CN210282650U - Powder stamping production system of quick assembling die assembly - Google Patents

Abstract

The utility model discloses a powder stamping production system of quick assembling die assembly, include: the stamping die comprises a press and a bottom plate, wherein the press comprises a stamping head which is positioned above the bottom plate; the upper mold core and the upper magnetic attraction device are fixed on the stamping head, and when the upper magnetic attraction device is magnetized, the upper mold core is attracted to the upper magnetic attraction device; and the lower mold core is opposite to the upper mold core and is positioned below the upper mold core, when the lower magnetic attraction device is magnetized, the lower mold core is attracted to the lower magnetic attraction device, and the lower magnetic attraction device is borne on the bottom plate. The utility model discloses an go up mold core and lower mold core and be fixed in respectively and inhale the device down with magnetism, go up magnetism and inhale the device down and inhale the device and magnetize and produce magnetic field to adsorb mold core and lower mold core. When the upper die core and the lower die core need to be replaced, the upper magnetic attraction device and the lower magnetic attraction device are demagnetized, and replacement is convenient and fast.

Description

Powder stamping production system of quick assembling die assembly

Technical Field

The utility model relates to a mould punching press technical field, in particular to powder punching press production system of quick assembling die assembly.

Background

At present, the frequency of ceramic products in daily buildings, decorations and articles for daily use is higher and higher, the process of improving the growth of the ceramic products is more and more important, and in order to accelerate the production period of ceramic products of different types and specifications, a mold assembly in a ceramic product production system needs to be replaced, assembled and disassembled.

The existing middle-sized and large-sized ceramic mold assemblies are very extensive in the production and application of ceramic products, when vulnerable parts inside the mold need to be replaced or ceramic tile products of different specifications need to be produced, the whole ceramic mold assembly needs to be disassembled from a production line to replace mold cores of different specifications, and the self volume and the weight of the whole ceramic mold assembly are very huge, so that the installation and the disassembly processes become difficult and cumbersome, the production cycle of the ceramic products is prolonged, and a large amount of manpower and material resources are increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a powder stamping production system of quick assembling die assembly, complex operation when aiming at solving the inside vulnerable part of die assembly and replacing or changing, the problem of change time length.

In order to achieve the above object, the utility model discloses a powder stamping production system of quick assembling die assembly, the powder stamping production system of quick assembling die assembly includes:

the stamping die comprises a press and a bottom plate, wherein the press comprises a stamping head which is positioned above the bottom plate;

the upper die core and the upper magnetic attraction device are fixed on the stamping head, and when the upper magnetic attraction device is magnetized, the upper die core is attracted to the upper magnetic attraction device; and the number of the first and second groups,

the lower mold core is opposite to the upper mold core and is positioned below the upper mold core, when the lower magnetic attraction device is magnetized, the lower mold core is attracted to the lower magnetic attraction device, and the lower magnetic attraction device is borne on the bottom plate.

Optionally, the upper magnetic attracting device includes:

the magnetic suction plate is fixed on the stamping head and provided with an electric permanent magnet, and the magnetic suction plate adsorbs the upper mold core when the electric permanent magnet of the magnetic suction plate is magnetized.

Optionally, the lower magnetic attraction device comprises:

the ejector plate is borne on the bottom plate and provided with an electric permanent magnet;

the magnetic suction seat is borne on the ejector plate, the lower mold core is borne on the magnetic suction seat, and the magnetic suction seat is provided with an electric permanent magnet;

when the electric permanent magnet arranged on the ejector plate is magnetized, the ejector plate adsorbs the magnetic adsorption seat; when the electric permanent magnet arranged on the magnetic attraction seat is magnetized, the magnetic attraction seat attracts the lower mold core.

Optionally, the electric permanent magnet arranged on the top pushing plate is arranged on the upper surface of the top pushing plate;

the electric permanent magnet arranged on the magnetic attraction seat is arranged on the upper surface of the magnetic attraction seat;

when the electric permanent magnet arranged on the upper surface of the ejector plate is magnetized, the ejector plate adsorbs the magnetic adsorption seat; when the electric permanent magnet arranged on the upper surface of the magnetic suction seat is magnetized, the magnetic suction seat sucks the lower mold core.

Optionally, the upper surface of the magnetic attraction seat is also provided with a rolling member;

the upper surface of the top pushing plate is also provided with a rolling piece;

the rolling piece comprises a ball and a rolling ball;

the upper surface of the magnetic suction seat is provided with an accommodating cavity, the ball is laid on the cavity wall of the accommodating cavity of the magnetic suction seat, the rolling ball is arranged in the accommodating cavity of the magnetic suction seat and is tightly attached to the ball, and the local part of the rolling ball protrudes out of the accommodating cavity of the magnetic suction seat;

the upper surface of the ejector plate is provided with an accommodating cavity, the balls are laid on the cavity wall of the accommodating cavity of the ejector plate, the rolling balls are arranged in the accommodating cavity of the ejector plate and tightly attached to the balls, and the local parts of the rolling balls protrude out of the accommodating cavity of the ejector plate.

Optionally, the powder stamping production system of the quick assembly die assembly further comprises a backing plate, and the backing plate is arranged between the magnetic suction seat and the ejector plate and is connected with the magnetic suction seat through a bolt;

and/or, the powder punching press production system of quick assembling die assembly still includes the dust cover, the bottom edge of dust cover is fixed in the bottom plate, the apical margin of dust cover is fixed in the side of ejector pad board.

Optionally, the powder stamping production system of the rapid assembling die assembly further comprises a die frame component, wherein the die frame component is borne on the bottom plate and encloses the lower die core.

Optionally, the mold frame assembly comprises a plurality;

and/or, the mold frame assembly comprises:

a mold frame; and the number of the first and second groups,

and the mould frame side plate is fixed on the inner side of the mould frame.

Optionally, the mold frame assembly comprises:

a mold frame;

the mould frame side plate is fixed on the inner side of the mould frame; and the number of the first and second groups,

the die frame magnetic suction plate seat is borne on the bottom plate, and the die frame is borne on the die frame magnetic suction plate seat; the mould frame magnetic suction plate seat is provided with an electro-permanent magnet or the upper surface of the mould frame magnetic suction plate seat is provided with an electro-permanent magnet; the upper surface of the die frame magnetic suction plate seat is provided with a rolling part; when the electro-permanent magnet arranged on the upper surface of the mould frame magnetic suction plate seat is magnetized, the mould frame magnetic suction plate seat adsorbs the mould frame;

or, the mold frame assembly comprises:

a mold frame;

the mould frame side plate is fixed on the inner side of the mould frame;

the die frame magnetic suction plate seat is supported on the die frame magnetic suction plate seat; the mould frame magnetic suction plate seat is provided with an electro-permanent magnet or the upper surface of the mould frame magnetic suction plate seat is provided with an electro-permanent magnet; the upper surface of the die frame magnetic suction plate seat is provided with a rolling part; and the number of the first and second groups,

the pillar is fixed on the bottom plate, and the mold frame magnetic suction plate seat is fixed on the pillar;

when the electro-permanent magnet arranged on the upper surface of the mould frame magnetic suction plate seat is magnetized, the mould frame magnetic suction plate seat adsorbs the mould frame.

Optionally, the rolling member comprises a ball and a ball;

the upper surface of the die frame magnetic suction plate seat is provided with an accommodating cavity, the rolling balls are laid on the cavity wall of the accommodating cavity of the die frame magnetic suction plate seat, the rolling balls are arranged in the accommodating cavity of the die frame magnetic suction plate seat and are tightly attached to the rolling balls, and the local parts of the rolling balls protrude out of the accommodating cavity of the die frame magnetic suction plate seat;

and/or, the powder stamping production system of the quick assembling die assembly further comprises a positioning device, wherein the positioning device is arranged on the die frame magnetic suction plate seat and is abutted against the outer side of the die frame.

The utility model discloses technical scheme inhales the device through last mold core and lower mold core be fixed in respectively and inhale the device with magnetism down, goes up magnetism and inhales the device and inhale the device down and magnetize and produce magnetic field to adsorb mold core and lower mold core. When the upper die core and the lower die core need to be replaced, the upper magnetic attraction device and the lower magnetic attraction device are demagnetized, and replacement is convenient and fast.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of a powder stamping production system of a rapid assembling die assembly according to an embodiment of the present invention;

FIG. 2 is an enlarged view of FIG. 1 shown in phantom;

FIG. 3 is a schematic view of a rolling member in a magnetic attraction plate seat of a mold frame according to an embodiment of the present invention;

fig. 4 is a top view of the magnetic attraction plate seat of the bottom plate, the top pushing plate and the mold frame according to an embodiment of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Upper mold core	520	Side plate of mould frame
210	Magnetic attraction plate	530	Support post
				300	Lower mold core	610	Base plate
400	Lower magnetic attraction device	611	Dust cover
				410	Top pushing plate	620	Stamping head
411	Electric permanent magnet	630	Jacking oil cylinder
				412	Rolling member	640	Oil cylinder
420	Magnetic attraction seat	700	Backing plate
				421	Electric permanent magnet	800	Magnetic suction plate base of mould frame
422	Rolling member	810	Electric permanent magnet
				423	Bolt	820	Rolling member
500	Mould frame assembly	821	Ball bearing
				510	Mould frame	822	Rolling ball
		900	Positioning device

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a powder stamping production system of quick assembling die assembly.

In an embodiment of the present invention, as shown in fig. 1 to 4, the powder stamping production system of the quick assembling die assembly includes:

a press and a base plate 610, the press comprising a punch head 620, the punch head 620 being located above the base plate 610;

the stamping die comprises an upper die core 100 and an upper magnetic attraction device, wherein the upper magnetic attraction device is fixed on the stamping head 620, and when the upper magnetic attraction device is magnetized, the upper die core 100 is attracted to the upper magnetic attraction device; and the number of the first and second groups,

the lower mold core 300 is opposite to the upper mold core 100 and is located below the upper mold core 100, when the lower magnetic attraction device 400 is magnetized, the lower mold core 100 is adsorbed on the lower magnetic attraction device 400, and the lower magnetic attraction device 400 is carried on the bottom plate 610.

In this embodiment, the upper mold core 100 is located above the lower mold core 300, and when the press controls the press head 620 to press the lower mold core 300 downward, the material to be pressed is formed by press. The press is a molding machine for molding industrial products through pressure, generally adopts a hydraulic oil cylinder, is arranged in a specific press, and can be selected according to actual requirements.

When the upper magnetic attraction device is magnetized, the upper magnetic attraction device attracts the upper mold core 100, that is, the upper mold core 100 is made of an iron material. When the upper magnetic attraction means is magnetized, the upper magnetic attraction means generates a magnetic field, thereby attracting the upper mold core 100. Go up magnetism and inhale device and punching press head 620 and be connected, both can be through bolted connection or welded fastening, the embodiment of the utility model provides a do not restrict. After long-time use, go up mold core 100 and take place the loss easily, or when the last mold core 100 of different specifications needs to be changed, magnetism device demagnetization is inhaled in the control, goes up magnetism and inhales the device and loses the magnetic field, does not produce to go up mold core 100 and inhale the device separation to will go up mold core 100 and last magnetism and inhale the device separation, be convenient for change new last mold core 100, and need not inhale the device whole change with last mold core 100 and last magnetism, thereby improve production efficiency. In addition, because the upper magnetic attraction device is magnetized and demagnetized to realize the adsorption of the upper mold core 100, the replacement process is quick, and the fixing effect is stable, thereby further improving the production efficiency.

Similar to the combination of the upper mold core 100 and the upper magnetic device, the combination of the lower mold core 300 and the lower magnetic device 400 is also magnetized by the lower magnetic device 400 to generate a magnetic field, so as to adsorb the lower mold core 300, and the lower mold core 300 is made of iron material. When the lower mold core 300 needs to be replaced, only the lower magnetic attraction device 400 needs to be demagnetized, so that the lower mold core 300 is replaced.

The press head 620 controls the upper mold core 100 to press against the lower mold core 300, and the bottom plate 610 plays a role of bearing. The lower magnetic attraction device 400 bears the lower mold core 300, has a larger weight and is borne on the bottom plate 610 to realize integral fixation.

The utility model discloses technical scheme inhales the device through last mold core 100 and lower mold core 300 being fixed in respectively and inhales device 400 is inhaled to magnetism down, goes up to inhale the device and inhales device 400 down and magnetizes and produce magnetic field to adsorb mold core 100 and lower mold core 300. When the upper mold core 100 and the lower mold core 300 need to be replaced, the upper magnetic attraction device and the lower magnetic attraction device 400 are demagnetized, and the replacement is convenient and fast.

In an embodiment of the present invention, as shown in fig. 1, the upper magnetic attraction device includes:

the magnetic suction plate 210 is fixed to the stamping head 620, the magnetic suction plate 210 is provided with an electric permanent magnet (not shown in the figure), and when the electric permanent magnet of the magnetic suction plate 210 is magnetized, the magnetic suction plate 210 adsorbs the upper mold core 100.

In this embodiment, the electro-permanent magnet is a magnet controlled by power, which only needs power when it is magnetized or demagnetized, and then the power can maintain the magnetic force. By providing the electric permanent magnet, the electric permanent magnet generates a magnetic field when the electric permanent magnet is magnetized, thereby attracting the upper mold core 100. The inside of magnetism suction disc 210 can be arranged in to the electricity permanent magnetism, when the inside of magnetism suction disc 210 is arranged in to the electricity permanent magnetism, this magnetism suction disc 210 can be the combination of polylith panel, thereby centre gripping electricity permanent magnetism, polylith panel passes through bolt-up, perhaps, magnetism suction disc 210 is inside to be equipped with the cavity, arrange electricity permanent magnetism in this cavity, perhaps arrange the lower surface of magnetism suction disc 210 in (expose in the lower surface of magnetism suction disc 210 promptly), thereby produce bigger magnetic force at the lower surface of arranging magnetism suction disc 210 in, carry out more effective absorption to last mould core 100.

In an embodiment of the present invention, as shown in fig. 1 and 2, the lower magnetic attraction apparatus 400 includes:

the top pushing plate 410 is carried on the bottom plate 610, and the top pushing plate 410 is provided with an electric permanent magnet 411;

the magnetic attraction seat 420 is borne on the ejector plate 410, the lower mold core 300 is borne on the magnetic attraction seat 420, and the magnetic attraction seat 420 is provided with an electric permanent magnet 421;

when the electro-permanent magnet 411 arranged on the top push plate is magnetized, the top push plate 410 adsorbs the magnetic attraction seat 420; when the permanent magnet 421 disposed on the magnetic attraction seat is magnetized, the magnetic attraction seat 420 attracts the lower mold core 300.

In this embodiment, the ejector plate 410 and the magnetic suction seat 420 are respectively provided with the electro- permanent magnets 411 and 421, when the lower mold core 300 needs to be replaced, the electro-permanent magnet 421 arranged on the magnetic suction seat needs to be demagnetized, and the magnetic suction seat 420 loses the adsorption force on the lower mold core 300, so as to replace the lower mold core 300.

After the upper mold core 100 and the lower mold core 300 are pressed into a green body, the lower magnetic attraction device 400 needs to be jacked up so that the formed product is transferred to the next production process, and thus, an apparatus is needed to generate a force on the lower magnetic attraction device 400, such as a jacking cylinder 630, and the jacking cylinder 630 penetrates through the bottom plate 610 to contact with the lower magnetic attraction device 400 (to contact with the jacking plate 410). In order to prevent the whole lower magnetic attraction device 400 from being damaged by such a device, the lower magnetic attraction device 400 includes a top pushing plate 410 and a magnetic attraction seat 420, when the device pushes the top pushing plate 410, the contact surface between the device and the top pushing plate 410 is small, and when the top pushing plate 410 is damaged, only the top pushing plate 410 needs to be replaced, and the whole device does not need to be replaced, thereby reducing the cost.

Specifically, a jacking cylinder 630 is arranged below the bottom plate 610, a driving shaft of the jacking cylinder can penetrate through the table top of the bottom plate 610 to realize up-and-down driving, and the driving shaft of the jacking cylinder is in contact with the top pushing plate 410, so that up-and-down driving of the top pushing plate 410 is realized.

In an embodiment of the present invention, as shown in fig. 2 and 3, the electric permanent magnet 411 disposed on the top plate is disposed on the upper surface of the top plate 410;

the electric permanent magnet 421 arranged on the magnetic attraction seat is arranged on the upper surface of the magnetic attraction seat 420;

when the electro-permanent magnet 411 arranged on the upper surface of the top pushing plate 410 is magnetized, the top pushing plate 410 adsorbs the magnetic attraction seat 420; when the permanent magnet 421 disposed on the upper surface of the magnetic attraction seat 420 is magnetized, the magnetic attraction seat 420 attracts the lower mold core 300.

In this embodiment, the permanent magnets 411 disposed on the top plate 410 are disposed on the top surface of the top plate 410, that is, the corresponding permanent magnets are exposed on the top surface of the top plate 410, so that the magnetic attraction base 420 is more effectively attracted in the magnetized state.

The permanent magnet 421 disposed on the magnetic attraction seat is disposed on the upper surface of the magnetic attraction seat 420, that is, the corresponding permanent magnet is exposed on the upper surface of the magnetic attraction seat 420, so that the lower mold core 300 is more effectively attracted in the magnetized state.

In an embodiment of the present invention, as shown in fig. 1 to 4, the upper surface of the magnetic attraction seat 420 is further provided with a rolling member 422;

the upper surface of the top pushing plate 410 is also provided with a rolling member 412.

In this embodiment, through being equipped with rolling member 422 at the upper surface of magnetism seat 420, the upper surface of ejector plate 410 is equipped with rolling member 412, when needing to change lower mold core 300, demagnetize the seat 420 to magnetism, then lower mold core 300 can directly release magnetism seat 420 under rolling member 422's effect, then on lower mold core 300 with the change pushed into magnetism seat 420, realize changing, this process is for through rolling operation, convenient and fast. The rolling members (412, 422) and the electric permanent magnets (411, 421) are arranged at intervals.

When the lower mold core 300 and the magnetic suction seat 420 need to be replaced, the magnetic suction seat 420 and the ejector plate 410 are demagnetized, then the lower mold core 300 and the magnetic suction seat 420 are pushed out of the ejector plate 410, and the replaced lower mold core 300 and the replaced magnetic suction seat 420 are pushed into the ejector plate 410, so that the replacement is completed.

In an embodiment of the present invention, as shown in fig. 1 to 4, the rolling members 412 and 422 include rolling balls and rolling balls (fig. 3 is a schematic structural view of the rolling members in the mold frame magnetic chuck base 800, and the rolling members in other components have the same structure);

the upper surface of the magnetic suction seat 420 is provided with an accommodating cavity, the rolling ball is laid on the cavity wall of the accommodating cavity of the magnetic suction seat 420, the rolling ball is arranged in the accommodating cavity of the magnetic suction seat 420 and clings to the rolling ball, and the local part of the rolling ball protrudes out of the accommodating cavity of the magnetic suction seat 420;

the upper surface of the ejector plate 410 is provided with an accommodating cavity, the ball is laid on the cavity wall of the accommodating cavity of the ejector plate 410, the ball is arranged in the accommodating cavity of the ejector plate 410 and clings to the ball, and the local part of the ball protrudes out of the accommodating cavity of the ejector plate 410.

In this embodiment, the ball is disposed in the corresponding accommodating cavity, and the rolling ball is disposed in the accommodating cavity and is tightly attached to the ball, and the local part of the rolling ball protrudes out of the accommodating cavity, that is, the rolling ball can roll in the corresponding accommodating cavity under the action of external force. For example, when the magnetic holder 420 needs to be pushed out (pulled out), the resistance between the magnetic holder 420 and the ejector plate 410 is reduced by the rolling of the rolling ball, thereby facilitating the replacement of the components.

In an embodiment of the present invention, as shown in fig. 1, the powder stamping production system of the rapid assembling die assembly further includes a backing plate 700, the backing plate 700 is disposed between the magnetic attraction seat 420 and the top pushing plate 410, and is connected to the magnetic attraction seat 420 by bolts. In this embodiment, if the lower mold core 300 is unbalanced during the production process, the backing plate 700 can be disposed between the magnetic base 420 and the ejector plate 410, and the number of the backing plates 700 can be reduced or increased to ensure the balance of the lower mold core 300 without tilting. The magnetic attraction seat 420 and the shim plate 700 are fastened by bolts 423.

In an embodiment of the present invention, as shown in fig. 2, the powder stamping production system of the quick assembling die assembly further includes a dust cover 611, a bottom edge of the dust cover 611 is fixed to the bottom plate 610, and a top edge of the dust cover 611 is fixed to a side surface of the top pushing plate 410. In this embodiment, the dust cover 611 is used to isolate dust, so as to prevent the dust from entering between the bottom plate 610 and the pushing plate 410 during the production process and causing the lower mold core 300 to be tilted. When the ejector plate 410 is ejected, the dust cover 611 has elasticity, and can stretch along with the ejection of the ejector plate 410 and contract along with the fall of the ejector plate 410, thereby ensuring the isolation of dust.

In an embodiment of the present invention, as shown in fig. 1, 2 and 4, the powder stamping production system of the rapidly assembled die assembly further includes a die frame assembly 500, the die frame assembly 500 is disposed on the bottom plate 610 and encloses the lower die core 300. In this embodiment, the mold frame assembly 500 encloses the lower mold core 300 to form a mold cavity, and a material to be stamped is placed in the mold cavity, and the material is stamped to form a blank when the stamping head controls the upper mold core 100 to move downward.

In an embodiment of the present invention, as shown in fig. 4, the mold frame assembly 500 includes a plurality of members. In this embodiment, the mold frame assemblies 500 are arranged in a plurality of numbers, and when the magnetic suction seat 420 and the ejector plate 410 need to be replaced, only one or more mold frame assemblies 500 need to be removed, and all mold frame assemblies 500 do not need to be removed, so that the magnetic suction seat 420 can be pulled out (pushed out), and the operation is convenient and fast.

In an embodiment of the present invention, as shown in fig. 1 and 2, the mold frame assembly 500 includes:

a mold frame 510; and the number of the first and second groups,

and a mold frame side plate 520, wherein the mold frame side plate 520 is fixed on the inner side of the mold frame 510.

In this embodiment, the mold frame 510 functions as a framework, which is a stressed body and is easily deformed, so the mold frame side plate 520 is disposed inside the mold frame 510, and the mold frame side plate 520 and the mold frame 510 are integrated into a whole, so as to improve the rigidity of the mold frame assembly 500, prevent the mold frame assembly 500 from being deformed, and prolong the service life of the mold frame assembly 500. The connection between the mold frame 510 and the mold frame side plate 520 may be welding, bolt connection, or integral molding.

In an embodiment of the present invention, as shown in fig. 1 and 2, the mold frame assembly 500 includes:

a mold frame 510;

a mold frame side plate 520, the mold frame side plate 520 being fixed to an inner side of the mold frame 510; and the number of the first and second groups,

the mold frame magnetic suction plate seat 800, the mold frame magnetic suction plate seat 800 is carried on the bottom plate 610, and the mold frame 510 is carried on the mold frame magnetic suction plate seat 800; the die frame magnetic suction plate seat 800 is provided with an electro-permanent magnet 810 or the upper surface of the die frame magnetic suction plate seat 800 is provided with the electro-permanent magnet 810; the upper surface of the mold frame magnetic suction plate base 800 is provided with a rolling member 820.

In the embodiment, by the arrangement of the electro-permanent magnet 810, when the electro-permanent magnet 810 is magnetized, the electro-permanent magnet 810 generates a magnetic field to attract the mold frame 510 to fix the mold frame 510 (i.e. fix the mold frame side plate 520), and when the electro-permanent magnet 810 is demagnetized, the mold frame 510 can be smoothly pushed out from the mold frame magnetic attraction plate seat 800.

When the lower mold core 300, the magnetic base 420 and the backing plate 700 need to be replaced, the mold frame magnetic base 800, the mold frame 510 and the mold frame side plate 520 need to be removed first, so that the lower mold core 300, the magnetic base 420 and the backing plate 700 can be pulled out smoothly.

In an embodiment of the present invention, as shown in fig. 2, the mold frame assembly 500 further includes:

a pillar 530, wherein the pillar 530 is fixed to the bottom plate 610, and the mold frame magnetic chuck base 800 is fixed to the pillar 530;

when the permanent magnet 810 disposed on the upper surface of the mold frame magnetic attraction plate seat 800 is magnetized, the mold frame magnetic attraction plate seat 800 attracts the mold frame 510.

Because the lower mold core 300 is supported by the magnetic base 420, and the magnetic base 420 is supported by the bottom plate 610, the lower mold core 300 is at a certain height from the bottom plate 610, in this embodiment, the mold frame 510 is lifted to a position corresponding to the lower mold core 300 by the arrangement of the supporting posts 530, so that the mold frame 510 is prevented from being too large in size in the height direction. The support posts 530 may be bolted to the magnetic template holder 800 of the form frame. The support 530 may be a fixed steel support, or may be a cylinder support of a cylinder, so as to raise or lower the height of the mold frame assembly by the telescopic action of the cylinder support.

Further, an oil cylinder 640 is arranged in the supporting column 530, and the oil cylinder 640 penetrates through the mold frame magnetic suction plate seat 800 to abut against the mold frame assembly 500. Specifically, the transmission shaft of the oil cylinder 640 abuts against the bottom surface of the mold frame 510, and when the mold frame assembly 500 needs to be lifted, the oil cylinder 640 acts.

In an embodiment of the present invention, as shown in fig. 3, the rolling member 820 includes a ball 821 and a rolling ball 822;

the upper surface of template frame magnetism plaque seat 800 is equipped with the holding chamber, ball 821 lays in the chamber wall in the holding chamber of template frame magnetism plaque seat 800, spin 822 is located the holding intracavity of template frame magnetism plaque seat 800 just hugs closely ball 821, the local protrusion of spin 822 the holding chamber of template frame magnetism plaque seat 800. In this embodiment, the drag of the drag is reduced by the ball 821 and the ball 822.

In an embodiment of the present invention, as shown in fig. 4, the powder stamping production system of the rapid assembling die assembly further includes a positioning device 900, the positioning device 900 is disposed on the magnetic attraction plate seat 800 of the mold frame, and the outer side of the mold frame 510 is abutted.

In this embodiment, the positioning device 900 is used to define the position of the mold frame assembly 500 on the mold frame magnetic plate holder 800, and since the mold frame assembly 500 has a certain fit with both the upper mold core 100 and the lower mold core 300, the position of the mold frame assembly 500 is determined, i.e. the positions of the lower mold core 100 and the upper mold core 300 can be adjusted in a contrasting manner. The positioning device 900 can be detachably connected to the mold frame magnetic attraction plate base 800.

Further, the positioning device 900 is a baffle plate, and the baffle plate is disposed on the mold frame magnetic attraction plate seat 800 and abuts against the mold frame 510. When the mold frame assembly 500 is installed, the mold frame assembly 500 is pushed against the baffle 900, i.e., the positioning of the mold frame assembly 500 is achieved. The baffle is used for positioning in the embodiment, the scheme is simple, and the use is convenient. The baffle can be detachably connected with the mold frame magnetic suction plate seat 800 in a bolt fastening mode.

The utility model discloses an in other embodiments, positioner 900 also can be for setting up the lifter on template magnetic attraction seat 800, and when installation template frame subassembly 500, the lifter rises, and after template frame subassembly 500 installation was accomplished, the lifter reduced.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. The utility model provides a powder stamping production system of quick assembling die assembly which characterized in that, powder stamping production system of quick assembling die assembly includes:

the stamping die comprises a press and a bottom plate, wherein the press comprises a stamping head which is positioned above the bottom plate;

the upper die core and the upper magnetic attraction device are fixed on the stamping head, and when the upper magnetic attraction device is magnetized, the upper die core is attracted to the upper magnetic attraction device; and the number of the first and second groups,

the lower mold core is opposite to the upper mold core and is positioned below the upper mold core, when the lower magnetic attraction device is magnetized, the lower mold core is attracted to the lower magnetic attraction device, and the lower magnetic attraction device is borne on the bottom plate.

2. The powder stamping production system of a quick assembly die assembly of claim 1, wherein the upper magnetic attachment device comprises:

the magnetic suction plate is fixed on the stamping head and provided with an electric permanent magnet, and the magnetic suction plate adsorbs the upper mold core when the electric permanent magnet of the magnetic suction plate is magnetized.

3. The powder stamping production system of a quick assembly die assembly of claim 1, wherein the lower magnetic attachment comprises:

the ejector plate is borne on the bottom plate and provided with an electric permanent magnet;

the magnetic suction seat is borne on the ejector plate, the lower mold core is borne on the magnetic suction seat, and the magnetic suction seat is provided with an electric permanent magnet;

when the electric permanent magnet arranged on the ejector plate is magnetized, the ejector plate adsorbs the magnetic adsorption seat; when the electric permanent magnet arranged on the magnetic attraction seat is magnetized, the magnetic attraction seat attracts the lower mold core.

4. The powder stamping production system of a rapidly assembling die assembly of claim 3, wherein the electro-permanent magnet disposed on the top plate is disposed on an upper surface of the top plate;

the electric permanent magnet arranged on the magnetic attraction seat is arranged on the upper surface of the magnetic attraction seat;

when the electric permanent magnet arranged on the upper surface of the ejector plate is magnetized, the ejector plate adsorbs the magnetic adsorption seat; when the electric permanent magnet arranged on the upper surface of the magnetic suction seat is magnetized, the magnetic suction seat sucks the lower mold core.

5. The powder stamping production system of a rapidly assembling die assembly as claimed in claim 3, wherein the upper surface of the magnetic chuck is further provided with a rolling member;

the upper surface of the top pushing plate is also provided with a rolling piece;

the rolling piece comprises a ball and a rolling ball;

the upper surface of the magnetic suction seat is provided with an accommodating cavity, the ball is laid on the cavity wall of the accommodating cavity of the magnetic suction seat, the rolling ball is arranged in the accommodating cavity of the magnetic suction seat and is tightly attached to the ball, and the local part of the rolling ball protrudes out of the accommodating cavity of the magnetic suction seat;

the upper surface of the ejector plate is provided with an accommodating cavity, the balls are laid on the cavity wall of the accommodating cavity of the ejector plate, the rolling balls are arranged in the accommodating cavity of the ejector plate and tightly attached to the balls, and the local parts of the rolling balls protrude out of the accommodating cavity of the ejector plate.

6. The powder stamping production system of a rapidly assembling die assembly of claim 3, further comprising a backing plate disposed between the magnetic attraction seat and the top pushing plate and connected to the magnetic attraction seat by bolts;

and/or, the powder punching press production system of quick assembling die assembly still includes the dust cover, the bottom edge of dust cover is fixed in the bottom plate, the apical margin of dust cover is fixed in the side of ejector pad board.

7. The powder stamping production system of a quick assembly die assembly of claim 1, further comprising a die frame assembly carried by the base plate and enclosing the lower die core.

8. The powder stamping production system of a quick assembly die assembly of claim 7, wherein the die frame assembly includes a plurality;

and/or, the mold frame assembly comprises:

a mold frame; and the number of the first and second groups,

and the mould frame side plate is fixed on the inner side of the mould frame.

9. The powder stamping production system of a quick assembly die assembly of claim 7, wherein the die frame assembly comprises:

a mold frame;

the mould frame side plate is fixed on the inner side of the mould frame; and the number of the first and second groups,

the die frame magnetic suction plate seat is borne on the bottom plate, and the die frame is borne on the die frame magnetic suction plate seat; the mould frame magnetic suction plate seat is provided with an electro-permanent magnet or the upper surface of the mould frame magnetic suction plate seat is provided with an electro-permanent magnet; the upper surface of the die frame magnetic suction plate seat is provided with a rolling part; when the electro-permanent magnet arranged on the upper surface of the mould frame magnetic suction plate seat is magnetized, the mould frame magnetic suction plate seat adsorbs the mould frame;

or, the mold frame assembly comprises:

a mold frame;

the mould frame side plate is fixed on the inner side of the mould frame;

the die frame magnetic suction plate seat is supported on the die frame magnetic suction plate seat; the mould frame magnetic suction plate seat is provided with an electro-permanent magnet or the upper surface of the mould frame magnetic suction plate seat is provided with an electro-permanent magnet; the upper surface of the die frame magnetic suction plate seat is provided with a rolling part; and the number of the first and second groups,

the pillar is fixed on the bottom plate, and the mold frame magnetic suction plate seat is fixed on the pillar;

when the electro-permanent magnet arranged on the upper surface of the mould frame magnetic suction plate seat is magnetized, the mould frame magnetic suction plate seat adsorbs the mould frame.

10. A powder impact production system for a quick connect die assembly as set forth in claim 9, wherein said rolling members comprise balls and balls;

the upper surface of the die frame magnetic suction plate seat is provided with an accommodating cavity, the rolling balls are laid on the cavity wall of the accommodating cavity of the die frame magnetic suction plate seat, the rolling balls are arranged in the accommodating cavity of the die frame magnetic suction plate seat and are tightly attached to the rolling balls, and the local parts of the rolling balls protrude out of the accommodating cavity of the die frame magnetic suction plate seat;

and/or, the powder stamping production system of the quick assembling die assembly further comprises a positioning device, wherein the positioning device is arranged on the die frame magnetic suction plate seat and is abutted against the outer side of the die frame.

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