CN112589067B - Die casting machine nitrogen cylinder mounting structure - Google Patents

Abstract

The invention relates to the technical field of nitrogen cylinder installation, and discloses a nitrogen cylinder installation structure of a die casting machine, which comprises a table body, wherein a rear plate and a front plate are fixedly installed on the upper surface of the table body, an upper notch I is formed in the upper surface of the rear plate, two tail fixing mechanisms and two head fixing mechanisms are respectively arranged inside the upper notch I and the upper notch II, the positions of the two arc plates I are fixed by two clamping columns through the arrangement of a quick clamping mechanism matched with the tail fixing mechanisms and the head fixing mechanisms, so that the two arc plates I can not rotate any more, the nitrogen cylinder is completely fixed on the table body, and then when the nitrogen cylinder needs to be taken down, the bent plate is held and rotates downwards, the lower end of the bent plate drives the connecting plate to move downwards to the rear side, so that the two arc plates I are loosened, a user can easily take out the nitrogen cylinder, and the effect of convenient and quick installation or replacement of the nitrogen cylinder is achieved, the problem of pressure filling too slow that the nitrogen cylinder was changed slowly brought is solved.

Description

Die casting machine nitrogen cylinder mounting structure

Technical Field

The invention relates to the technical field of nitrogen cylinder installation, in particular to a nitrogen cylinder installation structure of a die casting machine.

Background

The die casting machine is exactly the machine that is used for pressure casting, including hot-pressing room and two kinds of cold pressing room, the back all divide into straight formula and horizontal two kinds of types again, the die casting machine is the molten metal hydraulic pressure under the pressure effect and is penetrated the mould in the cooling shaping, can obtain the solid metal foundry goods after the die sinking, be used for the die-casting type originally, current die casting machine is in the course of the work, for satisfying to beat material part energy memory and carry out work, need fill the nitrogen gas that satisfies the operating pressure requirement, consequently just need install on beating the material bench nitrogen cylinder, and because the content in the nitrogen cylinder after using at every turn all can change, and change the nitrogen cylinder at every turn and all need pass through the bolt fastening, the mode of changing the nitrogen cylinder like this is too slow, consequently, be unfavorable for the user to carry out the quick packing of nitrogen gas.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a nitrogen cylinder mounting structure of a die casting machine, which has the advantages of achieving the effect of facilitating quick mounting or replacing of a nitrogen cylinder and the like, and solves the problem that the nitrogen cylinder is replaced too slowly because the nitrogen cylinder is required to be fixed through a bolt every time, so that the nitrogen cylinder is not convenient for a user to quickly fill nitrogen.

(II) technical scheme

In order to achieve the effect of conveniently and quickly installing or replacing the nitrogen cylinder and solve the problem of slow pressure filling caused by slow replacement of the nitrogen cylinder, the invention provides the following technical scheme: the utility model provides a die casting machine nitrogen cylinder mounting structure, which comprises a table body, the last fixed surface of stage body installs back plate and front bezel, notch one has been seted up to the upper surface of back plate, notch two has been seted up to the upper surface of front bezel, go up notch one and the inside of last notch two is provided with two afterbody fixed establishment and two head fixed establishment respectively, every afterbody fixed establishment all includes arc board one and pivot one, pivot one activity cup joints in the inside of arc board one, and the both ends of pivot one rotate respectively and connect on the both sides wall face in last notch one, arc board one rotates through pivot one and connects in last notch one, every head fixed establishment all includes arc board two and pivot two, pivot two activities cup joint in the inside of arc board two, the both ends of pivot two are fixed connection respectively in the both sides wall in last notch two, arc board two rotates through pivot two and connects in last notch two, be provided with quick chucking mechanism and head decline respectively in two afterbody fixed establishment and the two head fixed establishment A buffer mechanism.

Preferably, the upper surface of the table body is fixedly connected with a short plate, an opening is formed in the upper end of the short plate, the opening is in a trapezoidal shape, the short plate is arranged in the middle of the distance between the rear plate and the front plate, and the short plate is obliquely arranged on the table body.

Preferably, the two tail fixing mechanisms are arranged in the first upper notch in a bilateral symmetry mode, and the two head fixing mechanisms are arranged in the second upper notch in a bilateral symmetry mode.

Preferably, quick chucking mechanism is including the inside groove, the inside of back plate is seted up to the inside groove, the inside sliding connection of inside groove has the connecting plate, two calorie of posts of front end fixedly connected with of connecting plate, two calorie of posts all run through the inner wall of inside groove and extend to the inside of notch one, and the front end of two calorie of posts is laminated with the rear side of two arc boards one respectively, two compression spring one of one end fixedly connected with of two calorie of posts are kept away from to the connecting plate, and two compression spring one keep away from the equal fixed connection of one end of connecting plate on the inner wall of inside groove, the connecting plate is through two compression spring one sliding connection in the inside groove, the back notch has been seted up to the back wall of inside groove, the inside of back notch is linked together with the outside of back plate.

Preferably, quick chucking mechanism is still including two backup pads, the equal fixed connection of two backup pads is on the trailing flank of back plate, and be provided with the dwang between two backup pads, the both ends of dwang rotate respectively and connect in the one side that two backup pads are close to mutually, the outside fixed cover of dwang has cup jointed the bent plate, the bent plate passes through the dwang and rotates to be connected between two backup pads, the lower extreme of bent plate passes the back notch and extends in the inside groove, and the lower extreme of bent plate is located the below of the lower extreme of connecting plate, two torsional springs have been cup jointed in the outside activity of dwang, the one end that two torsional springs kept away from mutually is fixed connection in the one side that two backup pads are close to mutually respectively, the one end that two torsional springs are close to mutually is fixed connection in the both sides wall of bent plate respectively.

Preferably, head decline buffer gear erects the groove including erecting the groove, and the inside of erecting the groove and seting up in the front bezel, and the inside of erecting the groove is linked together with the inside of last notch two, erects the inside sliding connection in groove and has the square column, two swash plates of the upper end fixedly connected with of square column, two swash plates become opposite form slope setting, the equal fixedly connected with push pedal in the outside both sides of square column.

Preferably, the lower notch has been seted up to the lower surface of square column, the inner wall fixedly connected with bearing of lower notch, the inside fixed cover of bearing has connect the cylinder, the thread groove has been seted up to the columniform inside, and the inside and the outside below of cylinder of thread groove are linked together, the inside threaded connection of thread groove has the screw thread post, the lower extreme fixed connection of screw thread post is on the diapire that erects the groove, compression spring two has been cup jointed in the outside activity of screw thread post, compression spring two's upper end swing joint is in the columniform lower extreme, compression spring two's lower extreme fixed connection is on the diapire that erects the groove.

Preferably, the upper surface of the cylinder is provided with an arch, and the two push plates are respectively positioned above the two inner sides of the upper notch II.

Preferably, the square column right side is provided with grafting mechanism, grafting mechanism is including side notch and spout, the right side of square column is seted up to the side notch, the inner wall fixedly connected with magnet one of side notch, the inside of front bezel is seted up to the spout, and the inside of spout and the outside homogeneous phase intercommunication of erecting groove and front bezel, the inside sliding connection of spout has the traveller, the left end fixedly connected with magnet two of traveller, magnet two sets up the magnetic pole of attracting mutually with magnet one, the square groove has been seted up on the inside right side of traveller, the inside and the outside upper and lower both sides homogeneous phase intercommunication of traveller in square groove.

(III) advantageous effects

Compared with the prior art, the invention provides a die casting machine nitrogen cylinder mounting structure, which has the following beneficial effects:

1. the nitrogen cylinder mounting structure of the die casting machine is characterized in that a rapid clamping mechanism is arranged to be matched with a tail fixing mechanism and a head fixing mechanism, when a user puts a nitrogen cylinder between the tail fixing mechanism and the head fixing mechanism, a bent plate is used for supporting the rear end of the nitrogen cylinder, so that the nitrogen cylinder is prevented from sliding down from the rear side above a table body, a connecting plate, a compression spring I and two clamping columns are matched, after an arc plate rotates towards the outer side of the nitrogen cylinder, the clamping columns are staggered with the arc plate I, at the moment, the two clamping columns are driven by the elastic force generated by the compression spring on the connecting plate to extend into an upper notch I, the two clamping columns fix the position of the arc plate I, so that the two arc plate I can not rotate any more, the nitrogen cylinder is completely fixed on the table body, then when the nitrogen cylinder needs to be taken down, the bent plate is only required to be held and rotates downwards, the lower end of the bent plate drives the connecting plate to move towards the rear side, two arc boards are loosened, so that a user can easily take out the nitrogen cylinder, the effect of conveniently and quickly installing or replacing the nitrogen cylinder is achieved, and the problem that pressure filling is too slow when the nitrogen cylinder is slowly replaced is solved.

2. This die casting machine nitrogen cylinder mounting structure, through setting up two afterbody fixed establishment and two head fixed establishment, the user can place the afterbody of nitrogen cylinder between two arc boards one at first, and at first touch two clamp plates by the afterbody below of nitrogen cylinder, receive the weight of nitrogen cylinder itself afterwards and drive two clamp plates decline and rotate, two clamp plates drive two arc boards one this moment and use pivot one to rotate as the axle center in step, and laminate mutually by the surface of two arc boards one with the nitrogen cylinder, follow this end position before two pairs of nitrogen cylinders of arc boards in the cooperation assists the injecing, reach the effect of guaranteeing that the nitrogen cylinder is stable to be placed on the stage body with this.

3. This die casting machine nitrogen cylinder mounting structure, through setting up short slab and opening, the user is from putting into the nitrogen cylinder after-poppet and front bezel on, and the middle part of nitrogen cylinder is located the top of short slab, and sets up by the slope of short slab this moment and can apply frictional resistance to the afterbody direction of nitrogen cylinder, can avoid the nitrogen cylinder to produce by the afterbody situation of direction landing forward like this, effectually protects the nitrogen cylinder.

4. This die casting machine nitrogen cylinder mounting structure, through setting up head fixed establishment cooperation head decline buffer gear, place the head of nitrogen cylinder in two arc boards when two, the head of nitrogen cylinder is at first placed between two swash plates, and the nitrogen cylinder becomes the tilt state on the stage body this moment, the pipeline with on the die casting machine that the user is light at this moment is connected with the nitrogen cylinder, and can drive the square column by the gravity of nitrogen cylinder simultaneously and descend in last notch two, the power of square column vertical decline simultaneously is rotated and is reduced outside the screw post by the cylinder, consequently, the head that makes the square column can drive the nitrogen cylinder carries out slow decline, with this damage that avoids nitrogen cylinder or stage body to receive the striking production, effectually protect the nitrogen cylinder.

5. This die casting machine nitrogen cylinder mounting structure, through setting up grafting mechanism cooperation head decline buffer gear, when the square column descends to erecting the below in the inslot, by the magnetic force that magnet two and side notch attracted mutually, and because the traveller drives two positions of magnet and slides in the spout, consequently magnet two attract mutually this moment get into the position that can fix the square column with this in the side notch, cooperate two push pedals simultaneously and can fix the position of two arc boards two in step, reach the effect of quick fixed nitrogen cylinder head like this.

6. This die casting machine nitrogen cylinder mounting structure through dwang and torsional spring, can make the bent plate keep the steady state of curved form by the torsional moment influence of dwang, can carry out from restoring to the throne after rotating the bent plate simultaneously, cooperates connecting plate and compression spring one simultaneously, just can drive the card post and carry out reciprocating motion to this brings the effect of convenience of customers reciprocal operation.

Drawings

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

fig. 2 is a side sectional view of the rear plate of fig. 1 according to the present invention.

Fig. 3 is a front sectional view of the front plate of fig. 1 according to the present invention.

In the figure: 1. a table body; 11. a back plate; 12. a front plate; 13. a first upper notch; 14. an upper notch II; a short plate 15; an opening 16; 2. a tail fixing mechanism; 21. a first arc plate; 22. pressing a plate; 23. a first rotating shaft; 3. a fast clamping mechanism; 31. bending a plate; 32. a support plate; 33. a rear notch; 34. rotating the rod; 35. a torsion spring; 36. a first compression spring; 37. a connecting plate; 38. an inner tank; 39. clamping the column; 4. a head fixing mechanism; 41. a second arc plate; 42. a second rotating shaft; 5. a head lowering buffer mechanism; 51. a sloping plate; 52. a square column; 53. pushing the plate; 54. a lower notch; 55. a bearing; 56. a cylinder; 57. a thread groove; 58. a threaded post; 59. a second compression spring; 510. a vertical slot; 6. a plug-in mechanism; 61. a traveler; 62. a chute; 63. a magnet I; 64. a side notch; 65. a square groove; 66. and a second magnet.

Detailed Description

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. 1-3, the present invention provides the following technical solutions: a nitrogen cylinder mounting structure of a die casting machine comprises a table body 1, a rear plate 11 and a front plate 12 are fixedly mounted on the upper surface of the table body 1, an upper notch first 13 is formed in the upper surface of the rear plate 11, an upper notch second 14 is formed in the upper surface of the front plate 12, two tail fixing mechanisms 2 and two head fixing mechanisms 4 are respectively arranged inside the upper notch first 13 and the upper notch second 14, each tail fixing mechanism 2 comprises an arc plate first 21 and a rotating shaft first 23, the rotating shaft first 23 is movably sleeved inside the arc plate first 21, two ends of the rotating shaft first 23 are respectively rotatably connected to two side wall surfaces in the upper notch first 13, the arc plate first 21 is rotatably connected into the upper notch first 13 through the rotating shaft first 23, each head fixing mechanism 4 comprises an arc plate second 41 and a rotating shaft second 42, the rotating shaft second 42 is movably sleeved inside the arc plate second 41, two ends of the rotating shaft second 42 are respectively fixedly connected to two side walls in the upper notch second 14, the second arc plate 41 is rotatably connected in the second upper notch 14 through a second rotating shaft 42, and the two tail fixing mechanisms 2 and the two head fixing mechanisms 4 are respectively provided with a quick clamping mechanism 3 and a head descending buffer mechanism 5.

The upper surface of the table body 1 is fixedly connected with a short plate 15, an opening 16 is formed in the upper end of the short plate 15, the opening 16 is in a trapezoidal shape, the position of the short plate 15 is arranged in the middle of the distance between the rear plate 11 and the front plate 12, and the short plate 15 is obliquely arranged on the table body 1.

The two tail fixing mechanisms 2 are arranged in the first upper notch 13 in a bilateral symmetry mode, and the two head fixing mechanisms 4 are arranged in the second upper notch 14 in a bilateral symmetry mode.

Quick chucking mechanism 3 is including interior groove 38, the inside of back plate 11 is seted up to interior groove 38, the inside sliding connection of interior groove 38 has connecting plate 37, two calorie of posts 39 of front end fixedly connected with of connecting plate 37, two calorie of posts 39 all run through the inner wall of interior groove 38 and extend to the inside of the first 13 of notch, and the front end of two calorie of posts 39 is laminated with the rear side of two arc boards 21 respectively, two compression spring 36 of one end fixedly connected with that two calorie of posts 39 are kept away from to connecting plate 37, and the equal fixed connection of one end that connecting plate 37 was kept away from to two compression spring 36 is on the inner wall of interior groove 38, connecting plate 37 is in interior groove 38 through two compression spring 36 sliding connection, back notch 33 has been seted up to the back wall of interior groove 38, the inside of back notch 33 is linked together with the outside of back plate 11.

Fast chucking mechanism 3 is still including two backup pads 32, the equal fixed connection of two backup pads 32 is on the trailing flank of back plate 11, and be provided with dwang 34 between two backup pads 32, the both ends of dwang 34 are rotated respectively and are connected in the one side that two backup pads 32 are close to mutually, the fixed cover in outside of dwang 34 has connect bent plate 31, bent plate 31 rotates through dwang 34 and connects between two backup pads 32, the lower extreme of bent plate 31 passes back notch 33 and extends in inside groove 38, and the lower extreme of bent plate 31 is located the below of the lower extreme of connecting plate 37, two torsional springs 35 have been cup jointed in the outside activity of dwang 34, the one end that two torsional springs 35 kept away from mutually is fixed connection in the one side that two backup pads 32 are close to mutually respectively, the both sides wall of one end fixed connection in bent plate 31 respectively that two torsional springs 35 are close to mutually.

Head decline buffer gear 5 is including erecting groove 510, erects the inside of groove 510 offering in front bezel 12, and erects the inside of groove 510 and be linked together with the inside of last notch two 14, erects the inside sliding connection in groove 510 and has square column 52, two swash plates 51 of the upper end fixedly connected with of square column 52, two swash plates 51 become opposite form slope setting, the equal fixedly connected with push pedal 53 in the outside both sides of square column 52.

Notch 54 down has been seted up to the lower surface of square column 52, the inner wall fixedly connected with bearing 55 of notch 54 down, the fixed cover in inside of bearing 55 has connect cylinder 56, thread groove 57 has been seted up to cylinder 56's inside, and the inside of thread groove 57 is linked together with the outside below of cylinder 56, the inside threaded connection of thread groove 57 has thread post 58, the lower extreme fixed connection of thread post 58 is on the diapire of erecting groove 510, compression spring two 59 has been cup jointed in the outside activity of thread post 58, the upper end swing joint of compression spring two 59 is in the lower extreme of cylinder 56, the lower extreme fixed connection of compression spring two 59 is on the diapire of erecting groove 510.

The upper surface of the cylinder 56 is provided with an arch, and the two push plates 53 are respectively positioned above the two inner sides of the second upper notch 14.

Square column 52 right side is provided with grafting mechanism 6, grafting mechanism 6 is including side notch 64 and spout 62, the right side of square column 52 is seted up to side notch 64, the inner wall fixedly connected with magnet 63 of side notch 64, the inside of front bezel 12 is seted up to spout 62, and the inside and the outside homogeneous phase intercommunication that erects groove 510 and front bezel 12 of spout 62, the inside sliding connection of spout 62 has traveller 61, the left end fixedly connected with magnet two 66 of traveller 61, magnet two 66 sets up the magnetic pole of attracting mutually with magnet 63, square groove 65 has been seted up on the inside right side of traveller 61, the inside and the outside upper and lower both sides homogeneous phase intercommunication of traveller 61 of square groove 65.

When in use, the utility model is used,

first step, through setting up two afterbody fixed establishment 2 and two head fixed establishment 4, the user can place the afterbody of nitrogen cylinder between two arc boards 21 at first, and at first touch two clamp plates 22 by the afterbody below of nitrogen cylinder, receive the weight of nitrogen cylinder itself afterwards and drive two clamp plates 22 and descend and rotate, two clamp plates 22 drive two arc boards 21 in step this moment and use pivot 23 to rotate as the axle center, and laminate mutually by the surface of two arc boards 21 and nitrogen cylinder, follow and assist in prescribing a limit to the preceding tip position of nitrogen cylinder at two arc boards two 41 of cooperation, with this reach the effect of guaranteeing that the nitrogen cylinder stably places on stage 1.

Second step, through setting up stringback 15 and opening 16, the user is from putting into the nitrogen cylinder on back plate 11 and front bezel 12, and the middle part of nitrogen cylinder is located stringback 15's top, and sets up by the slope of stringback 15 this moment and can apply frictional resistance to the afterbody direction of nitrogen cylinder, can avoid the nitrogen cylinder to produce by the situation of afterbody forward direction landing like this, effectually protects the nitrogen cylinder.

Thirdly, by arranging the fast clamping mechanism 3 to be matched with the tail fixing mechanism 2 and the head fixing mechanism 4, when a user puts the nitrogen bottle between the tail fixing mechanism 2 and the head fixing mechanism 4, the bent plate 31 is used for supporting the rear end of the nitrogen bottle so as to prevent the nitrogen bottle from sliding off from the rear side above the table body 1, and simultaneously, the connecting plate 37, the compression spring I36 and the two clamping columns 39 are matched, after the arc plate I21 rotates towards the outer side of the nitrogen bottle, the clamping columns 39 are staggered with the arc plate I21, at the moment, the elastic force generated by the compression spring I36 to the connecting plate 37 drives the two clamping columns 39 to extend into the upper notch I13, the two clamping columns 39 fix the positions of the two arc plates I21, so that the two arc plates I21 can not rotate any more, the nitrogen bottle is completely fixed on the table body 1, and then when the nitrogen bottle needs to be taken down, the bent plate 31 is held and the bent plate 31 rotates downwards, the lower end of the bent plate 31 drives the connecting plate 37 to move towards the rear side, so that the two arc plates 21 are loosened, a user can easily take out the nitrogen cylinder, the effect of being convenient for rapidly installing or replacing the nitrogen cylinder is achieved, and the problem that pressure filling is too slow when the nitrogen cylinder is replaced slowly is solved.

The fourth step, through setting up head fixed establishment 4 cooperation head decline buffer gear 5, when the user placed the head of nitrogen cylinder between two arc boards two 41, the head of nitrogen cylinder is at first placed between two swash plates 51, and the nitrogen cylinder becomes the tilt state on the stage body 1 this moment, the user is light at this moment is connected pipeline and nitrogen cylinder on the die casting machine, and can drive square column 52 by the gravity of nitrogen cylinder and descend in last notch two 14 simultaneously, the power of the perpendicular decline of square column 52 is rotated and is reduced outside screw post 58 by cylinder 56, consequently make square column 52 can drive the head of nitrogen cylinder and carry out slow decline, thereby avoid nitrogen cylinder or stage body 1 to receive the damage that the striking produced, effectually protect the nitrogen cylinder.

Fifthly, through setting up 6 cooperation head decline buffer gear 5 of grafting mechanism, when square column 52 descends the bottommost in the perpendicular groove 510, by the magnetic force that two 66 magnets and side notch 64 attracted mutually, and because the traveller 61 drives two 66 magnets and is located the spout 62 that slides, consequently two 66 magnets attract mutually and get into the position that can fix square column 52 with this in the side notch 64 this moment, cooperate two push pedal 53 simultaneously and can fix the position of two arc boards two 41 in step, reach the effect of quick fixed nitrogen gas cylinder head like this.

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

Claims (9)

1. The utility model provides a die casting machine nitrogen cylinder mounting structure, includes stage body (1), and the last fixed surface of stage body (1) installs back plate (11) and front bezel (12), its characterized in that: the upper surface of the rear plate (11) is provided with a first upper notch (13), the upper surface of the front plate (12) is provided with a second upper notch (14), the interiors of the first upper notch (13) and the second upper notch (14) are respectively provided with two tail fixing mechanisms (2) and two head fixing mechanisms (4), each tail fixing mechanism (2) comprises a first arc plate (21) and a first rotating shaft (23), the first rotating shaft (23) is movably sleeved inside the first arc plate (21), two ends of the first rotating shaft (23) are respectively and rotatably connected to two side wall surfaces in the first upper notch (13), the first arc plate (21) is rotatably connected into the first upper notch (13) through the first rotating shaft (23), each head fixing mechanism (4) comprises a second arc plate (41) and a second rotating shaft (42), the second rotating shaft (42) is movably sleeved inside the second arc plate (41), two ends of the second rotating shaft (42) are respectively and fixedly connected to notches in the second upper notches (14), the second arc plate (41) is rotatably connected into the second upper notch (14) through a second rotating shaft (42), and the two tail fixing mechanisms (2) and the two head fixing mechanisms (4) are respectively internally provided with a quick clamping mechanism (3) and a head descending buffer mechanism (5).

2. The nitrogen cylinder mounting structure of the die casting machine of claim 1, wherein: the upper surface of the table body (1) is fixedly connected with a short plate (15), an opening (16) is formed in the upper end of the short plate (15), the opening (16) is in a trapezoidal shape, the position of the short plate (15) is arranged in the middle of the distance between the rear plate (11) and the front plate (12), and the short plate (15) is obliquely arranged on the table body (1).

3. The nitrogen cylinder mounting structure of the die casting machine of claim 1, wherein: two tail fixing mechanisms (2) are arranged in an upper notch I (13) in a bilateral symmetry mode, and two head fixing mechanisms (4) are arranged in an upper notch II (14) in a bilateral symmetry mode.

4. The nitrogen cylinder mounting structure of the die casting machine of claim 1, wherein: the rapid clamping mechanism (3) comprises an inner groove (38), the inner groove (38) is arranged inside a rear plate (11), a connecting plate (37) is connected inside the inner groove (38) in a sliding manner, two clamping columns (39) are fixedly connected to the front end of the connecting plate (37), the two clamping columns (39) penetrate through the inner wall of the inner groove (38) and extend to the inner part of a first upper notch (13), the front ends of the two clamping columns (39) are respectively attached to the rear sides of two first arc plates (21), one end, far away from the two clamping columns (39), of the connecting plate (37) is fixedly connected with two first compression springs (36), one ends, far away from the connecting plate (37), of the two first compression springs (36) are fixedly connected to the inner wall of the inner groove (38), the connecting plate (37) is connected into the inner groove (38) in a sliding manner through the two first compression springs (36), and a rear notch (33) is formed in the rear wall surface of the inner groove (38), the inside of the rear slot (33) communicates with the outside of the rear plate (11).

5. The nitrogen cylinder mounting structure of the die casting machine of claim 4, wherein: the rapid clamping mechanism (3) further comprises two supporting plates (32), the two supporting plates (32) are fixedly connected to the rear side face of the rear plate (11), a rotating rod (34) is arranged between the two supporting plates (32), two ends of the rotating rod (34) are respectively and rotatably connected to one side, close to the two supporting plates (32), of the rotating rod (34), a bent plate (31) is fixedly sleeved on the outer portion of the rotating rod (34), the bent plate (31) is rotatably connected between the two supporting plates (32) through the rotating rod (34), the lower end of the bent plate (31) penetrates through a rear notch (33) and extends into an inner groove (38), the lower end of the bent plate (31) is located below the lower end of a connecting plate (37), two torsion springs (35) are movably sleeved on the outer portion of the rotating rod (34), one ends, far away from the two torsion springs (35), are respectively and fixedly connected to one side, close to the two supporting plates (32), one ends of the two torsion springs (35) close to each other are respectively and fixedly connected with two side walls of the bent plate (31).

6. The nitrogen cylinder mounting structure of the die casting machine of claim 1, wherein: head decline buffer gear (5) is including erecting groove (510), erects the inside of groove (510) and offer in front bezel (12), and the inside of erecting groove (510) is linked together with the inside of last notch two (14), the inside sliding connection who erects groove (510) has square column (52), two swash plates (51) of the upper end fixedly connected with of square column (52), two swash plates (51) become opposite form slope setting, the equal fixedly connected with push pedal (53) in the outside both sides of square column (52).

7. The nitrogen cylinder mounting structure of the die casting machine of claim 6, wherein: notch (54) down has been seted up to the lower surface of square column (52), the inner wall fixedly connected with bearing (55) of notch (54) down, the inside fixed cover of bearing (55) has connect cylinder (56), thread groove (57) have been seted up to the inside of cylinder (56), and the inside of thread groove (57) is linked together with the outside below of cylinder (56), the internal thread connection of thread groove (57) has thread post (58), the lower extreme fixed connection of thread post (58) is on the diapire of erecting groove (510), the outside activity of thread post (58) has cup jointed compression spring two (59), the upper end swing joint of compression spring two (59) is in the lower extreme of cylinder (56), the lower extreme fixed connection of compression spring two (59) is on the diapire of erecting groove (510).

8. The nitrogen cylinder mounting structure of the die casting machine of claim 7, wherein: the upper surface of the cylinder (56) is provided with an arch, and the two push plates (53) are respectively positioned above the two sides in the upper notch II (14).

9. The nitrogen cylinder mounting structure of the die casting machine of claim 6, wherein: the utility model discloses a square column, including square column (52), the right side of square column (52) is provided with grafting mechanism (6), grafting mechanism (6) are including side notch (64) and spout (62), the right side of square column (52) is seted up in side notch (64), the inner wall fixedly connected with magnet (63) of side notch (64), the inside of front bezel (12) is seted up in spout (62), and the inside and the outside homogeneous phase intercommunication of erecting groove (510) and front bezel (12) of spout (62), the inside sliding connection of spout (62) has traveller (61), the left end fixedly connected with magnet two (66) of traveller (61), magnet two (66) and magnet one (63) set into the magnetic pole of attracting each other, square groove (65) have been seted up on the inside right side of traveller (61), the inside and the outside upper and lower both sides homogeneous phase intercommunication of traveller (61) of square groove (65).

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