Horizontal stamping equipment for powder metallurgy
Technical Field
The utility model belongs to the technical field of the metallurgical technique and specifically relates to a powder metallurgy uses horizontal stamping equipment.
Background
Powder metallurgy is a process technique for producing metal powder or metal powder (or a mixture of metal powder and nonmetal powder) as a raw material, and then forming and sintering the raw material to produce metal materials, composite materials and various products. The powder metallurgy method has similar places to the production of ceramics, and belongs to the powder sintering technology. Most simple structure of the horizontal stamping equipment who is used for powder metallurgy production on the market at present is fixed, and the punching press mode is single, need clear away work after the punching press is accomplished, and operating procedure is many, clears away the unable normal operating of operating process in the stamping equipment, seriously influences punching press efficiency.
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, the improved horizontal stamping equipment for powder metallurgy is provided, and the problems that most horizontal stamping equipment for powder metallurgy production on the market at present is simple and fixed in structure, single in stamping mode, and capable of being cleaned after stamping is completed, operation steps are multiple, stamping equipment cannot normally operate in the cleaning operation process, and stamping efficiency is seriously affected are solved.
The utility model provides a technical scheme that its technical problem adopted is: a horizontal stamping device for powder metallurgy comprises a transverse stamping cylinder, a middle-placed motor fixedly arranged on the back of the transverse stamping cylinder through bolts, a left-placed eccentric wheel disc arranged on the left side of the transverse stamping cylinder and a right-placed eccentric wheel disc arranged on the right side of the transverse stamping cylinder, wherein a left-placed telescopic stamping block and a right-placed telescopic stamping block are arranged in the transverse stamping cylinder, the front sides of the left-placed eccentric wheel disc and the right-placed eccentric wheel disc are respectively provided with an eccentric connecting shaft with an integrated structure, the left-placed telescopic stamping block and the eccentric connecting shaft on the front side of the left-placed eccentric wheel disc are movably connected through a left-placed transmission rod, the right-placed telescopic stamping block and the eccentric connecting shaft on the front side of the right-placed eccentric wheel disc are movably connected through a right-placed transmission rod, the back side of the transverse stamping cylinder is positioned on two sides of the middle-placed motor and is respectively provided with a middle-placed transmission, put eccentric rim plate and the right side and put eccentric rim plate back axial fixedly connected with side belt drive wheel, well put belt drive wheel and correspond the position side belt drive wheel between through drive belt swing joint, the left side put flexible punching press piece right flank on fixedly connected with side cutting blade, the right side put flexible punching press piece left flank on seted up and accomodate the groove with side cutting blade matched with side direction.
Furthermore, in order to facilitate transmission connection, a middle belt transmission wheel on the left side of the middle motor is movably connected with a side belt transmission wheel on the back face of the left eccentric wheel disc through a transmission belt, a middle belt transmission wheel on the right side of the middle motor is movably connected with a side belt transmission wheel on the back face of the right eccentric wheel disc through a transmission belt, a lateral transmission gear of an integrated structure is arranged on the back face of the middle belt transmission wheel, and the middle motor is meshed with the lateral transmission gears on the two sides through a front end transmission gear.
Furthermore, in order to reduce cost and facilitate assembly, the left eccentric wheel disc and the right eccentric wheel disc are the same in size.
Further, in order to facilitate feeding and discharging, the upper end of the transverse punching cylinder is fixedly welded with a longitudinal feeding pipe communicated with the inside, the lower end of the transverse punching cylinder is provided with a bottom discharging opening, and the inside of the bottom discharging opening is movably connected with a bottom turnover plate through a transverse rotating shaft.
Furthermore, in order to improve the bottom support property, the lower end of the transverse stamping cylinder and the lower end of the bottom overturning plate are fixedly welded with a bottom assembly cylinder with a built-in transverse limiting rod.
Furthermore, in order to improve the stamping effect, the diameter of the inner cylinder of the transverse stamping cylinder, the outer diameter of the left telescopic stamping block and the outer diameter of the right telescopic stamping block are the same.
The beneficial effects of the utility model are that, the utility model discloses a horizontal stamping equipment for powder metallurgy drives the belt drive wheel rotation in putting both sides simultaneously through single put the motor in, it is rotatory to utilize the side belt drive wheel and the eccentric rim plate that driving belt drives horizontal punching press section of thick bamboo both ends in step, it is flexible at the inside translation of horizontal punching press section of thick bamboo to utilize eccentric rim plate to drive the transfer line with flexible punching press piece, the flexible punching press piece mutual extrusion impact fit of cooperation horizontal punching press section of thick bamboo both sides is connected the side direction cutting blade on the face and is promoted punching press mode and punching press efficiency, transmission efficiency is also very high.
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 a plan view of the present invention.
In the drawing, 1, a transverse stamping cylinder, 2, a middle motor, 3, a left eccentric wheel disc, 4, a right eccentric wheel disc, 5, a left telescopic stamping block, 6, a right telescopic stamping block, 7, an eccentric connecting shaft, 8, a left transmission rod, 9, a right transmission rod, 10, a middle transmission shaft, 11, a middle belt transmission wheel, 12, a side belt transmission wheel, 13, a transmission belt, 14, a lateral cutting blade, 15, a lateral accommodating groove, 16, a lateral transmission gear, 17, a longitudinal feeding pipe, 18, a bottom discharge opening, 19, a bottom turnover plate, 20, a transverse limiting rod and 21, a bottom assembly cylinder are arranged.
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 horizontal stamping equipment for powder metallurgy shown in figures 1 and 2 comprises a transverse stamping cylinder 1, a middle-mounted motor 2 fixedly arranged on the back of the transverse stamping cylinder 1 through bolts, a left eccentric wheel disc 3 arranged on the left side of the transverse stamping cylinder 1 and a right eccentric wheel disc 4 arranged on the right side of the transverse stamping cylinder 1, wherein a left telescopic stamping block 5 and a right telescopic stamping block 6 are arranged in the transverse stamping cylinder 1, the front sides of the left eccentric wheel disc 3 and the right eccentric wheel disc 4 are respectively provided with an eccentric connecting shaft 7 with an integrated structure, the eccentric connecting shafts 7 on the front sides of the left telescopic stamping block 5 and the left eccentric wheel disc 3 are movably connected through a left transmission rod 8, the eccentric connecting shafts 7 on the front sides of the right telescopic stamping block 6 and the right eccentric wheel disc 4 are movably connected through a right transmission rod 9, the back of the transverse stamping cylinder 1 is positioned on both sides of the middle-mounted motor 2 and is communicated with an integrated middle-mounted transmission shaft 10 with a backward bulge, the middle transmission shaft 10 is movably connected with a middle belt transmission wheel 11, the back surfaces of the left eccentric wheel disc 3 and the right eccentric wheel disc 4 are axially and fixedly connected with side belt transmission wheels 12, the middle belt transmission wheel 11 and the side belt transmission wheels 12 corresponding to the positions are movably connected through a transmission belt 13, the right side surface of the left telescopic stamping block 5 is fixedly connected with a lateral cutting blade 14, and the left side surface of the right telescopic stamping block 6 is provided with a lateral accommodating groove 15 matched with the lateral cutting blade 14.
Further, in order to facilitate transmission connection, a middle belt transmission wheel 11 on the left side of the middle motor 2 is movably connected with a side belt transmission wheel 12 on the back of the left eccentric wheel disc 3 through a transmission belt 13, a middle belt transmission wheel 11 on the right side of the middle motor 2 is movably connected with a side belt transmission wheel 12 on the back of the right eccentric wheel disc 4 through a transmission belt 13, a side transmission gear 16 of an integrated structure is arranged on the back of the middle belt transmission wheel 11, the middle motor 2 is meshed with the side transmission gears 16 on the two sides through a front end transmission gear, further, in order to reduce cost and facilitate assembly, the left eccentric wheel disc 3 and the right eccentric wheel disc 4 have the same size, further, in order to facilitate further material discharge, the upper end of the transverse stamping cylinder 1 is fixedly welded with a longitudinal feeding pipe 17 communicated with the inside, and the lower end of the transverse stamping cylinder 1 is provided with a bottom, bottom discharge gate 18 is inside to have bottom returning face plate 19 through horizontal pivot swing joint, furtherly, in order to promote the bottom support nature, 1 lower extreme of horizontal punching press section of thick bamboo and the equal welded fastening of 19 lower extremes of bottom returning face plate have a bottom assembly section of thick bamboo 21 of built-in horizontal gag lever post 20, furtherly, in order to promote the punching press effect, 1 inner tube footpath size of horizontal punching press section of thick bamboo, the 5 outer diameter size of left side flexible punching press piece and the 6 outer diameter size of right side flexible punching press piece are the same, the utility model discloses a horizontal stamping equipment for powder metallurgy drives belt drive wheel 11 rotation in putting both sides simultaneously through single in put motor 2, utilizes side belt drive wheel 12 and the eccentric rim plate rotation of drive horizontal punching press section of thick bamboo 1 both ends of drive transmission line and flexible punching press piece at the inside translation of horizontal punching press section of thick bamboo 1, and the flexible piece mutual extrusion impact cooperation of cooperation horizontal punching press section of thick bamboo 1 both sides to connect the side direction 14 The mode and the stamping efficiency and the transmission efficiency are also high.
Example (b): the middle motor 2 runs to drive the middle belt driving wheel 11 to rotate, the middle belt driving wheel 11 drives the driving belt 13 to run, the driving belt 13 drives the side belt driving wheel 12 to rotate, the side belt driving wheel 12 drives the left eccentric wheel disc 3 and the right eccentric wheel disc 4 to rotate, and the front eccentric connecting shaft 7 of the left eccentric wheel disc 3 and the right eccentric wheel disc 4 drives the left driving rod 8 and the right driving rod 9 to stretch inside the transverse punching cylinder 1, so that the left telescopic punching block 5 and the right telescopic punching block 6 are driven to move and punch in a parallel mode.
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.