CN218137137U - Wire rod separating wheel electric rotating tool and polishing mechanism - Google Patents

Abstract

The utility model discloses a wire rod separating wheel electric rotating frock and grinding machanism, include: the separating wheel rotating driving device comprises a working table, a supporting table and a separating wheel rotating driving part with a supporting frame, wherein the supporting frame is provided with a plurality of traction wheels and a driving belt surrounding the traction wheels, the driving belt is provided with a closing section matched with a steel wheel groove of the separating wheel, and one traction wheel is connected with a motor; the separator rotation driving unit moves by the X-direction moving stage and the Y-direction moving stage. The separating wheel rotation driving part is close to the separating wheel to drive the separating wheel to rotate; consequently, use motor drive, promoted work efficiency, and then provided a lower cost, more efficient electric rotating tool, rely on this frock, the manual work of cooperation is handed the burnishing wheel and is polished, can realize a lower cost, more efficient mode of polishing.

Description

Wire rod separating wheel electric rotating tool and polishing mechanism

Technical Field

The utility model relates to a steel field of handling, in particular to wire rod separating wheel electric rotating frock and grinding machanism.

Background

The surface of the steel can react with moisture and air to generate rust when the steel is stored for a long time, the rust on the surface of the steel is usually removed by an acid washing mode in industry, and the rust on the surface of the steel is removed by a physical polishing method.

Steel is divided into plate, sheet, kind such as wire rod according to the shape, and in the device of a polishing wire rod, the wire rod need use the wire rod separating wheel earlier before getting into the polish-brush technology section and getting rid of surface rust mark with the wire rod homodisperse, and the popular one bit says that will wait to polish the steel wire and make its coplane through the guide of wire rod separating wheel to make things convenient for the polishing of follow-up brush roll, for example the patent number is: CN201921667046.3, patent name: the technology of the patent guides and orderly separates the steel wires by a wire separating wheel before the coplanar steel wires are brushed, as shown in a steel wire derusting machine.

The wire separating wheel used at present is formed by arranging a row of steel wheels together to penetrate through a rotating shaft, each steel wheel is disc-shaped, the outline of each steel wheel is high at two sides and low in middle to form a guide wheel groove, so that wires are collected and separated, and each steel wheel can independently rotate.

In the long-term use process, greasy dirt rust is gradually accumulated in a guide wheel groove of the separating wheel, hard stain lumps can be formed after the greasy dirt rust is accumulated for a long time, and the wire rod can be polluted and scraped during working to influence the surface quality of the wire rod.

If the stains are removed by grinding and polishing, the mode that the corresponding positions are ground by the grinding and polishing wheel is easy to think is that the grinding and polishing wheel is held by a hand, but the steel wheel does not rotate under the non-working state, so that a person needs to stir the steel wheel by hand to adjust the grinding position, but the efficiency is lower undoubtedly.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and firstly provides an electric rotating tool for a wire separating wheel; the electric rotary tool comprises a working table, a supporting table, an X-direction moving table, a Y-direction moving table and a separating wheel rotation driving part, wherein the separating wheel rotation driving part is driven by an electric motor; during the operation, alone rotatory hand crank handle control separation wheel rotates advancing of drive division and retreats, remove and remove the steel wheel that drives different positions on the separation wheel and rotate, compares people's hand and stir the adjustment, and efficiency improves greatly undoubtedly.

Still further, a polishing mechanism is provided, the polishing mechanism is provided with a polishing wheel matched with the tool, when in specific operation, another person holds polishing tools such as the polishing wheel and the like to polish the wheel groove of the steel wheel, the steel wheel and the polishing wheel are both rotated, and the efficiency is improved by multiple times; compared with the pure manual polishing by using the polishing wheel, the polishing efficiency by adopting the tool is higher.

The technical scheme of the utility model is realized like this:

the utility model provides a wire rod separating wheel electric rotating tool, includes:

a work table configured as a support body of the tool;

a support table configured to support the separation wheel and to make the separation wheel in an empty state;

the separating wheel rotation driving part comprises a support frame, a plurality of traction wheels and a driving belt surrounding the traction wheels are arranged on the support frame, the driving belt is provided with a closing section matched with a steel wheel groove of the separating wheel, and one traction wheel is connected with a motor;

an X-direction moving table arranged along a direction perpendicular to the axis of the separating wheel, wherein the separating wheel rotation driving part is arranged on the X-direction moving table; the closing section is close to or far away from the corresponding steel wheel by controlling the X-direction moving platform;

and the Y-direction moving platform is arranged along the direction parallel to the axis of the separating wheel, the X-direction moving platform and the separating wheel rotation driving part are jointly arranged on the Y-direction moving platform, and the closing section is matched with different steel wheels by controlling the Y-direction moving platform.

Preferably, the traction wheel comprises a driving wheel, an upper driven wheel and a lower driven wheel, the driving wheel is connected with the output end of the motor, a driving support is arranged on the support frame, the upper driven wheel and the lower driven wheel are respectively arranged at the upper end and the lower end of the driving support, and the driving support is in an arc shape bent from bottom to top, so that an avoidance interval is formed at the side, facing the separation wheel, of the driving support; the close section of the driving belt is formed between the upper driven wheel and the lower driven wheel. When the separation wheel rotation driving part is close to the separation wheel, the separation wheel part enters the avoidance interval, so that the close section is more fully attached to the steel wheel.

Preferably, when the closing section is matched with the steel wheel groove of the separating wheel, the closing section is elastically deformed, so that the contact friction force can be increased, and the corresponding steel wheel is fully driven to rotate.

Preferably, the X-direction moving stage is a screw-nut pair mechanism, the screw-nut pair mechanism includes an X-direction screw and an X-direction nut, and the base of the separating-wheel rotation driving unit is connected to the X-direction nut, and the X-direction nut and the base are driven to move along the X-direction screw by controlling the X-direction screw to rotate in situ.

Preferably, the X-direction screw rod is connected with an X-direction handle, and the X-direction handle is rotated to drive the X-direction screw rod to rotate.

Preferably, the Y-direction moving stage is a screw-nut pair mechanism, the screw-nut pair mechanism comprises a Y-direction screw and a Y-direction nut, and the X-direction moving stage is connected to the Y-direction nut and drives the Y-direction nut and the X-direction moving stage to move along the Y-direction screw by controlling the Y-direction screw to rotate in situ.

Preferably, the Y-direction screw rod is connected with a Y-direction handle, and the Y-direction handle is rotated to drive the Y-direction screw rod to rotate.

A wire separating wheel grinding mechanism comprising:

the wire separating wheel electric rotating tool is used for driving the steel wheel to rotate, and is convenient to polish;

and the grinding and polishing wheel is used for grinding the outline of the steel wheel by a worker holding the grinding tool.

Adopted above-mentioned technical scheme the utility model discloses a principle and beneficial effect are:

the utility model provides a lower cost, more efficient electric rotary frock, the frock is through treating the separating wheel of polishing and placing in a supporting bench, and control Y is rotatory to the lead screw for driving belt aims at the race of one of them steel wheel on the separating wheel, and it is rotatory to the lead screw to control X again, makes driving belt go forward and hug closely section and steel wheel race until driving belt draws close, and it is rotatory to drive the steel wheel, through manual twist grip control driving belt position, simple structure, and is with low costs. And the steel wheel is from great, and is in large quantity, and the manpower rotates the difficulty, consequently uses motor drive, has promoted work efficiency.

And the manual hand-held grinding and polishing wheel is matched for polishing, so that a polishing mode with lower cost and higher efficiency is realized.

Drawings

FIG. 1 is a rear view of an electric rotary tool;

FIG. 2 is a front side isometric view of an electric rotating tool;

FIG. 3 is a right side view of the electric rotary tool;

FIG. 4 is a rear isometric view of the electric rotary tool;

FIG. 5 is a front view of the electric rotary tool;

fig. 6 is a top view of the motorized rotary tool.

The various reference numbers are: 1-separation wheel, 2-steel wheel, 3-driving support, 4-upper driven wheel, 5-driving wheel, 6-lower driven wheel, 7-motor, 8-supporting table, 9-supporting frame, 10-Y-direction screw rod, 11-bearing frame, 12-Y-direction handle, 13-Y-direction screw nut, 14-X-direction handle, 15-rotating frame, 16-driving belt, 17-X-direction screw rod, 18-X-direction screw nut, 19-working table, 20-Y-direction screw rod bearing, 21-Y-direction screw rod side plate, 22-X-direction screw rod bearing, 23-X-direction screw rod side plate, 24-separation wheel rotation driving part, 25-X-direction moving table, 26-Y-direction moving table, 27-closing section and 28-avoiding section.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The specific implementation manner of the utility model is as follows:

as shown in fig. 1-6, the utility model provides an electric rotary tool for a wire separating wheel, which comprises a work table 19, wherein the work table is used as a supporting main body of the tool; the support tables 8 are configured to support the separation wheels 1 and enable the separation wheels 1 to be in a free state, and the two support tables 8 are symmetrically arranged at intervals and stand on the table top of the working table 19; the separating wheel rotation driving part 24 comprises a supporting frame 9, a plurality of traction wheels and a driving belt 16 surrounding the traction wheels are arranged on the supporting frame 9, the driving belt 16 is provided with a closing section 27 matched with a wheel groove of a steel wheel 2 of the separating wheel 1, and one traction wheel is connected with a motor 7; an X-direction moving table 25 provided in a direction perpendicular to the axial direction of the separator 1, the separator rotation driving unit being provided on the X-direction moving table 5; the closing section 27 is close to or far away from the corresponding steel wheel 2 by controlling the X-direction moving platform 25; and a Y-direction moving table 26 is arranged along the direction parallel to the axis of the separating wheel 1, an X-direction moving table 25 and a separating wheel rotation driving part 24 are arranged on the Y-direction moving table together, and the closing section 27 is matched with different steel wheels 2 by controlling the Y-direction moving table 26.

The general composition of the tool is described above, and the following detailed description is made for each part:

as shown in fig. 3, the traction wheel includes a driving wheel 5, an upper driven wheel 4 and a lower driven wheel 6, the driving wheel 5 is connected to the output end of the motor 7, the support frame 9 is provided with the driving support 3, the upper driven wheel 4 and the lower driven wheel 6 are respectively arranged at the upper end and the lower end of the driving support 3, the driving wheel 5 is arranged at a position farther away from the separating wheel than the driving support 3, and the driving wheel 5, the upper driven wheel 4 and the lower driven wheel 6 are located at three vertex positions of a triangle; bearings (not shown) are arranged between the upper driven wheel 4, the lower driven wheel 6 and the driving bracket 3, and the driving bracket 3 is in an arc shape which is bent from bottom to top, so that an avoidance interval 28 is formed on one side of the driving bracket 3 facing the separating wheel 1; a close-up section 27 of the drive belt 16 is formed between the upper driven pulley 4 and the lower driven pulley 6.

Specifically, as shown in fig. 3, the driving wheel 5, the upper driven wheel 4 and the lower driven wheel 6 are located on the same plane, and when the motor 7 rotates, the driving wheel 5 is driven to rotate, the driving wheel 5 drives the driving belt 16 to rotate, and the driving belt 16 drives the upper driven wheel 4 and the lower driven wheel 6 to rotate.

Still further, as shown in fig. 2, when the separating wheel enters into dodge the interval 28, draw close section 27 and the cooperation of steel wheel 2 race of separating wheel 1, owing to draw close extruded effect, draw close section 27 and take place elastic deformation, make belt and steel wheel 2 laminating tighter like this, frictional force is bigger, more can fully transmit power to the steel wheel on drive its rotation.

As shown in fig. 3, the X-direction moving stage 25 is a screw-nut pair mechanism, which includes an X-direction screw 17 and an X-direction screw 18, a screw thread matching the screw thread of the X-direction screw 17 is provided in the X-direction screw 18, a support frame 9 of a separating-wheel rotation driving unit 24 is connected to the upper portion of the X-direction screw 18 by a bolt, as shown in fig. 1, X-direction screw side plates 23 are provided at both ends of the X-direction screw 17, X-direction screw bearings 22 are provided at positions corresponding to both ends of the X-direction screw 17 on the X-direction screw side plates 23, a ball (not shown) and an inner ring (not shown) are provided in the X-direction screw bearings 22, both ends of the X-direction screw 17 are fastened to the inner ring of the X-direction screw bearings 22, and an X-direction handle 14 passes through one of the X-direction screw side plates 23 and is connected to the X-direction screw 17, and the X-direction screw 17 is driven to rotate by rotating the X-direction handle 14, thereby driving the X-direction screw 18 and the support frame 9 to move along the X-direction screw 17.

Similar to the X-direction moving stage 25, as shown in fig. 2, the Y-direction moving stage 26 is a screw-nut pair mechanism including a Y-direction screw 10 and a Y-direction screw 13, the X-direction moving stage 25 is bolted to the Y-direction screw 13, a screw thread matching the screw thread of the Y-direction screw 10 is provided in the Y-direction screw 13, the Y-direction screw 10 is connected to a Y-direction handle 12, the Y-direction screw 10 is driven to rotate by rotating the Y-direction handle 12, a carriage 11 is provided at the bottom of the Y-direction screw, the carriage 11 is provided at the rear side of the table 19, Y-direction screw side plates 21 are provided at both ends of the Y-direction screw 10, Y-direction screw bearings 20 are provided in the Y-direction screw bearings 20 (not shown) and inner rings (not shown), both ends of the Y-direction screw 10 are fastened to the inner rings of the Y-direction screw bearings 20, the Y-direction handle 12 penetrates one side of the Y-direction screw side plates 21 and is connected to the Y-direction screw 10, and the Y-direction screw 12 is driven to rotate along the Y-direction screw 13.

As shown in fig. 4, the separating wheel 1 includes a row of steel wheels 2 and a rotating frame 15 which are commonly inserted into a rotating shaft (not shown), each steel wheel 2 is disc-shaped, the outer contour of each steel wheel 2 is higher at two sides and lower at middle to form a guide wheel groove, a rotating shaft (not shown) is inserted into the middle of the rotating frame 15, the steel wheels 2 are inserted into the rotating shaft (not shown) and can rotate around the rotating shaft (not shown) under the action of external force, supports extending downwards are arranged at two ends of the rotating frame 15, the supports at two sides of the separating wheel 1 are placed on the upper portion of a supporting table 8 during operation, and the supporting table 8 is fastened at the front side of the work table 19 through bolts.

As shown in fig. 2 and fig. 6, in the working state, the left and right rotating Y-direction moving handle 14 controls the left and right positions of the driving belt 16 between the upper driven wheel 4 and the lower driven wheel 6 to align with the groove position of one steel wheel 2 on the separating wheel 1, the X-direction moving handle 12 rotates in one direction to control the approaching section 27 to move forward and to cling to the groove of the steel wheel 2, the steel wheel 2 is driven to rotate by the friction force of the approaching section 27, at this time, a worker holds the grinding wheel to grind the rotating steel wheel groove and the edge positions of both sides of the rotating steel wheel groove, when the working or switching of the working steel wheel 2 is stopped, the X-direction moving handle 12 rotates in the other direction to control the approaching section 27 to move backward and leave the groove of the steel wheel 2, at this time, the steel wheel 2 stops rotating gradually under the resistance, if the working steel wheel 2 is switched, the left and right rotating Y-direction moving handle 14 continues to control the left and right positions of the approaching section 27 to align with the groove position of the other steel wheel 2 of the separating wheel 1, and then the forward, backward, and switching operation steps are repeated until the grinding is completed.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if a person skilled in the art should understand that without departing from the spirit of the present invention, the person skilled in the art should not inventively design the similar structural modes and embodiments to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides an electronic rotatory frock of wire rod separating wheel, characterized by includes:

a work table (19) configured as a support body of the tool;

a support table (8) configured to support the separation wheel (1) and to place the separation wheel (1) in a free state;

the separating wheel rotating driving part (24) comprises a supporting frame (9), a plurality of traction wheels and a driving belt (16) surrounding the traction wheels are arranged on the supporting frame (9), a closing section (27) matched with a wheel groove of a steel wheel (2) of the separating wheel (1) is arranged on the driving belt (16), and one traction wheel is connected with a motor (7);

an X-direction moving table (25) which is provided in a direction perpendicular to the axial direction of the separating wheel (1), and in which the separating wheel rotation driving unit is provided on the X-direction moving table (25); the closing section (27) is close to or far away from the corresponding steel wheel (2) by controlling the X-direction moving platform (25);

and the Y-direction moving platform (26) is arranged along the direction parallel to the axis of the separating wheel (1), the X-direction moving platform (25) and the separating wheel rotation driving part (24) are arranged on the Y-direction moving platform together, and the closing section (27) is matched with different steel wheels (2) by controlling the Y-direction moving platform (26).

2. The electric rotating tool for the wire separating wheel of claim 1, which is characterized in that: the traction wheel comprises a driving wheel (5), an upper driven wheel (4) and a lower driven wheel (6), the driving wheel (5) is connected to the output end of a motor (7), a driving support (3) is arranged on a support frame (9), the upper driven wheel (4) and the lower driven wheel (6) are respectively arranged at the upper end and the lower end of the driving support (3), the driving support (3) is in an arc shape which is bent from bottom to top, and therefore an avoidance section (28) is formed on the side, facing the separation wheel (1), of the driving support (3); a closing section (27) of the drive belt (16) is formed between the upper driven pulley (4) and the lower driven pulley (6).

3. The electric rotating tool for the wire separating wheel of claim 2, which is characterized in that: when the closing section (27) is matched with the wheel groove of the steel wheel (2) of the separating wheel (1), the closing section (27) is elastically deformed.

4. The electric rotating tool for the wire separating wheel of claim 1, which is characterized in that: the X-direction moving platform (25) is a screw rod and screw nut pair mechanism which comprises an X-direction screw rod (17) and an X-direction screw nut (18), a support frame (9) of a separating wheel rotation driving part (24) is connected to the X-direction screw nut (18), and the X-direction screw nut (18) and the support frame (9) are driven to move along the X-direction screw rod (17) by controlling the X-direction screw rod (17) to rotate in situ.

5. The electric rotating tool for the wire separating wheel of claim 4, which is characterized in that: the X-direction screw rod (17) is connected with an X-direction handle (14), and the X-direction handle (14) is rotated to drive the X-direction screw rod (17) to rotate.

6. The electric rotating tool for the wire separating wheel of claim 1, which is characterized in that: the Y-direction moving platform (26) is a screw rod and screw nut pair mechanism, the screw rod and screw nut pair mechanism comprises a Y-direction screw rod (10) and a Y-direction screw nut (13), the X-direction moving platform (25) is connected to the Y-direction screw nut (13), and the Y-direction screw nut (13) and the X-direction moving platform (25) are driven to move along the Y-direction screw rod (10) by controlling the Y-direction screw rod (10) to rotate in situ.

7. The electric rotating tool for the wire separating wheel of claim 6, which is characterized in that: the Y-direction screw rod (10) is connected with a Y-direction handle (12), and the Y-direction screw rod (10) is driven to rotate by rotating the Y-direction handle (12).

8. A wire separating wheel grinding mechanism comprises a grinding and polishing wheel and an electric rotating tool of the wire separating wheel according to any one of claims 1-7, wherein the grinding and polishing wheel enters a rotating steel wheel (2) for grinding during grinding and polishing.

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