CN212227740U - Multi-station steel taking device capable of preventing blank from impacting - Google Patents

Abstract

The utility model discloses a prevent that blank from assaulting multistation and getting steel device. The device comprises a plurality of static beam supports arranged along the central line of a roller way, wherein transmission shafts penetrate through the static beam supports through bearing seats; multi-station rotary steel connecting arms are arranged on the transmission shaft at equal intervals; the transmission shaft is in transmission connection with the driving device. The utility model discloses thoroughly solve blank pair roller way and strikeed this drawback, improved production efficiency.

Description

Multi-station steel taking device capable of preventing blank from impacting

Technical Field

The utility model relates to a prevent that blank from assaulting multistation and get steel device, specific device on getting into the furnace roller way with blank on the material loading rack that says so.

Background

On rod and altitude steel rolling production line, in order to adapt to the production rhythm, prior art transports the blank of material loading rack into the stove roll table, reentrant heating furnace, adopts the blank to go into the stove roll table along the mode of inclined plane gliding usually, and this kind of mode is great to going into the stove roll table impact, and the roller that the impact leads to going into the stove roll table is worn and torn seriously, and the impact causes the basis to destroy seriously, consequently develops a steel device of getting that prevents the blank impact and is the problem of waiting to solve urgently.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a prevent that blank from assaulting multistation and get steel device, the device adopt rotatory mode to realize getting the steel, and the easy maintenance of the steady motion is overhauld.

In order to achieve the purpose, the utility model relates to a multi-station steel taking device for preventing blank impact, which comprises a plurality of static beam supports arranged along the central line of a roller way, wherein a transmission shaft is arranged on the static beam supports through a bearing seat; multi-station rotary steel connecting arms are arranged on the transmission shaft at equal intervals;

the transmission shaft is in transmission connection with the driving device.

Furthermore, the multi-station rotary steel arm is formed by a plurality of steel connecting arms in a circular arrangement through connecting pieces, and an L-shaped steel connecting notch is formed in the front end of each steel connecting arm.

Further, the driving device comprises: a base fixed on the civil foundation; a driving motor is fixed on the base; the motor is connected with the transmission shaft through a brake disc with a coupling; and a brake is arranged on the base corresponding to the brake disc.

The utility model relates to a dolly structure type rectangular blank gets steel device, the whole steel of getting-put the steel process as follows: the method comprises the steps that firstly, a motor tail encoder controls a row of steel receiving arms consisting of one arm corresponding to each of six groups of rotary steel receiving arms to be blocked at the front end below a static beam in a feeding rack, namely, at a position A, meanwhile, a brake is controlled to lock a brake disc of a coupler, the displacement of a pushing head on a movable beam in the feeding rack is accurately controlled to accurately control the movement displacement of a row of blanks on the static beam, a blank at the foremost end of the row of blanks slides down along an inclined plane and is just received by the row of steel receiving arms at the position A, at the moment, the row of steel receiving arms at the position F are located below the inclined plane of the static beam, and the row of steel receiving arms at the position B are located below a roller table. Then the driving motor rotates, the position B of the row of steel receiving arms at the position A is rotated under the control of the encoder, the blank originally positioned at the position A is placed on the roller way, the row of steel receiving arms at the position F is rotated to the position A from the position F, the row of steel receiving arms at the position E is rotated to the position F from the position E, the row of steel receiving arms at the position D is rotated to the position E from the position D, the row of steel receiving arms at the position C is rotated to the position D from the position C, the row of steel receiving arms at the position B is rotated to the position C from the position B, then the roller way is driven to transport the blank on the roller way to the heating furnace, and at the same time, the brake is controlled to lock the brake disc of the coupling, the displacement of the row of blanks on the static beam is accurately controlled by accurately controlling the displacement of the pushing head on the movable beam in the feeding rack, when the foremost blank of the row of blanks slides downwards along the inclined plane, the new row of connecting steel arms just receives the blank. And the whole process of taking and placing steel is completely finished.

The utility model discloses an above-mentioned action of going back and forth can save time greatly, improves production efficiency, has thoroughly solved current blank to the impact of roll table, whole device steady operation not have the impact, and it is convenient simple to maintain.

Drawings

FIG. 1 is a front view of an embodiment of the multi-station steel taking device for preventing blanks from impacting;

FIG. 2 is a top view of an embodiment of the multi-station steel taking device for preventing the blank from impacting;

fig. 3 is a front view (hydraulic driving mode) of another embodiment of the multi-station steel taking device for preventing the blank from impacting;

Detailed Description

The invention is further described with reference to the accompanying drawings.

Example 1

As shown in fig. 1-3, the multi-station steel taking device and the multi-station steel taking method for preventing the impact of the blank include a rotary steel receiving arm 1, a bearing seat 2, a brake 3, a coupler 4 with a brake disc, a motor 5, a base 6, and a transmission shaft 7.

Six groups are arranged in proper order along the roller way central line to rotatory steel arm 1, six groups are arranged in proper order along the roller way central line to bearing frame 2, six groups of bearing frame 2 are fixed respectively in proper order on six groups of quiet beam supports of material loading rack, six groups of rotatory steel arm 1 that connects in proper order on transmission shaft 7 through the involute spline, six steel arms that connect are evenly arranged in the circumferencial direction around the rotation center of this group to every group of rotatory steel arm 1, these six steel arms that connect have corresponded six stations, every head that connects the steel arm is similar to the L shape, its purpose is in order to connect steel and fender steel. Six groups of steel arms are in the same phase, and the transmission shafts 7 are sequentially hinged on six groups of bearing seats 2 as shown in figures 1 and 2.

One end of the transmission shaft 7 is connected with one side of the coupler 4 with the brake disc, the other side of the coupler 4 with the brake disc is connected with an output shaft of the motor 5, the tail of the motor 5 is provided with the encoder, the brake 3 is fixed on the base 6 and sleeved on the brake disc with the coupler, a gap is reserved between the brake 3 and the brake disc in a non-braking state, and the brake disc is locked in a braking state. The motor 5 is fixed on the base 6, and the base 6 is fixed on a civil foundation as shown in figures 1 and 2.

The whole steel taking-placing process of the above embodiment is as follows: the method comprises the steps that firstly, a row of steel receiving arms consisting of one arm corresponding to each of six groups of rotary steel receiving arms 1 is controlled by a tail encoder of a motor 5 to be blocked at the front end below a static beam in a feeding rack, namely, at a position A, meanwhile, a brake 3 is controlled to lock a brake disc of a coupler, the displacement of a row of blanks on the static beam is accurately controlled by accurately controlling the displacement of a pushing head on a movable beam in the feeding rack, the blanks at the foremost end of the row of blanks slide down along an inclined plane and are just received by the row of steel receiving arms at the position A, at the moment, the row of steel receiving arms at the position F are located below the inclined plane of the static beam, and the row of steel receiving arms at the position B are located below a roller way. Then the driving motor 5 rotates, the position B of the row of steel receiving arms at the position A is rotated through the control of the encoder, the blank originally positioned at the position A is placed on the roller way, the row of steel receiving arms at the position F is rotated to the position A from the position F, the row of steel receiving arms at the position E is rotated to the position F from the position E, the row of steel receiving arms at the position D is rotated to the position E from the position D, the row of steel receiving arms at the position C is rotated to the position D from the position C, the row of steel receiving arms at the position B is rotated to the position C from the position B, then the roller way is driven to transport the blank on the roller way to the heating furnace, meanwhile, the brake 3 is controlled to lock the brake disc of the coupling, the displacement of the row of blanks on the static beam is accurately controlled by accurately controlling the displacement of the pushing head on the movable beam in the feeding rack, when the foremost blank of the row of blanks slides downwards along the inclined plane, the new row of connecting steel arms just receives the blank. And the whole process of taking and placing steel is completely finished.

Example 2

As a variation of the above embodiment, the rotary steel receiving arm 1 may also adopt a structural form as shown in fig. 3, in which the lower steel receiving arm adopts a single-arm form, and the driving manner adopts hydraulic driving, but the hydraulic driving manner is only suitable for the situation that the blank is heavy.

The above is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (3)

1. The utility model provides a prevent that blank from assaulting multistation gets steel device which characterized in that: the device comprises a plurality of static beam supports arranged along the central line of a roller way, wherein transmission shafts penetrate through the static beam supports through bearing seats; multi-station rotary steel connecting arms are arranged on the transmission shaft at equal intervals;

the transmission shaft is in transmission connection with the driving device.

2. The multi-station steel taking device for preventing the billet from impacting as claimed in claim 1, wherein: the multi-station rotary steel arm is formed by a plurality of steel connecting arms in a circular arrangement through connecting pieces, and an L-shaped steel connecting notch is formed in the front end of each steel connecting arm.

3. The multi-station steel taking device for preventing the billet from impacting as claimed in claim 1, wherein: the driving device comprises: a base fixed on the civil foundation; a driving motor is fixed on the base; the motor is connected with the transmission shaft through a brake disc with a coupling; and a brake is arranged on the base corresponding to the brake disc.

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