CN212158150U - High-efficient copper feeding equipment for cable - Google Patents

Abstract

The utility model discloses a high-efficiency copper plate feeding device for cables, which comprises a turnover mechanism, a storage rack and a transportation mechanism, wherein the turnover mechanism is arranged on one side of a furnace mouth, the storage rack is used for stacking copper plates, the turnover mechanism is arranged between the storage rack and the furnace mouth, and the turnover mechanism further comprises a turnover frame, a turnover plate and a telescopic rod, wherein one end of the turnover plate close to the furnace mouth is hinged on the turnover frame, the conveying mechanism comprises a vertical frame, a guide rail, a clamping jaw and a sucker, the guide rail is arranged on the vertical frame and is distributed along the direction of the furnace mouth, the turnover mechanism and the storage frame, the guide rail is movably provided with a frame, two ends of the frame are respectively provided with an electric hoist, the clamping jaw and the sucker are respectively arranged on the lifting ropes of the two electric hoists, and the sucker is connected with a vacuum-pumping pump through a vacuum-pumping pipe, and the distance between the two electric hoists is equal to the distance between the furnace mouth and the turnover mechanism and equal to the distance between the turnover mechanism and the storage rack. The utility model discloses a full automatic feeding of copper, the effectual work efficiency that has improved.

Description

High-efficient copper feeding equipment for cable

Technical Field

The utility model relates to a high-efficient copper charging equipment is used to cable belongs to cable processing technology field.

Background

The copper material smelting process in the power cable is indispensable, and the feeding of the smelting furnace is one of the key operations influencing the smelting process. At present, in the production process of a secondary copper smelting and processing enterprise, the feeding of metallurgical furnace materials is generally carried out in a manual or movable mechanical feeding mode. However, due to the characteristics of large volume of the smelting furnace, high working temperature, large feeding amount and the like, the traditional feeding has the problems of low production efficiency, high labor intensity, severe working environment, serious pollution and the like. Moreover, with the shortage of labor force and the increase of wage level, the labor cost is continuously increased, and the replacement of manual operation by mechanical automation is a problem to be solved urgently faced by domestic smelting plants.

Disclosure of Invention

The utility model aims at providing a high-efficient copper charging equipment is used to cable, this full-automatic feeding system have solved the problem that artifical transport copper difficulty, material loading are wasted time and energy among the prior art.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a high-efficiency copper plate feeding device for cables comprises a turnover mechanism, a storage rack and a conveying mechanism, wherein the turnover mechanism is installed on one side of a furnace opening and used for stacking copper plates, the turnover mechanism is installed between the storage rack and the furnace opening and further comprises a turnover frame, a turnover plate and a telescopic rod, one end, close to the furnace opening, of the turnover plate is hinged to the turnover frame, the other end of the turnover plate is hinged to one end of the telescopic rod, the other end of the telescopic rod is hinged to the bottom of the turnover frame, a baffle is installed on the top surface of the turnover plate and located on one side, close to the furnace opening, of the turnover plate, the conveying mechanism comprises a vertical frame, guide rails, clamping jaws and sucking discs, the guide rails are installed on the vertical frame and are arranged along the directions of the furnace opening, the turnover mechanism and the storage rack, a rack is movably installed on the guide rails, two ends of the rack are respectively provided, and the sucker is connected with a vacuum-pumping pump through a vacuum-pumping pipe, and the distance between the two electric hoists is equal to the distance between the furnace mouth and the turnover mechanism and equal to the distance between the turnover mechanism and the storage rack.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, the guide rail is an I-shaped steel.

2. In the above scheme, the number of the guide rails is two, and the rack is connected to the two guide rails in a frame mode.

3. In the scheme, a plurality of travelling wheels in contact with the guide rail are installed at the bottom of the rack, and the travelling wheels are driven by a travelling motor.

4. In the scheme, the number of the walking wheels is 4.

5. In the above scheme, a limiting block is installed at two ends of the guide rail.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the utility model discloses high-efficient copper charging equipment is used to cable, its synchronous motion that passes through clamping jaw and sucking disc, cooperation tilting mechanism is to the automatic upset function of copper, make the sucking disc can be incessant with the copper transportation to tilting mechanism on, the clamping jaw can be in step will be by the incessant transportation to fire door department of the copper of upset, thereby realized the full-automatic feeding of copper, not only can reduce staff's intensity of labour, the synchronous motion that can also pass through sucking disc and clamping jaw further shortens copper material loading time, improve material loading efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the high-efficiency copper plate feeding device for cables of the present invention;

FIG. 2 is a schematic structural view of the turnover mechanism of the present invention;

in the following figures: 1. a furnace mouth; 2. a turnover mechanism; 21. a roll-over stand; 22. turning over a plate; 23. a telescopic rod; 24. a baffle plate; 3. a storage rack; 4. a transport mechanism; 41. a guide rail; 42. a clamping jaw; 43. a suction cup; 44. an electric hoist; 401. erecting a frame; 402. a vacuum pump is pumped; 5. a frame; 56. a traveling wheel; 57. a walking motor.

Detailed Description

In the description of this patent, it is noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The meaning of the above terms in this patent may be specifically understood by those of ordinary skill in the art.

Example 1: a high-efficiency copper plate feeding device for cables refers to the attached figures 1-2 and comprises a turnover mechanism 2, a storage rack 3 and a conveying mechanism 4, wherein the turnover mechanism 2 is installed on one side of a furnace opening 1, the storage rack 3 is used for stacking copper plates, the turnover mechanism 2 is installed between the storage rack 3 and the furnace opening 1, the turnover mechanism 2 further comprises a turnover rack 21, a turnover plate 22 and a telescopic rod 23, one end, close to the furnace opening 1, of the turnover plate 22 is hinged to the turnover rack 21, the other end of the turnover plate 22 is hinged to one end of the telescopic rod 23, the other end of the telescopic rod 23 is hinged to the bottom of the turnover rack 21, a baffle plate 24 is installed on the top surface of the turnover plate 22, and the baffle plate;

the telescopic rod 23 comprises a bottom rod 201 and a worm 25 inserted in the bottom rod 201, a telescopic motor 26 is mounted on the bottom rod 201, a worm wheel 27 is mounted on an output shaft of the telescopic motor 26, and a abdicating hole 202 for meshing the worm wheel 27 and the worm 25 is formed in the bottom rod 201;

the conveying mechanism 4 comprises a vertical frame 401, a guide rail 41, a clamping jaw 42 and a sucking disc 43, wherein the guide rail 41 is installed on the vertical frame 401 and is arranged along the direction of the furnace mouth 1, the turnover mechanism 2 and the storage rack 3, a rack 5 is installed on the guide rail 41, an electric hoist 44 is installed at each end of the rack 5, the clamping jaw 42 and the sucking disc 43 are installed on lifting ropes of the two electric hoists 44 respectively, the sucking disc 43 is connected with a vacuum-pumping pump 402 through a vacuum-pumping pipe, and the distance between the two electric hoists 44 is equal to the distance between the furnace mouth 1 and the turnover mechanism 2 and equal to the distance between the turnover mechanism 2 and the storage rack 3;

at least four sliding blocks 55 are arranged at the bottom of the rack 5, a walking wheel 56 in contact with the guide rail 41 is rotatably arranged at the bottom of each sliding block 55, a walking motor 57 is further arranged on the rack 5, and an output shaft of the walking motor 57 is inserted in the shaft center of the walking wheel 56;

a first sleeve 51 and a second sleeve 52 are mounted on the frame 5, a first pull rod 53 and a second pull rod 54 are respectively inserted into the bottom ends of the first sleeve 51 and the second sleeve 52, and the clamping jaw 42 and the suction cup 43 are respectively mounted at the bottom ends of the first pull rod 53 and the second pull rod 54;

the clamping jaw 42 further comprises a clamping plate 45, a rotating plate 46 and an air cylinder 47, wherein the clamping plate 45 is connected with a first pull rod 53, the rotating plate 46 is hinged at the tail end of the clamping plate 45, a driving plate 48 is further connected to the hinged end of the rotating plate 46, the air cylinder 47 is hinged on the first pull rod 53, and a piston rod of the air cylinder 47 is hinged with the driving plate 48.

Example 2: a high-efficiency copper plate feeding device for cables refers to the attached figures 1-2 and comprises a turnover mechanism 2, a storage rack 3 and a conveying mechanism 4, wherein the turnover mechanism 2 is installed on one side of a furnace opening 1, the storage rack 3 is used for stacking copper plates, the turnover mechanism 2 is installed between the storage rack 3 and the furnace opening 1, the turnover mechanism 2 further comprises a turnover rack 21, a turnover plate 22 and a telescopic rod 23, one end, close to the furnace opening 1, of the turnover plate 22 is hinged to the turnover rack 21, the other end of the turnover plate 22 is hinged to one end of the telescopic rod 23, the other end of the telescopic rod 23 is hinged to the bottom of the turnover rack 21, a baffle plate 24 is installed on the top surface of the turnover plate 22, and the baffle plate;

the telescopic rod 23 comprises a bottom rod 201 and a worm 25 inserted in the bottom rod 201, a telescopic motor 26 is mounted on the bottom rod 201, a worm wheel 27 is mounted on an output shaft of the telescopic motor 26, and a abdicating hole 202 for meshing the worm wheel 27 and the worm 25 is formed in the bottom rod 201;

the conveying mechanism 4 comprises a vertical frame 401, a guide rail 41, a clamping jaw 42 and a sucking disc 43, wherein the guide rail 41 is installed on the vertical frame 401 and is arranged along the direction of the furnace mouth 1, the turnover mechanism 2 and the storage rack 3, a rack 5 is installed on the guide rail 41, an electric hoist 44 is installed at each end of the rack 5, the clamping jaw 42 and the sucking disc 43 are installed on lifting ropes of the two electric hoists 44 respectively, the sucking disc 43 is connected with a vacuum-pumping pump 402 through a vacuum-pumping pipe, and the distance between the two electric hoists 44 is equal to the distance between the furnace mouth 1 and the turnover mechanism 2 and equal to the distance between the turnover mechanism 2 and the storage rack 3;

at least four sliding blocks 55 are arranged at the bottom of the rack 5, a walking wheel 56 in contact with the guide rail 41 is rotatably arranged at the bottom of each sliding block 55, a walking motor 57 is further arranged on the rack 5, and an output shaft of the walking motor 57 is inserted in the shaft center of the walking wheel 56;

a first sleeve 51 and a second sleeve 52 are mounted on the frame 5, a first pull rod 53 and a second pull rod 54 are respectively inserted into the bottom ends of the first sleeve 51 and the second sleeve 52, and the clamping jaw 42 and the suction cup 43 are respectively mounted at the bottom ends of the first pull rod 53 and the second pull rod 54;

the clamping jaw 42 further comprises a clamping plate 45, a rotating plate 46 and an air cylinder 47, wherein the clamping plate 45 is connected with a first pull rod 53, the rotating plate 46 is hinged at the tail end of the clamping plate 45, a driving plate 48 is further connected to the hinged end of the rotating plate 46, the air cylinder 47 is hinged on the first pull rod 53, and a piston rod of the air cylinder 47 is hinged with the driving plate 48.

The guide rail 41 is provided with a guide bar 403, and the peripheral wall of the travelling wheel 56 is provided with an annular groove 502 for the guide bar 403 to be embedded; the number of the walking wheels 56 is four, the number of the walking motors 57 is two, and the two walking wheels 56 are respectively positioned on output shafts at two ends of one walking motor 57; two ends of the guide rail 41 are provided with a limiting block 404 corresponding to the slide block 55; a silica gel pad 405 is arranged on one side of the limiting block 404 close to the sliding block 55; the silicone pad 405 is connected to the stopper 404 via a screw 406.

The number of the first pull rods 53 is 2, a mounting plate 503 is arranged between the two first pull rods 53, and the clamping jaw 42 is positioned on the mounting plate 503; the number of the second pull rods 54 is 2, the bottom ends of the two second pull rods 54 are connected with a carrier plate 504, and the suction cups 43 are mounted on the bottom surface of the carrier plate 504; the number of the suction cups 43 is 4.

When the efficient copper plate feeding equipment for cables is adopted, the copper plate can be continuously conveyed to the turnover mechanism by the suction disc through the synchronous movement of the clamping jaw and the suction disc in cooperation with the automatic turnover function of the turnover mechanism on the copper plate, and the copper plate which is turned over can be continuously conveyed to a furnace mouth by the clamping jaw, so that the full-automatic feeding of the copper plate is realized, the labor intensity of workers can be reduced, the safety coefficient of copper plate feeding is improved, the copper plate feeding time can be further shortened through the synchronous movement of the suction disc and the clamping jaw, and the feeding efficiency is improved;

in addition, the guide strip is matched with an annular groove on the travelling wheel to guide the displacement of the rack on the guide rail; the limit of displacement of the rack on the guide rail is limited by the arrangement of the limit block and the silica gel pad, so that the motion stability of the rack is further improved; the limit position of the silica gel pad on the frame is adjusted by installing the silica gel pad through the screw rod.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (6)

1. The utility model provides a high-efficient copper charging equipment is used to cable which characterized in that: the device comprises a turnover mechanism (2) arranged on one side of a furnace mouth (1), a storage rack (3) and a transportation mechanism (4), wherein the storage rack (3) is used for stacking copper plates, the turnover mechanism (2) is arranged between the storage rack (3) and the furnace mouth (1), the turnover mechanism (2) further comprises a turnover frame (21), a turnover plate (22) and a telescopic rod (23), one end, close to the furnace mouth (1), of the turnover plate (22) is hinged to the turnover frame (21), the other end of the turnover plate (22) is hinged to one end of the telescopic rod (23), the other end of the telescopic rod (23) is hinged to the bottom of the turnover frame (21), a baffle plate (24) is arranged on the top surface of the turnover plate (22), the baffle plate (24) is positioned on one side, close to the furnace mouth (1), of the turnover plate (22), the transportation mechanism (4) comprises a vertical frame (401), a guide rail (41), the guide rail (41) is arranged on the vertical frame (401) and is distributed along the directions of the furnace opening (1), the turnover mechanism (2) and the storage frame (3), a frame (5) is movably arranged on the guide rail (41), an electric hoist (44) is respectively arranged at two ends of the frame (5), the clamping jaw (42) and the sucking disc (43) are respectively arranged on lifting ropes of the two electric hoists (44), the sucking disc (43) is connected with a vacuum-pumping pump (402) through a vacuum-pumping tube, the distance between the two electric hoists (44) is equal to the distance between the furnace opening (1) and the turnover mechanism (2) and is equal to the distance between the turnover mechanism (2) and the storage frame (3).

2. The high-efficiency copper plate feeding device for cables as claimed in claim 1, wherein: the guide rail (41) is made of I-shaped steel.

3. The high-efficiency copper plate feeding device for cables as claimed in claim 1, wherein: the number of the guide rails (41) is two, and the frame (5) is connected to the two guide rails (41) in a bridging manner.

4. The high-efficiency copper plate feeding device for cables as claimed in claim 1, wherein: a plurality of walking wheels (56) in contact with the guide rail (41) are installed at the bottom of the rack (5), and the walking wheels (56) are driven by a walking motor (57).

5. The high-efficiency copper plate feeding device for cables as claimed in claim 4, wherein: the number of the walking wheels (56) is 4.

6. The high-efficiency copper plate feeding device for cables as claimed in claim 1, wherein: and two ends of the guide rail (41) are provided with a limiting block (404).

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