CN216612703U - Improved non-standard suspension die forging chain conveying equipment - Google Patents

Abstract

The utility model relates to a conveying equipment technical field, more specifically relates to an improve nonstandard suspension die forging chain conveying equipment, include: one end of the supporting frame is connected to the fixed beam; the chain track is fixedly connected to one end, far away from the fixed beam, of the support frame; the die forging chain mechanism is arranged on the chain track in a sliding mode and comprises a die forging chain assembly, a main sliding wheel assembly and an auxiliary sliding wheel assembly, wherein the main sliding wheel assembly and the auxiliary sliding wheel assembly are arranged on the die forging chain assembly at intervals; the chain driving mechanism is used for driving the die forging chain mechanism; the hanger mechanism is connected to the main pulley. The utility model improves the main sliding wheel assembly and the auxiliary sliding wheel assembly, increases the safe distance between the main sliding wheel assemblies, further increases the safe distance between workpieces suspended on the die forging chain, and avoids the workpieces being clamped by the auxiliary equipment chamber body.

Description

Improved non-standard suspension die forging chain conveying equipment

Technical Field

The utility model relates to the technical field of conveying equipment, in particular to improved nonstandard suspension die forging chain conveying equipment.

Background

The suspended die forging chain conveying mode has low cost and stable and reliable structure, so that the suspended die forging chain conveying mode is widely applied to various industries. The die forging chain can be matched with different accessories according to the use environment and application, and various die forging chain conveying devices are formed. At present, in a production workshop of the automobile industry, when medium-large-volume resin parts are transported, the conventional die forging chain conveying has the defects that the spacing allowance of accessories hung on a chain is not large due to the structure of the chain, so that workpieces are clamped by an automatic door of an auxiliary equipment chamber body, and if the size of the chain is increased, unnecessary equipment cost is increased. In addition, a simple hook often adopted by the existing lifting appliance is used for hanging the transported workpiece, and the shaking of the workpiece in the transportation process of the curve can influence the running stability of the equipment.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, an object of the present invention is to provide an improved non-standard suspension die forging chain conveying apparatus, which improves a main sliding wheel assembly and an auxiliary sliding wheel assembly, increases a safety distance between the main sliding wheel assembly and the auxiliary sliding wheel assembly, further increases a safety distance between workpieces suspended on a die forging chain, and avoids clamping the workpieces by an auxiliary apparatus chamber body.

The technical purpose of the utility model is realized by the following technical scheme, and the improved non-standard suspension die forging chain conveying equipment comprises:

one end of the supporting frame is connected with the fixed beam;

the chain track is fixedly connected to one end, far away from the fixed beam, of the support frame;

the die forging chain mechanism is arranged on the chain track in a sliding mode and comprises a die forging chain assembly, and a main sliding wheel assembly and an auxiliary sliding wheel assembly which are arranged on the die forging chain assembly, wherein the main sliding wheel assembly and the auxiliary sliding wheel assembly are arranged at intervals, the main sliding wheel assembly comprises two main sliding wheels, and the auxiliary sliding wheel assembly at least comprises two auxiliary sliding wheels;

the chain driving mechanism drives the die forging chain mechanism to slide in the chain track;

and one end of the lifting appliance mechanism is connected with the main sliding wheel.

The utility model increases the sliding stress points between the main sliding wheel assemblies by arranging the auxiliary sliding wheel assemblies between the main sliding wheel assemblies, thereby increasing the running stability and smoothness of the suspended die forging chain conveying equipment. Furthermore, the auxiliary sliding wheel assembly at least comprises two auxiliary sliding wheels, so that the workpiece suspended between the main sliding wheel assemblies is ensured to have enough safety distance, and the workpiece is prevented from being clamped when the upper and lower auxiliary equipment chamber bodies are closed.

In one embodiment, the swaging chain assembly comprises swaging chains, the swaging chains being connected by a fastener to adjacent front and rear swaging chains, and the secondary pulley assembly comprises two secondary pulleys between which the swaging chains are disposed.

In one embodiment, the main sliding wheel and the auxiliary sliding wheel comprise two single pulleys fixedly arranged on one side of the die forging chain, and the two single pulleys are mutually matched and slidably arranged in the chain track.

In one embodiment, the main pulley further comprises a first connecting member, one end of the first connecting member is fixedly arranged at the other side of the die forging chain, and the other end of the first connecting member is connected with the spreader mechanism.

In one embodiment, the lifting appliance mechanism comprises a transverse pipe, wherein second connecting pieces are fixedly connected to two ends of the transverse pipe, the two second connecting pieces are respectively connected with first connecting pieces on two main sliding wheels, two guide pulleys are respectively arranged at two ends of the middle of the transverse pipe, and a hook for hanging a workpiece is fixedly connected to the bottom of the transverse pipe.

In one embodiment, the hook comprises a hanging part, an auxiliary positioning piece for stabilizing the workpiece is arranged on the hanging part, and the auxiliary positioning piece is perpendicular to the hanging part on a horizontal plane.

In one embodiment, a balance rail is further arranged at one end, away from the fixed beam, of the support frame, and protection parts are arranged at the bottoms of two ends of the balance rail and are matched with the guide pulleys to slide.

In one embodiment, an oil receiving disc is arranged below the main sliding wheel, and one end of the oil receiving disc is connected with the supporting frame through a second connecting rod.

In one embodiment, the chain track comprises a straight track and a turning track, and a chain tensioning mechanism is arranged on one of the turning tracks.

In one embodiment, a side of the turning track facing the circle center of the curve is also provided with a bent section auxiliary guide wheel.

The utility model has the advantages that:

(1) according to the utility model, the auxiliary sliding wheel assemblies are arranged between the main sliding wheel assemblies, so that the sliding stress points are increased between the main sliding wheel assemblies, and further the running stability and smoothness of the suspended die forging chain conveying equipment are increased;

(2) the utility model optimizes the transverse pipe and the guide pulley of the lifting appliance mechanism, and the two ends of the middle part of the transverse pipe are respectively provided with the guide pulley, thereby reducing the cost of the lifting appliance mechanism;

(3) according to the utility model, the auxiliary positioning piece is added on the lifting appliance mechanism, so that the shaking amount of the workpiece hung on the hook is reduced, and the stability of the equipment during use and operation is improved.

Drawings

FIG. 1 is a top plan view of the improved non-standard suspension swaging chain transfer apparatus of the present invention;

FIG. 2 is an enlarged view of the present invention at A;

FIG. 3 is a cross-sectional view taken at A-A of the present invention;

FIG. 4 is a side view of the support frame, counter rail and spreader mechanism of the present invention;

FIG. 5 is a side view of the swaged chain mechanism of the present invention;

FIG. 6 is an enlarged view of the utility model at B;

FIG. 7 is a side view of the swaged chain of the present invention;

FIG. 8 is a cross-sectional view of the swaged chain mechanism of the present invention;

FIG. 9 is a front view of the spreader mechanism of the present invention;

fig. 10 is a side view of the spreader mechanism of the present invention.

In the figure, 1, a support frame; 2. a fixed beam; 3. a chain track; 31. a linear track; 32. a turning track; 4. a die forging chain mechanism; 41. die forging a chain; 411. a chain segment; 412. a position clamping hole; 413. a clamping piece; 42. a fixing member; 421. a through hole; 43. a main sliding wheel assembly; 431. a main pulley; 4331. a first connecting member; 44. an auxiliary sliding wheel assembly; 441. auxiliary sliding wheels; 45. a single pulley; 5. a chain drive mechanism; 6. a spreader mechanism; 61. a transverse tube; 62. a second connecting member; 63. A guide pulley; 64. hooking; 641. a hanging part; 7. balancing the rail; 71. a first connecting rod; 72. a guard bar; 721 a protective part; 8. a second connecting rod; 81. an oil receiving pan; 9. an auxiliary positioning member; 10. a chain tensioning mechanism; 11. a curve auxiliary guide wheel; 12. and (5) a workpiece.

Detailed Description

As shown in fig. 1-3, an improved non-standard suspension die forging chain conveying device, which comprises a support frame 1, one end of the support frame 1 is fixedly connected to a fixed beam 2, the other end of the support frame 1 is fixedly connected with a chain track 3, a die forging chain mechanism 4 is arranged on the chain track 3 in a sliding manner, the die forging chain mechanism 4 comprises a die forging chain assembly, a main sliding wheel assembly (43) and an auxiliary sliding wheel assembly (44) which are arranged on the die forging chain assembly, the main sliding wheel assembly (43) and the auxiliary sliding wheel assembly (44) are arranged on the die forging chain assembly at uniform intervals, a motor in a chain driving mechanism 5 rotates, force is transmitted to a chain wheel through the motor, the chain wheel drives a tooth-shaped transmission chain to move, the die forging chain assembly is pulled by the tooth-shaped transmission chain, and then the die forging chain mechanism 4 is driven to slide on the chain track 3.

Further, as shown in fig. 5 to 8, the die forging chain assembly includes a die forging chain 41 and a fixing member 42, the die forging chain 41 includes two chain sections 411 parallel to each other, two ends of the two chain sections 411 are respectively provided with two blocking holes 412 opposite in position, and two blocking members 413 are respectively inserted into the two blocking holes 412 of the two chain sections 411, so as to fix the two chain sections 411 parallel to each other. Through holes 421 matched with the locking members 413 are formed at both ends of the fixed member 42, and the through holes 421 at both ends of the fixed member 42 are inserted into the locking members 413 of the adjacent die forging chains 41 so that the chain sections 411 are connected end to form the die forging chains 41.

Further, the main sliding wheel assembly 43 comprises two main sliding wheels 431, and the auxiliary sliding wheel assembly 44 comprises at least two auxiliary sliding wheels 441, so that a sufficient safety distance is ensured between the workpieces 12 suspended by the main sliding wheel assembly 43, and the workpieces 12 are prevented from being pinched by the auxiliary equipment chamber body when the workpieces are closed. The main pulley 431 and the auxiliary pulley 441 include two single pulleys 45 fixedly disposed on one side of the die forging chain 41, and the two single pulleys 45 are slidably disposed on the chain rail 3 in cooperation with each other. The main sliding wheel assemblies 43 are stressed wheel assemblies, and the lifting appliance mechanism 6 is conveyed and suspended below the main sliding wheel assemblies 43, while the auxiliary sliding wheel assemblies 44 are arranged between the main sliding wheel assemblies 43, so that the sliding stress points are increased between the main sliding wheel assemblies 43, and the running stability and the running smoothness of the suspended die forging chain conveying equipment are further increased. Further, in the present embodiment, the auxiliary sliding wheel assembly 44 includes two auxiliary sliding wheels 441.

Further, the main pulley 431 further includes a first connecting member 4331, one end of the first connecting member 4331 is fixedly disposed on the other side of the die forging chain 41 opposite to the single pulley 45, and the other end of the first connecting member 4331 is connected to the spreader mechanism 6.

Further, as shown in fig. 9 to 10, the spreader mechanism 6 includes a transverse tube 61, two ends of the transverse tube 61 are fixedly connected with second connecting members 62, the two second connecting members 62 are respectively connected with the first connecting members 4331 on the two main sliding wheels 431 of the same main sliding wheel assembly 43, two ends of the middle portion of the transverse tube 61 are respectively provided with a guide pulley 63, and the bottom of the transverse tube 61 is fixedly connected with a hook 64 for hanging the workpiece 12. In the embodiment, only one guide pulley 63 is arranged at each end of the middle part of the transverse tube 61, so that the number of the transverse tubes 61 and the guide pulleys 63 of the lifting appliance mechanism 6 is optimized, and the cost of the lifting appliance mechanism 6 is reduced. Two main sliding wheels 431 are connected with second connecting pieces 62 at two ends of the lifting appliance mechanism 6 through first connecting pieces 4331, and the stability of the lifting appliance mechanism 6 in operation can be improved by the arrangement that the two main sliding wheels 431 are connected with the same lifting appliance mechanism 6.

Further, as shown in fig. 3 to 4, the supporting frame 1 is further provided with a balance rail 7 at one end of the chain driving mechanism 5 or at a lower part of the workpiece 12, the balance rail 7 includes a first connecting rod 71 connected to the supporting frame 1 and guard rods 72 arranged at two ends of the first connecting rod 71, the bottoms of two ends of the guard rods 72 are provided with guard portions 721, and the guard portions 721 are in sliding fit with the guide pulleys 63. When the main pulley 431 passes one end of the chain drive mechanism 5 or the lower portion of the workpiece 12, the pulley 63 of the hoist mechanism 6 is in sliding contact with the guard portion 721, so that the amount of shaking of the hoist mechanism 6 is reduced, and the workpiece 12 is smoothly transported.

Further, one end of the support frame 1, which is far away from the fixed beam 2, is further connected with a second connecting rod 8, the other end of the second connecting rod 8 is horizontally provided with an oil receiving disc 81, and the oil receiving disc 81 is located below the main sliding wheel 431. In order to ensure the smoothness of the operation of the die forging chain conveying equipment, lubricating oil is usually used for lubricating the die forging chain assembly or the chain track 3 in the daily use process, and the oil receiving disc 81 is arranged to effectively prevent the lubricating oil from dripping onto the workpiece 12 due to gravity, so that the workpiece 12 is ensured to be clean.

Further, the hook 64 includes a hanging portion 641, an auxiliary positioning element 9 for stabilizing the workpiece 12 is fixedly disposed on the hanging portion 641, the auxiliary positioning element 9 is perpendicular to the hanging portion 641 on a horizontal plane, and in this embodiment, the auxiliary positioning element 9 is a cross bar. By adding the auxiliary positioning part 9 on the lifting appliance mechanism 6, the shaking amount of the workpiece 12 hung on the hook 64 is reduced, and the stability of the equipment during use and operation is improved.

Further, the chain rail 3 includes a straight rail 31 and a turning rail 32, wherein a chain tensioner 10 is disposed on one of the turning rails 32, and the chain tensioner 10 automatically adjusts the die forging chain 41 through a counter weight pulley so that the die forging chain 41 maintains a proper tension.

Further, as shown in fig. 2, a bent auxiliary guide wheel 11 is further disposed on one side of the turning track 32 facing the center of the curve, and when the main pulley 431 runs to the turning track 32, because the track of the curve is large, the first connecting member 4331 on the main pulley 431 is in sliding contact with the bent auxiliary guide wheel 11, so that mutual extrusion and abrasion of the main pulley 431 and the auxiliary pulley 441 with the chain track 3 are reduced, and the failure rate of the pulleys is reduced.

It will be apparent to those skilled in the art that various other changes and modifications may be made in the above-described embodiments and concepts and all such changes and modifications are intended to be within the scope of the appended claims.

Claims (10)

1. An improved non-standard suspension die forging chain conveying device is characterized by comprising:

one end of the support frame (1) is connected to the fixed beam (2);

the chain track (3) is fixedly connected to one end, far away from the fixed beam (2), of the support frame (1);

the die forging chain mechanism (4) is arranged on the chain track (3) in a sliding mode and comprises a die forging chain assembly, and a main sliding wheel assembly (43) and an auxiliary sliding wheel assembly (44) which are arranged on the die forging chain assembly, wherein the main sliding wheel assembly (43) and the auxiliary sliding wheel assembly (44) are arranged at intervals, the main sliding wheel assembly (43) comprises two main sliding wheels (431), and the auxiliary sliding wheel assembly (44) at least comprises two auxiliary sliding wheels (441);

a chain driving mechanism (5) for driving the die forging chain mechanism (4) to slide in the chain track (3);

a spreader mechanism (6) having one end connected to the main pulley (431).

2. The improved non-standard hanging die forging chain conveying equipment according to claim 1, wherein said die forging chain assembly comprises die forging chains (41), said die forging chains (41) adjacent to each other in front and rear are connected by fixing members (42), said auxiliary sliding wheel assembly (44) comprises two auxiliary sliding wheels (441), and one die forging chain (41) is arranged between said two auxiliary sliding wheels (441).

3. The improved non-standard hanging die forging chain conveying equipment as claimed in claim 2, wherein said main sliding wheel (431) and auxiliary sliding wheel (441) comprise two single pulleys (45) fixedly arranged at one side of said die forging chain (41), and the two single pulleys (45) are mutually matched and slidably arranged in said chain track (3).

4. The improved non-standard suspended swaging chain conveying apparatus of claim 3, wherein the main sliding wheel (431) further comprises a first connector (4331), one end of the first connector (4331) is fixedly arranged at the other side of the swaging chain (41), and the other end of the first connector (4331) is connected with the spreader mechanism (6).

5. The improved nonstandard hanging die forging chain conveying equipment according to claim 4, wherein the lifting appliance mechanism (6) comprises a transverse pipe (61), second connecting pieces (62) are fixedly connected to two ends of the transverse pipe (61), the two second connecting pieces (62) are respectively connected with first connecting pieces (4331) on the two main sliding wheels (431), two guide pulleys (63) are respectively arranged at two ends of the middle part of the transverse pipe (61), and a hook (64) for hanging a workpiece (12) is fixedly connected to the bottom of the transverse pipe (61).

6. An improved non-standard hanging die forging chain conveying equipment according to claim 5, characterized in that said hanger (64) comprises a hanging part (641), and an auxiliary positioning member (9) for stabilizing said workpiece (12) is arranged on said hanging part (641), and said auxiliary positioning member (9) is vertical to said hanging part (641) on a horizontal plane.

7. The improved non-standard suspension die forging chain conveying equipment is characterized in that one end, far away from the fixed beam (2), of the supporting frame (1) is further provided with a balance rail (7), the bottoms of two ends of the balance rail (7) are provided with protective parts (721), and the protective parts (721) are matched with the guide pulley (63) to slide.

8. The improved non-standard suspension forging chain conveying equipment as claimed in claim 1, wherein an oil receiving pan (81) is arranged below the main sliding wheel (431), and one end of the oil receiving pan (81) is connected with the supporting frame (1) through a second connecting rod (8).

9. The improved non-standard suspension swaging chain conveying apparatus of claim 1, wherein the chain track (3) comprises a linear track (31) and a turning track (32), the one turning track (32) having a chain tensioning mechanism (10) disposed thereon.

10. The improved non-standard suspension swaging chain conveying equipment of claim 9, wherein the side of the turning track (32) facing the circle center of the curve is further provided with a bent section auxiliary guide wheel (11).

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