CN209777942U - A deoxidized aluminum wire winding device for molten steel sampler - Google Patents

Abstract

The utility model discloses a deoxidized aluminium silk wind for molten steel sampler passes through material feeding unit and aluminium drum butt joint in aluminium silk wind right side butt joint molten steel sample box assembly quality, front side, aluminium silk wind, molten steel sample box assembly quality, material feeding unit and aluminium drum are all established on the bottom plate. The device can realize the automatic feeding of the deoxidized aluminum wire and the quick and automatic winding of the aluminum wire coil, and the winding efficiency is greatly improved compared with that of manual winding; the device's simple structure, each structure divides the worker clearly and definitely, and is low to operating personnel's technical requirement, is showing and uses manpower sparingly, reduces the manpower manufacturing cost of enterprise, effectively promotes the economic benefits of enterprise.

Description

A deoxidized aluminum wire winding device for molten steel sampler

Technical Field

The utility model relates to an automatic wind the package, especially a deoxidized aluminium silk wind for molten steel sampler.

Background

In order to ensure the quality of steel products, a molten steel sampler is required to rapidly sample in the technical processes of steel making, converters and the like in a steel mill for component analysis, the molten steel sampler is mainly classified into a deoxidation type and a non-deoxidation type, and an aluminum wire is a commonly used deoxidizing agent for the deoxidation type molten steel sampler. At present, the deoxidation aluminum wires for the deoxidation type molten steel sampler are generally cut to length manually, and are placed into a molten steel sampling box after being wound manually, so that the efficiency is low.

The molten steel sampler belongs to a disposable device, so the market demand is large, steel enterprises put forward higher requirements on the quality of molten steel sampler products along with the development of times, meanwhile, because the production efficiency is improved, the consumption of the molten steel sampler is increased day by day, and the mode of manually winding and assembling aluminum wires cannot meet the requirements of the enterprises. And the aluminum wire used in the molten steel sampler needs to be cut off at a fixed length and is wound according to a certain diameter and then placed into the sampling box, so that the automation difficulty is high.

Therefore, the patent aims to provide a deoxidized aluminum wire winding device for a molten steel sampler, and the production efficiency is expected to be improved, and meanwhile, the labor cost is reduced.

Disclosure of Invention

In order to solve the problem, the utility model provides a take-up device is taken up to deoxidation aluminium silk for molten steel sampler can realize the automatic of aluminium silk book in the molten steel sampler, effectively improves production efficiency, reduces the human cost.

In order to realize the technical purpose, the technical effect is achieved, the utility model discloses a realize through following technical scheme: a deoxidized aluminum wire winding device for a molten steel sampler is characterized in that the right side of an aluminum wire winding device is butted with a molten steel sampling box assembling device, the front side of the aluminum wire winding device is butted with an aluminum wire coil through a feeding device, and the aluminum wire winding device, the molten steel sampling box assembling device, the feeding device and the aluminum wire coil are all arranged on a bottom plate; the aluminum wire winding device comprises a mounting seat, a horizontal moving feeding cylinder arranged at the top end of the left side of the mounting seat and a cutting cylinder seat arranged in front of the right side of the mounting seat, wherein the cutting cylinder is arranged on the cutting cylinder seat, the end part of a push rod at the bottom of the cutting cylinder is connected with a cutting tool bit, the right side of the horizontal moving feeding cylinder is connected with a vertical moving pressing cylinder, the right side of the vertical moving pressing cylinder is connected with a fixed frame, a vertical moving ejecting cylinder is arranged in the fixed frame, the bottom of the vertical moving ejecting cylinder is provided with a winding assembly, the winding assembly is arranged on the inner side of a clamping plate arranged in front of and behind the right side of the mounting seat, the winding assembly comprises an upper end piece and a lower end piece which are connected in a matching way through a stepped V-shaped surface, the top, the movable hollow groove is internally provided with a mandrel, the main body section of the mandrel is sleeved in the connecting shaft in a penetrating manner, the top end of the mandrel is penetrated out of the connecting shaft and is in coaxial contact with a push rod which vertically moves up and down and ejects the bottom of the cylinder, two connecting lugs are symmetrically arranged on the outer side surface of the lower end of the mandrel, each connecting lug is hinged with a cross rod, the other end of each cross rod penetrates out of a side hole in the corresponding side of the upper end piece, the bottom of the mandrel is provided with a spring groove, a spring is arranged between the spring groove and the inner bottom surface of the upper end piece, and the bottom.

Furthermore, one end of the spring is fixedly connected with the top surface of the spring groove, and the other end of the spring is fixedly connected with the circular groove on the bottom surface of the inner side of the upper end piece.

Furthermore, an open groove is formed in the side wall of the lower end piece at the position corresponding to the side face hole.

Furthermore, a limiting groove matched with the shape of the upper end piece is arranged on the opposite surfaces of the inner sides of the two clamping plates on the right side of the mounting seat.

Further, the outer diameter of the main body section of the mandrel is matched with the inner diameter of the connecting shaft.

Furthermore, the feeding device comprises a vertical plate, a feeding roller and a sleeve pipe which is relatively fixed with the vertical plate through a sleeve pipe fixing seat, the feeding roller is driven by a motor carried by the feeding roller, the sleeve pipe horizontally extends from the direction of an aluminum wire coil to the direction of an aluminum wire winding device, and the rear side end of the sleeve pipe is butted with a material cutting platform at the lower end of the cutting cylinder seat.

Furthermore, the assembling device comprises an assembling disc driven by the divider to rotate and a plurality of molten steel sampling box clamps uniformly distributed on the periphery of the top surface of the assembling disc along the circumference, and the molten steel sampling cups are arranged in the molten steel sampling box clamps.

Furthermore, a plurality of lightening holes are distributed on the inner side of the assembly disc at equal intervals around the circumference.

The utility model has the advantages that:

By utilizing the novel deoxidized aluminum wire winding device for the molten steel sampler, automatic feeding of the deoxidized aluminum wire and quick and automatic winding of an aluminum wire coil can be realized, and the winding efficiency is greatly improved compared with manual winding; the device's simple structure, each structure divides the worker clearly and definitely, and is low to operating personnel's technical requirement, is showing and uses manpower sparingly, reduces the manpower manufacturing cost of enterprise, effectively promotes the economic benefits of enterprise.

drawings

FIG. 1 is an isometric view of a deoxidized aluminum wire winding device for a molten steel sampler according to the present disclosure;

Fig. 2 is a schematic structural view of an aluminum wire winding device disclosed by the present invention;

Fig. 3 is a schematic structural view of the winding assembly disclosed in the present invention;

Fig. 4 is a schematic structural view of the upper end piece and the lower end piece of the present invention;

fig. 5 is a schematic structural view of the upper end piece disclosed by the present invention;

Fig. 6 is a cut-away view of the internal structure of the upper end piece and the lower end piece disclosed in the present invention.

wherein, 1-aluminum wire winding device, 2-molten steel sampling box assembling device, 3-feeding device, 4-aluminum wire coil, 5-bottom plate, 6-mounting seat, 7-horizontal moving feeding cylinder, 8-cutting cylinder, 9-cutting tool bit, 10-up-down moving pressing cylinder, 11-fixing frame, 12-up-down moving ejection cylinder, 13-winding component, 14-upper end piece, 15-lower end piece, 16-connecting shaft, 17-movable empty groove, 18-mandrel, 19-connecting lug, 20-cross bar, 21-side hole, 22-spring, 23-rotating motor, 24-circular groove, 25-open groove, 26-vertical plate, 27-feeding roller, 28-sleeve fixing seat, 29-sleeve, 30-assembling a disc, 31-a molten steel sampling box clamp, 32-a molten steel sampling cup, 33-lightening holes and 34-aluminum wires.

Detailed Description

The following description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings of fig. 1-6, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention can be more clearly and clearly defined.

in order to rapidly wind an aluminum wire used in a molten steel sampler, the novel deoxidized aluminum wire winding device for the molten steel sampler is characterized in that the right side of an aluminum wire winding device 1 is butted with a molten steel sampling box assembling device 2, the front side of the aluminum wire winding device is butted with an aluminum wire coil 4 through a feeding device 3, and the aluminum wire winding device 1, the molten steel sampling box assembling device 2, the feeding device 3 and the aluminum wire coil 4 are all arranged on a bottom plate 5; the aluminum wire winding device 1 comprises a mounting seat 6, a horizontal moving feeding cylinder 7 arranged at the top end of the left side of the mounting seat 6 and a cutting cylinder seat arranged in front of the right side of the mounting seat 6, wherein the cutting cylinder 8 is arranged on the cutting cylinder seat, the end part of a push rod at the bottom of the cutting cylinder 8 is connected with a cutting tool bit 9, the right side of the horizontal moving feeding cylinder 7 is connected with a vertical moving pressing cylinder 10, the right side of the vertical moving pressing cylinder 10 is connected with a fixed frame 11, a vertical moving ejection cylinder 12 is arranged in the fixed frame 11, and the bottom of the vertical moving ejection cylinder 12 is provided with a; the winding assembly 13 is arranged on the inner sides of two clamping plates arranged in front and at the back of the right side of the mounting seat 6, the winding assembly 13 comprises an upper end piece 14 and a lower end piece 15 which are connected in a matched mode through a step V-shaped surface, a hollow connecting shaft 16 is arranged at the top of the upper end piece 14, the top end of the connecting shaft 16 is movably connected with a lower frame of the fixing frame 11 through a bearing, a movable empty groove 17 is formed in the upper end piece 14, a mandrel 18 is arranged in the movable empty groove 17, a main body section of the mandrel 18 is sleeved in the connecting shaft 16 in a penetrating mode, the top end of the mandrel 18 penetrates through the connecting shaft 16 to be in coaxial contact with a push rod at the bottom of the up-and-down moving ejection cylinder 12, the outer diameter of the; two connecting lugs 19 are symmetrically arranged on the outer side surface of the lower end of the mandrel 18, each connecting lug 19 is hinged with a cross rod 20, the other end of each cross rod 20 penetrates through a side hole 21 on the corresponding side of the upper end piece 14, a spring groove is arranged at the bottom of the mandrel 18, a spring 22 is arranged between the spring groove and the inner bottom surface of the upper end piece 14, the bottom of the lower end piece 15 is fixedly connected with a motor shaft of a rotating motor 23 arranged below the lower end piece, one end of the spring 22 is fixedly connected with the top surface of the spring groove, and the other end of the spring 22 is fixedly connected with a circular groove 24 on the inner bottom surface of.

In order to make the cross bar 20 smoothly extend out of the side holes 21 to support the bottom of the aluminum wire loop, open grooves 25 are formed on the side wall of the lower end piece 15 at positions corresponding to the side holes 21.

And limiting grooves matched with the shape of the upper end piece 14 are correspondingly arranged on the opposite surfaces of the inner sides of the two clamping plates on the right side of the mounting seat 6 and are used for limiting the upper end piece 14 to prevent the upper end piece 14 from further rotating after the aluminum wires are wound and the upper end piece 14 moves upwards.

The feeding device 3 comprises a vertical plate 26, a feeding roller 27 and a sleeve 29 which is relatively fixed with the vertical plate 26 through a sleeve fixing seat 28, the feeding roller 27 is driven by a motor carried by the feeding roller 27 to feed, the sleeve 29 horizontally extends from the direction of the aluminum wire coil 4 to the direction of the aluminum wire winding device 1, and the rear side end of the sleeve 29 is butted with a material cutting platform at the lower end of the cutting cylinder seat.

The molten steel sampling box assembling device 2 comprises an assembling disc 30 driven by a divider to rotate and a plurality of molten steel sampling box clamps 31 uniformly distributed on the periphery of the top surface of the assembling disc 30 along the circumference, wherein a molten steel sampling cup 32 is arranged in the molten steel sampling box clamps 31.

A plurality of lightening holes 33 are distributed on the inner side of the assembling disc 30 at equal intervals on the periphery for lightening the weight of the assembling disc 30 and further reducing the driving load of the divider.

The specific working process is as follows: in an initial state, all cylinders are in a retraction state, the up-and-down moving compaction cylinder 10 is in an upper limit position, the upper end piece 14 is separated from the lower end piece 15, the feeding roller 27 sends an aluminum wire to a joint surface of the upper end piece 14 and the lower end piece 15 along the sleeve 29, a push rod of the up-and-down moving compaction cylinder 10 extends out, the upper end piece 14 is combined with the lower end piece 15 to clamp the head of the aluminum wire 34, the rotating motor 23 drives the lower end piece 15 to rotate, the upper end piece 14 automatically rotates in a lower frame of the fixed frame 11, after the aluminum wire is wound on the periphery of the winding assembly 13 for a certain number of circles, the rotating motor 23 stops rotating, the push rod of the cutting cylinder 8 extends out, the cutting tool bit 9 at the bottom is driven to cut the aluminum wire on the cutting platform, and the rotating motor 23 stops.

Afterwards, the push rod of the up-and-down moving ejection cylinder 12 extends out to push the mandrel 18 downwards, the two cross rods 20 hinged with the mandrel extend out to the outer side of the side hole to support the bottom of the aluminum wire coil, the push rod of the up-and-down moving compression cylinder 10 retracts to drive the fixing frame 11, the upper end piece 14 and the aluminum wire coil to move upwards to take the aluminum wire coil out of the winding assembly 13, and meanwhile, the bottom of the upper end piece 14 enters into the limiting grooves in the inner sides of the two clamping plates on the right side of the mounting base 6 to prevent the upper end piece 14 from continuing to rotate. The push rod of the horizontal moving feeding cylinder 7 extends out to drive the fixing frame 11, the upper end piece 14 and the aluminum wire ring to move rightwards along the limiting groove of the mounting seat 6, when the aluminum wire ring moves to the upper part of the sampling cup, the push rod of the up-and-down moving ejection cylinder 12 retracts, the mandrel 18 moves upwards under the action of the restoring force of the spring 22, the two cross rods 20 retract, and the aluminum wire ring falls into the molten steel sampling cup; one point to be pointed out is: an upward drawing angle is formed on the lower end piece 15 to facilitate the aluminum wire coil to be separated, the lower portion of the upper end piece 14 is equal to the inner diameter of the aluminum wire coil, so that the aluminum wire coil does not need to shake greatly in the moving process, namely when the aluminum wire coil moves above the sampling cup, the aluminum wire coil is still in a horizontal position, the aluminum wire coil can horizontally fall into the sampling cup after the aluminum wire coil retracts into the cross rod 20, and then the feeding air cylinder 7 is moved horizontally to retract, so that a working cycle is completed. The feeding roller 27 continues to feed the aluminum wire and starts the next cycle.

the device's structural principle is simple, and the simple operation utilizes the device can realize the quick coiling shaping of aluminium wire book in the molten steel sample box, and degree of automation is high, under the prerequisite that promotes production efficiency, can further reduce the cost of labor of enterprise, is showing the economic benefits who promotes the enterprise.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (8)

1. A deoxidized aluminum wire winding device for a molten steel sampler is characterized in that the right side of an aluminum wire winding device (1) is butted with a molten steel sampling box assembling device (2), the front side of the aluminum wire winding device is butted with an aluminum wire coil (4) through a feeding device (3), and the aluminum wire winding device (1), the molten steel sampling box assembling device (2), the feeding device (3) and the aluminum wire coil (4) are all arranged on a bottom plate (5); the aluminum wire winding device (1) comprises a mounting seat (6), a horizontal moving feeding cylinder (7) arranged at the top end of the left side of the mounting seat (6) and a cutting cylinder seat arranged in front of the right side of the mounting seat (6), wherein the cutting cylinder seat is provided with a cutting cylinder (8), the end part of a push rod at the bottom of the cutting cylinder (8) is connected with a cutting tool bit (9), the right side of the horizontal moving feeding cylinder (7) is connected with an up-down moving pressing cylinder (10), the right side of the up-down moving pressing cylinder (10) is connected with a fixing frame (11), an up-down moving ejection cylinder (12) is arranged in the fixing frame (11), and the bottom of the up-down moving ejection cylinder (; the winding assembly (13) is arranged on the inner sides of two clamping plates arranged on the front side and the rear side of the right side of the mounting seat (6), the winding assembly (13) comprises an upper end piece (14) and a lower end piece (15) which are connected in a matched mode through a step V-shaped surface, a hollow connecting shaft (16) is arranged at the top of the upper end piece (14), the top end of the connecting shaft (16) is movably connected with a lower frame of the fixing frame (11) through a bearing, a movable hollow groove (17) is formed in the upper end piece (14), a mandrel (18) is arranged in the movable hollow groove (17), a main body section of the mandrel (18) is sleeved in the connecting shaft (16) in a penetrating mode, the top end of the mandrel penetrates through the connecting shaft (16) and is in coaxial contact with a push rod at the bottom of the up-and down moving cylinder (12), two connecting lugs (19) are symmetrically arranged on the outer side face of the lower end of the mandrel (18), a, the bottom of the mandrel (18) is provided with a spring groove, a spring (22) is arranged between the spring groove and the inner bottom surface of the upper end piece (14), and the bottom of the lower end piece (15) is fixedly connected with a motor shaft of a rotating motor (23) arranged below the lower end piece.

2. The deoxidized aluminum wire winding device for a molten steel sampler of claim 1, wherein one end of the spring (22) is fixedly connected to a top surface of a groove of the spring, and the other end is fixedly connected to a circular groove (24) formed on an inner bottom surface of the upper end member (14).

3. The deoxidized aluminum wire winding device for a molten steel sampler according to claim 2, wherein an open groove (25) is formed in the side wall of the lower end member (15) at a position corresponding to the side hole (21).

4. The deoxidized aluminum wire winding device for the molten steel sampler is characterized in that limiting grooves matched with the shape of the upper end piece (14) are correspondingly arranged on the opposite surfaces of the inner sides of the two clamping plates on the right side of the mounting seat (6).

5. The deoxidized aluminum wire winding device for a molten steel sampler according to claim 4, wherein an outer diameter of the main body section of the mandrel (18) is adapted to an inner diameter of the connecting shaft (16).

6. the deoxidized aluminum wire winding device for the molten steel sampler is characterized in that the feeding device (3) comprises a vertical plate (26), a feeding roller (27) and a sleeve (29) which is fixed relative to the vertical plate (26) through a sleeve fixing seat (28), the feeding roller (27) is driven by a motor carried by the feeding roller to feed, the sleeve (29) horizontally extends from the direction of the aluminum wire disc (4) to the direction of the aluminum wire winding device (1), and the rear side end of the sleeve (29) is butted with a material cutting platform at the lower end of a cutting cylinder seat.

7. The deoxidized aluminum wire winding device for a molten steel sampler according to claim 1, wherein the molten steel sampling box assembling device (2) comprises an assembling disk (30) driven to rotate by a divider and a plurality of molten steel sampling box clamps (31) uniformly distributed along a circumference on an outer periphery of a top surface of the assembling disk (30), and the molten steel sampling cup (32) is placed in the molten steel sampling box clamps (31).

8. The deoxidized aluminum wire winding device for a molten steel sampler of claim 7, wherein a plurality of weight-reducing holes (33) are circumferentially and equidistantly distributed on an inner side of the fitting disc (30).