the spiral spring contact type annular array rotation strength control mechanism is a main hollow section for the spiral spring contact type annular array rotation strength control mechanism, the main hollow shell for the spiral spring contact type annular array rotation strength control mechanism is positioned in the main hollow section for the spiral spring contact type annular array rotation strength control mechanism, a rotary column for the spiral spring contact type annular array rotation strength control mechanism is sleeved in the main hollow shell for the spiral spring contact type annular array rotation strength control mechanism, an auxiliary hollow section for the spiral spring contact type annular array rotation strength control mechanism is arranged in the main hollow shell for the spiral spring contact type annular array rotation strength control mechanism, and the inside of the auxiliary hollow section for the spiral spring contact type annular array rotation strength control mechanism is positioned in the spiral spring contact type annular array rotation strength control mechanism A movable plate for the spiral spring abutting type annular array rotary strength control mechanism is arranged on one end face of the main hollow section for the spring abutting type annular array rotary strength control mechanism, a spiral spring for the spiral spring abutting type annular array rotary strength control mechanism is fixed between one ends of the movable plates for the spiral spring abutting type annular array rotary strength control mechanism by the auxiliary hollow section, a push rod for the spiral spring abutting type annular array rotary strength control mechanism is arranged on one end face of the movable plate for the spiral spring abutting type annular array rotary strength control mechanism, the push rod for the spiral spring abutting type annular array rotary strength control mechanism is of an integrated structure with the movable plate, and penetrates through the main hollow shell for the spiral spring abutting type annular array rotary strength control mechanism, and the spiral spring abutting type annular array rotating strength control mechanism is positioned in the main hollow section for the spiral spring abutting type annular array rotating strength control mechanism, one end of the push rod for the spiral spring abutting type annular array rotating strength control mechanism, which is positioned in the main hollow section for the spiral spring abutting type annular array rotating strength control mechanism, is of a semicircular structure, a semicircular groove structure for the spiral spring abutting type annular array rotating strength control mechanism, which is used for placing the end part of the push rod for the spiral spring abutting type annular array rotating strength control mechanism, is arranged on the side surface of the rotating column for the spiral spring abutting type annular array rotating strength control mechanism, and one end of the rotating column for the spiral spring abutting type annular array rotating strength control mechanism is fixed with the end part of the main rotating shaft.
Further, the initial length of the coil spring for the coil spring contact type annular array rotation intensity control mechanism is larger than the length of the auxiliary hollow section for the coil spring contact type annular array rotation intensity control mechanism.
Furthermore, the structural shape of the end part of the push rod for the spiral spring contact type annular array rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure for the spiral spring contact type annular array rotation strength control mechanism.
Further, the permanent magnet type magnetic principle recoil action force driving device comprises a connecting plate for the permanent magnet type magnetic principle recoil action force driving device, a bolt hole for the permanent magnet type magnetic principle recoil action force driving device, a vertical plate structure for the permanent magnet type magnetic principle recoil action force driving device, a permanent magnet installation groove structure for the permanent magnet type magnetic principle recoil action force driving device and a permanent magnet for the permanent magnet type magnetic principle recoil action force driving device; the permanent magnet type magnetic principle recoil action force driving device comprises a connecting plate for a permanent magnet type magnetic principle recoil action force driving device, a plurality of bolt holes for the permanent magnet type magnetic principle recoil action force driving device are formed in the connecting plate, a vertical plate structure for the permanent magnet type magnetic principle recoil action force driving device is arranged on the upper surface of the connecting plate for the permanent magnet type magnetic principle recoil action force driving device, the vertical plate structure is of an integrated structure with the connecting plate, a permanent magnet mounting groove structure for the permanent magnet type magnetic principle recoil action force driving device is arranged on one side of the vertical plate structure for the permanent magnet type magnetic principle recoil action force driving device, and a permanent magnet for the permanent magnet type magnetic principle recoil action force driving device is mounted in the permanent magnet.
Furthermore, the permanent magnet for the permanent magnet type magnetic principle recoil acting force driving device is of a disc-shaped structure made of neodymium iron boron materials.
Further, the connecting plate for the permanent magnet type magnetic principle recoil action force driving device is mounted on the upper surface of the movable rod through a bolt inserted into the bolt hole for the permanent magnet type magnetic principle recoil action force driving device, and the permanent magnet for the permanent magnet type magnetic principle recoil action force driving device is located on one side of the component mounting groove structure.
Further, the coil-mounted electromagnetic field strength generating mechanism comprises a protective shell for the coil-mounted electromagnetic field strength generating mechanism, a coil mounting groove structure for the coil-mounted electromagnetic field strength generating mechanism, an iron core for the coil-mounted electromagnetic field strength generating mechanism, a coil for the coil-mounted electromagnetic field strength generating mechanism, and a wire guide for the coil-mounted electromagnetic field strength generating mechanism; the coil installation type electromagnetic field intensity generation mechanism is provided with a coil installation groove structure for the mechanism, the coil installation type electromagnetic field intensity generation mechanism is provided with a coil installation groove structure, the coil installation type electromagnetic field intensity generation mechanism is provided with a protection shell, the protection shell is located, the coil installation type electromagnetic field intensity generation mechanism is provided with a coil installation type electromagnetic field intensity generation mechanism coil, the coil installation type electromagnetic field intensity generation mechanism is provided with a coil center installation type electromagnetic field intensity generation mechanism iron core, the coil installation type electromagnetic field intensity generation mechanism is provided with a coil installation type electromagnetic field intensity generation mechanism wire guide hole communicated with the outside and the coil installation type electromagnetic field intensity generation mechanism coil installation groove structure in the protection shell.
Further, the protective casing for the coil-mounted electromagnetic field strength generating mechanism is mounted on the surface of the component mounting groove structure.
Furthermore, a wire is inserted into the wire hole for the coil-mounted electromagnetic field intensity generating mechanism, one end of the wire is connected with the power input end of the coil for the coil-mounted electromagnetic field intensity generating mechanism, and the other end of the wire is fixedly connected with the control output end of a current controller.
Compared with the prior art, the invention has the beneficial effects that: the device can control the impact strength by utilizing the driving motor, the crank rod connection and the electromagnetic principle, thereby controlling the beating strength, can realize the circulating beating under the action of rotation, has simple structure and strong practicability, has a spiral spring abutting annular array rotation strength control mechanism, controls the maximum rotation capacity by utilizing the elasticity of a spiral spring, and prevents the driving motor from being damaged due to overlarge resistance.
Drawings
FIG. 1 is a schematic view of a full-section structure of a quick hammering device for processing parts according to the present invention;
FIG. 2 is a schematic structural diagram of a spiral spring contact type annular array rotation strength control mechanism in a rapid hammering device for processing components according to the present invention;
FIG. 3 is a schematic structural diagram of a permanent magnet type magnetic recoil force driving device in a rapid hammering device for processing components according to the present invention;
FIG. 4 is a schematic structural diagram of a coil-mounted electromagnetic field intensity generating mechanism in a rapid hammering device for processing components according to the present invention;
in the figure: 1, a main body shell, 2, a main connecting plate structure, 3, a main bolt hole, 4, a part mounting space, 5, a motor main shaft, 6, a main rotating shaft, 7, a driving motor, 8, a movable rod body moving space, 9, a main through hole structure, 10, a part mounting groove structure, 11, a part hammering space, 12, a movable rod, 13, a tooth protrusion structure, 14, a tooth groove structure, 15, a spiral spring contact type annular array rotation strength control mechanism, 151, a main hollow shell, 152 for a spiral spring contact type annular array rotation strength control mechanism, a main hollow section for a spiral spring contact type annular array rotation strength control mechanism, 153, a rotating column, 154 for a spiral spring contact type annular array rotation strength control mechanism, a semicircular groove structure, 155, an auxiliary hollow section for a spiral spring contact type annular array rotation strength control mechanism, 156, a movable plate for a coil spring contact type annular array rotational strength control mechanism, 157, a coil spring for a coil spring contact type annular array rotational strength control mechanism, 158, a push rod for a coil spring contact type annular array rotational strength control mechanism, 16, a hammer block, 17, a permanent magnet type magnetic principle recoil force driving device, 171, a connecting plate for a permanent magnet type magnetic principle recoil force driving device, 172, a bolt hole for a permanent magnet type magnetic principle recoil force driving device, 173, a riser structure for a permanent magnet type magnetic principle recoil force driving device, 174, a permanent magnet mounting groove structure for a permanent magnet type magnetic principle recoil force driving device, 175, a permanent magnet for a permanent magnet type magnetic principle recoil force driving device, 18, a coil-mounted electromagnetic field strength generating mechanism, 181, a protective case for a coil-mounted electromagnetic field strength generating mechanism, 182, coil mounting groove structures for coil-mounted electromagnetic field strength generating mechanisms, 183, iron cores for coil-mounted electromagnetic field strength generating mechanisms, 184, coils for coil-mounted electromagnetic field strength generating mechanisms, 185, wire guides for coil-mounted electromagnetic field strength generating mechanisms, 19, and rotating plates.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the tooth-shaped connector comprises a main body shell 1, wherein a main connecting plate structure 2 of an integrated structure with the main body shell is arranged at the bottom of the main body shell 1, a main bolt hole 3 is arranged in the main connecting plate structure 2, a component mounting space 4 is arranged at the center of the main body shell 1, a driving motor 7 is arranged in the main body shell 1, a spiral spring contact type annular array rotation strength control mechanism 15 is arranged at the end part of a motor spindle 5 in the driving motor 7, a main rotating shaft 6 is arranged at the center of one end of the spiral spring contact type annular array rotation strength control mechanism 15, one end of the main rotating shaft 6 penetrates into the component mounting space 4, a rotating plate 19 is arranged at one end of the main rotating shaft 5 positioned in the component mounting space 4, and three tooth-tooth convex structures 13 of an integrated structure with the rotating plate 19 are arranged at the edge part of the, main body cover 1 is provided with movable body of rod at the top that lies in part installation space 4 and removes space 8, one side that the movable body of rod removed space 8 is provided with the part and beats space 11, the top that the movable body of rod removed space 8 is provided with a plurality of main through-hole structures 9, one side of main through-hole structure 9 is provided with part installation groove structure 10, a movable rod 12 of movable body of rod removal space 8's internally mounted, the bottom of movable rod 12 is provided with three tooth groove structure 14, movable rod 12 beats the inside one end installation of space 11 and beats piece 16 at the part, a coil installation formula electromagnetic field intensity generating mechanism 18 is beaten at the position of part installation groove structure 10, movable rod 12 is lieing in a permanent magnet formula magnetism principle recoil effort drive arrangement 17 is installed to the one end of main through-hole structure 9.
Referring to fig. 2, the spiral spring contact type annular array rotation intensity control mechanism 15 includes a main hollow housing 151 for a spiral spring contact type annular array rotation intensity control mechanism, a main hollow section 152 for a spiral spring contact type annular array rotation intensity control mechanism, a rotation column 153 for a spiral spring contact type annular array rotation intensity control mechanism, a semicircular groove structure 154 for a spiral spring contact type annular array rotation intensity control mechanism, a sub hollow section 155 for a spiral spring contact type annular array rotation intensity control mechanism, a movable plate 156 for a spiral spring contact type annular array rotation intensity control mechanism, a spiral spring 157 for a spiral spring contact type annular array rotation intensity control mechanism, and a push rod 158 for a spiral spring contact type annular array rotation intensity control mechanism; the center of one end face of the main hollow shell 151 for the spiral spring contact type annular array rotation intensity control mechanism is fixedly connected with the end part of a motor spindle 5, the center of the inside of the main hollow shell 151 for the spiral spring contact type annular array rotation intensity control mechanism is a main hollow section 152 for the spiral spring contact type annular array rotation intensity control mechanism, a rotary column 153 for the spiral spring contact type annular array rotation intensity control mechanism is sleeved inside the main hollow section 152 for the spiral spring contact type annular array rotation intensity control mechanism, the inside of the main hollow shell 151 for the spiral spring contact type annular array rotation intensity control mechanism is an auxiliary hollow section 155 for the spiral spring contact type annular array rotation intensity control mechanism, a movable plate 156 for the coil spring contact type annular array rotation intensity control mechanism is disposed inside the auxiliary hollow section 155 for the coil spring contact type annular array rotation intensity control mechanism at one end face of the main hollow section 152 for the coil spring contact type annular array rotation intensity control mechanism, a coil spring 157 for the coil spring contact type annular array rotation intensity control mechanism is fixed between the ends of the movable plates 156 for the coil spring contact type annular array rotation intensity control mechanism at the auxiliary hollow section 155 for the coil spring contact type annular array rotation intensity control mechanism, a push rod 158 for the coil spring contact type annular array rotation intensity control mechanism of an integrated structure with the movable plate 156 for the coil spring contact type annular array rotation intensity control mechanism is disposed at one end face of the movable plate 156 for the coil spring contact type annular array rotation intensity control mechanism, and the push rod 158 for the coil spring contact type annular array rotation intensity control mechanism penetrates through the coil spring contact type annular array rotation intensity control mechanism A main hollow housing 151 for the array rotation strength control mechanism, which is located inside the main hollow section 152 for the coil spring contact type annular array rotation strength control mechanism, wherein one end of a push rod 158 for the coil spring contact type annular array rotation strength control mechanism located in the main hollow section 152 for the coil spring contact type annular array rotation strength control mechanism is a semicircular structure, a semicircular groove structure 154 for the coil spring contact type annular array rotation strength control mechanism is provided on the side surface of a rotation column 153 for the coil spring contact type annular array rotation strength control mechanism for placing the end of the push rod 158 for the coil spring contact type annular array rotation strength control mechanism, and one end of the rotation column 153 for the coil spring contact type annular array rotation strength control mechanism is fixed to the end of the main rotation shaft 6; the initial length of the coil spring 157 for the coil spring contact type annular array rotational strength control mechanism is longer than the length of the auxiliary hollow section 155 for the coil spring contact type annular array rotational strength control mechanism; the structural shape of the end part of the push rod 158 for the spiral spring contact type annular array rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure 154 for the spiral spring contact type annular array rotation strength control mechanism, and the main functions are as follows: when the driving resistance is too large, the resistance is greater than the elasticity of the coil spring 157 for the spiral spring contact type annular array rotation strength control mechanism, so that the coil spring 157 for the spiral spring contact type annular array rotation strength control mechanism is compressed, and under the causal action, the two rotating shafts are relatively rotated to play a protection role, so that the elasticity of the coil spring 157 for the spiral spring contact type annular array rotation strength control mechanism is smaller than the rotation force of the driving motor 7 at the maximum power.
Referring to fig. 3, the permanent magnet type magnetic principle recoil action force driving device 17 includes a connecting plate 171 for a permanent magnet type magnetic principle recoil action force driving device, a bolt hole 172 for a permanent magnet type magnetic principle recoil action force driving device, a vertical plate structure 173 for a permanent magnet type magnetic principle recoil action force driving device, a permanent magnet mounting groove structure 174 for a permanent magnet type magnetic principle recoil action force driving device, and a permanent magnet 175 for a permanent magnet type magnetic principle recoil action force driving device; a plurality of permanent magnet type magnetic principle recoiling acting force driving device bolt holes 172 are arranged inside the connecting plate 171 for the permanent magnet type magnetic principle recoiling acting force driving device, a permanent magnet type magnetic principle recoiling acting force driving device vertical plate structure 173 integrated with the connecting plate 171 for the permanent magnet type magnetic principle recoiling acting force driving device is arranged on the upper surface of the connecting plate 171 for the permanent magnet type magnetic principle recoiling acting force driving device, a permanent magnet type magnetic principle recoiling acting force driving device permanent magnet mounting groove structure 174 is arranged on one side of the vertical plate structure 173 for the permanent magnet type magnetic principle recoiling acting force driving device, and a permanent magnet 175 for the permanent magnet type magnetic principle recoiling acting force driving device is arranged inside the permanent magnet type magnetic principle recoiling acting force driving device permanent magnet; the permanent magnet 175 for the permanent magnet type magnetic principle recoil acting force driving device is a circular plate-shaped structure made of neodymium iron boron materials; the connecting plate 171 for the permanent magnet type magnetic principle recoil action force driving device is mounted on the upper surface of the movable rod 12 through a bolt inserted into the bolt hole 172 for the permanent magnet type magnetic principle recoil action force driving device, and the permanent magnet 175 for the permanent magnet type magnetic principle recoil action force driving device is located on one side of the component mounting groove structure 10, and has the main functions of: can realize movement under the action of a magnetic field.
Referring to fig. 4, the coil-mounted electromagnetic field strength generating mechanism 18 includes a protective case 181 for the coil-mounted electromagnetic field strength generating mechanism, a coil mounting groove structure 182 for the coil-mounted electromagnetic field strength generating mechanism, an iron core 183 for the coil-mounted electromagnetic field strength generating mechanism, a coil 184 for the coil-mounted electromagnetic field strength generating mechanism, and a wire guide 185 for the coil-mounted electromagnetic field strength generating mechanism; a coil installation type electromagnetic field strength generating mechanism coil installation groove structure 182 is provided in one end of the coil installation type electromagnetic field strength generating mechanism protective case 181, the coil installation type electromagnetic field strength generating mechanism protective case 181 is provided with a coil 184 for a coil installation type electromagnetic field strength generating mechanism in the coil installation type electromagnetic field strength generating mechanism coil installation groove structure 182, a coil installation type electromagnetic field strength generating mechanism iron core 183 is installed in the center of the coil 184 for a coil installation type electromagnetic field strength generating mechanism, and a coil installation type electromagnetic field strength generating mechanism lead hole 185 for communicating the outside and the coil installation type electromagnetic field strength generating mechanism coil installation groove structure 182 is provided in the coil installation type electromagnetic field strength generating mechanism protective case 181; the coil-mounted electromagnetic field strength generating mechanism protective case 181 is mounted on the surface of the component mounting groove structure 10; a wire is inserted into the wire hole 185 for the coil-mounted electromagnetic field strength generating mechanism, one end of the wire is connected with the power input end of the coil 184 for the coil-mounted electromagnetic field strength generating mechanism, and the other end of the wire is fixedly connected with the control output end of a current controller, and the main functions of the wire are as follows: under the action of electric force, a place can be generated, so that the controller has the capability of controlling the direction and the magnitude of the electric current, and is controlled by combining an electromagnetic principle and a principle that like poles repel each other and opposite poles attract each other.
The specific use mode is as follows: in the working process of the invention, the main connecting plate structure 2 is fixed at a fixed position through bolts, then the driving motor 7 and each coil-mounted electromagnetic field intensity generating mechanism 18 are turned on, during the working process, a component to be beaten is placed inside the component processing groove structure 11, under the combined action of the coil-mounted electromagnetic field intensity generating mechanism 18 and the permanent magnet type magnetic principle recoil acting force driving device 17, the impact driving force can be realized, when the rotating plate 19 rotates, the tooth-shaped protrusion structure 13 and the tooth-shaped groove structure 14 can be in contact with each other, the part can generate a force storage state, and during the process, the component can be beaten continuously by the beating block 16.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a part processing is with beating device fast, includes main body cover (1), its characterized in that: the tooth-shaped structure is characterized in that a main connecting plate structure (2) of an integral structure is arranged at the bottom of the main body shell (1), a main bolt hole (3) is formed in the main connecting plate structure (2), a part installation space (4) is formed in the center of the main body shell (1), a driving motor (7) is installed in the main body shell (1), a spiral spring contact type annular array rotation strength control mechanism (15) is installed at the end portion of a motor spindle (5) in the driving motor (7), a main rotating shaft (6) is installed at the center of one end of the spiral spring contact type annular array rotation strength control mechanism (15), one end of the main rotating shaft (6) penetrates through the part installation space (4), a rotating plate (19) is installed at one end of the part installation space (4) of the main rotating shaft (5), and three tooth protruding structures (13) of the integral structure are arranged at the edge portion of the rotating plate (19) ) Main body cover (1) is provided with movable body of rod removal space (8) at the top that lies in part installation space (4), one side that movable body of rod removed space (8) is provided with the part and beats space (11), the top that movable body of rod removed space (8) is provided with a plurality of main through-hole structure (9), one side of main through-hole structure (9) is provided with part installation groove structure (10), an internally mounted movable rod (12) of movable body of rod removal space (8), the bottom of movable rod (12) is provided with three tooth groove structure (14), movable rod (12) beat piece (16) at the inside one end installation one of part beat space (11), a position-mounting coil installation formula electromagnetic field intensity generation mechanism (18) of part installation groove structure (10), movable rod (12) are lieing in the one end installation one body formula permanent magnetism principle recoil of main through-hole structure (9) is done A force driving device (17).
2. The quick hammering device for processing the parts according to claim 1, wherein: the spiral spring contact type annular array rotation strength control mechanism (15) comprises a main hollow shell (151) for the spiral spring contact type annular array rotation strength control mechanism, a main hollow section (152) for the spiral spring contact type annular array rotation strength control mechanism, a rotating column (153) for the spiral spring contact type annular array rotation strength control mechanism, a semicircular groove structure (154) for the spiral spring contact type annular array rotation strength control mechanism, an auxiliary hollow section (155) for the spiral spring contact type annular array rotation strength control mechanism, a movable plate (156) for the spiral spring contact type annular array rotation strength control mechanism, a spiral spring (157) for the spiral spring contact type annular array rotation strength control mechanism and a push rod (158) for the spiral spring contact type annular array rotation strength control mechanism; the center of one end face of the main hollow shell (151) for the spiral spring contact type annular array rotation intensity control mechanism is fixedly connected with the end part of a motor spindle (5), the center of the inner part of the main hollow shell (151) for the spiral spring contact type annular array rotation intensity control mechanism is a main hollow section (152) for the spiral spring contact type annular array rotation intensity control mechanism, a rotary column (153) for the spiral spring contact type annular array rotation intensity control mechanism is sleeved in the main hollow section (152) for the spiral spring contact type annular array rotation intensity control mechanism, an auxiliary hollow section (155) for the spiral spring contact type annular array rotation intensity control mechanism is arranged in the main hollow shell (151) for the spiral spring contact type annular array rotation intensity control mechanism, a movable plate (156) for the spiral spring abutting type annular array rotation intensity control mechanism is arranged in an auxiliary hollow area (155) for the spiral spring abutting type annular array rotation intensity control mechanism on one end face of a main hollow area (152) for the spiral spring abutting type annular array rotation intensity control mechanism, a spiral spring (157) for the spiral spring abutting type annular array rotation intensity control mechanism is fixed between the auxiliary hollow area (155) for the spiral spring abutting type annular array rotation intensity control mechanism and one end of the movable plate (156) for the spiral spring abutting type annular array rotation intensity control mechanism, and a push rod (158) for the spiral spring abutting type annular array rotation intensity control mechanism and the movable plate (156) for the spiral spring abutting type annular array rotation intensity control mechanism are arranged on one end face of the movable plate (156) for the spiral spring abutting type annular array rotation intensity control mechanism in an integrated structure with the push rod, and the push rod (158) for the spiral spring contact type annular array rotation intensity control mechanism penetrates through the main hollow shell (151) for the spiral spring contact type annular array rotation intensity control mechanism and is positioned inside the main hollow section (152) for the spiral spring contact type annular array rotation intensity control mechanism, the push rod (158) for the spiral spring contact type annular array rotation intensity control mechanism is of a semicircular structure at one end of the main hollow section (152) for the spiral spring contact type annular array rotation intensity control mechanism, a semicircular groove structure (154) for the spiral spring contact type annular array rotation intensity control mechanism, which is used for placing the end part of the push rod (158) for the spiral spring contact type annular array rotation intensity control mechanism, is arranged on the side surface of the rotary column (153) for the spiral spring contact type annular array rotation intensity control mechanism, one end of the spiral spring abutting type annular array rotation intensity control mechanism is fixed with the end part of the main rotating shaft (6) through one end of a rotating column (153).
3. The quick hammering device for processing the parts according to claim 2, wherein: the initial length of the spiral spring (157) for the spiral spring contact type annular array rotation intensity control mechanism is greater than the length of the auxiliary hollow section (155) for the spiral spring contact type annular array rotation intensity control mechanism.
4. The quick hammering device for processing the parts according to claim 2, wherein: the structural shape of the end part of the push rod (158) for the spiral spring contact type annular array rotation intensity control mechanism is consistent with the structural shape of the semicircular groove structure (154) for the spiral spring contact type annular array rotation intensity control mechanism.
5. The quick hammering device for processing the parts according to claim 1, wherein: the permanent magnet type magnetic principle recoil action force driving device (17) comprises a connecting plate (171) for a permanent magnet type magnetic principle recoil action force driving device, a bolt hole (172) for the permanent magnet type magnetic principle recoil action force driving device, a vertical plate structure (173) for the permanent magnet type magnetic principle recoil action force driving device, a permanent magnet installation groove structure (174) for the permanent magnet type magnetic principle recoil action force driving device and a permanent magnet (175) for the permanent magnet type magnetic principle recoil action force driving device; the permanent magnet type magnetic principle recoil action force driving device comprises a connecting plate (171) for a permanent magnet type magnetic principle recoil action force driving device, wherein a plurality of bolt holes (172) for the permanent magnet type magnetic principle recoil action force driving device are arranged inside the connecting plate, a vertical plate structure (173) for the permanent magnet type magnetic principle recoil action force driving device is arranged on the upper surface of the connecting plate (171) for the permanent magnet type magnetic principle recoil action force driving device, the vertical plate structure is of an integrated structure with the connecting plate, a permanent magnet mounting groove structure (174) for the permanent magnet type magnetic principle recoil action force driving device is arranged on one side of the vertical plate structure (173) for the permanent magnet type magnetic principle recoil action force driving device, and a permanent magnet (175) for the permanent magnet type magnetic principle recoil action force driving device is mounted inside the.
6. The quick hammering device for processing the parts according to claim 5, wherein: the permanent magnet (175) for the permanent magnet type magnetic principle recoil acting force driving device is of a circular plate-shaped structure made of neodymium iron boron materials.
7. The quick hammering device for processing the parts according to claim 5, wherein: the connecting plate (171) for the permanent magnet type magnetic principle recoil action force driving device is installed on the upper surface of the movable rod (12) through bolts inserted into bolt holes (172) for the permanent magnet type magnetic principle recoil action force driving device, and the permanent magnet (175) for the permanent magnet type magnetic principle recoil action force driving device is located on one side of the component installation groove structure (10).
8. The quick hammering device for processing the parts according to claim 1, wherein: the coil-mounted electromagnetic field strength generating mechanism (18) comprises a protective shell (181) for the coil-mounted electromagnetic field strength generating mechanism, a coil mounting groove structure (182) for the coil-mounted electromagnetic field strength generating mechanism, an iron core (183) for the coil-mounted electromagnetic field strength generating mechanism, a coil (184) for the coil-mounted electromagnetic field strength generating mechanism, and a wire guide (185) for the coil-mounted electromagnetic field strength generating mechanism; a coil mounting groove structure (182) for the coil-mounted electromagnetic field strength generating mechanism is arranged in one end of the protective shell (181) for the coil-mounted electromagnetic field strength generating mechanism, the protective casing (181) for the coil-mounted electromagnetic field strength generating mechanism is provided with a coil (184) for the coil-mounted electromagnetic field strength generating mechanism inside a coil mounting groove structure (182) for the coil-mounted electromagnetic field strength generating mechanism, a coil-mounted iron core (183) for the electromagnetic field strength generating mechanism is mounted at the center of the coil (184) for the coil-mounted electromagnetic field strength generating mechanism, and a wire guide hole (185) for the coil-mounted electromagnetic field intensity generating mechanism is arranged in the protective shell (181) for the coil-mounted electromagnetic field intensity generating mechanism, and is communicated with the outside and the coil mounting groove structure (182) for the coil-mounted electromagnetic field intensity generating mechanism.
9. The quick hammering device for processing the parts according to claim 8, wherein: the coil-mounted electromagnetic field strength generating mechanism is mounted on the surface of the component mounting recess structure (10) with a protective housing (181).
10. The quick hammering device for processing the parts according to claim 8, wherein: a wire is inserted into the wire hole (185) for the coil-mounted electromagnetic field strength generating mechanism, one end of the wire is connected with the power input end of the coil (184) for the coil-mounted electromagnetic field strength generating mechanism, and the other end of the wire is fixedly connected with the control output end of a current controller.
CN201911327534.4A 2019-12-20 2019-12-20 Part processing is with beating device fast Withdrawn CN111014442A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201911327534.4A CN111014442A (en) 2019-12-20 2019-12-20 Part processing is with beating device fast

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Application Number Priority Date Filing Date Title
CN201911327534.4A CN111014442A (en) 2019-12-20 2019-12-20 Part processing is with beating device fast

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CN111014442A true CN111014442A (en) 2020-04-17

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Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU405641A1 (en) * 1967-05-22 1973-11-05 Electric molot sargsyan
JPS54161679U (en) * 1978-04-30 1979-11-12
CN2110530U (en) * 1992-01-21 1992-07-22 姜文岐 Mechanical flat-die hammer
CA2057565A1 (en) * 1991-01-23 1992-07-24 J. Timothy Huston Electro-hammer rapper
JP2001501131A (en) * 1996-09-20 2001-01-30 ザ ウィタカー コーポレーション Magnetic press
CN101774283A (en) * 2010-03-08 2010-07-14 哈尔滨开恩科技开发有限公司 Disc type electromagnetic punching machine
US20140007394A1 (en) * 2012-07-05 2014-01-09 Surface Technology Holdings, Ltd. Method and compression apparatus for introducing residual compression into a component having a regular or an irregular shaped surface
CN206425464U (en) * 2017-01-25 2017-08-22 湖北东舟重工科技股份有限公司 One kind forging telescoping mechanism and forging equipment
CN107565790A (en) * 2017-09-11 2018-01-09 丁士来 Magneto small-size punching machine
CN108749088A (en) * 2018-05-22 2018-11-06 永春县义翔技术咨询有限公司 A kind of garbage disposal pop can compression set
CN110517908A (en) * 2019-08-27 2019-11-29 辛铁涛 A kind of intermittent power control apparatus of electric current

Patent Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU405641A1 (en) * 1967-05-22 1973-11-05 Electric molot sargsyan
JPS54161679U (en) * 1978-04-30 1979-11-12
CA2057565A1 (en) * 1991-01-23 1992-07-24 J. Timothy Huston Electro-hammer rapper
CN2110530U (en) * 1992-01-21 1992-07-22 姜文岐 Mechanical flat-die hammer
JP2001501131A (en) * 1996-09-20 2001-01-30 ザ ウィタカー コーポレーション Magnetic press
CN101774283A (en) * 2010-03-08 2010-07-14 哈尔滨开恩科技开发有限公司 Disc type electromagnetic punching machine
US20140007394A1 (en) * 2012-07-05 2014-01-09 Surface Technology Holdings, Ltd. Method and compression apparatus for introducing residual compression into a component having a regular or an irregular shaped surface
CN206425464U (en) * 2017-01-25 2017-08-22 湖北东舟重工科技股份有限公司 One kind forging telescoping mechanism and forging equipment
CN107565790A (en) * 2017-09-11 2018-01-09 丁士来 Magneto small-size punching machine
CN108749088A (en) * 2018-05-22 2018-11-06 永春县义翔技术咨询有限公司 A kind of garbage disposal pop can compression set
CN110517908A (en) * 2019-08-27 2019-11-29 辛铁涛 A kind of intermittent power control apparatus of electric current

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