CN118455485A - Intelligent die casting die for manufacturing and forming hardware products - Google Patents

Abstract

The invention discloses an intelligent die-casting die for manufacturing and forming hardware products, and relates to the field of die-casting dies. The invention provides an intelligent die-casting die for manufacturing and forming hardware products, which can clean impurities, comprises a workbench, wherein the workbench is fixedly connected with a multi-stage electric push rod, the multistage electric putter rigid coupling has last mould, and the bed die has been placed to the workstation, is provided with the back-off subassembly on the last mould, and the workstation rigid coupling has the mounting, and the mounting rigid coupling has fixed lead screw, and threaded connection has the scraping frame on the fixed lead screw, scrapes the frame rigid coupling and has the cleaning brush. According to the invention, the lower die is driven to reversely buckle by the reverse buckle assembly, and meanwhile, the scraping frame and the cleaning brush extend into the groove of the lower die to rotate, so that impurities attached to the inner wall of the lower die can be scraped, and the aim of cleaning the impurities is fulfilled.

Description

Intelligent die casting die for manufacturing and forming hardware products

Technical Field

The invention relates to the field of die casting dies, in particular to an intelligent die casting die for manufacturing and forming hardware products.

Background

The hardware is widely applied in life, and when some hardware is produced, raw materials are required to be filled into the dies, and then the raw materials are subjected to die casting molding through the two dies.

At present, an intelligent die-casting die is generally used, the die is generally formed by an upper die and a lower die as main component parts, when the intelligent die-casting die is used, firstly, the lower die needs to be horizontally placed on a plane, then, the upper die is driven to be close to the lower die by a power source such as an electric push rod, the upper die and the lower die are closed, then raw materials are injected between the upper die and the lower die, the raw materials are extruded together by the upper die and the lower die, the raw materials form a part with a required shape, impurities possibly adhere to the inner wall of the lower die after the part is taken, and the next die-casting work can be influenced if the impurities are not cleaned timely, so that the intelligent die-casting die for manufacturing and forming hardware products, which can clean the impurities, is developed.

Disclosure of Invention

In order to overcome the defect that impurities remain on the inner wall of the existing intelligent die-casting die after the die-casting die is used, the invention provides the intelligent die-casting die for manufacturing and forming hardware products, which can clean the impurities.

The utility model provides an intelligent die casting die for hardware manufacture fashioned, including the workstation, the workstation rigid coupling has multistage electric putter, multistage electric putter rigid coupling has the last mould, the bed die has been placed to the workstation, still including first dead lever, first dead lever rigid coupling is connected with the rotating member in the workstation, the rotating member is rotationally connected with symmetrical distribution's limiting frame, threaded connection has the restriction lead screw between the limiting frame, the rotating member rigid coupling has the bull stick, the bull stick is connected with the workstation is rotationally, be provided with the back-off subassembly on the last mould, the back-off subassembly is used for driving the bed die and rotates to the back-off and comes, the workstation rigid coupling has the mounting, the mounting rigid coupling has the fixed lead screw, threaded connection has the scraping frame on the fixed lead screw, the scraping frame rigid coupling has the cleaning brush, be provided with trigger assembly on the workstation, trigger assembly is used for driving the scraping frame and rotates.

Optionally, the back-off assembly comprises a second fixing rod fixedly connected to the upper die, a rack is fixedly connected to the second fixing rod, a gear is fixedly connected to the rotating rod, and the gear is meshed with the rack.

Optionally, the trigger assembly comprises a bump fixedly connected to the second fixed rod, the workbench is fixedly connected with a guide frame, a connecting frame is connected to the guide frame in a sliding manner, the connecting frame is rotationally connected with the scraping frame, the connecting frame is matched with the bump in an extrusion manner, and a reset spring is arranged between the connecting frame and the guide frame in a winding manner.

Optionally, the intelligent die casting mold for manufacturing and forming hardware product further comprises a scraping mechanism, the scraping mechanism is arranged on the workbench, the scraping mechanism is used for scraping impurities at the bottom of the upper mold, the scraping mechanism comprises a supporting rod fixedly connected to the workbench, a connecting screw rod is fixedly connected to the supporting rod, a scraping piece is connected to the connecting screw rod in a threaded mode, the upper mold is fixedly connected with a movable frame, and the movable frame is rotatably connected with the scraping piece.

Optionally, the intelligent die casting mold for manufacturing and forming hardware products further comprises an adsorption mechanism, the adsorption mechanism is arranged on the connecting frame and used for collecting impurities in a concentrated mode, the adsorption mechanism comprises a connecting piece, the connecting piece is fixedly connected to the connecting frame, the connecting piece is inserted with an ash suction machine, a limiting component is arranged on the ash suction machine and used for fixing the ash suction machine, and sealing cloth is connected between the workbench and the connecting piece.

Optionally, the spacing subassembly is including the support, and the support rigid coupling is in the ash absorbing machine, and the support slidingtype is connected with the spacing of symmetric distribution, and spacing and connecting piece grafting cooperation are connected with spacing spring between spacing and the support.

Optionally, the intelligent die casting die for manufacturing and forming hardware products further comprises a filter screen, and the filter screen is fixedly connected to the inside of the ash suction machine.

Optionally, the intelligent die casting die for manufacturing and forming hardware products further comprises a storage mechanism, wherein the storage mechanism is arranged on the workbench and used for collecting impurities scraped off by the upper die in a centralized manner, the storage mechanism comprises a support frame, the support frame is fixedly connected to the workbench and fixedly connected with an extrusion plate, the extrusion plate is provided with an inclined plane, the upper die is fixedly connected with a guide rod, the guide rod is connected with an extrusion block in a sliding manner, the extrusion block is matched with the inclined plane on the extrusion plate in an extrusion manner, a storage frame is fixedly connected to the extrusion block, and a connecting spring is connected between the extrusion block and the guide rod.

Optionally, be used for fashioned intelligent die casting die of hardware manufacture still including closing mechanism, closing mechanism sets up in the workstation, closing mechanism is used for preventing that the dust from being infected with on scraping frame and clearance brush, closing mechanism is including the connecting rod, the connecting rod rigid coupling is connected with the closure on the upper portion of workstation on the connecting rod, be connected with linear spring between closure and the connecting rod, the workstation pivoted is connected with the rolling ware, the workstation still rigid coupling has the guide, it has the connection stay cord to wind on the rolling ware, the other end and the closure rigid coupling of connection stay cord, the guide is walked around to the connection stay cord, be provided with drive assembly between bull stick and the rolling ware, drive assembly is used for driving the rolling ware and rotates.

Optionally, the transmission assembly comprises two transmission wheels, one of which is fixedly connected with the rotating rod, the other of which is fixedly connected with the winder, and a transmission belt is wound between the transmission wheels.

The beneficial effects of the invention are as follows:

According to the invention, the lower die is driven to reversely buckle by the reverse buckle assembly, and meanwhile, the scraping frame and the cleaning brush extend into the groove of the lower die to rotate, so that impurities attached to the inner wall of the lower die can be scraped, and the aim of cleaning the impurities is fulfilled.

According to the invention, the impurities attached to the bottom of the upper die are scraped by the scraping piece, so that the device can be further cleaned.

According to the invention, the impurities cleaned by the scraping frame and the cleaning brush are collected together through the ash suction machine, so that the influence of the diffusion of the impurities to the surroundings can be avoided.

According to the invention, through the cooperation between the extrusion block and the extrusion plate, the storage frame can move below the upper die, so that when the scraping piece scrapes impurities on the upper die, the impurities fall onto the storage frame, and the influence of the scattering of the impurities on the periphery is avoided.

According to the invention, the sealing piece covers the scraping frame and the cleaning brush, so that dust is prevented from being polluted by the scraping frame and the cleaning brush, and the cleaning device is facilitated.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the table and the upper die of the present invention.

Fig. 3 is a schematic perspective view of the rotating member and the restricting frame of the present invention.

Fig. 4 is a schematic perspective view of the gear, rack, second fixing rod and other components of the present invention.

Fig. 5 is a perspective structural sectional view of a scraper blade, a connecting frame and the like according to the present invention.

Fig. 6 is a schematic perspective view of the cleaning brush, the return spring, the guide frame and other components of the present invention.

Fig. 7 is a schematic perspective view of a scraping frame, a fixing member and a fixing screw according to the present invention.

Fig. 8 is a schematic perspective view of the scraping mechanism of the present invention.

Fig. 9 is a schematic perspective view of the support bar, the moving frame, the scraper, and the like according to the present invention.

Fig. 10 is a schematic perspective view of the adsorption mechanism of the present invention.

Fig. 11 is a perspective view of the sealing cloth, the connector, the ash aspirator and other components of the present invention.

Fig. 12 is a schematic perspective view of the components such as the filter screen, the limit frame and the limit spring.

Fig. 13 is a schematic perspective view of a storage mechanism according to the present invention.

Fig. 14 is a schematic view of a first perspective of the closure mechanism of the present invention.

Fig. 15 is a schematic view of a second perspective of the closure mechanism of the present invention.

Reference numerals illustrate: the device comprises a 1-workbench, a 11-multistage electric push rod, a 12-upper die, a 13-lower die, a 14-first fixing rod, a 15-rotating member, a 151-rotating rod, a 16-limiting frame, a 17-limiting screw rod, a 18-gear, a 19-rack, a 110-second fixing rod, a 111-scraping frame, a 112-connecting frame, a 113-fixing member, a 114-fixing screw rod, a 115-cleaning brush, a 116-return spring, a 117-guiding frame, a 118-lug, a 2-supporting rod, a 21-moving frame, a 22-scraping member, a 23-connecting screw rod, a 3-sealing cloth, a 31-connecting member, a 32-ash absorber, a 33-filtering net, a 34-limiting frame, a 341-supporting frame, a 35-limiting spring, a 4-supporting frame, a 41-connecting rod, a 42-storing frame, a 43-connecting spring, a 44-extruding plate, a 45-extruding block, a 5-sealing member, a 51-winding device, a 52-connecting pull rope, a 53-connecting rod, a 54-guiding rod, a 541-driving belt, a 55-guiding member and a 56-straight spring.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which currently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Example 1: the utility model provides an intelligent die casting die for hardware manufacture fashioned, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, including workstation 1, the left side rigid coupling of the upper rear portion of workstation 1 has multistage electric putter 11, the upper portion rigid coupling of the telescopic link of multistage electric putter 11 has last mould 12, lower mould 13 has been placed in the upper portion left side of workstation 1, still include first dead lever 14, first dead lever 14 rigid coupling is in the upper portion of workstation 1, the upper portion rotation of first dead lever 14 is connected with rotating member 15, both sides all rotate around the left portion of rotating member 15 are connected with limiting frame 16, limiting frame 16 is located the front and back both sides of lower mould 13 respectively, threaded connection has limiting screw 17 between the left portion of limiting frame 16, the rear portion rigid coupling of rotating member 15 has bull stick 151, the bull stick 151 is connected with workstation 1 rotation formula, be provided with the back-off subassembly on the upper mould 12, the back-off subassembly is used for driving lower mould 13 and rotates to back-off, the right part rigid coupling of workstation 1 has mounting 113, upper portion of rotating member 113 has, the upper portion of rotating member 113 has a fixed frame 114, the upper portion of rotating member 114 has a fixed frame 114 is connected with the screw rod 111, the upper portion of scraping member 111 has the fixed frame is triggered the screw assembly is connected with the screw rod 111, the upper portion is triggered the upper portion 111 is connected with the screw assembly is fixed frame 111.

As shown in fig. 4, the back-off assembly includes a second fixing rod 110, the second fixing rod 110 is fixedly connected to the right side of the rear portion of the upper mold 12, a rack 19 is fixedly connected to the lower portion of the second fixing rod 110, a gear 18 is fixedly connected to the rear portion of the rotating rod 151, and the gear 18 is meshed with the rack 19.

As shown in fig. 4, 5, 6 and 7, the triggering assembly comprises a bump 118, the bump 118 is fixedly connected to the rear portion of the second fixing rod 110, a guide frame 117 is fixedly connected to the right upper portion of the workbench 1, a connecting frame 112 is slidably connected to the guide frame 117, the connecting frame 112 is rotatably connected to the scraping frame 111, the connecting frame 112 is in press fit with the bump 118, and a return spring 116 is wound between the connecting frame 112 and the guide frame 117.

The device is used for die-casting raw materials, then the die-cast raw materials can be reprocessed to finally form hardware products, when the device is used, the lower die 13 is firstly required to be fixed on the workbench 1, then the limiting screw 17 is required to be manually rotated so as to lead the limiting screw 17 to move forwards, finally the limiting screw 17 is separated from the limiting frames 16, then the limiting frames 16 are manually rotated and broken away from each other to be separated from each other, the lower die 13 is placed between the two limiting frames 16, the limiting frames 16 are manually rotated and folded to be close to each other to enable the limiting frames 16 to clamp the lower die 13, and then the limiting screw 17 is inserted into the limiting frames 16, and reversely rotating the limiting screw rod 17 to limit the two limiting frames 16 again by the limiting screw rod 17, then starting the multi-stage electric push rod 11, gradually moving the upper die 12 downwards under the drive of the telescopic rod of the multi-stage electric push rod 11 to fold the upper die 12 and the lower die 13, then injecting raw materials between the upper die 12 and the lower die 13, die-casting the raw materials through the upper die 12 and the lower die 13 to form a part with a required shape, after the raw materials are shaped, controlling the upper die 12 to move upwards through the telescopic rod of the multi-stage electric push rod 11 to prevent the shaped raw materials from being covered by the upper die 12, Taking out the shaped raw material, and when the upper die 12 has moved to the initial height, it is necessary to move the upper die 12 further upward by a certain height, and as the upper die 12 moves upward, the second fixing rod 110 moves upward, and the rack 19 and the bump 118 move upward under the driving of the second fixing rod 110, and as the rack 19 and the gear 18 contact, the gear 18 rotates clockwise as the rack 19 continues to move upward, and as the gear 18 drives, the rotating rod 151, the rotating member 15, the limiting frame 16, the limiting screw 17 and the lower die 13 all rotate clockwise, and when the bump 118 and the connecting frame 112 contact, Under the extrusion of the convex block 118, the connecting frame 112 moves upwards, the connecting frame 112 drives the scraping frame 111 to move upwards at the moment, the reset spring 116 compresses, the scraping frame 111 moves upwards at the moment and rotates by taking the fixed screw 114 as a rotating shaft because the scraping frame 111 and the fixed screw 114 are in threaded connection, the cleaning brush 115 rotates along with the scraping frame 111, so that when the lower die 13 is reversely buckled, the scraping frame 111 and the cleaning brush 115 just extend into the groove of the lower die 13, impurities attached on the inner wall of the lower die 13 can be scraped by rotating the scraping frame 111 and the cleaning brush 115, And impurities can be brushed down through the cleaning brush 115, after the lower die 13 is cleaned, the upper die 12 is driven to move downwards to the original height through the telescopic rod of the multi-stage electric push rod 11, the second fixing rod 110 is also driven to move downwards by the upper die 12, the rack 19 and the convex block 118 are also moved downwards, the rack 19 drives the gear 18 to rotate anticlockwise, the rotating rod 151, the rotating piece 15, the limiting frame 16, the limiting screw rod 17 and the lower die 13 are all rotated anticlockwise to reset under the driving of the gear 18, the convex block 118 releases the connecting frame 112 at the moment, the connecting frame 112 drives the scraping frame 111 to move downwards to reset under the action of the reset spring 116, the cleaning brush 115 moves downwards along with the scraping frame 111, at this moment, under the influence of the fixed screw 114, the scraping frame 111 and the cleaning brush 115 can rotate reversely and move downwards until reset, and then the multistage electric push rod 11 is closed, so that the lower die 13 is reversely buckled through the cooperation between the gear 18 and the rack 19, and meanwhile, the cleaning brush 115 stretches into the groove of the lower die 13 to rotate through the scraping frame 111 and the cleaning brush 115, so that impurities attached to the inner wall of the lower die 13 can be scraped, and the aim of cleaning the impurities is fulfilled.

Example 2: on the basis of embodiment 1, as shown in fig. 8 and 9, the intelligent die casting mold for manufacturing and forming hardware further comprises a scraping mechanism, the scraping mechanism is arranged on the workbench 1 and used for scraping impurities at the bottom of the upper mold 12, the scraping mechanism comprises a supporting rod 2, the supporting rod 2 is fixedly connected to the left upper part of the workbench 1, a connecting screw rod 23 is fixedly connected to the upper part of the supporting rod 2, threads on the connecting screw rod 23 are equally divided into three sections, the spiral direction of the threads at the uppermost side is opposite to the spiral direction of the remaining two threads, a scraping piece 22 is connected to the connecting screw rod 23 in a threaded manner, a movable frame 21 is fixedly connected to the upper mold 12, and the movable frame 21 is rotationally connected with the scraping piece 22.

The bottom of the upper mold 12 may be attached with impurities which may affect the next die casting operation, so that the impurities attached to the upper mold 12 may be scraped off by the scraping member 22, when the upper mold 12 moves downward, the moving frame 21 also moves downward, the scraping member 22 also moves downward under the driving of the moving frame 21, at this time, the scraping member 22 is not in contact with the connecting screw rod 23, so that the scraping member 22 does not rotate, when the upper mold 12 moves upward to return, the moving frame 21 and the scraping member 22 also move upward under the driving of the upper mold 12, after the upper mold 12 moves upward to the original height, as the upper mold 12 moves upward, the moving frame 21 and the scraping member 22 also move upward, when the scraping member 22 contacts with the thread groove at the lowermost side of the connecting screw rod 23, the scraping member 22 rotates counterclockwise under the effect of the thread groove, at this time, the scraper 22 approaches the upper die 12, then as the scraper 22 continues to move upward, the scraper 22 passes over the thread groove at the lowest side on the connecting screw 23, and the scraper 22 contacts the thread groove at the middle position on the connecting screw 23, then under the action of this thread groove, the scraper 22 continues to rotate counterclockwise, at this time, the scraper 22 scrapes off the foreign matters attached to the bottom of the upper die 12, so that the foreign matters can drop, at this time, because the lower die 13 is rotating clockwise, the dropped foreign matters do not attach to the lower die 13, then as the scraper 22 continues to move upward, the scraper 22 passes over the thread groove at the middle position and contacts the thread groove at the highest side of the connecting screw 23, because the spiral direction of the thread groove at the highest side of the connecting screw 23 is opposite to the spiral directions of the other two thread grooves, therefore, the scraping element 22 can rotate clockwise at this moment, so that the purpose of reciprocating scraping can be achieved, in the process that the upper die 12 moves downwards to be reset to the original height, the movable frame 21 can also drive the scraping element 22 to move downwards to be reset, at this moment, the scraping element 22 can rotate anticlockwise under the influence of the thread groove at the uppermost side of the connecting screw rod 23, then rotate clockwise twice under the influence of the other two thread grooves until reset, impurities attached to the bottom of the upper die 12 are scraped through the scraping element 22, and the device can be further cleaned.

As shown in fig. 10, 11 and 12, the intelligent die casting mold for manufacturing and forming hardware further comprises an adsorption mechanism, the adsorption mechanism is arranged on the connecting frame 112 and is used for collecting impurities in a concentrated manner, the adsorption mechanism comprises a connecting piece 31, the connecting piece 31 is fixedly connected to the rear lower portion of the connecting frame 112, the lower portion of the connecting piece 31 is inserted with an ash suction machine 32, a limiting component is arranged on the ash suction machine 32 and is used for fixing the ash suction machine 32, and a sealing cloth 3 is connected between the workbench 1 and the connecting piece 31.

As shown in fig. 12, the limiting assembly includes a bracket 341, the bracket 341 is fixedly connected to the front portion of the ash suction machine 32, the left and right sides of the bracket 341 are slidably connected with a limiting frame 34, the limiting frame 34 is in plug-in fit with the connecting piece 31, and a limiting spring 35 is connected between the limiting frame 34 and the bracket 341.

As shown in fig. 12, the intelligent die casting mold for manufacturing and shaping hardware further includes a filter screen 33, where the filter screen 33 is fixedly connected to the inside of the ash suction machine 32.

In order to prevent the impurities cleaned by the scraping frame 111 and the cleaning brush 115 from scattering around and affecting the environment, the impurities can be collected intensively by the ash suction machine 32, the ash suction machine 32 is firstly required to be installed on the connecting piece 31, then the ash suction machine 32 is required to be placed at the bottom of the connecting piece 31, the ash suction machine 32 is aligned with the connecting piece 31, then the limit frame 34 is moved to one side in the mutually separating direction, at the moment, the limit spring 35 is compressed, then the ash suction machine 32 is moved upwards, the ash suction machine 32 is inserted into the connecting piece 31, under the driving of the ash suction machine 32, the bracket 341, the limit frame 34 and the limit spring 35 are all moved upwards, the limit frame 34 is released, under the effect of the limit spring 35, the limit frame 34 is moved to one side in the mutually approaching direction, at the moment, the limit frame 34 can clamp the left and right sides of the connecting piece 31, and the ash suction machine 32 can be further fixed on the connecting piece 31, then when the lower die 13 needs to be cleaned, the ash suction machine 32 is started, so that the impurities cleaned by the scraping frame 111 and the cleaning brush 115 are sucked downwards onto the ash suction machine 32, the impurities can be intercepted by the filter screen 33 because the ash suction machine 32 is provided with the filter screen 33, so that the impurities are prevented from being blocked into the ash suction machine 32 to influence the operation of the ash suction machine 32, the sealing cloth 3 connected between the workbench 1 and the connecting piece 31 can prevent the impurities from diffusing to the outside, and because the sealing cloth 3 can deform, even if the connecting frame 112 drives the connecting piece 31 and the ash suction machine 32 to move upwards, the sealing cloth 3 can be matched with the connecting piece 31 in a deformation mode and the sealing effect of the sealing cloth 3 is not influenced, when the connecting frame 112 drives the connecting piece 31 and the ash suction machine 32 to move downwards for resetting, the sealing cloth 3 also hangs down again to recover, after the lower mold 13 is cleaned, the ash extractor 32 is closed, the limiting frame 34 is loosened from the connecting piece 31 by referring to the steps described above, and then the ash extractor 32 is slowly moved downwards, so that the ash extractor 32 can be separated from the connecting piece 31, impurities in the ash extractor 32 are cleaned, the impurities cleaned by the scraping frame 111 and the cleaning brush 115 are collected in a concentrated manner by the ash extractor 32, and the impurities can be prevented from being diffused to the surroundings to affect the environment.

As shown in fig. 13, the intelligent die casting mold for manufacturing and forming hardware products further comprises a storage mechanism, the storage mechanism is arranged on the workbench 1 and used for collecting impurities scraped off on the upper mold 12 in a concentrated manner, the storage mechanism comprises a support frame 4, the support frame 4 is fixedly connected to the front side of the upper portion of the workbench 1, an extrusion plate 44 is fixedly connected to the upper portion of the support frame 4, an inclined surface is arranged on the lower side of the extrusion plate 44, a guide rod 41 is fixedly connected to the right side of the upper mold 12, an extrusion block 45 is connected to the guide rod 41 in a sliding manner, the extrusion block 45 is in extrusion fit with the inclined surface on the extrusion plate 44, a storage frame 42 is fixedly connected to the extrusion block 45, and a connecting spring 43 is connected between the extrusion block 45 and the guide rod 41.

In order to collect the impurity scraped by the scraping piece 22, when the upper die 12 moves upwards from the initial height, the guide rod 41 also moves upwards under the drive of the upper die 12, the guide rod 41 drives the extrusion block 45 and the storage frame 42 to move upwards together, at this time, the extrusion block 45 can be in contact with the extrusion plate 44, the extrusion block 45 can drive the storage frame 42 to move backwards under the extrusion of the inclined plane of the extrusion plate 44, so that the connecting spring 43 is compressed, when the scraping piece 22 scrapes the impurity attached to the bottom of the upper die 12, the storage frame 42 can be just located below the upper die 12, thereby the impurity falling on the upper die 12 can be accessed through the storage frame 42, when the upper die 12 drives the guide rod 41 to move downwards again to be reset to the original height, the guide rod 41 drives the extrusion block 45 and the storage frame 42 to move downwards together, at this time, the extrusion block 45 and the storage frame 42 move forwards to be reset under the action of the connecting spring 43, then the impurity on the storage frame 42 can be cleaned, the impurity on the storage frame 42 can be removed through the cooperation between the extrusion block 45 and the extrusion plate 44, the impurity can be prevented from falling on the upper die 12, and the impurity can be prevented from falling on the periphery of the upper die 12.

As shown in fig. 14 and 15, the intelligent die casting mold for manufacturing and forming hardware product further comprises a sealing mechanism, the sealing mechanism is arranged on the workbench 1, the sealing mechanism is used for preventing dust from being stained on the scraping frame 111 and the cleaning brush 115, the sealing mechanism comprises a connecting rod 53, the connecting rod 53 is fixedly connected to the right rear side of the upper portion of the workbench 1, a sealing piece 5 is connected to the connecting rod 53 in a sliding manner, a linear spring 56 is connected between the sealing piece 5 and the connecting rod 53, a winder 51 is rotatably connected to the right rear portion of the workbench 1, a guide piece 55 is fixedly connected to the right rear portion of the workbench 1, a connecting pull rope 52 is wound on the winder 51, the other end of the connecting pull rope 52 is fixedly connected with the sealing piece 5, the connecting pull rope 52 bypasses the guide piece 55, a transmission component is arranged between the rotating rod 151 and the winder 51, and the transmission component is used for driving the winder 51 to rotate.

As shown in fig. 14 and 15, the transmission assembly includes two transmission wheels 54, wherein one transmission wheel 54 is fixedly connected to the rear portion of the rotating rod 151, the other transmission wheel 54 is fixedly connected to the rear portion of the winder 51, and a transmission belt 541 is wound between the transmission wheels 54.

When the device is not used at ordinary times, the scraping frame 111 and the cleaning brush 115 can be covered by the sealing piece 5, dust is prevented from being polluted on the scraping frame 111 and the cleaning brush 115, when the rotating rod 151 rotates clockwise, the rotating rod 151 drives the adjacent driving wheel 54 to rotate, so that the driving belt 541 and the other driving wheel 54 move, the winding device 51 starts to rotate under the driving of the other driving wheel 54, the winding device 51 winds the connecting pull rope 52, the sealing piece 5 is pulled rightward under the guiding action of the guiding piece 55, the linear spring 56 is compressed, the lower die 13 is just in the clockwise rotating stage, the sealing piece 5 cannot hinder the scraping frame 111 and the cleaning brush 115 from being contacted with the lower die 13, when the rotating rod 151 rotates anticlockwise, the lower die 13 also rotates anticlockwise to reset, the winding device 51 rotates anticlockwise under the driving of the driving wheel 54 and the driving belt 541, the winding device 51 loosens the connecting pull rope 52 at this moment, the sealing piece 5 is released, the sealing piece 5 moves leftwards to reset under the action of the linear spring 56, the scraping frame 5 covers the scraping frame 111 and the cleaning brush 115, and dust is prevented from being polluted on the scraping frame 111 and the cleaning brush 115.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (10)

1. The utility model provides an intelligent die casting die for hardware manufacture fashioned, including workstation (1), workstation (1) rigid coupling has multistage electric putter (11), multistage electric putter (11) rigid coupling has last mould (12), lower mould (13) have been placed to workstation (1), a serial communication port, still including first dead lever (14), first dead lever (14) rigid coupling is in workstation (1), first dead lever (14) rotation type is connected with rotating member (15), rotating member (15) rotation type is connected with symmetrical distribution's limit frame (16), threaded connection has restriction lead screw (17) between limit frame (16), rotating member (15) rigid coupling has bull stick (151), bull stick (151) are connected with workstation (1) rotation type, be provided with the back-off subassembly on last mould (12), back-off subassembly is used for driving lower mould (13) and rotates to back-off and comes, workstation (1) rigid coupling has mounting (113), mounting (113) rigid coupling has fixed lead screw (114), threaded connection has on fixed lead screw (114) to strike off frame (111), strike-off frame (111) have between limit lead screw (17), rotating member (15) rigid coupling has the setting up subassembly to strike off on the workstation (111).

2. An intelligent die casting mold for manufacturing and forming hardware products according to claim 1, wherein the back-off assembly comprises a second fixing rod (110), the second fixing rod (110) is fixedly connected with the upper mold (12), the second fixing rod (110) is fixedly connected with a rack (19), the rotating rod (151) is fixedly connected with a gear (18), and the gear (18) is meshed with the rack (19).

3. An intelligent die casting mould for manufacturing and forming hardware products as claimed in claim 2, characterized in that the trigger assembly comprises a protruding block (118), the protruding block (118) is fixedly connected with the second fixing rod (110), the workbench (1) is fixedly connected with the guide frame (117), the guide frame (117) is connected with the connecting frame (112) in a sliding manner, the connecting frame (112) is rotationally connected with the scraping frame (111), the connecting frame (112) is in extrusion fit with the protruding block (118), and a reset spring (116) is arranged between the connecting frame (112) and the guide frame (117) in a winding manner.

4. An intelligent die casting die for manufacturing and forming hardware products according to claim 3, further comprising a scraping mechanism, wherein the scraping mechanism is arranged on the workbench (1) and used for scraping impurities at the bottom of the upper die (12), the scraping mechanism comprises a supporting rod (2), the supporting rod (2) is fixedly connected to the workbench (1), a connecting screw rod (23) is fixedly connected to the supporting rod (2), a scraping piece (22) is connected to the connecting screw rod (23) in a threaded mode, a movable frame (21) is fixedly connected to the upper die (12), and the movable frame (21) is rotatably connected with the scraping piece (22).

5. The intelligent die casting die for manufacturing and forming hardware products according to claim 4, further comprising an adsorption mechanism, wherein the adsorption mechanism is arranged on the connecting frame (112) and used for collecting impurities in a concentrated mode, the adsorption mechanism comprises a connecting piece (31), the connecting piece (31) is fixedly connected to the connecting frame (112), the connecting piece (31) is inserted with an ash suction machine (32), a limiting component is arranged on the ash suction machine (32) and used for fixing the ash suction machine (32), and a sealing cloth (3) is connected between the workbench (1) and the connecting piece (31).

6. An intelligent die casting die for manufacturing and forming hardware products according to claim 5, wherein the limiting assembly comprises a support (341), the support (341) is fixedly connected to the ash suction machine (32), the support (341) is connected with symmetrically distributed limiting frames (34) in a sliding mode, the limiting frames (34) are in plug-in fit with the connecting pieces (31), and limiting springs (35) are connected between the limiting frames (34) and the support (341).

7. An intelligent die casting mold for manufacturing and shaping hardware products as claimed in claim 6, further comprising a filter screen (33), wherein the filter screen (33) is fixedly connected to the inside of the ash suction machine (32).

8. The intelligent die casting die for manufacturing and forming hardware products according to claim 7, further comprising a storage mechanism, wherein the storage mechanism is arranged on the workbench (1) and used for collecting impurities scraped off on the upper die (12) in a concentrated mode, the storage mechanism comprises a supporting frame (4), the supporting frame (4) is fixedly connected to the workbench (1), the supporting frame (4) is fixedly connected with a squeezing plate (44), the squeezing plate (44) is provided with an inclined plane, the upper die (12) is fixedly connected with a guide rod (41), the guide rod (41) is connected with a squeezing block (45) in a sliding mode, the squeezing block (45) is in extrusion fit with the inclined plane on the squeezing plate (44), a storage frame (42) is fixedly connected to the squeezing block (45), and a connecting spring (43) is connected between the squeezing block (45) and the guide rod (41).

9. The intelligent die casting die for manufacturing and forming hardware products according to claim 8, further comprising a sealing mechanism, wherein the sealing mechanism is arranged on the workbench (1) and used for preventing dust from being stained on the scraping frame (111) and the cleaning brush (115), the sealing mechanism comprises a connecting rod (53), the connecting rod (53) is fixedly connected to the upper portion of the workbench (1), the connecting rod (53) is connected with a sealing piece (5) in a sliding mode, a linear spring (56) is connected between the sealing piece (5) and the connecting rod (53), the workbench (1) is rotatably connected with a winder (51), the workbench (1) is fixedly connected with a guide piece (55), a connecting pull rope (52) is wound on the winder (51), the other end of the connecting pull rope (52) is fixedly connected with the sealing piece (5), the connecting pull rope (52) bypasses the guide piece (55), a transmission assembly is arranged between the rotating rod (151) and the winder (51), and the transmission assembly is used for driving the winder (51) to rotate.

10. An intelligent die casting mould for manufacturing and shaping hardware products as claimed in claim 9, characterized in that the transmission assembly comprises two transmission wheels (54), one transmission wheel (54) is fixedly connected with the rotating rod (151), the other transmission wheel (54) is fixedly connected with the winder (51), and a transmission belt (541) is wound between the transmission wheels (54).