Disclosure of Invention
Aiming at the defects in the prior art, the invention provides production equipment of a high-performance cooker.
In order to solve the technical problems, the invention is solved by the following technical scheme: the production equipment of the high-performance cooker comprises a rack, a lower die, an upper die and a sliding block.
In the above scheme, preferably, a drilling assembly for drilling the pot is arranged in the upper die, a sliding assembly through which a drill bit can pass is arranged on the upper die, an inertia assembly matched with the sliding assembly is arranged on the sliding block and used for controlling the sliding of the sliding assembly, and a locking portion matched with the sliding assembly is arranged on the inertia assembly so that the inertia assembly and the sliding assembly can be connected or disconnected through the locking portion; the lower die is provided with a core pulling assembly matched with the drilling assembly, so that the drill bit drills through the pot and then enters the cavity of the core pulling assembly; be equipped with on the slider with inertia subassembly matched with first button, be equipped with on the lower mould and loose core subassembly matched with second button, first button passes through the cable with the second button and links to each other with the slip subassembly, and its beneficial effect lies in: the punching and punching integrated machine has the advantages that the punching and punching integrated machine capable of punching during punching forming of the cookware is provided, so that the cookware does not need to enter a punching process after being punched, the cookware manufacturing process is saved, the cookware manufacturing cost is reduced, and the cookware production efficiency is improved.
In the above scheme, it is preferred, the drilling subassembly includes push rod, drill bit and push pedal, the drill bit is located on the push rod, on the drill bit was located to the push pedal, be equipped with on the last mould and supply the gliding cell body of push pedal, be equipped with on the last mould with push pedal matched with third button, the ejector pin is located to the symmetry in the push pedal, and its beneficial effect lies in: the utility model provides a composite set that pan punched makes the pan use the drilling subassembly to drill to the pan outer wall after the punching press.
In the above scheme, it is preferred, the sliding assembly includes insert, first spring, slide bar and locking piece, insert locate on the mould, slide bar one end links to each other with insert, and the other end is worn to establish and is linked to each other with the locking piece behind the mould, first spring housing locate on the slide bar and both ends lean on with insert and last mould top respectively, be equipped with on the locking piece with locking portion matched with first inclined plane, its beneficial effect lies in: the insert with the slidable upper die is provided, so that the upper die is integrated when a pot is stamped, and the insert is separated after stamping forming and is used for a drill bit to pass through.
In the above scheme, it is preferred, the inertia subassembly includes inertia piece, second spring and stopper, the stopper is located on the slider, the slider is located to the inertia piece cover, the second spring housing is located on the slider and both ends are pushed up respectively and are leaned on inertia piece and stopper, be equipped with the connecting rod on the inertia piece, the connecting rod tip is equipped with the sticking department, be equipped with on the slider with inertia piece matched with guide bar, its beneficial effect lies in: a drive for a slide assembly is provided to lift inserts on the slide assembly by post-press inertia to provide a drill passage for a drill bit.
In the above scheme, it is preferred that the locking portion includes locking lever, third spring and electro-magnet, the locking lever is located on the connecting rod, be equipped with on the slider with locking lever matched with electro-magnet, the locking lever includes lockpin, locking lever and with electro-magnet matched with tablet, be equipped with the uide bushing on the connecting rod, the third spring housing is located on the locking lever and both ends lean on lockpin and uide bushing respectively, the third button passes through the cable and links to each other with the electro-magnet, its beneficial effect lies in: a locking arrangement for a slide assembly is provided to allow the slide assembly to be secured in a position during drilling to facilitate passage of a drill bit through a passage created by separation of the slide assembly from an upper mold.
In the above scheme, it is preferred, the subassembly of loosing core including loosing core, taking out pole, fourth spring and roof, it locates in the lower mould to loose core, be equipped with the cavity that supplies to loose core the activity in the lower mould, take out the pole both ends respectively with loose core and the roof links to each other, fourth spring housing is located on taking out the pole and both ends are leaned on respectively and are loosed core and cavity bottom, and its beneficial effect lies in: the core-pulling assembly of the lower die is provided, so that the lower die is provided with the core-pulling block capable of synchronously moving with a drill bit when the drill bit drills, and the integrity of the outer wall of the lower die during drilling is ensured.
The invention has the beneficial effects that: the invention provides high-performance cookware production equipment capable of greatly improving cookware manufacturing and production efficiency, simultaneously saves cookware production procedures and labor cost.
Detailed Description
The invention is described in further detail below with reference to the following figures and embodiments: referring to fig. 1-5, the production equipment for the high-performance cooker comprises a frame 1, a lower die 2, an upper die 3 and a sliding block 4, wherein the lower die 2 is fixedly arranged on the frame 1, the sliding block 4 is slidably arranged on the frame 1, a connecting column 7 is arranged between the sliding block 4 and the upper die 3, and the upper die 3 can slide along with the sliding block 4, namely, the upper die 3 can slide and stamp above the frame 1 and is combined with the lower die 2 to form the cooker.
The drilling tool is characterized in that a hollow cavity is arranged inside the upper die 3, a drilling assembly is arranged in the hollow cavity and comprises a push rod 11, a drill bit 12 and a push plate 13, the push rod 11 is preferably an electric push rod, the fixed part of the push rod 11 is fixedly arranged on the upper die 3, the movable part of the push rod 11 is provided with the drill bit 12, the drill bit 12 is preferably an electric drill, the electric drill is driven by a motor, the motor is fixedly arranged on the movable part of the push rod 11, the driving mode is a conventional drill bit driving mode, namely the push rod 11 can push the driven drill bit 12 to drill in a sliding mode; the drill bit 12 is provided with a push plate 13, the push plate 13 is fixedly arranged on a motor of the drill bit 12, the upper end of the push plate 13 penetrates through the upper die 3 and is then arranged on the surface of the upper die 3, the upper die 3 is provided with a through groove body 14 for the push plate 13 to transversely move, and the groove body 14 is preferably a straight elongated groove.
The right side of the push plate 13 is fixedly provided with ejector rods 16, the ejector rods 16 are symmetrically arranged along the axis of the drill bit 12, the end part of the ejector rod 16 is provided with an arc-shaped boss, the left side of the push plate 13 is provided with a third button 15 matched with the push plate 13, and the third button 15 is abutted against the push plate 13 when the push rod 11 is at an initial position.
The side surface of the lower die 2 is provided with a core pulling assembly matched with the ejector rod 16, the core pulling assembly comprises a core pulling 51, a pulling rod 52, a fourth spring 53 and a top plate 54, the side surface of the lower die 2 is provided with a cavity 55 for the core pulling 51 to move, the core pulling 51 is preferably cylindrical, the end surface of the core pulling 51 is an arc-shaped surface matched with the inner surface of the lower die 2, namely a die cavity matched with the outer surface of a pot can be formed after the core pulling 51 is jointed with the lower die 2, the axis of the core pulling 51 and the axis of the drill bit 12 are positioned on the same straight line after the upper die 3 and the lower die 2 are in stamping matching, the two ends of the pulling rod 52 are respectively connected with the core pulling 51 and the top plate 54, the lower die 2 is provided with a small hole for the core pulling 52 to penetrate through, the pulling rod 52 is provided with a baffle ring abutted against the outer surface of the lower die 2, and the baffle ring is used for limiting the absolute position of the core pulling 51 and the inner surface of the lower die 2 under the action force of the fourth spring 53, that is, when the core 51 is matched with the inner surface of the lower die 2, the core 51 cannot slide leftward any more due to the action of the fourth spring 53, the fourth spring 53 is sleeved on the pulling rod 52, two ends of the fourth spring respectively abut against the core 51 and the bottom of the cavity 55, the top plate 54 is arranged on the outer side of the lower die 2, and the contact part of the upper part of the top plate 54 and the ejector rod 16 is higher than the upper plane of the lower die 2.
The lower die 2 is provided with a second button 6 matched with the top plate 54, the second button 6 is connected with the push rod 11 on the sliding assembly through a cable, namely when the top plate 54 abuts against the second button 6, the second button 6 triggers the push rod 11 to enable the drill bit 12 to slide leftwards and retract.
Be equipped with inertia subassembly on the spliced pole 7, inertia subassembly includes inertia piece 31, second spring 32 and stopper 33, stopper 33 sets firmly on spliced pole 7, stopper 33 slides and locates on spliced pole 7 and arrange stopper 33 top in, second spring 32 cover is located on spliced pole 7 and both ends are pushed up respectively and are leaned on stopper 33 and inertia piece 31, the preferred solid iron plate of inertia piece 31, preferred threaded connection between stopper 33 and the spliced pole 7 is convenient for adjust the tensile force of second spring 32.
Inertia piece 31 one side is equipped with the guiding hole, go up and set firmly on the mould 3 with guiding hole matched with guide bar 35, be equipped with the end plate after the guiding hole is worn to establish by guide bar 35, be equipped with on the end plate with inertia piece 31 matched with first button 5, first button 5 passes through the cable and links to each other with push rod 11 on the slip subassembly, when inertia piece 31 and first button 5 contact promptly, first button 5 triggers push rod 11 and releases drill bit 12 and punches.
The other side of the inertia block 31 is fixedly provided with a connecting rod 34 downwards, the end part of the connecting rod 34 is provided with a locking part, the locking part comprises a locking rod 41, a third spring 42 and an electromagnet 43, the left side of the connecting rod 34 is provided with a guide sleeve 47, the locking rod 41 is arranged on the connecting rod 34 in a sliding manner, the slider 4 is provided with the electromagnet 43 matched with the locking rod 41, the electromagnet 43 is fixedly arranged on the surface of the connecting column 7, the electromagnet 43 is connected with the third button 15 through a cable, namely the third button 43 can control the electromagnet 43 to be electrified.
The locking rod 41 comprises a locking pin 44, a locking rod 45 and an induction plate 46 matched with the electromagnet 43, the induction plate 46 can be attracted with the electromagnet 43 when the electromagnet 43 is electrified, the locking pin 44 is arranged in the connecting rod 34, two ends of the locking rod 45 are respectively connected with the locking pin 44 and the induction plate 46, the left end of the guide sleeve 47 is provided with a small hole through which the locking rod 45 can penetrate, the third spring 42 is arranged in the guide sleeve 47, the third spring 42 is sleeved on the locking rod 45, two ends of the third spring respectively prop against the locking pin 44 and the guide sleeve 47, and a baffle is arranged between the induction plate 46 and the guide sleeve 47 and used for limiting the ejection length of the locking pin 44.
The upper die 3 is provided with a sliding assembly matched with the lock pin 44 and the drill bit 12, the sliding assembly comprises an insert 21, a first spring 22, a sliding rod 23 and a locking block 24, the insert 21 is arranged on the upper die 3, the right side of the insert 21 is an arc-shaped surface jointed with the excircle of the upper die 3, the lower part of the insert 21 is preferably semicircular, the upper die 3 is provided with an arc-shaped surface jointed with the semicircle of the insert 21, the lower end of the insert 21 is provided with an extending block towards the left side, the sliding rod 23 is vertically arranged on the extending block, a sliding cavity capable of being provided with the first spring 22 is formed among the insert 21, the extending block and the upper die 3, the first spring 22 is sleeved on the sliding rod 23, two ends of the first spring are respectively abutted against the upper die 3 and the extending block, one end of the sliding rod 23 is connected with the extending block, the other end of the sliding rod is provided with the locking block 24 matched with the lock pin 44 after penetrating the upper die 3, the locking block 24 is provided with a first inclined surface 25, the first inclined surface 25 inclines from top to bottom to the left, that is, the lock pin 44 can slide along the first inclined surface 25 to press the third spring 42, and the lock pin 44 pops out to contact with the lower end plane of the lock block 24 after the lock pin 44 is separated from the first inclined surface 25.
A method of using the production apparatus of the high-performance cooker as described above: during stamping, when the upper die 3 and the lower die 2 are combined to form a pot body, the sliding block 4 has a stopped inertia due to downward stamping, the inertia block 31 slides downward to compress the second spring 32, at the moment, the inertia block 31 is contacted with the first button 5 to trigger the push rod 11 on the drilling assembly, so that the push rod 11 pushes the drill bit 12 out of the drill hole rightwards, the lock pin 44 of the locking part on the inertia block 31 is contacted with the lower end surface of the lock block 24 while the inertia block 31 slides downward, and the lock pin 44 is reset by the elasticity of the second spring 32 immediately after the inertia block 31 slides downward, so that the lock block 24 is pulled up by a certain distance by the lock pin 44, and the lock block 24 drives the insert 21 to form a channel for the drill bit 12 to pass through between the insert 21 and the upper die 3;
when the drill bit 12 is ejected and slides rightwards, the ejector rod 16 arranged on the push plate 13 drives the top plate 54 to slide rightwards, the top plate 54 pulls the loose core 51 rightwards, a counter bore through which the drill bit 12 can pass is formed between the loose core 51 and the lower die 2, the drill bit 12 can completely pierce a pot, when the top plate 54 slides rightwards and is in contact with the second button 6, the second button 6 triggers the push rod 11 to enable the push rod 11 to move reversely, namely the drill bit 12 retracts leftwards, when the push plate 13 slides leftwards and is in contact with the third button 15, the third button 15 triggers the electromagnet 43 to be electrified, the electromagnet 43 adsorbs the induction plate 46, the lock pin 44 slides leftwards and is separated from the contact with the lock block 24, then the lock block 24 is reset by the elastic force of the first spring 22, and the upper die 3 slides upwards to take out the formed pot with punched holes.
The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.