CN117380922A - Die-casting transfer chain - Google Patents

Abstract

The invention discloses a die-casting conveying line, and relates to the technical field of die-casting production. The die-casting conveying line comprises a frame, wherein a first conveying mechanism and a second conveying mechanism are arranged on the frame; the first conveying mechanism and the second conveying mechanism are sequentially arranged along the conveying direction, and the first conveying mechanism and the second conveying mechanism are both chain plate conveying mechanisms; each conveying chain plate of the first conveying mechanism is provided with a first open slot in a penetrating way; each conveying chain plate of the first conveying mechanism is provided with a supporting frame, the supporting frame corresponds to the first open slot in position, and one side, far away from the first open slot, of the supporting frame is provided with a second open slot; a plurality of supporting balls are arranged in the supporting frame and used for supporting die castings to be conveyed; the invention is convenient for accelerating the heat dissipation of die casting in the conveying process.

Description

Die-casting transfer chain

Technical Field

The invention relates to the technical field of die casting production, in particular to a die casting conveying line.

Background

After die casting is die-cast and demoulded, the die casting is generally grabbed by a mechanical arm and the like and is placed on a conveying mechanism for conveying, but the die casting has higher temperature, so that the die casting needs to be cooled in the conveying process; the existing conveying line adopts a chain plate conveying mechanism more and is matched with a blowing cooling mode to radiate the die castings, but the existing conveying line adopts a plate-shaped chain plate more, and in the process of conveying the die castings, the die castings are supported by the chain plate, so that the heat radiation of the contact part of the die castings and the chain plate is slow, the circulation of air flow is easy to be blocked, and meanwhile, the disturbance effect of the existing conveying line on the die castings is poor, so that the heat radiation of the die castings is inconvenient to accelerate.

Disclosure of Invention

The invention aims to provide a die-casting conveying line, which utilizes a supporting ball to support a die-casting, and the disturbance to the die-casting is caused by the disturbance to the supporting ball, so that the rapid heat dissipation of the die-casting is accelerated in the process of conveying the die-casting.

In order to solve the technical problems, the invention provides the following technical scheme: a die-casting conveying line comprises a frame, wherein a first conveying mechanism and a second conveying mechanism are arranged on the frame; the first conveying mechanism and the second conveying mechanism are sequentially arranged along the conveying direction, and the first conveying mechanism and the second conveying mechanism are both chain plate conveying mechanisms; each conveying chain plate of the first conveying mechanism is provided with a first open slot in a penetrating way; each conveying chain plate of the first conveying mechanism is provided with a supporting frame, the supporting frame corresponds to the first open slot in position, and one side, far away from the first open slot, of the supporting frame is provided with a second open slot; a plurality of supporting balls are arranged in the supporting frame and used for supporting die castings to be conveyed; one part of the supporting ball is penetrated in the first open slot, and the other part of the supporting ball is penetrated in the second open slot; the groove widths of the first open groove and the second open groove are smaller than the diameter of the supporting ball; the frame is provided with a plurality of supporting roller pieces, and the supporting roller pieces are all rotatably arranged on the frame; the supporting roller pieces are arranged in parallel along the conveying direction, and the supporting roller pieces are arranged below the conveying chain plate above; the frame is provided with a transmission mechanism, the transmission mechanism is used for driving the three supporting roller pieces to rotate, and the supporting roller pieces are used for jacking supporting balls contacted with the supporting roller pieces in the rotating process of the supporting roller pieces; the die-casting conveying line further comprises an air cooling mechanism, and the air cooling mechanism is used for cooling the die-casting on the first conveying mechanism.

Further, the support roller comprises a rotating shaft rotatably arranged on the frame, a semi-cylinder is fixedly connected to the outside of the rotating shaft, and the semi-cylinder and the rotating shaft are coaxial; the outside fixedly connected with a plurality of arc covers of semicircle pillar, a plurality of arc covers are the clearance setting along semicircle pillar length direction.

Further, the arc-shaped sleeve adopts a flexible piece.

Further, the transmission mechanism comprises a driving motor arranged on the frame, and a driving sprocket is sleeved at the output end of the driving motor; the transmission mechanism further comprises driven chain wheels sleeved outside each rotating shaft, and a transmission chain is wound between the driving chain wheel and all the driven chain wheels.

Further, the supporting frame comprises two first limiting plates symmetrically arranged on two sides of the first opening groove, and the two first limiting plates are arranged on the conveying chain plate; two second limiting plates are arranged between the two first limiting plates, a second open slot is formed in a gap between the two second limiting plates, and the two second limiting plates are respectively arranged on the two first limiting plates; a cover plate is detachably arranged between the end parts of the two first limiting plates.

Further, the air cooling mechanism comprises air boxes arranged on two sides of the frame, a wind shield is arranged between the two air boxes, and the wind shield is arranged on the frame; each air box is respectively connected with an exhaust hood, each exhaust hood is arranged on the corresponding wind shield in a penetrating mode, and each exhaust hood is provided with a plurality of exhaust outlets.

Compared with the prior art, the invention has the following beneficial effects.

1. The die casting is supported by the supporting balls, so that the contact area with the die casting can be greatly reduced, and air flow is convenient to circulate, thereby being beneficial to accelerating the heat dissipation of the die casting.

2. The vibration of the conveying chain plate in the conveying process is utilized to easily cause the supporting balls to move in the supporting frame, so that the conveyed die castings can conveniently and irregularly move, and the heat dissipation effect on the die castings is accelerated by matching with the air cooling effect of the air cooling mechanism.

3. Through the jacking effect to the supporting ball in the arc-shaped sleeve rotating process, the disturbance to the supporting ball is realized, so that the disturbance effect on the vertical direction of the die casting is realized, and the heat dissipation speed of the die casting is further accelerated.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the mounting of a conveyor flight of the first conveyor mechanism and the second conveyor mechanism of the present invention.

Fig. 3 is a schematic installation view of the air cooling mechanism of the present invention.

Fig. 4 is a schematic view of the position of the support roller and the transmission mechanism of the invention.

Fig. 5 is a schematic view of the structure of the conveying chain plate and the supporting frame of the present invention.

Fig. 6 is a schematic view of the splice and support ball placement of the conveyor chain plate of the present invention.

FIG. 7 is a schematic illustration of the cooperation of the backup roll and the drive mechanism of the present invention.

Fig. 8 is a schematic view showing a state that the arc-shaped sleeve of the present invention lifts up the supporting ball.

Reference numerals illustrate: 1. a frame; 2. a first conveying mechanism; 3. a second conveying mechanism; 4. an air cooling mechanism; 41. a wind box; 42. a wind shield; 43. an exhaust hood; 44. an air outlet; 5. a conveying chain plate; 51. a first open slot; 6. a support roller member; 61. a rotation shaft; 62. a half cylinder; 63. an arc sleeve; 7. a transmission mechanism; 71. a driving motor; 72. a drive sprocket; 73. a driven sprocket; 74. a drive chain; 8. a support frame; 81. a first limiting plate; 82. a second limiting plate; 83. a second open slot; 84. a cover plate; 9. and supporting the ball.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 and 2, the present invention provides the following technical solutions: the die-casting conveying line comprises a frame 1, wherein a first conveying mechanism 2 and a second conveying mechanism 3 are arranged on the frame 1, and the first conveying mechanism 2 and the second conveying mechanism 3 are sequentially arranged along a conveying direction; the first conveying mechanism 2 and the second conveying mechanism 3 are all chain plate conveying mechanisms, namely, the first conveying mechanism 2 and the second conveying mechanism 3 are all composed of conveying chain plates 5, conveying chains, chain rollers and the like, and are driven to rotate by a motor; the frame 1 is provided with an air cooling mechanism 4, and the air cooling mechanism 4 is used for performing an air cooling function on the die castings conveyed on the first conveying mechanism 2, so that the die castings conveyed on the first conveying mechanism 2 are subjected to heat dissipation treatment; preferably, the first conveying mechanism 2 can be controlled to convey the die casting more slowly, and the conveying speed of the second conveying mechanism 3 can be larger than that of the first conveying mechanism 2.

Referring to fig. 1-3, the air cooling mechanism 4 includes air boxes 41 disposed at two sides of the frame 1, a wind shield 42 is disposed between the two air boxes 41, the wind shield 42 is disposed at the top of the frame 1, and the wind shield 42 is located above the conveying chain plate 5 of the first conveying mechanism 2; each air box 41 is respectively communicated with an exhaust hood 43, the exhaust hoods 43 are arranged on the wind shields 42 in a penetrating way, a plurality of exhaust outlets 44 are arranged at the bottoms of the exhaust hoods 43, the air boxes 41 guide air flow into the exhaust hoods 43, and the exhaust outlets 44 are used for blowing air to the areas below the wind shields 42 and the areas nearby the lower parts of the wind shields 42; the exhaust hood 43 adopts a square tube or circular tube structure, and a part of the exhaust hood 43 can be provided with taper; the bellows 41 is internally provided with a flow-limiting device (not shown) for regulating the flow rate and the flow of the air flow introduced into the hood 43, in particular a control valve; thereby realizing the adjustment of the exhaust speed and flow of the exhaust outlet 44 so as to avoid the influence of the excessive exhaust speed or flow on the internal tissue structure of the die casting.

Referring to fig. 4-6, a first opening groove 51 is formed in each conveying chain plate 5 of the first conveying mechanism 2 in a penetrating manner, a supporting frame 8 is further arranged on each conveying chain plate 5 of the first conveying mechanism 2, and the supporting frame 8 corresponds to the first opening groove 51 in position; specifically, the supporting frame 8 includes two first limiting plates 81 disposed on the conveying chain plate 5, and the two first limiting plates 81 are symmetrically disposed on two sides of the first open slot 51; a cover plate 84 is arranged between the end plates of the two first limiting plates 81, the cover plate 84 is detachably arranged on the two first limiting plates 81, and the specific cover plate 84 can be connected with the first limiting plates 81 through bolts, screws and the like.

Meanwhile, two second limiting plates 82 are arranged between the two first limiting plates 81, and the two second limiting plates 82 are respectively arranged on the two first limiting plates 81; preferably, the second limiting plates 82 are vertically disposed on one side of the first limiting plates 81 away from the conveying chain plate 5, a gap between the two second limiting plates 82 forms a second open slot 83, and the second open slot 83 corresponds to the first open slot 51 in position.

A plurality of supporting balls 9 are arranged in the supporting frame 8, and the supporting balls 9 are used for supporting die castings to be conveyed; namely, the supporting ball 9 is limited and supported by the two second limiting plates 82, one part of the supporting ball 9 can penetrate out of the first open slot 51, and the other part of the supporting ball 9 can penetrate into the second open slot 83; at the same time, the groove widths of the first open groove 51 and the second open groove 83 are smaller than the diameters of the support balls 9, so that the support balls 9 are prevented from being removed from the first open groove 51 or the second open groove 83.

A plurality of supporting balls 9 are arranged in the supporting frame 8, but the supporting balls 9 do not completely fill the supporting frame 8 along the length direction of the supporting frame 8, namely, the supporting balls 9 can roll in the supporting frame 8; in addition, the diameter of the supporting ball 9 is smaller than the whole length-width dimension of the die casting to be conveyed; because the die casting is supported by the supporting balls 9, compared with a plate-shaped chain plate, the contact area with the die casting can be greatly reduced by utilizing the special structure of the ball, and the two adjacent supporting balls 9 can only be in point contact, and other areas between the two adjacent supporting balls 9 can not obstruct the circulation of air flow; since the air outlet 44 blows air under the wind shield 42 and in the vicinity of the wind shield 42, the support balls 9, the first open grooves 51, and the second open grooves 83 are provided to facilitate the circulation of air flow, thereby facilitating the acceleration of heat dissipation to the die casting, and the heat dissipation to the supported region of the die casting can be accelerated as compared with the case where the plate-shaped link plate supports the die casting.

In addition, since the first conveying mechanism 2 adopts a chain plate conveying mechanism, namely adopts a chain transmission mode, and the chain is composed of multiple sections, each section is easy to vibrate and deflect in the working process, and the supporting balls 9 are easy to move in the supporting frame 8 by utilizing the vibration effect of the first conveying mechanism 2 in the working process, so that the conveyed die castings can conveniently and irregularly move, and the cooling effect of the air cooling mechanism 4 is matched, so that the cooling effect on the die castings is accelerated.

Referring to fig. 2, 4 and 7, a plurality of support rollers 6 are disposed on the frame 1, all the support rollers 6 are rotatably disposed on the frame 1, and areas corresponding to the support rollers 6 correspond to the windshield 42; the plurality of support roller pieces 6 are arranged in parallel along the feeding direction, the support roller pieces 6 are arranged in the first conveying mechanism 2, and when any conveying chain plate 5 of the first conveying mechanism 2 moves to the position above one support roller piece 6, the support roller pieces 6 are close to the inner side of the conveying chain plate 5 above the support roller pieces 6; the supporting roller 6 comprises a rotating shaft 61, the rotating shaft 61 is movably arranged on the frame 1 through a bearing, a half cylinder 62 is fixedly connected to the outer part of the rotating shaft 61, and a plurality of arc-shaped sleeves 63 are fixedly connected to the outer part of the half cylinder 62; specifically, the semi-cylinder 62 is in interference fit with the outer part of the rotating shaft 61, the arc-shaped sleeve 63 is in interference fit with the outer part of the semi-cylinder 62, and the arc-shaped sleeve 63, the semi-cylinder 62 and the rotating shaft 61 are coaxial; the arc-shaped sleeves 63 are of a semicircular structure, and the arc-shaped sleeves 63 are uniformly distributed along the length direction of the semi-cylinder 62 in a clearance mode, and preferably, the clearance between two adjacent arc-shaped sleeves 63 is three times the diameter of the supporting ball 9.

Referring to fig. 7 and 8, a transmission mechanism 7 is provided on the frame 1, and the transmission mechanism 7 is used for driving three support roller members 6 to rotate, i.e. synchronously driving three rotating shafts 61 to rotate; when the conveying chain plate 5 and the supporting balls 9 are stationary, the position from the lowest part of the supporting balls 9 in the upper supporting frame 8 to the axis of the rotating shaft 61 is smaller than the diameter of the outer annular surface of the arc-shaped sleeve 63; therefore, during the rotation of the support roller 6, when the arc-shaped sleeve 63 starts to contact with the corresponding support ball 9 above the arc-shaped sleeve 63, the arc-shaped sleeve 63 will lift the support ball 9 contacting the arc-shaped sleeve 63 as the arc-shaped sleeve 63 continues to rotate; when the middle position of the arc-shaped sleeve 63 is just overlapped in the vertical plane where the rotation shaft 61 is located, the maximum displacement is lifted at the moment, and the supporting ball 9 can move upwards through the first open groove 51 in the process that the supporting ball 9 is lifted; the supporting ball 9 can be lifted in the rotating process of the arc-shaped sleeve 63, so that the supporting ball 9 is disturbed, and the effect of disturbing the die casting in the vertical direction can be achieved.

Preferably, the arc-shaped sleeve 63 is made of a flexible member, such as rubber, silica gel, etc., so that abrasion of the support ball 9 can be reduced during the process of lifting the support ball 9 by the arc-shaped sleeve 63.

In order to realize the disturbance of the die casting in the vertical direction, a plurality of arc-shaped sleeves 63 are arranged at intervals to lift the supporting balls 9 in different areas; in addition, the operations such as setting the gaps and the number of the supporting roller pieces 6, controlling the conveying speed of the first conveying mechanism 2, controlling the rotating speed of the rotating shaft 61, controlling the time interval of placing the die castings on the first conveying mechanism 2 by an external manipulator and the like can be conveniently realized, so that the up-and-down disturbance on the die castings conveyed by the first conveying mechanism 2 can be conveniently realized, and the heat dissipation speed of the die castings can be further accelerated; and the arc-shaped sleeves 63 on the same half cylinder 62 are arranged at intervals, so when the arc-shaped sleeves 63 on the half cylinder 62 lift up the supporting balls 9 in one supporting frame 8, not all the supporting balls 9 in the supporting frame 8 are lifted up, namely, the supporting balls 9 at a plurality of positions in the supporting frame 8 are not lifted up, and therefore, die casting deflection and disturbance are caused conveniently.

The transmission mechanism 7 comprises a driving motor 71 arranged on the frame 1, and a driving sprocket 72 is sleeved at the output end of the driving motor 71; each rotation shaft 61 is respectively sleeved with a driven sprocket 73, the driving sprocket 72 is connected with all the driven sprockets 73 through a transmission chain 74, namely, the driving sprocket 72 is driven to rotate through the driving motor 71, and all the driven sprockets 73 can be driven to rotate under the action of the transmission chain 74, so that all the rotation shafts 61, the arc-shaped sleeves 63 and the like are driven to rotate.

Referring to fig. 1-8, the working principle of the present invention is as follows: the die castings which are grabbed and molded by an external manipulator or a mechanical claw are placed on the first conveying mechanism 2 at intervals, the die castings are supported by the supporting balls 9, meanwhile, the air box 41 guides air flow into the exhaust hood 43, the air outlet 44 discharges the air flow, and in the process of conveying the die castings by the first conveying mechanism 2, the air outlet 44 discharges the air flow to blow and dissipate heat of the die castings; meanwhile, the supporting balls 9 are easy to move in the supporting frame 8 by utilizing the vibration of the conveying chain plate 5 in the conveying process, so that the conveyed die castings can conveniently move irregularly, and the cooling effect of the air cooling mechanism 4 is matched to accelerate the heat dissipation effect on the die castings; in addition, the supporting ball 9 can be lifted in the rotating process of the arc-shaped sleeve 63, so that the supporting ball 9 is disturbed, the disturbance effect on the die casting in the vertical direction is realized, and the rapid heat dissipation of the die casting is facilitated in the process of conveying the die casting; the die casting subjected to heat dissipation treatment can be conveyed from the first conveying mechanism 2 to the second conveying mechanism 3, and the die casting can be conveyed to the next working procedure or working position through the second conveying mechanism 3.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The die-casting conveying line comprises a frame (1), wherein a first conveying mechanism (2) and a second conveying mechanism (3) are arranged on the frame (1); the first conveying mechanism (2) and the second conveying mechanism (3) are sequentially arranged along the conveying direction, and the first conveying mechanism (2) and the second conveying mechanism (3) are both chain plate conveying mechanisms; the method is characterized in that:

a first open slot (51) is arranged on each conveying chain plate (5) of the first conveying mechanism (2) in a penetrating way;

each conveying chain plate (5) of the first conveying mechanism (2) is provided with a supporting frame (8), the supporting frames (8) correspond to the first open grooves (51) in position, and one side, far away from the first open grooves (51), of each supporting frame (8) is provided with a second open groove (83);

a plurality of supporting balls (9) are arranged in the supporting frame (8), and the supporting balls (9) support die castings to be conveyed;

a part of the supporting ball (9) is penetrated in the first open groove (51), and the other part of the supporting ball (9) is penetrated in the second open groove (83);

the groove widths of the first open groove (51) and the second open groove (83) are smaller than the diameter of the supporting ball (9);

a plurality of supporting roller pieces (6) are arranged on the frame (1), and the supporting roller pieces (6) are all rotatably arranged on the frame (1);

the supporting roller pieces (6) are arranged in parallel along the feeding direction, and the supporting roller pieces (6) are arranged below the conveying chain plate (5) above;

the machine frame (1) is provided with a transmission mechanism (7), the transmission mechanism (7) drives the three supporting roller pieces (6) to rotate, and supporting balls (9) contacted with the supporting roller pieces (6) are lifted in the rotating process of the supporting roller pieces (6);

the die-casting conveying line further comprises an air cooling mechanism (4), and the air cooling mechanism (4) cools the die-casting on the first conveying mechanism (2).

2. A die-cast transfer wire as in claim 1 wherein: the support roller (6) comprises a rotating shaft (61) rotatably arranged on the frame (1), a semi-cylinder (62) is fixedly connected to the outside of the rotating shaft (61), and the semi-cylinder (62) and the rotating shaft (61) are coaxial;

the outside fixedly connected with a plurality of arc cover (63) of semicylinder (62), a plurality of arc cover (63) are the clearance setting along semicylinder (62) length direction.

3. A die-cast transfer wire as in claim 2 wherein: the arc-shaped sleeve (63) adopts a flexible piece.

4. A die-cast transfer wire as in claim 2 wherein: the transmission mechanism (7) comprises a driving motor (71) arranged on the frame (1), and a driving sprocket (72) is sleeved at the output end of the driving motor (71);

the transmission mechanism (7) further comprises driven chain wheels (73) sleeved outside each rotating shaft (61), and a transmission chain (74) is wound between the driving chain wheels (72) and all the driven chain wheels (73).

5. A die-cast transfer wire as in claim 1 wherein: the supporting frame (8) comprises two first limiting plates (81) symmetrically arranged on two sides of the first opening groove (51), and the two first limiting plates (81) are arranged on the conveying chain plate (5);

two second limiting plates (82) are arranged between the two first limiting plates (81), a second open slot (83) is formed in a gap between the two second limiting plates (82), and the two second limiting plates (82) are respectively arranged on the two first limiting plates (81);

a cover plate (84) is detachably arranged between the end parts of the two first limiting plates (81).

6. A die-cast transfer wire as in claim 1 wherein: the air cooling mechanism (4) comprises air boxes (41) arranged on two sides of the frame (1), a wind shield (42) is arranged between the two air boxes (41), and the wind shield (42) is arranged on the frame (1);

each air box (41) is respectively connected with an exhaust hood (43), each exhaust hood (43) is arranged on the corresponding wind shield (42) in a penetrating mode, and each exhaust hood (43) is provided with a plurality of exhaust outlets (44).