CN110814093A - Pneumatic control type part returns to mould and uses impact device - Google Patents

Pneumatic control type part returns to mould and uses impact device Download PDF

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Publication number
CN110814093A
CN110814093A CN201911099626.1A CN201911099626A CN110814093A CN 110814093 A CN110814093 A CN 110814093A CN 201911099626 A CN201911099626 A CN 201911099626A CN 110814093 A CN110814093 A CN 110814093A
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China
Prior art keywords
pressure difference
maximum pressure
difference control
spring contact
control mechanism
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CN201911099626.1A
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CN110814093B (en
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李琪
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Taizhou Yatai Pioneer Metals Corp
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Individual
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    • 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
    • B21D3/00Straightening or restoring form of metal rods, metal tubes, metal profiles, or specific articles made therefrom, whether or not in combination with sheet metal parts
    • 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
    • B30B1/32Presses, 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 plungers under fluid pressure
    • B30B1/38Presses, 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 plungers under fluid pressure wherein the plungers are operated by pressure of a gas, e.g. steam, air
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • B30B15/16Control arrangements for fluid-driven presses
    • B30B15/22Control arrangements for fluid-driven presses controlling the degree of pressure applied by the ram during the pressing stroke

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Separation By Low-Temperature Treatments (AREA)

Abstract

The invention discloses an impact device for the plastic recovery of an air pressure control type component, which comprises a main body shell. The invention utilizes compressed air as power required by driving, has the characteristics of convenient taking of driving medium and no use cost, and simultaneously can effectively control the pressure of high-pressure air for driving, thereby determining the maximum speed when the air is discharged and controlling the impact force, and has strong effect.

Description

Pneumatic control type part returns to mould and uses impact device
Technical Field
The invention relates to the technical field of component recycling, in particular to an impact device for recycling a pneumatic control type component.
Background
At present, after some metal parts are damaged, the plastic needs to be recycled, the existing plastic recycling device cannot control the plastic recycling force, the control capability is poor, and the controllability of the force is poor.
Disclosure of Invention
The present invention is directed to an impact device for recycling of pneumatically controlled components, which solves the above problems.
In order to achieve the purpose, the invention provides the following technical scheme: an impact device for pneumatically controlled part recycling comprises a main body shell, wherein a supporting leg is installed at the bottom of the main body shell, a bottom supporting plate is installed at the bottom of the supporting leg, a main part installation space is arranged at the center inside the main body shell, a driving motor is arranged inside one side of the main body shell, a motor spindle of the driving motor is arranged, one end of a main rotating shaft extends into the main part installation space, a main rotating plate is installed at one end of the motor spindle, which is positioned inside the main part installation space, a tooth structure which is integrated with the main rotating plate is arranged at the edge of the main rotating plate, a telescopic rod installation hole is formed in the edge of the main body shell, a main moving rod is installed inside the telescopic rod installation hole, a tooth groove structure is arranged on the rod body of the main moving rod, and a stamping head is installed at the bottom end of the main moving rod, the air pressure difference control device is characterized in that an air reserved space is formed in the top of the main motion rod of the main body shell, a piston sealing type air driving mechanism is installed at the top end of the main motion rod, a limiting space is formed in the top of the air reserved space, an air storage space is formed in the top of the limiting space, a main air vent and an auxiliary air vent which are communicated with the external space and the air storage space are formed in the main body shell, a main valve core and a spiral spring contact type maximum pressure difference control mechanism are installed in the main air vent and the auxiliary air vent respectively, a reverse thread structure rotary type longitudinal height adjusting mechanism is arranged in the center of the upper surface of the bottom supporting plate, and a part placing plate is installed at the top of the reverse thread structure rotary type longitudinal height adjusting mechanism.
Further, the reverse thread structure rotary type longitudinal height adjusting mechanism comprises a thread sleeve for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread section for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread structure for the reverse thread structure rotary type longitudinal height adjusting mechanism, a bottom threaded rod for the reverse thread structure rotary type longitudinal height adjusting mechanism, a top threaded rod for the reverse thread structure rotary type longitudinal height adjusting mechanism, the first bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism are arranged on the first connecting plate; the center in the reverse thread structure rotary type vertical height adjusting mechanism thread sleeve is provided with a reverse thread structure rotary type vertical height adjusting mechanism thread section which is communicated with two end surfaces of the reverse thread structure rotary type vertical height adjusting mechanism thread sleeve, the reverse thread structure rotary type vertical height adjusting mechanism thread sleeve is provided with a reverse thread structure rotary type vertical height adjusting mechanism thread structure on the inner wall of the reverse thread structure rotary type vertical height adjusting mechanism thread section, the bottom and the top of the reverse thread structure rotary type vertical height adjusting mechanism thread section are respectively connected with a reverse thread structure rotary type vertical height adjusting mechanism bottom threaded rod and a reverse thread structure rotary type vertical height adjusting mechanism top threaded rod through a reverse thread structure rotary type vertical height adjusting mechanism thread structure, the vertical height-adjusting mechanism of reverse thread structure rotation type is with bottom threaded rod and the vertical height-adjusting mechanism of reverse thread structure rotation type top threaded rod all are provided with the vertical height-adjusting mechanism of reverse thread structure rotation type and use spacing hole, two inside in the spacing hole for the vertical height-adjusting mechanism of reverse thread structure rotation type inserts a vertical height-adjusting mechanism of reverse thread structure rotation type and uses the spacing rod, the vertical height-adjusting mechanism of reverse thread structure rotation type is with bottom threaded rod and the vertical height-adjusting mechanism of reverse thread structure rotation type installs the vertical height-adjusting mechanism of reverse thread structure rotation type and uses first connecting plate and the vertical height-adjusting mechanism of reverse thread structure rotation type second connecting plate respectively at the other both ends of the top threaded rod, the vertical height-adjusting mechanism of reverse thread structure rotation type is with first connecting plate and the vertical height-adjusting mechanism of reverse thread structure rotation type second connecting plate for mechanism Is provided with a first bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism and a second bolt hole for a reverse thread structure rotary type longitudinal height adjusting mechanism.
Furthermore, the thread structure for the reverse thread structure rotary type vertical height adjusting mechanism comprises an internal thread structure arranged on the inner wall of a thread sleeve for the reverse thread structure rotary type vertical height adjusting mechanism and an external thread structure arranged on a bottom threaded rod for the reverse thread structure rotary type vertical height adjusting mechanism and a top threaded rod body for the reverse thread structure rotary type vertical height adjusting mechanism, and is located in the opposite thread direction of the thread structure on the bottom threaded rod for the reverse thread structure rotary type vertical height adjusting mechanism and the top threaded rod body for the reverse thread structure rotary type vertical height adjusting mechanism.
Further, the structural shape of the cross section of the limiting hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the structural shape of the cross section of the limiting rod for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole for the reverse thread structure rotary type longitudinal height adjusting mechanism are mounted on the upper surface of the bottom mounting substrate and the bottom of the component placing plate through bolts.
Further, the coil spring contact type maximum pressure difference control mechanism comprises a hollow shell for the coil spring contact type maximum pressure difference control mechanism, an air seal ring for the coil spring contact type maximum pressure difference control mechanism, a hollow structure for the coil spring contact type maximum pressure difference control mechanism, an exhaust hole for the coil spring contact type maximum pressure difference control mechanism, a valve plate insertion space for the coil spring contact type maximum pressure difference control mechanism, an air inlet hole for the coil spring contact type maximum pressure difference control mechanism, a movable plate for the coil spring contact type maximum pressure difference control mechanism, a valve plate for the coil spring contact type maximum pressure difference control mechanism, an air vent for the coil spring contact type maximum pressure difference control mechanism and a coil spring for the coil spring contact type maximum pressure difference control mechanism; an air seal ring for the coil spring contact type maximum pressure difference control mechanism is sleeved on the side face of the hollow shell for the coil spring contact type maximum pressure difference control mechanism, a hollow structure for the coil spring contact type maximum pressure difference control mechanism is arranged in the center of the inside of the hollow shell for the coil spring contact type maximum pressure difference control mechanism, an exhaust hole for the coil spring contact type maximum pressure difference control mechanism is arranged on one side of the hollow structure for the coil spring contact type maximum pressure difference control mechanism, one end of the exhaust gas for the coil spring contact type maximum pressure difference control mechanism is communicated with one end of the hollow shell for the coil spring contact type maximum pressure difference control mechanism, and a spiral is arranged on the other side of the hollow structure for the coil spring contact type maximum pressure difference control mechanism on the hollow shell for the coil spring contact type maximum pressure difference control mechanism The valve plate insertion space for the coil spring contact type maximum pressure difference control mechanism is arranged at one side of the valve plate insertion space for the coil spring contact type maximum pressure difference control mechanism by a hollow shell, the air inlet hole for the coil spring contact type maximum pressure difference control mechanism is communicated with the other side of the hollow shell for the coil spring contact type maximum pressure difference control mechanism by the air inlet hole, a movable plate for the coil spring contact type maximum pressure difference control mechanism is arranged in the hollow structure for the coil spring contact type maximum pressure difference control mechanism by the hollow shell, and the movable plate for the coil spring contact type maximum pressure difference control mechanism is arranged at the center of the end face of one side of the valve plate insertion space for the coil spring contact type maximum pressure difference control mechanism by the movable plate The valve plate is integrated with the valve plate for the spiral spring contact type maximum pressure difference control mechanism, the side surface of the movable plate for the spiral spring contact type maximum pressure difference control mechanism is provided with a vent hole for the spiral spring contact type maximum pressure difference control mechanism, the vent hole is communicated with two end surfaces of the movable plate, and the other end surface of the movable plate for the spiral spring contact type maximum pressure difference control mechanism is provided with a spiral spring for the spiral spring contact type maximum pressure difference control mechanism.
Further, the coil spring abutting type air seal ring for the maximum pressure difference control mechanism is clamped inside the auxiliary vent hole, and one end of the air inlet hole for the coil spring abutting type maximum pressure difference control mechanism is communicated with the air storage space.
Further, the initial length of the coil spring for the coil spring contact type maximum pressure difference control mechanism is larger than the transverse length of the hollow structure for the coil spring contact type maximum pressure difference control mechanism.
Further, the piston-sealed air driving mechanism comprises a piston valve for the piston-sealed air driving mechanism, a conical guide moving structure for the piston-sealed air driving mechanism, a first annular groove structure for the piston-sealed air driving mechanism, a second annular groove structure for the piston-sealed air driving mechanism, a first sealing ring for the piston-sealed air driving mechanism and a second sealing ring for the piston-sealed air driving mechanism; one end of the piston valve for the piston sealed air driving mechanism is provided with a conical guide moving structure for the piston sealed air driving mechanism which is of an integrated structure with the conical guide moving structure, the lower upper part of the side surface of the piston valve for the piston sealed air driving mechanism is respectively provided with a first annular groove structure for the piston sealed air driving mechanism and a second annular groove structure for the piston sealed air driving mechanism, and the first sealing ring for the piston sealed air driving mechanism and the second sealing ring for the piston sealed air driving mechanism are respectively arranged in the first annular groove structure for the piston sealed air driving mechanism and the second annular groove structure for the piston sealed air driving mechanism.
Further, the piston sealing type air driving mechanism is arranged in the air reserved space by a piston valve.
Furthermore, the other end of the piston valve for the piston sealing type air driving mechanism is provided with a rod body at the top end of the main movable rod.
Compared with the prior art, the invention has the beneficial effects that: the invention utilizes compressed air as power needed by driving, has the characteristics of convenient taking of driving medium and no use cost, can effectively control the pressure of high-pressure air for driving, thereby determining the maximum speed when the air is discharged, controlling the impact force and having strong effect, and the device is provided with a reverse thread structure rotary type longitudinal height adjusting mechanism which can adjust the longitudinal height of an impact part, thereby leading the part to continuously beat the surface of equipment with the same height and further controlling the beating force, in addition, the device is provided with a spiral spring contact type maximum pressure difference control mechanism which can control the maximum value of internal air pressure, thereby leading the internal air pressure to be controlled and preventing the phenomenon of overlarge beating force caused by overlarge air pressure, in addition, the device is provided with a piston sealing type air driving mechanism, the driving function can be realized under the action of air.
Drawings
FIG. 1 is a schematic diagram of a full-sectional structure of an impact device for the plastic return of a pneumatically controlled part according to the present invention;
FIG. 2 is a schematic structural view of a rotary type longitudinal height adjusting mechanism with a reverse thread structure in an impact device for pneumatic control type part recycling of the present invention;
FIG. 3 is a schematic structural diagram of a coil spring contact type maximum pressure difference control mechanism in an impact device for pneumatic control type part recycling of the present invention;
FIG. 4 is a schematic structural diagram of a piston-sealed air driving mechanism in an impact device for pneumatically controlled component recycling according to the present invention;
in the figure: 1, a main body housing, 2, support legs, 3, a bottom support plate, 4, a main part installation space, 5, a driving motor, 6, an air reserved space, 7, an air storage space, 8, a main rotating shaft, 9, a main rotating plate, 10, a tooth structure, 11, a telescopic rod installation hole, 12, a main moving rod, 13, a limit space, 14, a punching head, 15, a tooth groove structure, 16, a reverse thread structure rotary type longitudinal height adjusting mechanism, 161, a reverse thread structure rotary type longitudinal height adjusting mechanism screw sleeve, 162, a reverse thread structure rotary type longitudinal height adjusting mechanism screw section, 163, a reverse thread structure rotary type longitudinal height adjusting mechanism screw structure, 164, a reverse thread structure rotary type longitudinal height adjusting mechanism bottom screw rod, 165, a reverse thread structure rotary type longitudinal height adjusting mechanism top screw rod, 166, a stopper hole for a reverse thread structure rotary type longitudinal height adjustment mechanism 167, a stopper rod for a reverse thread structure rotary type longitudinal height adjustment mechanism 168, a first connecting plate for a reverse thread structure rotary type longitudinal height adjustment mechanism 169, a second connecting plate for a reverse thread structure rotary type longitudinal height adjustment mechanism 1610, a first bolt hole for a reverse thread structure rotary type longitudinal height adjustment mechanism 1611, a second bolt hole for a reverse thread structure rotary type longitudinal height adjustment mechanism 17, a component placement plate 18, a main vent hole 19, an auxiliary vent hole 20, a main valve core 21, a coil spring contact type maximum pressure difference control mechanism 211, a hollow housing for a coil spring contact type maximum pressure difference control mechanism 212, an air seal ring for a coil spring contact type maximum pressure difference control mechanism 213, a hollow structure for a coil spring contact type maximum pressure difference control mechanism, 214, an exhaust hole for the coil spring contact type maximum pressure difference control mechanism, 215, a valve plate insertion space for the coil spring contact type maximum pressure difference control mechanism, 216, an intake hole for the coil spring contact type maximum pressure difference control mechanism, 217, a moving plate for the coil spring contact type maximum pressure difference control mechanism, 218, a valve plate for the coil spring contact type maximum pressure difference control mechanism, 219, a vent hole for the coil spring contact type maximum pressure difference control mechanism, 2110, a coil spring for the coil spring contact type maximum pressure difference control mechanism, 22, a piston seal type air drive mechanism, 221, a piston valve for the piston seal type air drive mechanism, 222, a taper guide movement structure for the piston seal type air drive mechanism, 223, a first annular groove structure for the piston seal type air drive mechanism, 224, a second annular groove structure for the piston seal type air drive mechanism, 225, a first seal ring for the piston seal type air drive mechanism, 226, and a second seal ring for the piston seal type air drive mechanism.
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 main body structure comprises a main body shell 1, a supporting leg 2 is installed at the bottom of the main body shell 1, a bottom supporting plate 3 is installed at the bottom of the supporting leg 2, a main part installation space 4 is arranged at the center of the inside of the main body shell 1, a driving motor 5 is arranged inside one side of the main body shell 1, a motor spindle 8 of the driving motor 5 is arranged, one end of a main rotating shaft 8 extends into the main part installation space 4, a main rotating plate 9 is installed at one end of the motor spindle 8 positioned inside the main part installation space 4, a tooth structure 10 which is of an integrated structure with the main rotating plate 9 is arranged at the edge of the main rotating plate 9, a telescopic rod installation hole 11 is formed in the edge of the main rotating plate 9, a main moving rod 12 is installed inside the telescopic rod installation hole 11, and a tooth groove structure 15 is arranged on the rod body of the main moving rod, a punching head 14 is installed at the bottom end of the main motion rod 12, the main body case 1 is provided with an air reserved space 6 at the top of the main motion rod 12, the top end of the main motion rod 12 is provided with a piston sealing type air driving mechanism 22, the top of the air reserved space 6 is provided with a limit space 13, the top of the limit space 13 is provided with an air storage space 7, the inside of the main body shell 1 is provided with a main vent hole 18 and an auxiliary vent hole 19 which are communicated with the external space and the air storage space 7, a main valve core 20 and a spiral spring contact type maximum pressure difference control mechanism 21 are respectively arranged in the main vent hole 18 and the auxiliary vent hole 19, the center of the upper surface of the bottom supporting plate 3 is provided with a rotary type longitudinal height adjusting mechanism 16 with a reverse thread structure, the reverse screw structure rotary type longitudinal height adjusting mechanism 16 is provided at the top thereof with a component placing plate 17.
Referring to fig. 2, the reverse-threaded-structure rotary type longitudinal height adjustment mechanism 16 includes a reverse-threaded-structure rotary type longitudinal height adjustment mechanism threaded sleeve 161, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism threaded section 162, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism threaded structure 163, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism bottom threaded rod 164, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism top threaded rod 165, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism limiting hole 166, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism limiting rod 167, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism first connecting plate 168, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism second connecting plate 169, a reverse-threaded-structure rotary type longitudinal height adjustment mechanism first bolt hole 1610, and a reverse-threaded-structure rotary type longitudinal height adjustment mechanism vertical height adjustment mechanism use first connecting A second bolt hole 1611; a reverse thread structure rotary type thread section 162 for a longitudinal height adjusting mechanism communicating with both end faces of the reverse thread structure rotary type thread sleeve 161 for a longitudinal height adjusting mechanism is provided at the center inside the reverse thread structure rotary type thread sleeve 161 for a longitudinal height adjusting mechanism, a reverse thread structure rotary type thread structure 163 for a longitudinal height adjusting mechanism is provided on the inner wall of the reverse thread structure rotary type thread section 162 for a longitudinal height adjusting mechanism, the bottom and the top of the reverse thread structure rotary type thread section 162 for a longitudinal height adjusting mechanism are connected to a reverse thread structure rotary type bottom threaded rod 164 for a longitudinal height adjusting mechanism and a reverse thread structure rotary type top threaded rod 165 for a longitudinal height adjusting mechanism through the reverse thread structure rotary type thread structure 163, respectively, the reverse thread structure rotary type longitudinal height adjusting mechanism is characterized in that a bottom threaded rod 164 for the reverse thread structure rotary type longitudinal height adjusting mechanism and a top threaded rod 165 for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a limiting hole 166 for the reverse thread structure rotary type longitudinal height adjusting mechanism inside the opposite end, a limiting rod 167 for the reverse thread structure rotary type longitudinal height adjusting mechanism is inserted into the limiting hole 166 for the reverse thread structure rotary type longitudinal height adjusting mechanism, the other two ends of the bottom threaded rod 164 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod 165 for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a first connecting plate 168 for the reverse thread structure rotary type longitudinal height adjusting mechanism and a second connecting plate 169 for the reverse thread structure rotary type longitudinal height adjusting mechanism, and the first connecting plate 168 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the reverse thread structure rotary type longitudinal height A first bolt hole 1610 for a reverse thread structure rotary type longitudinal height adjustment mechanism and a second bolt hole 1611 for a reverse thread structure rotary type longitudinal height adjustment mechanism are provided inside the second connection plate 169 for an adjustment mechanism; the thread structure 163 for the reverse thread structure rotary type longitudinal height adjusting mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve 161 for the reverse thread structure rotary type longitudinal height adjusting mechanism and external thread structures arranged on the rod bodies of the bottom threaded rod 164 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod 165 for the reverse thread structure rotary type longitudinal height adjusting mechanism, and the thread directions of the thread structures on the rod bodies of the bottom threaded rod 164 for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod 165 for the reverse thread structure rotary type longitudinal height adjusting mechanism are opposite; the cross-sectional structural shape of the stopper hole 166 for the rotary type vertical height adjustment mechanism of the reverse thread structure and the cross-sectional structural shape of the stopper rod 167 for the rotary type vertical height adjustment mechanism of the reverse thread structure are both triangular structures, and the ends of the first bolt hole 1610 for the rotary type vertical height adjustment mechanism of the reverse thread structure and the second bolt hole 1611 for the rotary type vertical height adjustment mechanism of the reverse thread structure are mounted on the upper surface of the bottom mounting substrate 3 and the bottom of the component mounting plate 17 by bolts.
Referring to fig. 3, the coil spring contact type maximum pressure difference control mechanism 21 includes a hollow housing 211 for the coil spring contact type maximum pressure difference control mechanism, an air seal ring 212 for the coil spring contact type maximum pressure difference control mechanism, a hollow structure 213 for the coil spring contact type maximum pressure difference control mechanism, an air discharge hole 214 for the coil spring contact type maximum pressure difference control mechanism, a valve plate insertion space 215 for the coil spring contact type maximum pressure difference control mechanism, an air inlet hole 216 for the coil spring contact type maximum pressure difference control mechanism, a moving plate 217 for the coil spring contact type maximum pressure difference control mechanism, a valve plate 218 for the coil spring contact type maximum pressure difference control mechanism, a vent hole 219 for the coil spring contact type maximum pressure difference control mechanism, and a coil spring 2110 for the coil spring contact type maximum pressure difference control mechanism; an air seal ring 212 for the coil spring contact type maximum pressure difference control mechanism is sleeved on the side surface of the hollow shell 211 for the coil spring contact type maximum pressure difference control mechanism, a hollow structure 213 for the coil spring contact type maximum pressure difference control mechanism is arranged in the center of the hollow shell 211 for the coil spring contact type maximum pressure difference control mechanism, an exhaust hole 214 for the coil spring contact type maximum pressure difference control mechanism is arranged on one side of the hollow structure 213 for the coil spring contact type maximum pressure difference control mechanism 211, one end of the exhaust hole 214 for the coil spring contact type maximum pressure difference control mechanism is communicated with one end of the hollow shell 211 for the coil spring contact type maximum pressure difference control mechanism, and the hollow shell 211 for the coil spring contact type maximum pressure difference control mechanism is arranged in the hollow shell 211 for the coil spring contact type maximum pressure difference control mechanism A valve plate insertion space 215 for a coil spring contact type maximum pressure difference control mechanism is arranged at the other side of the hollow structure 213, an air inlet hole 216 for the coil spring contact type maximum pressure difference control mechanism is arranged at one side of the valve plate insertion space 215 for the coil spring contact type maximum pressure difference control mechanism on the hollow shell 211, the air inlet hole 216 for the coil spring contact type maximum pressure difference control mechanism is communicated with the other side of the hollow shell 211 for the coil spring contact type maximum pressure difference control mechanism, a coil spring contact type movable plate 217 for the maximum pressure difference control mechanism is arranged in the hollow structure 213 for the coil spring contact type maximum pressure difference control mechanism on the hollow shell 211, and the movable plate 217 for the coil spring contact type maximum pressure difference control mechanism is arranged in the hollow structure 213 for the coil spring contact type maximum pressure difference control mechanism on the spiral spring contact type movable plate 217 A coil spring contact type maximum pressure difference control mechanism valve plate 218 of an integrated structure with the valve plate is arranged in the center of the end surface of one side of the valve plate insertion space 215 for the difference control mechanism, a coil spring contact type maximum pressure difference control mechanism vent hole 219 communicated with the two end surfaces of the moving plate 217 for the coil spring contact type maximum pressure difference control mechanism is arranged on the side surface of the moving plate 217 for the coil spring contact type maximum pressure difference control mechanism, and a coil spring 2110 for the coil spring contact type maximum pressure difference control mechanism is arranged on the other end surface of the moving plate 217 for the coil spring contact type maximum pressure difference control mechanism; the air sealing ring 212 for the coil spring contact type maximum pressure difference control mechanism is clamped in the auxiliary vent hole 19, and one end of the air inlet hole 216 for the coil spring contact type maximum pressure difference control mechanism is communicated with the air storage space 7; the initial length of the coil spring 2110 for the coil spring contact type maximum pressure difference control mechanism is longer than the lateral length of the hollow structure 213 for the coil spring contact type maximum pressure difference control mechanism.
Referring to fig. 4, the piston seal type air driving mechanism 22 includes a piston valve 221 for the piston seal type air driving mechanism, a tapered guide moving structure 222 for the piston seal type air driving mechanism, a first annular groove structure 223 for the piston seal type air driving mechanism, a second annular groove structure 224 for the piston seal type air driving mechanism, a first seal ring 225 for the piston seal type air driving mechanism, and a second seal ring 226 for the piston seal type air driving mechanism; one end of the piston valve 221 for the piston sealed air driving mechanism is provided with a conical guide moving structure 222 for the piston sealed air driving mechanism, which is of an integrated structure with the conical guide moving structure, the lower upper part of the side surface of the piston valve 221 for the piston sealed air driving mechanism is respectively provided with a first annular groove structure 223 for the piston sealed air driving mechanism and a second annular groove structure 224 for the piston sealed air driving mechanism, and a first sealing ring 225 for the piston sealed air driving mechanism and a second sealing ring 226 for the piston sealed air driving mechanism are respectively arranged in the first annular groove structure 223 for the piston sealed air driving mechanism and the second annular groove structure 224 for the piston sealed air driving mechanism; the piston valve 221 for the piston sealing type air driving mechanism is arranged in the air reserved space 6; the other end of the piston valve 221 for the piston seal type air driving mechanism is provided with a rod body at the top end of the main movable rod 12.
The specific use mode is as follows: in the invention, a part needing to be remolded is placed on the upper surface of the part placing plate 17, then high-pressure air is injected into the main valve core 20 through an air compressor, when the air leakage phenomenon occurs in the spiral spring contact type maximum pressure difference control mechanism 21, the air injection is stopped, when the air leakage phenomenon occurs in the spiral spring contact type maximum pressure difference control mechanism 21, the part can work, when the part works, the driving motor 5 continuously drives the part to rotate, at the same time, the movable rod 12 continuously moves up and down under the action of the tooth splitting structure, in the upward moving process, the air in the air storage space 7 is compressed, when the tooth structure is separated, the movable rod 12 drives the punching head 14 to rapidly move down under the action of the air pressure, so as to realize the impact action, according to the principle, the knocking action can be carried out, and when knocking, the reverse thread structure rotary type longitudinal height adjusting mechanism 16 needs to be adjusted so that the beating part is located at the same height.
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 an atmospheric control formula part is moulded back and is used percussion device, includes main body cover (1), its characterized in that: the supporting legs (2) are installed at the bottom of the main body shell (1), the bottom supporting plate (3) is installed at the bottom of the supporting legs (2), a main part installation space (4) is arranged at the center of the inside of the main body shell (1), a driving motor (5) is arranged inside one side of the main body shell (1), a motor spindle (8) of the driving motor (5) is arranged, one end of the main rotating shaft (8) extends into the main part installation space (4), a main rotating plate (9) is installed at one end of the motor spindle (8) located inside the main part installation space (4), a tooth structure (10) which is of an integral structure with the main rotating plate (9) is arranged at the edge of the main rotating plate (9), a telescopic rod installation hole (11) is arranged at the edge of the main body shell (1), and a main moving rod (12) is installed inside the telescopic rod installation hole (11), a tooth groove structure (15) is arranged on the rod body of the main motion rod (12), a stamping head (14) is installed at the bottom end of the main motion rod (12), an air reserved space (6) is arranged at the top of the main motion rod (12) of the main body shell (1), a piston sealing type air driving mechanism (22) is installed at the top end of the main motion rod (12), a limiting space (13) is arranged at the top of the air reserved space (6), an air storage space (7) is arranged at the top of the limiting space (13), a main vent hole (18) and an auxiliary vent hole (19) which are communicated with an external space and the air storage space (7) are arranged in the main body shell (1), a main valve core (20) and a spiral spring abutting type maximum pressure difference control mechanism (21) are respectively installed in the main vent hole (18) and the auxiliary vent hole (19), the upper surface center of bottom sprag board (3) is provided with reverse screw structure rotation type vertical height adjustment mechanism (16), reverse screw structure rotation type vertical height adjustment mechanism's (16) top installation one part place board (17).
2. The impact device for remolding of a pneumatically controlled component as claimed in claim 1, wherein: the reverse thread structure rotary type longitudinal height adjusting mechanism (16) comprises a thread sleeve (161) for a reverse thread structure rotary type longitudinal height adjusting mechanism, a thread section (162) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a thread structure (163) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a bottom threaded rod (164) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a top threaded rod (165) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a limiting hole (166) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a limiting rod (167) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a first connecting plate (168) for the reverse thread structure rotary type longitudinal height adjusting mechanism, a second connecting plate (169) for the reverse thread structure rotary type longitudinal height adjusting mechanism, A first bolt hole (1610) for a reverse-thread-structure rotary type longitudinal height adjustment mechanism and a second bolt hole (1611) for a reverse-thread-structure rotary type longitudinal height adjustment mechanism; the center inside the threaded sleeve (161) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is provided with a threaded interval (162) for the reverse threaded structure rotary type longitudinal height adjusting mechanism communicating with the threaded sleeve (161) for the reverse threaded structure rotary type longitudinal height adjusting mechanism at two end faces, the threaded sleeve (161) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is located at the inner wall of the threaded interval (162) for the reverse threaded structure rotary type longitudinal height adjusting mechanism is provided with a threaded structure (163) for the reverse threaded structure rotary type longitudinal height adjusting mechanism, and the bottom and the top of the threaded interval (162) for the reverse threaded structure rotary type longitudinal height adjusting mechanism are respectively connected with a bottom threaded rod (164) for the reverse threaded structure rotary type longitudinal height adjusting mechanism and a reverse threaded structure rotary type longitudinal height adjusting machine through the threaded structure (163) for the reverse threaded structure rotary type longitudinal height adjusting mechanism A top threaded rod (165) for the structure, a bottom threaded rod (164) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a top threaded rod (165) for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a limiting hole (166) for the reverse thread structure rotary type longitudinal height adjusting mechanism in the opposite end, a limiting rod (167) for the reverse thread structure rotary type longitudinal height adjusting mechanism is inserted into the limiting hole (166) for the reverse thread structure rotary type longitudinal height adjusting mechanism, the other two ends of the bottom threaded rod (164) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the top threaded rod (165) for the reverse thread structure rotary type longitudinal height adjusting mechanism are respectively provided with a first connecting plate (168) for the reverse thread structure rotary type longitudinal height adjusting mechanism and a second connecting plate (169) for the reverse thread structure rotary type longitudinal height adjusting mechanism, the first connecting plate (168) for the reverse-thread-structure rotary type longitudinal height adjusting mechanism and the second connecting plate (169) for the reverse-thread-structure rotary type longitudinal height adjusting mechanism are internally provided with a first bolt hole (1610) for the reverse-thread-structure rotary type longitudinal height adjusting mechanism and a second bolt hole (1611) for the reverse-thread-structure rotary type longitudinal height adjusting mechanism.
3. The impact device for remolding of a pneumatically controlled component as claimed in claim 2, wherein: the thread structure (163) for the vertical height-adjusting mechanism of reverse thread structure rotation type is including setting up the internal thread structure at the vertical height-adjusting mechanism of reverse thread structure rotation type with thread sleeve (161) inner wall and setting up the external thread structure on the body of rod of bottom threaded rod (164) for the vertical height-adjusting mechanism of reverse thread structure rotation type and the vertical height-adjusting mechanism of reverse thread structure rotation type with top threaded rod (165), and is located the thread opposite direction of the thread structure on the body of rod of bottom threaded rod (164) for the vertical height-adjusting mechanism of reverse thread structure rotation type and the vertical height-adjusting mechanism of reverse thread structure rotation type with top threaded rod (165).
4. The impact device for remolding of a pneumatically controlled component as claimed in claim 2, wherein: the cross section structural appearance of the limiting hole (166) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the cross section structural appearance of the limiting rod (167) for the reverse thread structure rotary type longitudinal height adjusting mechanism are both triangular structures, and the end parts of the first bolt hole (1610) for the reverse thread structure rotary type longitudinal height adjusting mechanism and the second bolt hole (1611) for the reverse thread structure rotary type longitudinal height adjusting mechanism are mounted on the upper surface of the bottom mounting base plate (3) and the bottom of the component placing plate (17) through bolts.
5. The impact device for remolding of a pneumatically controlled component as claimed in claim 1, wherein: the spiral spring contact type maximum pressure difference control mechanism (21) comprises a hollow shell (211) for the spiral spring contact type maximum pressure difference control mechanism, an air sealing ring (212) for the spiral spring contact type maximum pressure difference control mechanism, a hollow structure (213) for the spiral spring contact type maximum pressure difference control mechanism, an exhaust hole (214) for the spiral spring contact type maximum pressure difference control mechanism and a valve plate insertion space (215) for the spiral spring contact type maximum pressure difference control mechanism, an air inlet hole (216) for a spiral spring contact type maximum pressure difference control mechanism, a moving plate (217) for the spiral spring contact type maximum pressure difference control mechanism, a valve plate (218) for the spiral spring contact type maximum pressure difference control mechanism, an air vent (219) for the spiral spring contact type maximum pressure difference control mechanism and a spiral spring (2110) for the spiral spring contact type maximum pressure difference control mechanism; an air sealing ring (212) for the spiral spring contact type maximum pressure difference control mechanism is sleeved on the side surface of the hollow shell (211) for the spiral spring contact type maximum pressure difference control mechanism, a hollow structure (213) for the spiral spring contact type maximum pressure difference control mechanism is arranged in the center of the interior of the hollow shell (211) for the spiral spring contact type maximum pressure difference control mechanism, an exhaust hole (214) for the spiral spring contact type maximum pressure difference control mechanism is arranged on one side of the hollow structure (213) for the spiral spring contact type maximum pressure difference control mechanism, one end of the exhaust hole (214) for the spiral spring contact type maximum pressure difference control mechanism is communicated with one end of the hollow shell (211) for the spiral spring contact type maximum pressure difference control mechanism, a valve plate insertion space (215) for the coil spring contact type maximum pressure difference control mechanism is arranged on the other side of the hollow structure (213) for the coil spring contact type maximum pressure difference control mechanism of the hollow shell (211) for the coil spring contact type maximum pressure difference control mechanism, an air inlet hole (216) for the coil spring contact type maximum pressure difference control mechanism is arranged on one side of the valve plate insertion space (215) for the coil spring contact type maximum pressure difference control mechanism of the hollow shell (211), the air inlet hole (216) for the coil spring contact type maximum pressure difference control mechanism is communicated with the other side of the hollow shell (211) for the coil spring contact type maximum pressure difference control mechanism of the hollow shell (211), and the hollow shell (211) for the coil spring contact type maximum pressure difference control mechanism of the hollow shell (213) The movable plate (217) for the coil spring contact type maximum pressure difference control mechanism is arranged in the movable plate (217) for the coil spring contact type maximum pressure difference control mechanism, a valve plate (218) for the coil spring contact type maximum pressure difference control mechanism is arranged in the center of the end face of one side of a valve plate insertion space (215) for the coil spring contact type maximum pressure difference control mechanism, the valve plate is integrated with the movable plate (217) for the coil spring contact type maximum pressure difference control mechanism, a vent hole (219) for the coil spring contact type maximum pressure difference control mechanism is arranged on the side face of the movable plate (217) for the coil spring contact type maximum pressure difference control mechanism, and a coil spring (2110) for the coil spring contact type maximum pressure difference control mechanism is arranged on the other end face of the movable plate (217) for the coil spring contact type maximum pressure difference control mechanism.
6. The impact device for remolding of a pneumatically controlled component as claimed in claim 5, wherein: the air sealing ring (212) for the spiral spring abutting type maximum pressure difference control mechanism is clamped in the auxiliary vent hole (19), and one end of an air inlet hole (216) for the spiral spring abutting type maximum pressure difference control mechanism is communicated with the air storage space (7).
7. The impact device for remolding of a pneumatically controlled component as claimed in claim 5, wherein: the initial length of the coil spring 2110 for the coil spring contact type maximum pressure difference control mechanism is larger than the lateral length of the hollow structure 213 for the coil spring contact type maximum pressure difference control mechanism.
8. The impact device for remolding of a pneumatically controlled component as claimed in claim 1, wherein: the piston sealing type air driving mechanism (22) comprises a piston valve (221) for the piston sealing type air driving mechanism, a conical guide moving structure (222) for the piston sealing type air driving mechanism, a first annular groove structure (223) for the piston sealing type air driving mechanism, a second annular groove structure (224) for the piston sealing type air driving mechanism, a first sealing ring (225) for the piston sealing type air driving mechanism and a second sealing ring (226) for the piston sealing type air driving mechanism; one end of a piston valve (221) for the piston sealed air driving mechanism is provided with a conical guide moving structure (222) for the piston sealed air driving mechanism, the conical guide moving structure is integrated with the conical guide moving structure, a first annular groove structure (223) for the piston sealed air driving mechanism and a second annular groove structure (224) for the piston sealed air driving mechanism are respectively arranged at the lower upper part of the side surface of the piston valve (221) for the piston sealed air driving mechanism, and a first sealing ring (225) for the piston sealed air driving mechanism and a second sealing ring (226) for the piston sealed air driving mechanism are respectively arranged in the first annular groove structure (223) for the piston sealed air driving mechanism and the second annular groove structure (224) for the piston sealed air driving mechanism.
9. The impact device for remolding of a pneumatically controlled component as claimed in claim 8, wherein: the piston valve (221) for the piston sealing type air driving mechanism is arranged in the air reserved space (6).
10. The impact device for remolding of a pneumatically controlled component as claimed in claim 8, wherein: the other end of the piston valve (221) for the piston sealing type air driving mechanism is provided with a rod body at the top end of the main movable rod (12).
CN201911099626.1A 2019-11-12 2019-11-12 Pneumatic control type part returns to mould and uses impact device Active CN110814093B (en)

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CN110814093B CN110814093B (en) 2021-07-27

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111168626A (en) * 2020-03-14 2020-05-19 泉州市富永盛技术服务有限公司 Air pressure type shaft body and shaft sleeve dismounting device
CN111331513A (en) * 2020-03-16 2020-06-26 福建泉州赛富机械科技有限公司 Air adsorption type fixing device for processing plane object
CN111395506A (en) * 2020-03-26 2020-07-10 李东江 Gaseous formula road well lid that drains
CN111463716A (en) * 2020-04-10 2020-07-28 侯佃生 Auxiliary device is used in installation of power transmission line and electric power cement pole
CN112123566A (en) * 2020-10-16 2020-12-25 王恺 Telescopic control device for clay dispersion device in screw mud production

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FR2392804A1 (en) * 1977-06-01 1978-12-29 Generale Engrais Sa Hammer for dislodging deposits from cement kiln - has crank to lift weight upwards, and pawl and ratchet mechanism allowing free fall between guides
CN205416433U (en) * 2016-03-28 2016-08-03 张能力 Punching machine
CN108356094A (en) * 2018-03-06 2018-08-03 苏锦忠 A kind of efficient hammer out device of auto parts machinery repair plates of automobile
CN207746356U (en) * 2017-12-22 2018-08-21 宝鸡市辉腾钛业有限公司 A kind of pneumatic hammer for preventing workpiece from moving
CN208146684U (en) * 2018-02-02 2018-11-27 温州晨曦工艺品有限公司 One kind repairing efficient hammer out device for automobile parts
CN109552821A (en) * 2018-12-07 2019-04-02 王娟娟 A kind of wheel raw material recovery device
CN109610806A (en) * 2018-12-01 2019-04-12 潘春亮 Rod-like members storage device used in a kind of Architecture Field
CN110029724A (en) * 2019-05-28 2019-07-19 杨杰雄 A kind of blocking pipeline negative pressure vibration formula dredger

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Publication number Priority date Publication date Assignee Title
FR2392804A1 (en) * 1977-06-01 1978-12-29 Generale Engrais Sa Hammer for dislodging deposits from cement kiln - has crank to lift weight upwards, and pawl and ratchet mechanism allowing free fall between guides
CN205416433U (en) * 2016-03-28 2016-08-03 张能力 Punching machine
CN207746356U (en) * 2017-12-22 2018-08-21 宝鸡市辉腾钛业有限公司 A kind of pneumatic hammer for preventing workpiece from moving
CN208146684U (en) * 2018-02-02 2018-11-27 温州晨曦工艺品有限公司 One kind repairing efficient hammer out device for automobile parts
CN108356094A (en) * 2018-03-06 2018-08-03 苏锦忠 A kind of efficient hammer out device of auto parts machinery repair plates of automobile
CN109610806A (en) * 2018-12-01 2019-04-12 潘春亮 Rod-like members storage device used in a kind of Architecture Field
CN109552821A (en) * 2018-12-07 2019-04-02 王娟娟 A kind of wheel raw material recovery device
CN110029724A (en) * 2019-05-28 2019-07-19 杨杰雄 A kind of blocking pipeline negative pressure vibration formula dredger

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111168626A (en) * 2020-03-14 2020-05-19 泉州市富永盛技术服务有限公司 Air pressure type shaft body and shaft sleeve dismounting device
CN111331513A (en) * 2020-03-16 2020-06-26 福建泉州赛富机械科技有限公司 Air adsorption type fixing device for processing plane object
CN111395506A (en) * 2020-03-26 2020-07-10 李东江 Gaseous formula road well lid that drains
CN111463716A (en) * 2020-04-10 2020-07-28 侯佃生 Auxiliary device is used in installation of power transmission line and electric power cement pole
CN112123566A (en) * 2020-10-16 2020-12-25 王恺 Telescopic control device for clay dispersion device in screw mud production

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