CN117773064A - Die casting equipment convenient to ejecting die casting of no damage - Google Patents

Die casting equipment convenient to ejecting die casting of no damage Download PDF

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Publication number
CN117773064A
CN117773064A CN202311726734.3A CN202311726734A CN117773064A CN 117773064 A CN117773064 A CN 117773064A CN 202311726734 A CN202311726734 A CN 202311726734A CN 117773064 A CN117773064 A CN 117773064A
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die
die casting
hole
plate
adjusting
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CN202311726734.3A
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CN117773064B (en
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沈永建
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Jiangsu Te Neng Ding Special Equipment Manufacturing Co ltd
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Jiangsu Te Neng Ding Special Equipment Manufacturing Co ltd
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Abstract

The invention discloses die casting equipment convenient for nondestructive ejection of die castings, which comprises an adjusting die casting structure, wherein one side of the adjusting die casting structure is provided with a spraying cleaning structure, the adjusting die casting structure comprises a reciprocating adjusting assembly which is arranged on a die casting die assembly, the reciprocating adjusting assembly comprises a base body which is taken as a base, one side above the base body is provided with a base plate with a first sliding groove, the first sliding groove is internally matched with the first sliding groove in a sliding way, one side above the base plate is symmetrically provided with a bearing plate, the bearing plate is provided with a meshing gear set through a connecting shaft, the lower part of the meshing gear set is meshed with a sector gear for adjustment, the sector gear is conveniently connected and fixed with a driving gear and a driving motor through the connecting shaft, and the base plate is provided with a matched groove strip through a fixing column.

Description

Die casting equipment convenient to ejecting die casting of no damage
Technical Field
The invention relates to the technical field of die casting equipment, in particular to die casting equipment convenient for nondestructive ejection of a die casting.
Background
The die casting is a metal casting process, and is characterized in that a die cavity is utilized to apply high pressure to molten metal, the die is usually processed by high-strength alloy, a cold chamber die casting machine or a hot chamber die casting machine can be respectively used according to different die casting types, and the prior art has the following publication number: CN220049983U, an aluminum alloy die casting die who conveniently gets piece belongs to aluminum alloy die casting equipment technical field, including first module, second module, layer board and spring, first module and second module activity grafting are mateed, layer board slidable mounting is in the lower part of first module, spring fixed connection is between layer board and second module, first module includes first module and guide pillar, the spout has been seted up to the lower part of first module, the layer board includes plate body and sliding sleeve, when first module and second module are closed, utilizes the second module to push back the layer board to the inside of first module, when first module and second module are expanded, utilizes the spring to take out the layer board in by first module, and the thimble of first module is pushed out the back with the work piece, utilizes the layer board to support the work piece, withdraws the thimble, and rethread manipulator is taken down the work piece by the layer board, distortion thimble when need not worrying about the manipulator drags to make things convenient for to get a piece operation.
To sum up: in the scheme, whether the die casting is ejected by adopting the vertical ejector rod or the inclined ejector rod, in the ejection process, the ejector rod cannot stably eject the die casting, and the ejector rod is actively ejected by the single ejector rod under the action of external force, only is arranged at a key node and cannot cover the die casting, so that the structure of the die casting cannot be ensured to be uniform and complete, the ejector rod with multiple specifications is adopted for carrying out repeated ejection, multiple impact damage can be caused to the die casting, the structural performance of the die casting can be reduced, and the phenomena of iron powder drawing, clamping and thimble breakage can be caused under the condition of overhigh temperature of the die.
Disclosure of Invention
The invention aims to overcome the defects of the prior art, and provides die casting equipment for conveniently and nondestructively ejecting a die casting, so that the problems that in the ejection process, the ejector rods cannot stably eject the die casting, and a single ejector rod is used for actively demolding the die casting under the action of external force, the ejector rods are only arranged at key nodes and cannot cover the die casting, so that the structure of the die casting cannot be ensured to be uniform and complete, the ejector rods with multiple specifications are adopted for carrying out repeated ejection, the die casting is subjected to repeated impact damage, the structural performance of the die casting is reduced, and the phenomena of iron powder drawing, clamping and thimble breakage of the ejector pins are caused under the condition of overhigh temperature of a die are solved.
In order to achieve the above purpose, the present invention provides the following technical solutions: the die casting equipment convenient for the damage-free ejection of the die casting comprises an adjusting die casting structure, wherein one side of the adjusting die casting structure is provided with a spraying cleaning structure;
the die casting adjusting structure comprises a reciprocating adjusting assembly which is arranged on the die casting die assembly, the reciprocating adjusting assembly comprises a base body which is taken as a foundation, a base plate with a first sliding groove is arranged on one side above the base body, and a first sliding block is arranged in the first sliding groove in a sliding matching manner;
the bearing plate is symmetrically arranged on one side above the base plate, the bearing plate is provided with a meshing gear set through a connecting shaft, the lower part of the meshing gear set is meshed with the sector gear for adjustment, and the sector gear is conveniently connected and fixed with the driving gear and the driving motor through the connecting shaft.
Through adopting above-mentioned technical scheme, thereby play relative rotation regulation effect through the sector gear that sets up.
Preferably, the base plate is provided with a groove matching strip through the fixing column, the groove matching strip is slidingly adjusted and arranged with the mounting plate through the guide sliding block, a rack meshed with the meshing gear set is arranged below the mounting plate, and one side of the mounting plate is fixedly connected with the first sliding block through the connecting plate.
Through adopting above-mentioned technical scheme, thereby play meshing drive regulation effect through the rack that sets up.
Preferably, the groove matching strip is fixed with a feeding rod with a feeding hopper above through a fixing column and a mounting bracket, one end of the feeding rod is driven and adjusted relatively with a plunger rod through the mounting bracket, the other end of the feeding rod is fixedly connected with a through hole plate, one side of the through hole plate is provided with a guide chute, and the guide chute is fixed with a through hole plate through the through hole plate.
Through adopting above-mentioned technical scheme, thereby through the through-hole board that sets up play and set up the effect with the installation.
Preferably, the through hole plate is symmetrically provided with a second sliding block, the second sliding block is symmetrically provided with an elastic locking piece, the other side above the base plate is provided with an air compressor, and one side above the air compressor is fixedly connected with the other through an L-shaped connecting pipe.
Through adopting above-mentioned technical scheme, thereby through the second slider that sets up play direction and slide the regulation effect.
Preferably, the die casting die assembly comprises a fixed die with a through pipe at one side, one end of the through pipe is provided with a through hole matched disc matched with the through hole plate, one side of the through hole matched disc is symmetrically provided with a second sliding groove, and a locking limit groove for limiting the elastic locking piece is formed in the second sliding groove.
Through adopting above-mentioned technical scheme, thereby through the elastic locking piece that sets up, extrusion deformation and elasticity recovery effect play.
Preferably, the fixed mould below is installed with the spout strip of taking the second spout and is set up, and the spout strip slides through second slider and adjusting mould below and set up, the installation cavity has been seted up to adjusting mould inside, and the mounting groove to the slide bar installation setting has been seted up to installation cavity inside one side, it is equipped with the through-hole piece to slide between the slide bar, and through-hole piece one side is equipped with the gasbag through the fixed plate.
Through adopting above-mentioned technical scheme, thereby through the gasbag that sets up, play and aerify lift adjustment effect.
Preferably, the regulation mould is link up through the installation cavity and is offered the venthole, and the inside symmetry of venthole is equipped with spacing, and spacing is adjusted through recess and regulation stopper sliding simultaneously, regulation stopper one end is through multisection moving part and through-hole piece bottom fixed connection, venthole one side is connected with branch pipe one end and is carried, and the inside ventilation stopper that is equipped with and is connected with the fixed plate of branch pipe, and the branch pipe other end passes through the pipe connection head and is connected with first bellows with running through the regulation mould simultaneously, the first bellows other end runs through installation orifice plate and the supporting dish fixed connection of another siphunculus and another through-hole, the installation through-hole plate passes through adjusting cylinder and connecting block and regulation mould and is connected.
Through adopting above-mentioned technical scheme, thereby play supporting connection effect through the supporting dish of through-hole that sets up.
Preferably, the spraying cleaning structure comprises a fixing frame with a storage box at one side, a high-pressure pump is arranged in the storage box, the high-pressure pump penetrates through the fixing frame through a connecting pipe and is fixedly installed at one end of the second corrugated pipe, and one side above the storage box is fixedly connected with the remote release agent conveying equipment through another connecting pipe.
Through adopting above-mentioned technical scheme, thereby through the bin that sets up, play the transport storage effect to the release agent.
Preferably, mount one side is equipped with the installing frame, and installs inside the straight line motor group that is equipped with to the regulating plate drive and adjusts, the regulating plate below is equipped with telescopic cylinder, and telescopic cylinder output and hydraulic swivel joint one end fixed connection, hydraulic swivel joint other end and cavity link one end installation are fixed, and the cavity link other end runs through cavity union coupling, the inside guide groove who makes things convenient for the cavity link to rotate and adjust that has offered of cavity pipe, the cavity link other end is fixed with the cavity section of thick bamboo, and the cavity section of thick bamboo surface has seted up the spraying hole, and the cavity section of thick bamboo surface is equipped with the brush cleaner simultaneously, cavity section of thick bamboo internally mounted is equipped with the branch drain pipe, and runs through cavity link and hydraulic swivel joint bottom connection, the second bellows other end runs through cavity pipe and hydraulic swivel joint one side and is connected and carry.
Through adopting above-mentioned technical scheme, thereby through the hydraulic swivel joint that sets up play two-way connection setting and rotation drive regulation effect.
Compared with the prior art, the invention has the beneficial effects that: the die casting equipment which is convenient for the damage-free ejection of the die casting,
(1) The present case example sets up in through adjusting die-casting structure: the die casting demolding assembly is used for solving the problems that in the ejection process, the ejector rods cannot stably eject a die casting, a single ejector rod is ejected for actively demolding the die casting under the action of external force, the ejector rods are only arranged at key nodes and cannot cover the die casting, so that the structures of the die casting cannot be guaranteed to be uniform and complete, the ejector rods with multiple specifications are adopted for ejection for multiple times, multiple impact damages to the die casting can be caused, the structural performance of the die casting can be reduced, the phenomena of iron powder pulling, blocking and thimble breakage of the ejector rods can be caused under the condition that the temperature of a mold is too high, when the die casting needs to be subjected to demolding, an air compressor is used for compressing air and then delivering the air into a branch pipe through a first corrugated pipe, compressed air entering the branch pipe is subjected to medium diffusion delivery, the compressed air delivered into an air bag is delivered, and the air bag is driven to move under the force of a through hole block when the air bag is inflated, when the air hole is blocked above the die casting is blocked by the air hole after the limit rod and the groove are separated under the force, the air is distributed through the groove, the air is diffused on one side of the die casting and the die casting is contacted with the die casting, and the compressed air is uniformly delivered to the die casting through the compressed air when the die casting is cooled;
(2) Through adjusting the setting in the die-casting structure: the reciprocating adjusting component solves the problems that the existing die casting equipment cannot continuously perform die casting treatment on a die casting, blanking of the die casting or cleaning intermittence of a die casting die exist, so that the die casting equipment cannot continuously perform die casting treatment on the die casting;
(3) Through adjusting the setting in the die-casting structure: the device comprises a through hole plate, a guide chute, a through hole plate, a second sliding block, an elastic locking piece, a through hole matched plate, a second sliding chute and a locking limit groove, so that the problem that the die casting die assembly and the reciprocating adjusting assembly cannot be connected in an adjusting and matching mode is solved, so that metal liquid and compressed air cannot be conveyed in the die casting die assembly to perform die casting forming and subsequent blowing and demolding of the die casting, the through hole matched plate, the second sliding chute and the locking limit groove are driven to move relatively with the through hole plate and the guide chute in the stress movement process of the mounting plate, the through hole matched plate is pressed with the through hole plate through the second sliding chute, the elastic locking piece enters into the locking limit groove to perform elastic recovery in the locking limit groove after the second sliding movement process of the through hole matched plate and the second sliding chute, the elastic locking piece is matched with the locking limit groove, so that the matched connection between the through hole matched plate and the through hole matched plate is facilitated, the matched metal liquid and the compressed air are conveyed in an extruding mode after the matched connection between the through hole plate and the through hole matched plate, and the through hole plate are separated from the through the arranged elastic locking piece and the locking limit groove, and the through hole plate are connected with the other matched die casting die assembly in the stress connection mode, and the matched die casting die assembly is conveniently connected between the other matched plate and the die assembly and the reciprocating adjusting plate;
(4) By setting up: the spraying cleaning structure solves the problem that the die cleaning and die casting cannot be performed synchronously, when the other die casting is demolded, the linear motor unit drives the adjusting plate to perform stress motion, and when the adjusting plate drives the telescopic cylinder and the hollow cylinder to perform synchronous stress motion in the stress motion process, and when the hollow cylinder moves between the dies, the telescopic cylinder operates to adjust the hollow cylinder between the dies, the high-pressure pump extracts and conveys the release agent into the second corrugated pipe, conveys the release agent into the hydraulic rotary joint again, conveys the release agent into the hydraulic rotary joint, conveys the release agent into the branch liquid outlet pipe, and drives the hollow cylinder to perform stress rotation, and when the hollow cylinder performs stress rotation, cleaning and spraying the release agent between the dies can be performed;
(5) By the die casting die assembly: the fixed mould and the adjusting mould are arranged between the single mould groups, so that the problems that continuous die casting is impossible and the production efficiency of die castings is reduced are solved, when the fixed mould and the adjusting mould are both in 1 group, the continuous die casting forming effect of the die castings is convenient between the fixed mould and the adjusting mould, and the casting die casting forming condition that the single fixed mould and the adjusting mould cannot be used for die casting when the die castings are demolded and the die casting agent is sprayed is avoided.
Drawings
FIG. 1 is a schematic diagram of a front cross-sectional structure of the present invention;
FIG. 2 is a schematic diagram of a regulated die casting structure of the present invention;
FIG. 3 is a schematic view of the structure of the base body, base plate, first slider, bearing plate, meshing gear set, sector gear, driving motor, groove-matching strip, guiding slider, mounting plate, rack, feeding rod, plunger rod, orifice plate, air compressor and L-shaped connecting tube of the present invention;
FIG. 4 is a schematic view of the structure of the base plate, the first sliding groove, the first sliding block, the bearing plate, the sector gear, the groove matching strip, the mounting plate and the rack;
FIG. 5 is a schematic view of the structure of the base plate, the first runner, the first slider, the bearing plate, the meshing gear set, the sector gear, the driving gear, the groove matching strip, the guide slider, the mounting plate and the rack of the present invention;
FIG. 6 is a schematic view of the structure of the through hole plate, the guide chute, the through hole plate, the second slider, the elastic locking piece and the through hole matched plate;
FIG. 7 is a schematic view of the structure of the through hole mating disc, the second sliding chute and the locking limit groove of the invention;
FIG. 8 is a schematic view of a branch pipe structure according to the present invention;
FIG. 9 is a schematic view of the structure of the stop strip, groove and adjusting plug of the present invention;
FIG. 10 is a schematic view of the structure of the fixed mold, the through pipe, the through hole mating plate, the adjusting mold, the first bellows, the through hole plate and the adjusting cylinder of the present invention;
FIG. 11 is a schematic view of the structure of the adjusting die, the mounting cavity, the slide rod, the through hole block, the air bag and the branch pipe of the present invention;
FIG. 12 is an enlarged schematic view of the structure of FIG. 11A according to the present invention;
FIG. 13 is a schematic view of the structure of the fixing frame, the storage tank, the high-pressure pump, the second corrugated pipe, the mounting frame, the linear motor unit, the adjusting plate, the telescopic cylinder, the hollow tube and the hollow cylinder;
FIG. 14 is a schematic view of the structure of the hollow connecting frame, the hollow tube, the guide groove, the hollow cylinder, the spraying hole and the cleaning brush of the present invention;
FIG. 15 is a schematic view of the branched outlet pipe and the hydraulic rotary joint according to the present invention.
In the figure: 1. adjusting the die-casting structure; 101. a reciprocation adjustment assembly; 1011. a base body; 1012. a base plate; 1013. a first chute; 1014. a first slider; 1015. a bearing plate; 1016. a meshing gear set; 1017. a sector gear; 1018. a drive gear; 1019. a driving motor; 10110. groove matching strips; 10111. a guide slide block; 10112. a mounting plate; 10113. a rack; 10114. a feed rod; 10115. a plunger rod; 10116. a through hole plate; 10117. a guide chute; 10118. a through-hole tray; 10119. a second slider; 10120. an elastic locking member; 10121. an air compressor; 10122. an L connecting pipe; 102. die casting the die assembly; 1021. a fixed mold; 1022. a through pipe; 1023. a through hole matching disc; 1024. a second chute; 1025. a locking limit groove; 1026. a chute bar; 1027. adjusting a die; 1028. a mounting cavity; 1029. a slide bar; 10210. a through hole block; 10211. an air bag; 10212. an air outlet hole; 10213. a limit bar; 10214. a groove; 10215. an adjusting plug; 10216. a plurality of movable parts; 10217. a branch pipe; 10218. a ventilation plug; 10219. a first bellows; 10220. installing a through hole plate; 10221. adjusting a cylinder; 2. spraying a cleaning structure; 201. a fixing frame; 202. a storage tank; 203. a high pressure pump; 204. a second bellows; 205. a mounting frame; 206. a linear motor group; 207. an adjusting plate; 208. a telescopic cylinder; 209. a hydraulic swivel joint; 2010. a hollow connecting frame; 2011. a cavity tube; 2012. a guide groove; 2013. a hollow cylinder; 2014. a spray hole; 2015. a cleaning brush; 2016. and (5) branching the liquid outlet pipe.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1-15, the present invention provides a technical solution: the utility model provides a die casting equipment convenient to not damaged ejecting die casting, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, including adjusting die casting structure 1, adjust die casting structure 1 including the reciprocating adjustment subassembly 101 to die casting play mould subassembly 102 installation setting, and reciprocating adjustment subassembly 101 is including the base body 1011 as the basis, base body 1011 top one side is equipped with the base board 1012 of taking first spout 1013, and the inside cooperation of sliding of first spout 1013 is equipped with first slider 1014, wherein, first spout 1013 and first slider 1014 constitute relative regulation structure setting that slides relatively through the atress that above-mentioned two constitute and slide regulation structure effectively play synchronous atress and slide the auxiliary support effect with the installation.
The scheme is further that one side of the upper side of the base plate 1012 is symmetrically provided with a bearing plate 1015, the bearing plate 1015 is provided with a meshing gear set 1016 through a connecting shaft, the lower side of the meshing gear set 1016 is meshed with a sector gear 1017 to be adjusted, the sector gear 1017 is conveniently connected and fixed with a driving gear 1018 and a driving motor 1019 through the connecting shaft, wherein the base plate 1012, the meshing gear set 1016, the sector gear 1017 and the driving gear 1018 are installed and arranged in a mode of 1 group, the components are used for effectively playing a role in meshing driving adjustment and symmetric installation and arrangement when being installed and arranged in a mode of 1 group, and the reciprocating running track of the installation plate 10112 is changed through the set 1 group of sector gears 1017.
The above scheme is further, the base plate 1012 is provided with the groove matching strip 10110 through the fixing column, the groove matching strip 10110 is slidingly adjusted with the mounting plate 10112 through the guide sliding block 10111, the rack 10113 which is meshed with the meshing gear set 1016 for adjustment is arranged below the mounting plate 10112, and one side lower part of the mounting plate 10112 is fixedly connected with the first sliding block 1014 through the connecting plate, wherein the parts form a reciprocating sliding adjusting structure, and the moving track of the mounting plate 10112 is effectively changed when the reciprocating sliding adjusting structure formed by the parts is utilized to enable synchronous driving sliding adjusting effects between the die casting die assemblies 102.
The scheme is further that the groove matching strip 10110 is fixed with the feeding rod 10114 with the feeding hopper on the upper side through a fixing column and a mounting bracket, one end of the feeding rod 10114 is driven and adjusted relative to the plunger rod 10115 through the mounting bracket, the other end of the feeding rod 10114 is fixedly connected with the through hole plate 10116, one side of the through hole plate 10116 is provided with the guide chute 10117, the guide chute 10117 is fixed with the through hole plate 10118 through the through hole plate 10116, and when the feeding rod 10114 is driven and adjusted relative to the plunger rod 10115, the metal liquid is extruded and injected into the feeding rod 10114 effectively to promote the die casting of the die casting.
The scheme is further that the through hole disc 10118 is symmetrically provided with the second sliding block 10119, the second sliding block 10119 is symmetrically provided with the elastic locking piece 10120, the other side above the base plate 1012 is provided with the air compressor 10121, one side above the air compressor 10121 is fixed with the other through the L connecting pipe 10122 and the other through hole plate 10116, wherein the elastic locking piece 10120 is made of memory metal materials, the reciprocating extrusion deformation and the rapid elastic recovery limiting effect of the elastic locking piece 10120 are facilitated when the memory metal materials are used for setting, the second sliding block 10119 and the elastic locking piece 10120 are installed in a symmetrical mode, and the symmetrical limiting locking effect is effectively achieved when the elastic locking piece 10120 and the second sliding block 10119 are both provided with 1 group.
The above scheme is further that the die casting die assembly 102 includes a fixing mold 1021 with a through pipe 1022 at one side, one end of the through pipe 1022 is provided with a through hole matching disc 1023 matched with the through hole board 10116, one side of the through hole matching disc 1023 is symmetrically provided with a second sliding groove 1024, and a locking limit groove 1025 for locking and limiting the elastic locking piece 10120 is provided in the second sliding groove 1024, wherein the locking limit groove 1025 is also provided in a symmetrical manner, and the locking limit groove 1025 provided by the symmetry is effective for wrapping the elastic locking piece 10120.
The above scheme is further that the lower part of the fixing mold 1021 is installed with a chute strip 1026 with a second chute 1024, the chute strip 1026 is slidingly arranged below an adjusting mold 1027 through a second sliding block 10119, an installation cavity 1028 is formed in the adjusting mold 1027, an installation groove for installing and arranging a sliding rod 1029 is formed in one side of the installation cavity 1028, a through hole block 10210 is slidingly arranged between the sliding rods 1029, and an air bag 10211 is arranged on one side of the through hole block 10210 through a fixing plate, wherein the parts form a lifting sliding adjusting structure, and the lifting sliding interval distance effect of the through hole block 10210 is effectively changed when the lifting sliding adjusting structure formed by the parts is used.
Further, the adjusting die 1027 is provided with an air outlet hole 10212 through the mounting cavity, the inside of the air outlet hole 10212 is symmetrically provided with a limit bar 10213, meanwhile, the limit bar 10213 is in sliding adjustment with the adjusting plug 10215 through a groove 10214, one end of the adjusting plug 10215 is fixedly connected with the bottom of the through hole block 10210 through a plurality of sections of movable pieces 10216, one side of the air outlet hole 10212 is connected with one end of a branch pipe 10217 for conveying, the inside of the branch pipe 10217 is provided with a ventilation plug 10218 connected with a fixing plate, meanwhile, the other end of the branch pipe 10217 is connected with a first corrugated pipe 10219 through a pipeline connector, the other end of the first corrugated pipe 10219 is fixedly connected with another through pipe 1022 and another through hole matched disc 1023 through a mounting through a through hole plate 10220, the mounting through hole plate 10220 is in adjusting connection with the adjusting die 1027 through an adjusting cylinder 10221 and a connecting block, wherein, above-mentioned spare part constitutes die-casting jam and slides ventilative structure, the effectual molten metal's that avoids flowing into in the installation cavity 1028 inside in the die-casting process through venthole 10212 in the time of utilizing the structure that above-mentioned spare part constitutes the molten metal's of metal die-casting condition, and utilize the structure that above-mentioned spare part constitutes to make things convenient for the die-casting to pass through gaseous drawing of patterns and auxiliary cooling treatment equally, above-mentioned structure evenly distributed is convenient to the even atress drawing of patterns of die-casting in adjusting die 1027 one side simultaneously, the whole shape of branch pipe 10217 is umbrella rib structure setting in proper order, when setting up into umbrella rib structure through branch pipe 10217, not only guarantee that the gas carries out diffusion distribution through the gas of single direction transmission and carry out the gas of assurance and carry out.
As shown in fig. 10, fig. 11, fig. 12, fig. 13, fig. 14 and fig. 15, the spraying cleaning structure 2 is arranged on one side of the die casting structure 1, the spraying cleaning structure 2 comprises a fixing frame 201 with a storage box 202 on one side, a high-pressure pump 203 is arranged in the storage box 202, the high-pressure pump 203 penetrates through the fixing frame 201 and is installed and arranged at one end of a second corrugated pipe 204 through a connecting pipe, one side above the storage box 202 is connected and fixed with a remote release agent conveying device through another connecting pipe, release agent is effectively conveyed into the storage box 202 through the connecting pipe to be stored and conveyed, mechanical arms are arranged on two sides of the die casting structure 1 to take and discharge die castings, manual participation operation is avoided when the mechanical arms are arranged to take and discharge die castings, scalding caused by manual operation is avoided when the temperature existing in the die castings is also avoided, and meanwhile, molten metal is injected into the interior of a feed hopper through the mechanical arms to be extruded and injected into die casting molding.
In the above solution, a mounting frame 205 is provided on one side of the fixing frame 201, a linear motor unit 206 for driving and adjusting the adjusting plate 207 is provided in the mounting frame 205, a telescopic cylinder 208 is provided under the adjusting plate 207, an output end of the telescopic cylinder 208 is fixedly connected with one end of a hydraulic rotary joint 209, the other end of the hydraulic rotary joint 209 is fixedly installed with one end of a hollow connecting frame 2010, the other end of the hollow connecting frame 2010 penetrates through a hollow tube 2011 to be connected, a guiding groove 2012 for facilitating rotation and adjustment of the hollow connecting frame 2010 is provided in the hollow tube 2011, the other end of the hollow connecting frame 2010 is fixedly connected with a hollow tube 2013, a spraying hole 2014 is provided on the surface of the hollow tube 2013, a cleaning brush 2015 is provided on the surface of the hollow tube 2013, a branch liquid outlet tube 2016 is provided in the hollow tube 2013, one end of the branch liquid outlet tube 2016 penetrates through the hollow connecting frame 2010 to be connected with the bottom of the hydraulic rotary joint 209, the other end of the second bellows 204 penetrates through the cavity pipe 2011 and is connected with one side of the hydraulic rotary joint 209 for conveying, wherein the hollow barrel 2013 is arranged by adopting a light metal material, when the hollow barrel 2013 is installed and arranged by utilizing the light metal material, the release agent in the spraying process conveniently drives the hollow barrel 2013 to rotate under force so as to drive the cleaning brush 2015 to rotate under force, the cleaning brush 2015 rotates between the dies for cleaning, the spraying holes 2014 are arranged in an inclined way, the spraying holes 2014 are utilized to change the spraying angle and direction of the release agent, the release agent sprayed by the spraying holes 2014 drives the hollow barrel 2013 to rotate for cleaning and spraying, the two sides of the installation frame 205 and the adjusting plate 207 are also respectively provided with a first sliding groove 1013 and a first sliding block 1014, the first runner 1013 and the first slider 1014 are utilized to effectively ensure stable movement adjustment and installation adjustment support during operation of the adjustment plate 207.
In the above scheme, when die casting is needed to be die-cast, the mechanical arm injects metal liquid into the feed rod 10114 through the feed hopper, then the plunger rod 10115 operates, when the plunger rod 10115 operates, the metal liquid is injected into the through pipe 1022 and the through hole matching disk 1023 through the feed rod 10114 and the through hole plate 10116, the metal liquid entering the through hole matching disk 1023 is injected between the fixed mold 1021 and the adjusting mold 1027 to facilitate the die casting, when the die casting is die-cast, the adjusting cylinder 10221 is controlled to operate, the adjusting cylinder 10221 drives the adjusting mold 1027 to be separated from the fixed mold 1021 under force in the operation process, then the air compressor 10121 operates, the air compressor 10121 injects compressed air into the through pipe 1022 and the through hole matching disk 1023 through the L connecting pipe 10122 and the through hole plate 10116, compressed air entering the through hole matching disc 1023 is injected into the branch pipe 10217 through the first corrugated pipe 10219, compressed air entering the branch pipe 10217 is conveyed into the air sac 10211 through the branch pipe 10217, the air sac 10211 bulges to drive the through hole block 10210 to move under force, the through hole block 10210 is driven by the multi-section movable part 10216 to drive the regulating plug 10215 and the groove 10214 to be separated from the limiting strip 10213 under force in the force motion process of the through hole block 10210, when the air sac 10211 is driven to block air holes on the branch pipe 10217 in the force motion process of the air sac, the compressed air is in blowing contact with the die casting through the groove 10214 and the air outlet hole 10212 to facilitate blowing demolding treatment of the die casting, when the die casting is taken out through the mechanical arm after demolding, the driving motor 1019 operates through the driving gear 1018 to drive the sector gear 1017, the sector gear 1017 drives the mounting plate 10112 to move under force through the meshing gear set 1016 and the rack 10113 in the operation process, when the mounting plate 10112 moves under force to drive the groove matching strip 10110 and the first sliding block 1014 to move relatively with the guide sliding block 10111 and the first sliding groove 1013, and the mounting plate 10112 moves under force to drive the through pipe 1022, the through hole matching disc 1023, the second sliding groove 1024 and the locking limit groove 1025 to separate with the through hole disc 10118, the second sliding block 10119 and the elastic locking piece 10120, at this time, the other through hole matching disc 1023 and the through hole disc 10118 are connected in a matched manner, so that the continuous die casting of the die casting is formed by extrusion injection of metal liquid, when the separated adjusting die 1027 and fixed die 1021 move to the corresponding positions, the linear motor unit 206 drives the hollow cylinder 2013 to move between the adjusting die 1027 and the fixed die 1021 through the adjusting plate 207, the telescopic cylinder 208 and the second corrugated tube 204, at this time, the hollow cylinder 2013 falls between the adjusting die 1027 and the fixed die 1021 in the operation process, at this time, the high-pressure pump 203 drives the release agent to be sprayed out of the inner cavity die 2017 and the cleaning die 2014 through the rotary joint of the storage box 202 and the second corrugated tube 2014, and the cleaning agent is sprayed out of the cavity 2014.
The terms "center," "longitudinal," "transverse," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used for descriptive simplicity and convenience only and not as an indication or implying that the apparatus or element being referred to must have a particular orientation, be constructed and operated for a particular orientation, based on the orientation or positional relationship illustrated in the drawings, and thus should not be construed as limiting the scope of the present invention.
Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (9)

1. Die casting equipment convenient to not damaged ejecting die casting, its characterized in that: the spray cleaning device comprises an adjusting die-casting structure (1), wherein a spray cleaning structure (2) is arranged on one side of the adjusting die-casting structure (1);
the die casting adjusting structure (1) comprises a reciprocating adjusting assembly (101) which is arranged on a die casting die assembly (102), the reciprocating adjusting assembly (101) comprises a base body (1011) serving as a base, a base plate (1012) with a first sliding groove (1013) is arranged on one side above the base body (1011), and a first sliding block (1014) is arranged in the first sliding groove (1013) in a sliding matching manner;
a bearing plate (1015) is symmetrically arranged on one side above the base plate (1012), a meshing gear set (1016) is arranged on the bearing plate (1015) through a connecting shaft, the lower part of the meshing gear set (1016) is meshed with a sector gear (1017) for adjustment, and the sector gear (1017) is conveniently connected and fixed with a driving gear (1018) and a driving motor (1019) through the connecting shaft;
the base plate (1012) is provided with a groove matching strip (10110) through a fixing column, the groove matching strip (10110) is slidingly adjusted with the mounting plate (10112) through a guide sliding block (10111), a rack (10113) meshed with the meshing gear set (1016) is arranged below the mounting plate (10112), and one side below the mounting plate (10112) is fixedly connected with the first sliding block (1014) through a connecting plate.
2. The die casting apparatus for facilitating the atraumatic ejection of die castings according to claim 1, wherein: the feeding rod is characterized in that the groove matching strip (10110) is fixed with a feeding rod (10114) with a feeding hopper at the upper part through a fixing column and a mounting bracket, one end of the feeding rod (10114) is driven and adjusted relative to the plunger rod (10115) through the mounting bracket, the other end of the feeding rod (10114) is fixedly connected with a through hole plate (10116), one side of the through hole plate (10116) is provided with a guide chute (10117), and the guide chute (10117) is fixed with a through hole plate (10118) through the through hole plate (10116).
3. A die casting apparatus for facilitating the atraumatic ejection of die castings according to claim 2, wherein: the through hole disc (10118) is symmetrically provided with a second sliding block (10119), the second sliding block (10119) is symmetrically provided with an elastic locking piece (10120), the other side above the base plate (1012) is provided with an air compressor (10121), and one side above the air compressor (10121) is fixedly connected with the other through hole plate (10116) through an L-shaped connecting pipe (10122).
4. A die casting apparatus for facilitating the atraumatic ejection of die castings according to claim 1, wherein: the die-casting demolding assembly (102) comprises a fixed mold (1021) with a through pipe (1022) at one side, a through hole matched disc (1023) matched with the through hole plate (10116) is arranged at one end of the through pipe (1022), a second sliding groove (1024) is symmetrically formed in one side of the through hole matched disc (1023), and a locking limiting groove (1025) for limiting the elastic locking piece (10120) is formed in the second sliding groove (1024).
5. The die casting apparatus for facilitating atraumatic ejection of die castings according to claim 4, wherein: the fixed die is characterized in that a chute strip (1026) with a second chute (1024) is arranged below the fixed die (1021), the chute strip (1026) slides below the adjusting die (1027) through a second sliding block (10119), an installation cavity (1028) is formed in the adjusting die (1027), an installation groove for installing and arranging a sliding rod (1029) is formed in one side of the inside of the installation cavity (1028), a through hole block (10210) is arranged between the sliding rods (1029) in a sliding mode, and an air bag (10211) is arranged on one side of the through hole block (10210) through a fixing plate.
6. The die casting apparatus for facilitating atraumatic ejection of die castings according to claim 5, wherein: the utility model discloses a device for adjusting the temperature of a corrugated pipe, including adjusting mould (1027), mounting cavity (1028), vent hole (10212) have been offered in link up, and vent hole (10212) inside symmetry is equipped with spacing (10213), and spacing (10213) are adjusted through recess (10214) and regulation stopper (10215) sliding simultaneously, regulation stopper (10215) one end is through multisection movable part (10216) and through-hole piece (10210) bottom fixed connection, vent hole (10212) one side is connected with branch pipe (10217) one end and is carried, and branch pipe (10217) inside be equipped with fixed plate connected's ventilation stopper (10218), and the while branch pipe (10217) other end is connected with first bellows (10219) through pipe connection with running through adjusting mould (1027), first bellows (10219) other end runs through mounting through-hole board (10220) and another through-hole supporting dish (1023) fixed connection, mounting through-hole board (10220) is connected with adjusting mould (1027) regulation through adjusting cylinder (21).
7. A die casting apparatus for facilitating the atraumatic ejection of die castings according to claim 1, wherein: the spraying cleaning structure (2) comprises a fixing frame (201) with a storage box (202) at one side, a high-pressure pump (203) is arranged in the storage box (202), the high-pressure pump (203) penetrates through the fixing frame (201) through a connecting pipe and is fixedly installed at one end of a second corrugated pipe (204), and one side above the storage box (202) is fixedly connected with a remote release agent conveying device through another connecting pipe.
8. The die casting apparatus for facilitating atraumatic ejection of die castings according to claim 7, wherein: the utility model discloses a hydraulic rotary joint, including mount (201), cavity pipe (2011) is connected, mount (201) one side is equipped with installing frame (205), and inside linear motor group (206) that are equipped with to regulation board (207) drive regulation of installing frame (205), regulating plate (207) below is equipped with flexible cylinder (208), and flexible cylinder (208) output and hydraulic rotary joint (209) one end fixed connection, hydraulic rotary joint (209) other end and cavity link (2010) one end installation are fixed, and cavity link (2010) other end runs through cavity pipe (2011) and is connected, cavity pipe (2011) inside has been seted up and has been made things convenient for cavity link (2010) to rotate guide groove (2012) of regulation.
9. The die casting apparatus for facilitating atraumatic ejection of die castings according to claim 8, wherein: the hollow connecting frame (2010) other end is fixed with the hollow cylinder (2013), and spray holes (2014) are formed in the surface of the hollow cylinder (2013), a cleaning brush (2015) is arranged on the surface of the hollow cylinder (2013), a branch liquid outlet pipe (2016) is arranged in the hollow cylinder (2013), one end of the branch liquid outlet pipe (2016) penetrates through the hollow connecting frame (2010) to be connected with the bottom of the hydraulic rotary joint (209), and the other end of the second corrugated pipe (204) penetrates through the hollow pipe (2011) to be connected with one side of the hydraulic rotary joint (209).
CN202311726734.3A 2023-12-15 2023-12-15 Die casting equipment convenient to ejecting die casting of no damage Active CN117773064B (en)

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Application Number Priority Date Filing Date Title
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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2159025A1 (en) * 1994-09-26 1996-03-27 Lewis Gene Freeman Die Cast Vacuum Valve
WO2014146323A1 (en) * 2013-03-19 2014-09-25 江苏新美星包装机械股份有限公司 Link mechanism for opening and closing die and positioning bottom die by single shaft
CN109249001A (en) * 2018-12-06 2019-01-22 龙口盛福达食品有限公司 A kind of die-casting machine tool with automatic part picking spraying function
CN216424184U (en) * 2021-12-10 2022-05-03 江苏特能鼎特种装备制造有限公司 Vertical lifting tail plate for van

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2159025A1 (en) * 1994-09-26 1996-03-27 Lewis Gene Freeman Die Cast Vacuum Valve
WO2014146323A1 (en) * 2013-03-19 2014-09-25 江苏新美星包装机械股份有限公司 Link mechanism for opening and closing die and positioning bottom die by single shaft
CN109249001A (en) * 2018-12-06 2019-01-22 龙口盛福达食品有限公司 A kind of die-casting machine tool with automatic part picking spraying function
CN216424184U (en) * 2021-12-10 2022-05-03 江苏特能鼎特种装备制造有限公司 Vertical lifting tail plate for van

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