CN213079836U - A carry material device that is used for real standard of hot stamping automobile parts simulation - Google Patents

Abstract

The utility model belongs to the technical field of the real supporting equipment technique of instructing of hot stamping simulation and specifically relates to a carry material device that is used for real standard of hot stamping automobile parts simulation, including the heating organism that is used for simulating heating device, be used for simulating stamping equipment's punching press organism, vertical driving motor, rotating electrical machines and automatically controlled arm lock. The utility model discloses a material conveying device for hot stamping automobile parts simulation training controls the rotation and the overturn of the rotary feeding frame with the built-in rotary motor and the electric control arm lock through the vertical driving motor, thereby synchronously feeding and discharging from the front and back sides of the heating machine body and the stamping machine body, greatly improving the feeding and discharging efficiency, having simple structure and greatly improving the training efficiency; lateral transmission assemblies for synchronously controlling the lifting of the lifting sealing door plates at different positions are arranged between the rotary feeding frame and the heating machine body and between the rotary feeding frame and the punching machine body, so that the linkage and the transmission efficiency are greatly improved.

Description

A carry material device that is used for real standard of hot stamping automobile parts simulation

Technical Field

The utility model belongs to the technical field of the real supporting equipment technique of instructing of hot stamping simulation and specifically relates to a carry material device that is used for real standard of hot stamping automobile parts simulation.

Background

The hot stamping forming technology utilizes the principle of metal thermoplastic forming, can realize quenching heat treatment on a plate material while forming, improves the forming performance of the material, and greatly expands the application range of high-strength and ultrahigh-strength steel in automobile parts. In order to improve the practical operation capability of personnel in the field of automobile parts, the personnel in the field of automobile parts need to be trained through a simulation practical training device, a single mechanical arm is mainly adopted for a conveying mechanism of a hot stamping simulation practical training device on the market at present, the structure is complex, the precision requirement is high, the feeding efficiency is single, the linkage of a transmission mechanism is poor, a large number of transmission mechanisms are needed, the cost is high, and the simulation practical training efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problems existing in the background technology, an improved conveying device for hot stamping automobile part simulation training is provided, and the problems that a single mechanical arm is mainly adopted in a conveying mechanism of a hot stamping simulation training device on the market at present, the structure is complex, the precision requirement is high, the feeding efficiency is single, the linkage of a transmission mechanism is poor, a large number of transmission mechanisms are needed, the cost is high, and the simulation training efficiency is low are solved.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a carry material device that is used for real standard of hot stamping automobile parts simulation, is including the heating organism that is used for simulating heating device, the punching press organism, vertical driving motor, rotating electrical machines and the automatically controlled arm lock that are used for simulating stamping equipment, vertical driving motor top axial fixedly connected with swivel feeding frame, automatically controlled arm lock pass through bolt fixed mounting on swivel feeding frame top, the positive, the reverse side opening position activity of heating organism and punching press organism be equipped with the sealed door plant of lift through side direction drive assembly coordinated control, the inside fixed mounting of heating organism and punching press organism have an operation mesa.

Furthermore, in order to cooperate with turnover control and adjustment, the rotary feeding frame comprises a longitudinal transmission shaft rod axially fixed on a rotating shaft at the upper end of the vertical driving motor, lateral transverse connecting rods symmetrically arranged on the outer sides of the longitudinal transmission shaft rod and an arc-shaped material conveying plate fixed at the top end of the outer side of the lateral transverse connecting rod, the rotary motor is fixedly arranged on the side wall of the longitudinal transmission shaft rod through bolts, the rotating shaft at the outer side of the rotary motor is fixedly connected with the inner part of the lateral transverse connecting rod in an inserting mode and the lateral transverse connecting rod in an axial fixed mode, and the electric control clamping arm is fixedly arranged at the top end of the arc-.

Furthermore, in order to be installed and driven in a matched mode, the lateral transmission assembly comprises a left transmission shaft transversely arranged between the rotary feeding frame and the heating machine body, a right transmission shaft transversely arranged between the rotary feeding frame and the punching machine body, a bottom movable support frame fixed on the outer side faces of the heating machine body, the punching machine body and the vertical driving motor through bolts, and a lateral external thread lifting rod movably assembled on the outer side faces of the heating machine body and the punching machine body.

Furthermore, in order to control lifting conveniently, an internal thread linkage pipe sleeve matched with the side external thread lifting rod is welded and fixed on the outer side surface of the lifting sealing door panel.

Furthermore, in order to match with the meshing transmission, the two ends of the left transmission shaft, the two ends of the right transmission shaft and the lower end of the side external thread lifting rod are respectively provided with an integrated conical gear head.

Furthermore, in order to match lateral transmission, the outer side surface of the longitudinal transmission shaft rod is provided with an annular lateral transmission tooth groove

The utility model has the advantages that:

(1) the utility model discloses a material conveying device for hot stamping automobile parts simulation training controls the rotation and the overturn of the rotary feeding frame with the built-in rotary motor and the electric control arm lock through the vertical driving motor, thereby synchronously feeding and discharging from the front and back sides of the heating machine body and the stamping machine body, greatly improving the feeding and discharging efficiency, having simple structure and greatly improving the training efficiency;

(2) lateral transmission assemblies for synchronously controlling the lifting of the lifting sealing door plates at different positions are arranged between the rotary feeding frame and the heating machine body and between the rotary feeding frame and the punching machine body, so that the linkage and the transmission efficiency are greatly improved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the structure diagram of the rotary material transferring rack of the present invention.

In the figure, the machine comprises a heating machine body 1, a stamping machine body 2, a vertical driving motor 3, a rotating motor 4, an electric control clamping arm 5, a lifting sealing door plate 6, an operation table top 7, a longitudinal transmission shaft rod 8, a lateral transverse connecting rod 9, an arc material conveying plate 10, a left transmission shaft 11, a right transmission shaft 12, a bottom movable support frame 13, a lateral external thread lifting rod 14, an internal thread linkage pipe sleeve 15, a conical gear head 16 and an annular lateral transmission tooth groove 17.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

The conveying device for the simulation training of the hot stamping automobile parts shown in the figures 1 and 2 comprises a heating machine body 1 for simulating the heating device, a stamping machine body 2 for simulating stamping equipment, a vertical driving motor 3, a rotating motor 4 and an electric control clamping arm 5, wherein the vertical driving motor 3, the rotating motor 4 and the electric control clamping arm 5 are controlled to be opened and closed by an external power supply and an external control switch, the vertical driving motor 3, the rotating motor 4 and the electric control clamping arm 5 are respectively controlled to be opened and closed and to rotate forwards and backwards and to be loosened by independent switches, a rotary feeding frame is fixedly connected to the top end of the vertical driving motor 3 in the axial direction, the vertical driving motor 3 controls to rotate transversely, the rotating motor 4 controls to turn longitudinally, the electric control clamping arm 5 is used for controlling the clamping and separation of the parts, the electric control clamping arm 5 is fixedly installed at the top end of the rotary feeding frame through, The back opening position is movably provided with a lifting sealing door plate 6 which is controlled by the linkage of a lateral transmission component, and the heating machine body 1 and the punching machine body 2 are internally and fixedly provided with an operation table board 7.

Further, in order to cooperate with turnover control and regulation, the rotary feeding frame comprises a longitudinal transmission shaft rod 8 axially fixed on the upper end of the vertical driving motor 3 in a rotating shaft, lateral transverse connecting rods 9 symmetrically installed on the outer sides of the longitudinal transmission shaft rod 8 and arc-shaped material conveying plates 10 fixed on the top ends of the outer sides of the lateral transverse connecting rods 9, the rotary motors 4 are fixedly installed on the side walls of the longitudinal transmission shaft rod 8 through bolts, two rotary motors 4 are fixed on the side walls of the longitudinal transmission shaft rod 8, synchronous upward turnover regulation is facilitated, if space allows, a single rotary motor can be adopted, up-down turnover regulation is respectively realized, rotating shafts on the outer sides of the rotary motors 4 are fixedly connected with the lateral transverse connecting rods 9 in an axial direction through splicing mode, and electric control clamping arms 5 are fixedly installed on the top ends of the arc-shaped.

Further, in order to be installed and driven in a matched mode, the lateral transmission assembly comprises a left transmission shaft 11 transversely arranged between the rotary feeding frame and the heating machine body 1, a right transmission shaft 12 transversely arranged between the rotary feeding frame and the punching machine body 2, a bottom movable support frame 13 fixed on the outer side faces of the heating machine body 1, the punching machine body 2 and the vertical driving motor 3 through bolts, and a lateral external thread lifting rod 14 movably assembled on the outer side faces of the heating machine body 1 and the punching machine body 2, wherein the left transmission shaft 11 and the right transmission shaft 12 respectively control the lifting sealing door panel 6 at the diagonal positions to lift synchronously, when the lifting sealing door panel 6 at the front end of the heating machine body 1 rises, the lifting sealing door panel 6 at the rear end of the punching machine body 2 rises synchronously, the lifting sealing door panel 6 at the rear end of the heating machine body 1 falls, and the lifting sealing door panel 6 at; the bottom movable support frame 13 is used for transversely supporting and assembling the left and right transmission shafts, and further, in order to control lifting conveniently, an internal thread linkage pipe sleeve 15 matched with the side external thread lifting rod 14 is welded and fixed on the outer side surface of the lifting sealing door panel 6. The side external thread lifting rod 14 controls the lifting of the internal thread linkage pipe sleeve 15 through rotation, so that the lifting of the lifting sealing door panel 6 is controlled.

Further, for the matching and meshing transmission, the two ends of the left transmission shaft 11, the two ends of the right transmission shaft 12 and the lower end of the side external thread lifting rod 14 are respectively provided with an integrated conical gear head 16, further, for the matching and lateral transmission, the outer side surface of the longitudinal transmission shaft rod 8 is provided with an annular lateral transmission tooth groove 17, and the annular lateral transmission tooth groove 17 consists of an upper transmission groove in meshing transmission with the left transmission shaft at the front side and the right transmission shaft at the rear side and a lower transmission groove in meshing transmission with the left transmission shaft at the rear side and the right transmission shaft at the front side, so that the directions of the annular lateral transmission tooth groove 17 are different. The vertical driving motor 3 rotates clockwise, at this time, the lifting sealing door panel 6 at the front end of the heating machine body 1 and the lifting sealing door panel 6 at the rear end of the punching machine body 2 synchronously ascend, and meanwhile, the lifting sealing door panel 6 at the rear end of the heating machine body 1 and the lifting sealing door panel 6 at the front end of the punching machine body 2 synchronously descend, so that the arc-shaped material conveying plate 10 can be conveniently inserted from the openings at the front end of the heating machine body 1 and the rear end of the punching machine body 2; when the vertical driving motor 3 rotates anticlockwise, the lifting sealing door panel 6 at the front end of the heating machine body 1 and the lifting sealing door panel 6 at the rear end of the stamping machine body 2 synchronously descend, the lifting sealing door panel 6 at the rear end of the heating machine body 1 and the lifting sealing door panel 6 at the front end of the stamping machine body 2 synchronously ascend, and the rotating motor 4 controls the arc-shaped material conveying plate 10 to reversely overturn, so that the arc-shaped material conveying plate 10 can be conveniently inserted from the openings at the rear end of the heating machine body 1 and the front end of the stamping machine body 2; when the arc-shaped material conveying plate 10 leaves the heating machine body 1 and the punching machine body 2, the lifting sealing door plate 6 is completely closed, and the electric control clamping arm 5 is used for clamping a workpiece.

The utility model has the advantages that:

(1) the utility model discloses a material conveying device for hot stamping automobile parts simulation training controls the rotation and the upset of the rotary feeding frame of the built-in rotating electrical machine 4 and the electric control arm lock 5 through the vertical driving motor 3, thereby feeding and discharging from the front and back sides of the heating machine body 1 and the stamping machine body 2 synchronously, greatly improving the feeding and discharging efficiency, having simple structure and greatly improving the training efficiency;

(2) lateral transmission components for synchronously controlling the lifting of the lifting sealing door plates 6 at different positions are arranged between the rotary feeding frame and the heating machine body 1 and between the rotary feeding frame and the punching machine body 2, so that the linkage and the transmission efficiency are greatly improved.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a carry material device that is used for real standard of hot stamping automobile parts simulation, includes heating organism (1) that is used for simulating heating device, punching press organism (2) that are used for simulating stamping equipment, vertical driving motor (3), rotating electrical machines (4) and automatically controlled arm lock (5), characterized by: the automatic punching machine is characterized in that a rotary feeding frame is fixedly connected to the top end of the vertical driving motor (3) in the axial direction, an electric control clamping arm (5) is fixedly installed at the top end of the rotary feeding frame through a bolt, lifting sealing door plates (6) which are controlled through lateral transmission assembly linkage are movably assembled at the front opening position and the back opening position of the heating machine body (1) and the punching machine body (2), and an operation table board (7) is fixedly installed inside the heating machine body (1) and the punching machine body (2).

2. The conveying device for the simulation training of the hot stamping automobile parts as claimed in claim 1, wherein: the rotary feeding frame comprises a longitudinal transmission shaft rod (8) axially fixed on a rotating shaft at the upper end of a vertical driving motor (3), lateral transverse connecting rods (9) symmetrically installed on the outer side of the longitudinal transmission shaft rod (8) and arc-shaped material conveying plates (10) fixed at the top ends of the outer sides of the lateral transverse connecting rods (9), the rotary motor (4) is fixedly installed on the side walls of the longitudinal transmission shaft rod (8) through bolts, the rotating shaft at the outer side of the rotary motor (4) is fixedly connected with the inner side of the lateral transverse connecting rods (9) in an inserting mode and the lateral transverse connecting rods (9) in an axial fixed mode, and an electric control clamping arm (5) is fixedly installed at the top ends of the arc-shaped material conveying plates (.

3. The conveying device for the simulation training of the hot stamping automobile parts as claimed in claim 1, wherein: the lateral transmission assembly comprises a left transmission shaft (11) transversely arranged between the rotary feeding frame and the heating machine body (1), a right transmission shaft (12) transversely arranged between the rotary feeding frame and the punching machine body (2), a bottom movable support frame (13) fixed on the outer side surfaces of the heating machine body (1), the punching machine body (2) and the vertical driving motor (3) through bolts, and a lateral external thread lifting rod (14) movably assembled on the outer side surfaces of the heating machine body (1) and the punching machine body (2).

4. The material conveying device for the simulation training of the hot stamping automobile parts as claimed in claim 3, wherein: and an internal thread linkage pipe sleeve (15) matched with the side external thread lifting rod (14) is welded and fixed on the outer side surface of the lifting sealing door panel (6).

5. The material conveying device for the simulation training of the hot stamping automobile parts as claimed in claim 4, wherein: the two ends of the left transmission shaft (11), the two ends of the right transmission shaft (12) and the lower end of the side external thread lifting rod (14) are all provided with an integrated conical gear head (16).

6. The conveying device for the simulation training of the hot stamping automobile parts as claimed in claim 2, wherein: an annular lateral transmission tooth socket (17) is arranged on the outer side surface of the longitudinal transmission shaft lever (8).

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