CN220717745U - Die carrier device on die casting machine - Google Patents

Abstract

The utility model relates to a die-supporting frame device on a die casting machine, which comprises a movable die wallboard, a static die wallboard, a movable die and a static die, wherein tie bars are respectively inserted into four corners of the movable die wallboard and the static die wallboard, a movable die supporting frame and a static die supporting frame are arranged on the lower sides of the movable die and the static die, the movable die supporting frame and the static die supporting frame respectively comprise a first supporting beam and a second supporting beam, two ends of the first supporting beam and the second supporting beam are respectively provided with a first horizontal beam plate and a second horizontal beam plate, the first beam plate and the second beam plate are respectively fixed with a first vertical balance adjusting block and a second vertical balance adjusting block through bolts, the first balance adjusting block and the second balance adjusting block are respectively fixedly connected with sliding sleeves through bolts, and the sliding sleeves are respectively inserted into the tie bars on the lower parts of the movable die wallboard. The device sets up respectively in die casting die's moving, quiet mould below and supports and remove the support die carrier based on tie bar, can effectively improve the support strength to die casting die, realizes that large-scale die casting die is on small-size die casting machine steady operation.

Description

Die carrier device on die casting machine

Technical field:

the utility model relates to the technical field of die casting machines, in particular to a die carrier device on a die casting machine.

The background technology is as follows:

the die plays a leading role in the die casting industry, and magnesium aluminum alloy die casting is a complex process with harsh process conditions. The process not only requires close matching of machines such as a die casting machine, a pick-up robot and the like, but also has very high requirements on a die. The magnesium aluminum alloy die casting die not only needs to have the conditions of high temperature resistance, corrosion resistance and wear resistance, but also needs to have the conditions of high strength, high hardness and the like. And the development cost of the mold is high according to the number of the mold times produced by the mold and different materials required for manufacturing the mold core. Therefore, in order to ensure the quality of the product, not only is the die casting material required to have reasonable proportion, but also the die casting die is required to meet the required technical requirements. At present, some magnesium-aluminum alloy die-casting moulds for producing products such as automobile instrument board beams and the like are large in size, the required die is large in size, and the die-casting moulds are generally installed on large-sized die-casting machines, and for small-sized die-casting machines, although wallboards of the die-casting machines can be provided with large-sized die-casting moulds, in terms of design, the bearing capacity of the small-sized die-casting machines is weaker than that of the large-sized die-casting machines, and although the large-sized die-casting moulds can be installed on the small-sized die-casting machines, the running stability is poor, so that a die supporting structure for supporting the large-sized die-casting moulds in an auxiliary mode is required to be arranged, and the supporting strength is improved, so that the die-casting moulds can be stably run with the small-sized die-casting machines.

The utility model comprises the following steps:

the utility model aims at overcoming the defects of the prior art, and provides a die supporting frame device on a die casting machine, which is characterized in that a die supporting frame based on a tie bar support and movement is respectively arranged below a movable die and a static die of the die casting die, so that the support strength of the die casting die can be effectively improved, and further, the stable operation of a large die casting die on a small die casting machine can be realized.

The die supporting frame device comprises a movable die wallboard, a static die wallboard, a movable die and a static die, wherein tie bars are respectively inserted into four corners of the movable die wallboard and the static die wallboard, a movable die supporting frame and a static die supporting frame are arranged on the lower sides of the movable die and the static die, the movable die supporting frame and the static die supporting frame respectively comprise a first supporting beam and a second supporting beam, two ends of the first supporting beam and the second supporting beam are respectively provided with a first horizontal beam plate and a second horizontal beam plate, the first beam plate and the second beam plate are respectively fixed with a first vertical balance adjusting block and a second vertical balance adjusting block through bolts, the first balance adjusting block and the second balance adjusting block are respectively fixedly connected with sliding sleeves through bolts, and the sliding sleeves are respectively inserted into the tie bars on the lower parts of the movable die wallboard;

the upper end faces, close to the first beam plates at the two ends, of the first support beams are respectively fixed with a first support template, the upper end faces of the first support templates are respectively inserted and fixed with a first positioning pin and a plurality of height adjusting blocks, the height adjusting blocks are abutted against the lower end faces of the movable die, and the first positioning pins are inserted and connected to the movable die;

the upper end faces, close to the second beam plates at the two ends, of the second support beams are respectively fixed with a second support template, the second support templates are fixedly connected with second positioning pins in an inserting mode, the second positioning pins are connected to the static die in an inserting mode, and the second support templates are abutted to the lower end faces of the static die;

t-shaped bolts are inserted into the movable mold pressing plate grooves and the static mold pressing plate grooves respectively, the T-shaped bolts penetrate through pressing plate nuts in a threaded manner, and the movable mold and the static mold are fixed on the movable mold wallboard and the static mold wallboard respectively through pressing plate pressing.

Preferably, the movable die pressing plate groove and the static die pressing plate groove are respectively distributed around the movable die wallboard and the static die wallboard, a first press-fit notch opposite to the movable die pressing plate groove is formed in the outer side wall around the movable die, and a second press-fit notch opposite to the static die pressing plate groove is formed in the outer side wall around the static die.

Preferably, four corners of the movable die and the static die are respectively provided with an avoidance notch opposite to the tie bar, the tie bar at the lower part of the movable die is provided with a support shaft, the support shaft is sleeved with a sliding sleeve in the support shaft and is respectively inserted into the avoidance notches of the movable die and the static die, and the tie bar guide hole at the lower part of the static die is fixedly inserted with a sliding bearing in the sliding bearing.

Preferably, the thickness of the movable mould is larger than that of the static mould, the length of the first support template is larger than that of the second support template, the two sides of the first support template extend out of the first support beams to be respectively fixed with vertical reinforcing plates, the reinforcing plates are fixed on two side walls of the first support beams, triangular rib plates are fixed on the reinforcing plates on one side of the first support beams, and the rib plates are fixed on the lower end face of the first support template.

Preferably, the side wall of the first support template, which is close to one side of the first beam plate, is provided with an L-shaped step plate, the first beam plate is propped against the step surface of the step plate and is inserted with a screw, and the screw is screwed and fixed on the step plate.

Preferably, the first support template and the second support template are respectively provided with a plurality of first mounting holes and second mounting holes in the shape of step holes, fastening bolts are inserted into the first mounting holes and the second mounting holes, and the fastening bolts are respectively and spirally fixed on the first support beam and the second support beam.

The utility model has the beneficial effects that:

the device sets up respectively in die casting die's moving, quiet mould below and supports and remove the die carrier based on tie bar, can effectively improve the support strength to die casting die, and then can realize that large-scale die casting die is at small-size die casting machine steady operation.

Description of the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic diagram of the front view of the present utility model;

FIG. 3 is a schematic side view of a movable mold part of the present utility model;

FIG. 4 is a schematic side view of a stationary mold section of the present utility model;

FIG. 5 is a schematic perspective view of a movable mold support frame according to the present utility model;

fig. 6 is a schematic perspective view of a static mold carrier according to the present utility model.

In the figure: 1. a movable mould wallboard; 11. a movable die pressing plate groove; 2. static mold wallboard; 21. a stationary platen groove; 3. a tie bar; 31. a support shaft; 4. a movable mold; 41. a first press-fit notch; 5. static mold; 51. a second press-fit notch; 6. a sliding sleeve; 7. a movable die supporting die frame; 71. a first support beam; 72. a first balance adjustment block; 73. a first support template; 74. a first positioning pin; 75. a height adjusting block; 76. a reinforcing plate; 77. rib plates; 8. static mold supporting frame; 81. a second support beam; 82. a second counterbalance adjustment block; 83. a second support template; 84. a second positioning pin; 9. a sliding bearing.

The specific embodiment is as follows:

examples: referring to fig. 1 to 6, a die-supporting frame device on a die casting machine comprises a movable die wallboard 1, a static die wallboard 2, a movable die 4 and a static die 5, wherein tie bars 3 are respectively inserted into four corners of the movable die wallboard 1 and the static die wallboard 2, a movable die-supporting frame 7 and a static die-supporting frame 8 are arranged on the lower sides of the movable die 4 and the static die 5, the movable die-supporting frame 7 and the static die-supporting frame 8 respectively comprise a first supporting beam 71 and a second supporting beam 81, two ends of the first supporting beam 71 and the second supporting beam 81 are respectively provided with a horizontal first beam plate 711 and a horizontal second beam plate 811, a vertical first balance adjusting block 72 and a vertical second balance adjusting block 82 are respectively fixed on the first beam plate 711 and the second beam plate 811 through bolts, the first balance adjusting block 72 and the second balance adjusting block 82 are respectively fixedly connected with a sliding sleeve 6 through bolts, and the sliding sleeve 6 is respectively inserted on the tie bars 3 on the lower part of the movable die wallboard 1;

the first supporting beams 71 are respectively fixed with a first supporting template 73 on the upper end surfaces of the first beam plates 711 near the two ends, the upper end surfaces of the first supporting templates 73 are respectively inserted and fixed with a first positioning pin 74 and a plurality of height adjusting blocks 75, the height adjusting blocks 75 are abutted against the lower end surface of the movable die 4, the first positioning pins 74 are inserted and connected onto the movable die 4, the height adjusting blocks 75 are specifically fixed on the first supporting templates 73 through bolts, and when the movable dies with different specifications and sizes are replaced, the height adjusting blocks 75 with different heights can be replaced;

the second support beams 81 are respectively fixed with second support templates 83 on the upper end surfaces of the second beam plates 811 near the two ends, second positioning pins 84 are fixedly inserted on the second support templates 83, the second positioning pins 84 are inserted on the static mold 5, and the second support templates 83 are abutted against the lower end surfaces of the static mold 5;

t-shaped bolts are inserted into the movable mold pressing plate grooves 11 and the static mold pressing plate grooves 21 respectively, the T-shaped bolts penetrate through pressing plate nuts in a threaded manner, and the movable mold 4 and the static mold 5 are fixed on the movable mold wallboard 1 and the static mold wallboard 2 respectively through pressing plate pressing.

The movable die pressing plate groove 11 and the static die pressing plate groove 21 are respectively distributed on the periphery of the movable die wall plate 1 and the static die wall plate 2, a first pressing notch 41 opposite to the movable die pressing plate groove 11 is formed on the peripheral outer side wall of the movable die 4, a second pressing notch 51 opposite to the static die pressing plate groove 21 is formed on the peripheral outer side wall of the static die 5, and when the first pressing notch 41 is matched with the movable die pressing plate groove 11 or the second pressing notch 51 is matched with the static die pressing plate groove 21, T-shaped bolts are inserted into the first pressing notch 41 and the movable die pressing plate groove 11 or the second pressing notch 51 is matched with the static die pressing plate groove 21, then the pressing plates are fastened and are in threaded connection, and the pressing plates are directly pressed on the movable die 4 or the static die 5 in a threaded connection mode.

The four corners of movable mould 4 and quiet mould 5 respectively the shaping have dodge the notch with tie-bar 3 relatively, the shaping has back shaft 31 on tie-bar 3 of movable mould 4 lower part, and slip cap 6 plug bush is established respectively in tie-bar guide hole of movable mould 4 and quiet mould 5 on back shaft 31, the tie-bar guide hole plug bush of quiet mould 5 lower part be fixed with slide bearing 9, back shaft 31 insert and establish in slide bearing 9, its back shaft 31 is equivalent with the outside car of tie-bar 3 falls the round in original, and then can realize that slip cap 6 sets up in tie-bar 4 and quiet mould 5 dodge the notch.

The thickness of the movable mould 4 is larger than that of the static mould 5, the length of the first supporting template 73 is larger than that of the second supporting template 83, the two sides of the first supporting template 73 extend out of the first supporting beams 71 to be respectively fixed with vertical reinforcing plates 76, the reinforcing plates 76 are fixed on the two side walls of the first supporting beams 71, the reinforcing plates 76 on one side of the first supporting beams 71 are fixed with triangular rib plates 77, the rib plates 77 are fixed on the lower end face of the first supporting template 73,

an L-shaped step plate 732 is formed on the side wall of the first support template 73 near one side of the first beam plate 711, the first beam plate 711 abuts against the step surface of the step plate 732 and is inserted with a screw, and the screw is screwed and fixed on the step plate 732; the width of the first support beam 71 and the width of the second support beam 82 are almost the same, but since the length of the first bracket plate 73 is long, reinforcement of the first bracket plate 73 is required.

The first support template 73 and the second support template 83 are respectively provided with a plurality of step-shaped first mounting holes 731 and second mounting holes 831, fastening bolts are inserted into the first mounting holes 731 and the second mounting holes 831 and are respectively screwed and fixed on the first support beam 71 and the second support beam 81, the first support template 73 and the second support template 83 are respectively provided with a plurality of plate bodies with different thicknesses, and the plate bodies can be replaced

The first support template 73 is provided with a positioning groove opposite to the height adjusting block 75, the height adjusting block 75 is inserted into the positioning groove of the first support template 73, the height adjusting block 75 is provided with a step hole, an adjusting bolt is inserted into the step hole of the height adjusting block 75, and the lower end of the adjusting bolt extends out of the height adjusting block 75, is fixedly sleeved with a limiting sleeve and is in threaded connection with the first support template 73; the height adjusting block 75 of this structure is equivalent to a hinge-coupled adjusting bolt, and the height adjustment can be performed on the first bracket plate 73 by rotating the adjusting bolt.

Working principle: the utility model relates to a die-supporting frame device on a die casting machine, which comprises the steps of firstly, respectively installing a movable die-supporting frame 7 and a static die-supporting frame 8 in a sliding sleeve 6 on a tie-bar 3 at the lower side of a movable die wallboard 1, then, drawing the tie-bar 3 at the upper side of the movable die wallboard 1 away, respectively adjusting the heights of a first die-supporting plate 73, a height adjusting block 75 and a second die-supporting plate 83 according to the sizes of the movable die 4 and the static die 5, respectively, then, respectively abutting the movable die 4 and the static die 5 on the height adjusting block 75 and the second die-supporting plate 83, respectively, realizing connection through a first positioning pin 74 and a second positioning pin 84, respectively abutting the movable die 4 and the static die-supporting frame 8 on the movable die wallboard 1 and the static die wallboard 2, respectively, and respectively fixing the movable die 4 and the static die wallboard 2 on the movable die wallboard 1 and the static die wallboard 2 by utilizing a movable die pressing plate 11 and a static die pressing plate 21 on the movable die wallboard 1 and the static die wallboard 2, and simultaneously, respectively supporting the movable die 4 and the static die-supporting frame 8 and the static die 4.

The examples are presented to illustrate the utility model and are not intended to limit the utility model. Modifications to the described embodiment may occur to those skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model is therefore set forth in the appended claims.

Claims (6)

1. The utility model provides a die carrier device on die casting machine, includes movable mould wallboard (1), quiet mould wallboard (2), movable mould (4) and quiet mould (5), and the four corners of movable mould wallboard (1) and quiet mould wallboard (2) are inserted respectively and are equipped with tie bar (3), its characterized in that: the lower sides of the movable die (4) and the static die (5) are provided with a movable die supporting die frame (7) and a static die supporting die frame (8), the movable die supporting die frame (7) and the static die supporting die frame (8) respectively comprise a first supporting beam (71) and a second supporting beam (81), two ends of the first supporting beam (71) and the second supporting beam (81) are respectively provided with a first horizontal beam plate (711) and a second horizontal beam plate (811), the first beam plate (711) and the second horizontal beam plate (811) are respectively fixed with a first vertical balance adjusting block (72) and a second vertical balance adjusting block (82) through bolts, the first balance adjusting block (72) and the second balance adjusting block (82) are respectively fixedly connected with a sliding sleeve (6) through bolts, and the sliding sleeve (6) is respectively inserted into a Ge-Lin column (3) at the lower part of the movable die wallboard (1);

the upper end faces, close to the first beam plates (711) at the two ends, of the first supporting beams (71) are respectively fixed with a first supporting template (73), the upper end faces of the first supporting templates (73) are respectively fixedly connected with a first locating pin (74) and a plurality of height adjusting blocks (75) in an inserting mode, the height adjusting blocks (75) are abutted against the lower end faces of the movable die (4), and the first locating pins (74) are connected to the movable die (4) in an inserting mode;

the upper end faces, close to the second beam plates (811) at the two ends, of the second supporting beams (81) are respectively fixed with a second supporting template (83), the second supporting templates (83) are fixedly connected with second positioning pins (84) in an inserting mode, the second positioning pins (84) are connected to the static die (5) in an inserting mode, and the second supporting templates (83) are abutted against the lower end faces of the static die (5);

t-shaped bolts are inserted into the movable mold pressing plate grooves (11) and the static mold pressing plate grooves (21) respectively, the T-shaped bolts penetrate through pressing plate nuts in a threaded manner, and the movable mold (4) and the static mold (5) are fixed on the movable mold wallboard (1) and the static mold wallboard (2) through pressing plate pressing.

2. A die carrier apparatus for a die casting machine as claimed in claim 1, wherein: the movable die pressing plate grooves (11) and the static die pressing plate grooves (21) are respectively distributed on the periphery of the movable die wallboard (1) and the static die wallboard (2), first press-fit notch (41) opposite to the movable die pressing plate grooves (11) are formed in the outer side wall of the periphery of the movable die (4), and second press-fit notch (51) opposite to the static die pressing plate grooves (21) are formed in the outer side wall of the periphery of the static die (5).

3. A die carrier apparatus for a die casting machine as claimed in claim 1, wherein: four corners of movable mould (4) and quiet mould (5) are formed respectively and have dodge the notch with tie bar (3) relatively, the shaping has back shaft (31) on tie bar (3) of movable mould (4) lower part, slip cap (6) plug bush is on back shaft (31) and insert respectively and establish in dodge the notch of movable mould (4) and quiet mould (5), tie bar guiding hole plug bush of quiet mould (5) lower part be fixed with slide bearing (9), back shaft (31) are inserted and are established in slide bearing (9).

4. A die carrier apparatus for a die casting machine as claimed in claim 1, wherein: the thickness of movable mould (4) is greater than the thickness of quiet mould (5), and the length of first support template (73) is greater than the length of second support template (83), and first supporting beam (71) are stretched out to the both sides of first support template (73) and are fixed with vertical gusset plate (76) respectively, and gusset plate (76) are fixed on the both sides wall of first supporting beam (71), are fixed with triangle-shaped floor (77) on gusset plate (76) of first supporting beam (71) one side, and floor (77) are fixed on the lower terminal surface of first support template (73).

5. The die carrier device of claim 4, wherein: an L-shaped step plate (732) is formed on the side wall, close to one side of the first beam plate (711), of the first support template (73), the first beam plate (711) abuts against the step surface of the step plate (732) and is inserted with a screw, and the screw is screwed and fixed on the step plate (732).

6. A die carrier apparatus for a die casting machine as claimed in claim 1, wherein: a plurality of step-hole-shaped first mounting holes (731) and second mounting holes (831) are formed in the first support template (73) and the second support template (83) respectively, fastening bolts are inserted into the first mounting holes (731) and the second mounting holes (831), and the fastening bolts are respectively screwed and fixed on the first support beam (71) and the second support beam (81).