CN113680988A - Die-casting equipment with automatic quick material structure of getting - Google Patents

Abstract

The invention relates to the technical field of die casting equipment, in particular to die casting equipment with an automatic rapid material taking structure, which comprises a die casting machine, wherein the die casting machine comprises a base, an outer frame is fixedly installed at the top of the base, a top plate is fixedly installed at the top of the outer frame, a hydraulic push rod is installed at the middle position of the top plate, an upper die is fixedly installed on a pushing shaft at the lower end of the hydraulic push rod, and a lower die is arranged right below the upper die. According to the invention, the swing arm is rotatably connected to the bearing table through the shaft barrel, the rack can be driven to move up and down to provide power by virtue of the meshing drive between the rack and the transmission gear and the meshing drive between the bevel gear II and the bevel gear I when the upper die moves up and down, and the swing arm is driven to synchronously rotate and swing back and forth, so that the grabbing mechanism is driven to circularly and continuously perform linkage material taking, the material taking rapidity of the device is effectively improved, the manual operation of workers is not needed, the linkage is simple, and the equipment investment cost is greatly reduced.

Description

Die-casting equipment with automatic quick material structure of getting

Technical Field

The invention relates to the technical field of die-casting equipment, in particular to die-casting equipment with an automatic rapid material taking structure.

Background

In the existing machining field, various die-casting devices are usually applied, product parts with different specifications and sizes can be die-cast and produced according to production requirements by means of up-down movement of an upper die in a die-casting die and matching with a lower die through extrusion and shaping of an internal cavity, and the die-casting die is an important processing means in the existing manufacturing and production;

die-casting equipment is used in machining production today, for reducing equipment running cost, it is when production, after die-casting, adopt the manual product with die-casting shaping of staff to take out usually, staff's hand directly probes into and takes between die casting die's the last lower mould when actual operation, if the mould is closed suddenly in the operation process, the reaction time who leaves for the staff is short excessively, extremely take place dangerous accident easily, lead to the limb to be wounded, and manual material efficiency of getting is slower, be unfavorable for promoting production efficiency, and if adopt electronic manipulator to replace the staff and get the material operation, then can lead to equipment cost input in earlier stage too big, and too accurate electronic manipulator programming operation is too loaded down with trivial details, be unfavorable for the rapid operation use of equipment. We propose a die casting apparatus with an automatic fast material taking structure to solve the above problems.

Disclosure of Invention

The invention aims to provide a die-casting device with an automatic and rapid material taking structure, which is used for solving the problems that in the prior art, the die-casting device for machining provided by the background art adopts workers to take materials manually, the material taking speed is too slow, and safety accidents are easy to happen.

In order to achieve the purpose, the invention provides the following technical scheme: the die-casting equipment with the automatic rapid material taking structure comprises a die-casting machine, wherein the die-casting machine comprises a base, an outer frame is fixedly mounted at the top of the base, a top plate is fixedly mounted at the top of the outer frame, a hydraulic push rod is mounted at the middle position of the top plate, an upper die is fixedly mounted on a pushing shaft at the lower end of the hydraulic push rod, a lower die is arranged right below the upper die, the lower die is fixedly mounted at the top of the base, an operating table is fixedly mounted on the front of the base, an air pump is fixedly mounted on the side wall of the base, and a linkage mechanism is mounted on the left side of the die-casting machine;

the linkage mechanism comprises a bearing table, the bearing table is fixedly mounted on the left side of the base, a shaft cylinder is rotatably connected to the middle position of the top of the bearing table, a swing arm is fixedly connected to the outer side of the upper portion of the shaft cylinder, a grabbing mechanism is fixedly mounted at the other end of the swing arm, a first bevel gear is fixedly connected to the outer wall of the shaft cylinder in a sleeved mode, the top of the bearing table is longitudinally rotatably connected with a transmission shaft rod, a second bevel gear is fixedly mounted at one end of the front of the transmission shaft rod, the second bevel gear is in meshing transmission connection with the first bevel gear, a transmission gear is fixedly mounted at one end of the back of the transmission shaft rod, a rack is in meshing connection with the outer side of the transmission gear, and the top of the rack is fixedly connected with the side wall of the upper die.

Preferably, the positive left side of outer frame is provided with the breach, the equal welded fastening of bottom four corners position department of roof has a gag lever post, and four groups the gag lever post all runs through the inside of inserting and establishing at last mould, sliding connection between last mould and the gag lever post, openly the left side is a set of the bottom of gag lever post is unsettled form, other three groups fixed connection between the bottom of gag lever post all and the base.

Preferably, the positive left side is a set of the outside cover of gag lever post is equipped with an extension section of thick bamboo, and extends a welded fastening at the top of last mould, sliding connection between an extension section of thick bamboo and the gag lever post, the vertical inserted bar that is fixed with in positive left side bottom corner department of going up the mould, and be provided with spacing hole under the inserted bar, and spacing hole fixed mounting is at the top of base.

Preferably, the upper portion of the swing arm is provided with a first air pipe, one end of the first air pipe is rotatably communicated with the top of the shaft cylinder, the bottom of the shaft cylinder penetrates through the bearing table, the bottom of the shaft cylinder is rotatably communicated with a second air pipe, and the other end of the second air pipe is fixedly communicated with the inside of the air pump.

Preferably, a sliding rail is vertically fixed on the outer wall of the left side of the bearing table, a balance rod is fixedly welded to the bottom of the rack, the other end of the balance rod is inserted into the sliding rail, and the balance rod is connected with the sliding rail in a sliding mode.

Preferably, snatch the mechanism including the girder board, and girder board welded fastening keeps away from the one end bottom of plummer on the beam barrel, the appearance of girder board is rectangular form, the inside left and right sides symmetry of girder board vertically runs through and inserts and be equipped with the spline axostylus axostyle, and every group the spline axle sleeve has all been cup jointed in the both ends outside around the spline axostylus axostyle, every group equal fixed welding has vice roof beam board, every group on the spline axle sleeve the silica gel sucking disc is all installed to the inside of vice roof beam board, and fixed intercommunication between the top of silica gel sucking disc and the trachea one.

Preferably, the outer shapes of the front end and the rear end of the spline shaft rod are square rod-shaped, the inner size of the spline shaft sleeve is matched with the outer size of the spline shaft rod, the auxiliary beam plate is connected with the spline shaft rod in a front-back sliding mode through the spline shaft sleeve, each group of spline shaft rod is provided with connecting plates symmetrically fixed on the outer walls of the front side and the rear side of the spline shaft rod, each group of connecting plates is rotatably connected with a screw rod, each group of auxiliary beam plate is fixedly welded with a threaded sleeve, the threaded sleeves are sleeved on the corresponding outer sides of the screw rods, and the screw rods are connected with the threaded sleeves in a meshed mode.

Preferably, every group logical groove has all been seted up to the inside of auxiliary girder board, and fixed welding has the gib block on the inner wall that leads to the groove, the inside of auxiliary girder board is inserted and is equipped with the slip pipe, and the laminating of fixed welded ring is in the bottom of gib block on the outer wall of slip pipe below, sliding connection between slip pipe and the gib block, the top outside cover of slip pipe is equipped with presses the cover, the outside cover of slip pipe is equipped with the spring, and the bottom fixed connection of spring is in the top of pressing the cover, the top fixed connection of spring is at the top of slip pipe, press the top of cover at the gib block through the elastic support laminating of spring, the fixed intercommunication of silica gel sucking disc is in the bottom of slip pipe, and the silica gel sucking disc passes through fixed intercommunication between slip pipe and the trachea one.

Preferably, the spline shaft lever and the girder plate are connected in a rotating mode, a worm wheel is fixedly welded at the middle position of each spline shaft lever, the worm wheels are located inside the girder plate, the inside of the girder plate is transversely connected with a rotating rod in a rotating mode, worms are symmetrically and fixedly welded at the left end and the right end of the outer side of the rotating rod, the two worms are respectively in meshed transmission connection with the two worm wheels, and the threads assembled on the outer sides of the worm wheels are opposite in direction.

Compared with the prior art, the invention has the beneficial effects that:

1. the swing arm is rotatably connected to the bearing table through the shaft barrel, meanwhile, the meshing drive between the rack and the transmission gear and the meshing drive between the bevel gear II and the bevel gear I are used, the rack can be driven to move up and down to provide power when the upper die of the device moves up and down to perform die opening and closing pressing operation, the synchronous swing arm can rotate to swing back and forth, so that the grabbing mechanism is driven to perform continuous linkage material taking, the material taking rapidity of the device is effectively improved, manual operation of workers is not needed, linkage is simple, and the equipment investment cost is greatly reduced;

2. the gap is formed in the position on the left side of the front face of the outer frame, the bottoms of a group of limiting rods on the left side of the front face are suspended, sufficient action space can be provided for swinging of the swing arm, meanwhile, the extending barrel is arranged on the outer side of the limiting rods in a sleeved mode, the matched inserting rods can be correspondingly inserted into the limiting holes through lifting, the matched inserting rods and the limiting rods are matched and limited with each other, the structural stability of the device can be conveniently guaranteed, and the stability of the upper die during up-and-down movement can be guaranteed;

3. through setting up threaded engagement between swivel nut and the screw rod and being connected, the cooperation sets up the slip tube and can carry out the horizontal slip regulation for vice roof beam board, make the position of silica gel sucking disc can change in a flexible way, the device of being convenient for is applicable to the product of different specifications size and gets the material, and simultaneously, be connected through setting up the meshing transmission between worm wheel and the worm, make and to drive two sets of worm wheel synchronous revolution regulation in the left and right sides through rotatory bull stick, thereby change the inclination of vice roof beam board, be convenient for make the silica gel sucking disc laminate with the unsmooth inclined position in surface of product more, effectual the device of having ensured when getting the material holds stability to the absorption of product.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 drawings without creative efforts.

FIG. 1 is a schematic perspective front view of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a perspective view of the gripping mechanism of the present invention after it has been rotated out;

FIG. 4 is a schematic structural perspective back view of the present invention;

FIG. 5 is a schematic perspective view of the structure of the rack, the slide rail and the balance bar of the present invention;

FIG. 6 is a perspective view of the grasping mechanism according to the present invention;

FIG. 7 is a perspective view of the internal structure of the grasping mechanism according to the present invention;

fig. 8 is a schematic three-dimensional split view of the structure of the sliding tube, the pressing sleeve and the spring.

In the figure: 100. die casting machine; 101. a base; 102. an outer frame; 103. a top plate; 104. a hydraulic push rod; 105. an upper die; 106. a lower die; 107. a limiting rod; 108. an extension cylinder; 109. inserting a rod; 110. a limiting hole; 111. an operation table; 112. an air pump; 200. a linkage mechanism; 201. a bearing table; 202. a shaft cylinder; 203. swinging arms; 204. a first trachea; 205. a second trachea; 206. a first bevel gear; 207. a drive shaft; 208. a second bevel gear; 209. a transmission gear; 210. a rack; 211. a slide rail; 212. a balancing pole; 300. a grabbing mechanism; 301. a main beam panel; 302. a splined shaft; 303. a spline shaft sleeve; 304. a secondary beam plate; 305. conducting bars; 306. a sliding tube; 307. pressing the sleeve; 308. a spring; 309. a silica gel sucker; 310. a connecting plate; 311. a screw; 312. a threaded sleeve; 313. a worm gear; 314. a rotating rod; 315. a worm.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an embodiment of the present invention: a die casting device with an automatic quick material taking structure comprises a die casting machine 100, wherein the die casting machine 100 comprises a base 101, an outer frame 102 is fixedly installed at the top of the base 101, a top plate 103 is fixedly installed at the top of the outer frame 102, a hydraulic push rod 104 is installed at the middle position of the top plate 103, an upper die 105 is fixedly installed on a pushing shaft at the lower end of the hydraulic push rod 104, a lower die 106 is arranged right below the upper die 105, the lower die 106 is fixedly installed at the top of the base 101, an operating table 111 is fixedly installed on the front surface of the base 101, an air pump 112 is fixedly installed on the side wall of the base 101, and a linkage mechanism 200 is installed on the left side of the die casting machine 100;

the linkage mechanism 200 comprises a bearing platform 201, the bearing platform 201 is fixedly arranged on the left side of a base 101, a shaft cylinder 202 is rotatably connected to the middle position of the top of the bearing platform 201, a swing arm 203 is fixedly connected to the outer side of the upper portion of the shaft cylinder 202, a grabbing mechanism 300 is fixedly arranged at the other end of the swing arm 203, a first bevel gear 206 is fixedly sleeved on the outer wall of the shaft cylinder 202, a transmission shaft rod 207 is longitudinally and rotatably connected to the top of the bearing platform 201, a second bevel gear 208 is fixedly arranged at one end of the front face of the transmission shaft rod 207, the second bevel gear 208 is in meshing transmission connection with the first bevel gear 206, a transmission gear 209 is fixedly arranged at one end of the back face of the transmission shaft rod 207, a rack 210 is in meshing connection with the outer side of the transmission gear 209, the top of the rack 210 is fixedly connected with the side wall of an upper die 105, when the device works, a hydraulic push rod 104 is electrically started, the lower end pushes the shaft to perform up-and down telescopic motion, thereby driving the upper die 105 to do up-and-down reciprocating movement, performing press-fitting and die-casting production with the lower die 106 by up-and-down movement of the upper die 105, driving the rack 210 fixedly connected on the left side of the upper die 105 to synchronously move in the downward movement process of the upper die 105, enabling the transmission gear 209 to rotate by means of tooth meshing between the rack 210 and the transmission gear 209, enabling the transmission gear 209 to rotate, enabling the bevel gear II 208 to rotate by means of connection of the transmission shaft rod 207, enabling the shaft cylinder 202 to rotate by means of meshing transmission between the bevel gear II 208 and the bevel gear I206 to enable the swing arm 203 to swing clockwise, moving the grabbing mechanism 300 from the top of the lower die 106 to the top of the operating platform 111, driving the swing arm 203 to rotate counterclockwise by means of opposite transmission directions in the upward movement process of the upper die 105, and driving the grabbing mechanism 300 to move to the top of the lower die 106 by means of the rack 210, the linkage mechanism 200, The transmission gear 209, the transmission shaft rod 207, the bevel gear II 208 and the bevel gear I206 are driven in a linkage manner, so that when the upper die 105 and the lower die 106 are opened, the grabbing mechanism 300 rotates to the top of the lower die 106 to grab a pressed product, when the pressing die is closed between the upper die 105 and the lower die 106, the grabbing mechanism 300 rotates to the top of the operating platform 111 to perform blanking, the grabbing mechanism 300 moves up and down along with the upper die 105 to perform reciprocating swing, automatic and rapid material taking of the device is effectively guaranteed, the production efficiency of the device is convenient to improve, manual material taking of workers is not needed, and the safety of the device during working and using is effectively guaranteed;

furthermore, a notch is arranged on the left side of the front face of the outer frame 102, limiting rods 107 are welded and fixed at four corners of the bottom of the top plate 103, four sets of limiting rods 107 are inserted into the upper die 105 in a penetrating manner, the upper die 105 is connected with the limiting rods 107 in a sliding manner, the bottoms of one set of limiting rods 107 on the left side of the front face are in a suspended state, the bottoms of the other three sets of limiting rods 107 are fixedly connected with the base 101, when the device works, an opening is formed in the left side position of the front face of the outer frame 102, so that the reciprocating swing stability of the swing arm 203 is ensured, meanwhile, the four sets of limiting rods 107 are inserted into the four corners of the upper die 105 in a sliding manner, by means of limitation of the limiting rods 107, the up-and-down movement stability of the upper die 105 is effectively ensured, the upper die 105 is prevented from shifting when moving up and down, and meanwhile, the bottoms of one set of the limiting rods 107 on the left side of the front face are in a suspended state, the situation that the swing arm 203 drives the grabbing mechanism 300 to move back and forth is effectively avoided, and the device is beneficial to running stably;

furthermore, an extension cylinder 108 is sleeved outside the group of limiting rods 107 on the left side of the front surface of the upper die 105, the extension cylinder 108 is welded and fixed to the top of the upper die 105, the extension cylinder 108 is connected with the limiting rods 107 in a sliding mode, inserting rods 109 are vertically fixed to corners of the bottom of the left side of the front surface of the upper die 105, limiting holes 110 are formed in the positions right below the inserting rods 109, and the limiting holes 110 are fixedly installed on the top of the base 101;

furthermore, a first air pipe 204 is arranged above the swing arm 203, one end of the first air pipe 204 is rotatably communicated with the top of the shaft cylinder 202, the bottom of the shaft cylinder 202 penetrates through the bearing table 201, the bottom of the shaft cylinder 202 is rotatably communicated with a second air pipe 205, and the other end of the second air pipe 205 is fixedly communicated with the inside of the air pump 112;

further, a sliding rail 211 is vertically fixed on the outer wall of the left side of the bearing table 201, a balance bar 212 is fixedly welded to the bottom of the rack 210, the other end of the balance bar 212 is inserted into the sliding rail 211, and the balance bar 212 is connected with the sliding rail 211 in a sliding manner;

further, the grabbing mechanism 300 comprises a main beam plate 301, the main beam plate 301 is welded and fixed at the bottom of one end, far away from the bearing table 201, of the shaft cylinder 202, the shape of the main beam plate 301 is long, spline shaft rods 302 are symmetrically and longitudinally inserted in the left side and the right side of the interior of the main beam plate 301, spline shaft sleeves 303 are sleeved on the outer sides of the front end and the rear end of each spline shaft rod 302, auxiliary beam plates 304 are fixedly welded on each spline shaft sleeve 303, a silica gel sucker 309 is installed in each auxiliary beam plate 304, the top of each silica gel sucker 309 is fixedly communicated with a first air pipe 204, when the device works, the air pump 112 is powered on and started, through the communication of the first air pipe 204 and a second air pipe 205, the silica gel sucker 309 is controlled to perform air pumping and exhausting operations, the air in the silica gel sucker 309 is pumped under the action of air pressure, the bottom of the silica gel sucker 309 is tightly adsorbed on a product, when the interior of the silica gel sucker is deflated, the adsorption of the product is released, and the product is taken by controlling the air pressure in the silica gel sucker 309;

furthermore, the front end and the rear end of the spline shaft lever 302 are square rod-shaped, the inner size of the spline shaft sleeve 303 is matched with the outer size of the spline shaft lever 302, the auxiliary beam plate 304 is connected with the spline shaft lever 302 in a front-back sliding manner through the spline shaft sleeve 303, the outer walls of the front side and the rear side of each spline shaft lever 302 are symmetrically fixed with connecting plates 310, each connecting plate 310 is rotatably connected with a screw 311, each auxiliary beam plate 304 is fixedly welded with a screw sleeve 312, the screw sleeve 312 is sleeved on the outer side of the corresponding screw 311, the screw rods 311 are connected with the screw sleeves 312 in a threaded engagement manner, when the device works, the front end and the rear end of the spline shaft lever 302 are square rod-shaped, the inner size of the spline shaft sleeve 303 is matched with the outer size of the spline shaft lever 302, so that the spline shaft sleeve 303 and the spline shaft lever 302 can only slide back and forth, and the relative rotation between the spline shaft sleeve 303 and the spline shaft lever 302 is limited, the threaded sleeve 312 is connected with the screw 311 in a threaded engagement manner, so that when the device is used in work, the threaded sleeve 312 can be driven to move back and forth by rotating the screw 311, the position of the auxiliary beam plate 304 in the front and back direction can be adjusted, the position of the silica gel sucker 309 in the front and back direction can be conveniently adapted to a product after being adjusted, and the use adaptability of the device is effectively improved;

furthermore, a through groove is formed inside each set of secondary beam plates 304, a guide bar 305 is fixedly welded on the inner wall of the through groove, a sliding tube 306 is inserted inside each secondary beam plate 304, a circular ring fixedly welded on the outer wall below the sliding tube 306 is attached to the bottom of the guide bar 305, the sliding tube 306 is slidably connected with the guide bar 305, a pressing sleeve 307 is sleeved on the outer side above the sliding tube 306, a spring 308 is sleeved on the outer side of the sliding tube 306, the bottom of the spring 308 is fixedly connected above the pressing sleeve 307, the top of the spring 308 is fixedly connected to the top of the sliding tube 306, the pressing sleeve 307 is attached to the top of the guide bar 305 through the elastic support of the spring 308, a silica gel sucker 309 is fixedly communicated with the bottom of the sliding tube 306, and the silica gel sucker 309 is fixedly communicated with the first air pipe 204 through the sliding tube 306, when the device works, the sliding tube 306 is embedded into the through groove inside each secondary beam plate 304 and is slidably connected with the through groove inside each secondary beam plate 304, therefore, the position of the sliding tube 306 can be adjusted leftwards and rightwards, the position of the silica gel sucker 309 in the left and right direction can be conveniently adjusted and changed, the adaptability of the device is further improved, meanwhile, the pressing sleeve 307 is clamped on the upper side and the lower side of the guide bar 305 in a manner that the pressing sleeve 307 is matched with a circular ring fixed on the outer wall of the sliding tube 306 through elastic support of the spring 308, so that the position stability of the sliding tube 306 after adjustment is guaranteed, the spring 308 is contracted through lifting, the pressing sleeve 307 is separated from the guide bar 305, and the sliding tube 306 can be conveniently moved and adjusted;

further, the spline shaft rods 302 are rotatably connected with the main beam plate 301, a worm wheel 313 is fixedly welded at the middle position of each group of spline shaft rods 302, and the worm wheel 313 is positioned inside the girder plate 301, the inside of the girder plate 301 is laterally and rotatably connected with the rotating rod 314, and the left and right ends of the outer side of the rotating rod 314 are symmetrically and fixedly welded with worms 315, the two sets of worms 315 are respectively meshed with the two sets of worm wheels 313 for transmission connection, the directions of the threads assembled on the outer sides of the two sets of worm wheels 313 on the left and right sides are opposite, in operation, the device is actuated by rotating the rotary rod 314, by means of the toothed engagement between the worm 315 and the worm wheel 313, so that the spline shafts 302 installed on the left and right sides of the girder plate 301 can rotate relatively in synchronization, the corresponding auxiliary beam plate 304 is driven to incline, and the device can be more conveniently attached to the upper surface of a product by adjusting the inclination angle of the auxiliary beam plate 304, so that the stability of the product grabbing by the grabbing mechanism 300 of the device is effectively improved;

the working principle is as follows: when the device works, a worker connects the device with an external power supply through an external lead, so that the external power supply provides electric power support for the device, and then the worker controls the device to be powered on and started;

when the device works, the hydraulic push rod 104 is powered on and started, the pushing shaft at the bottom of the hydraulic push rod 104 moves downwards to drive the upper die 105 fixed at the lower end of the pushing shaft to move downwards for die closing operation, after die closing and pressing are finished, the hydraulic push rod 104 drives the upper die 105 to move upwards, in the process of upward movement of the upper die 105, the rack 210 fixedly connected to the outer wall of the upper die 105 is driven by the upper die 105 to move upwards, the transmission shaft rod 207 rotates by means of tooth meshing transmission between the rack 210 and the transmission gear 209, the bevel gear II 208 fixedly mounted at the other end of the transmission shaft rod is driven to rotate, when the bevel gear II 208 rotates, the bevel gear I206 drives the shaft cylinder 202 to rotate anticlockwise through the meshing transmission between the bevel gear II and the bevel gear I206, the shaft cylinder 202 rotates anticlockwise to drive the swing arm 203 to rotate, and the grabbing mechanism 300 moves to the top of the lower die 106;

when the mold is in work, the air pump 112 is powered on, air is pumped out of the interior of the silica gel sucker 309 through the communication between the air pipe II 205 and the air pipe I204, and the silica gel sucker 309 sucks a molded product in the lower mold 106 under the action of air pressure adsorption;

during operation, when the upper die 105 continues to move downwards, reverse transmission is performed inside the relative linkage mechanism 200, so that the grabbing mechanism 300 rotates to the top of the operating platform 111, then the air pump 112 controls the silica gel sucker 309 to perform air leakage operation inside, the silica gel sucker 309 releases adsorption on a product, the product falls and is taken down, during operation, the upper die 105 reciprocates up and down, and the corresponding grabbing mechanism 300 reciprocates on the tops of the lower die 106 and the operating platform 111 to quickly take materials;

before working, a worker can adjust the grabbing mechanism 300 according to the requirement during production, and adjust the position of the silica gel sucker 309, so that the position angle of the silica gel sucker 309 is changed;

during work, a worker drives the worm 315 fixed on the outer side of the rotating rod 314 to rotate through rotating, and drives the spline shaft rod 302 to rotate through tooth meshing transmission between the worm 315 and the worm wheel 313, so that the auxiliary beam plate 304 rotates and inclines, the inclination angle of the silica gel sucker 309 is adjusted, and the silica gel sucker 309 can be attached to the inclined surface of a product in a more adaptive manner;

during operation, a worker rotates the screw 311, the screw 312 can drive the auxiliary beam plate 304 to move back and forth through threaded engagement between the screw 311 and the screw 312, so that the position of the silica gel sucker 309 in the front and back direction is adjusted, the worker holds the pressing sleeve 307 to lift upwards, the pressing sleeve 307 is separated from the guide bar 305, then the worker slides left and right to adjust the position of the silica gel sucker 309 in the left and right direction, when the lifting of the pressing sleeve 307 is released, the pressing sleeve 307 can be tightly pressed on the top of the guide bar 305 under the elastic support of the spring 308, the stability of the silica gel sucker 309 after position adjustment is guaranteed, and the device can be adapted to suck products of different specifications through flexible adjustment of the position of the silica gel sucker 309.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a die-casting equipment with automatic material structure of getting fast, includes die casting machine (100), its characterized in that: the die casting machine (100) comprises a base (101), an outer frame (102) is fixedly mounted at the top of the base (101), a top plate (103) is fixedly mounted at the top of the outer frame (102), a hydraulic push rod (104) is mounted at the middle position of the top plate (103), an upper die (105) is fixedly mounted on a pushing shaft at the lower end of the hydraulic push rod (104), a lower die (106) is arranged under the upper die (105), the lower die (106) is fixedly mounted at the top of the base (101), an operating table (111) is fixedly mounted at the front of the base (101), an air pump (112) is fixedly mounted on the side wall of the base (101), and a linkage mechanism (200) is mounted on the left side of the die casting machine (100);

the linkage mechanism (200) comprises a bearing table (201), the bearing table (201) is fixedly installed on the left side of the base (101), a shaft cylinder (202) is rotatably connected to the middle position of the top of the bearing table (201), a swing arm (203) is fixedly connected to the outer side of the upper portion of the shaft cylinder (202), a grabbing mechanism (300) is fixedly installed at the other end of the swing arm (203), a first bevel gear (206) is fixedly sleeved on the outer wall of the shaft cylinder (202), a transmission shaft rod (207) is longitudinally and rotatably connected to the top of the bearing table (201), a second bevel gear (208) is fixedly installed at one end of the front face of the transmission shaft rod (207), the second bevel gear (208) is in meshing transmission connection with the first bevel gear (206), a transmission gear (209) is fixedly installed at one end of the back face of the transmission shaft rod (207), and a rack (210) is in meshing connection with the outer side of the transmission gear (209), the top of the rack (210) is fixedly connected with the side wall of the upper die (105).

2. The die casting equipment with the automatic quick material taking structure as claimed in claim 1, wherein: the front left side of outer frame (102) is provided with the breach, the equal welded fastening of bottom four corners position department of roof (103) has gag lever post (107), and four groups gag lever post (107) all run through and insert the inside of establishing in last mould (105), go up sliding connection between mould (105) and gag lever post (107), it is a set of in the front left side the bottom of gag lever post (107) is unsettled form, other three groups fixed connection between the bottom of gag lever post (107) all and base (101).

3. The die casting equipment with the automatic quick material taking structure as claimed in claim 2, wherein: the front left side is a set of the outside cover of gag lever post (107) is equipped with an extension section of thick bamboo (108), and extends a section of thick bamboo (108) welded fastening and go up the top of mould (105), sliding connection between an extension section of thick bamboo (108) and gag lever post (107), the front left side bottom corner department of going up mould (105) is vertically fixed with inserted bar (109), and is provided with spacing hole (110) under inserted bar (109), and spacing hole (110) fixed mounting is at the top of base (101).

4. The die casting equipment with the automatic quick material taking structure as claimed in claim 1, wherein: the upper portion of swing arm (203) is provided with trachea one (204), and the one end of trachea one (204) rotates the top that communicates at a beam barrel (202), plummer (201) is run through to the bottom of beam barrel (202), and the bottom of beam barrel (202) rotates the intercommunication and has trachea two (205), the other end of trachea two (205) is fixed to be communicated in the inside of air pump (112).

5. The die casting equipment with the automatic quick material taking structure as claimed in claim 1, wherein: the bearing platform is characterized in that a sliding rail (211) is vertically fixed on the outer wall of the left side of the bearing platform (201), a balance rod (212) is fixedly welded at the bottom of the rack (210), the other end of the balance rod (212) is inserted into the sliding rail (211), and the balance rod (212) is connected with the sliding rail (211) in a sliding mode.

6. The die casting equipment with the automatic quick material taking structure as claimed in claim 4, wherein: snatch mechanism (300) including girder plate (301), and girder plate (301) welded fastening keeps away from the one end bottom of plummer (201) on axle sleeve (202), the appearance of girder plate (301) is rectangular form, the bilateral symmetry is vertically run through and is inserted and be equipped with spline axostylus axostyle (302) about the inside of girder plate (301), and every group spline axostylus axostyle (302) all has cup jointed spline axle sleeve (303), every group equal fixed welding has vice beam plate (304), every group on spline axle sleeve (303) the inside of vice beam plate (304) all installs silica gel sucking disc (309), and fixed intercommunication between the top of silica gel sucking disc (309) and trachea (204).

7. The die casting equipment with the automatic quick material taking structure as claimed in claim 6, wherein: the outer appearance of both ends is square rod shape around spline axostylus axostyle (302), the inside dimension of spline axle sleeve (303) and the outside size looks adaptation of spline axostylus axostyle (302), sliding connection around vice roof beam board (304) passes through between spline axle sleeve (303) and spline axostylus axostyle (302), every group symmetry form is fixed with connecting plate (310) on the both sides outer wall around spline axostylus axostyle (302), and every group all rotate on connecting plate (310) and be connected with screw rod (311), every group all fixed welding has swivel nut (312) on vice roof beam board (304), and swivel nut (312) cover is established and is corresponded the outside of screw rod (311), be connected through thread engagement between screw rod (311) and swivel nut (312).

8. The die casting equipment with the automatic quick material taking structure as claimed in claim 7, wherein: a through groove is arranged inside each group of the auxiliary beam plates (304), a guide bar (305) is fixedly welded on the inner wall of the through groove, a sliding pipe (306) is inserted inside each auxiliary beam plate (304), and the outer wall below the sliding tube (306) is fixedly welded with a circular ring which is attached to the bottom of the conducting bar (305), the sliding tube (306) is connected with the guide bar (305) in a sliding manner, a pressing sleeve (307) is sleeved on the outer side above the sliding tube (306), a spring (308) is sleeved on the outer side of the sliding tube (306), the bottom of the spring (308) is fixedly connected above the pressing sleeve (307), the top of the spring (308) is fixedly connected with the top of the sliding tube (306), the pressing sleeve (307) is attached to the top of the conducting bar (305) through the elastic support of the spring (308), the silica gel sucker (309) is fixedly communicated with the bottom of the sliding tube (306), and the silica gel sucker (309) is fixedly communicated with the first air pipe (204) through the sliding pipe (306).

9. The die casting equipment with the automatic quick material taking structure as claimed in claim 7, wherein: the spline shaft lever (302) and the girder board (301) are connected in a rotating mode, each group is formed by fixedly welding worm wheels (313) at the middle positions of the spline shaft lever (302), the worm wheels (313) are located inside the girder board (301), the main girder board (301) is connected with rotating rods (314) in a transverse rotating mode, worms (315) are symmetrically fixedly welded at the left end and the right end of the outer side of each rotating rod (314), the worms (315) are connected with the worm wheels (313) in a meshing transmission mode, and the worm wheels (313) are arranged on the left side and the right side in an opposite mode.

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