CN113369183A - Steel strip surface coating removing device - Google Patents

Abstract

The invention provides a steel strip surface coating removing device which comprises a base, a clamping mechanism, two groups of distance adjusting supporting mechanisms and a sliding removing mechanism, wherein the clamping mechanism is arranged on the base; the clamping mechanism is arranged on the base, the two groups of distance-adjusting supporting mechanisms are arranged on the clamping mechanism in a sliding manner, are respectively arranged on two sides of the steel strip and are provided with a plurality of assembling positions which are distributed at intervals along the vertical direction; the slide clearance mechanism is adapted to contact the steel strip and the contact surface has a ground surface and a blade surface. During actual use, the steel belt is placed on the base and is clamped and limited through the clamping mechanism, then the sliding removing mechanism is placed on any one of the assembly positions, the sliding removing mechanism is contacted with the steel belt through moving the distance-adjusting supporting mechanism, and finally the sliding removing mechanism is moved along the length direction of the steel belt so as to polish and scrape the surface of a coating. The device for removing the coating on the surface of the steel strip can polish and directionally scrape the steel strip, can effectively reduce the production amount of dust and protect the field environment during the production of the steel strip.

Description

Steel strip surface coating removing device

Technical Field

The invention belongs to the technical field of steel strip coating cleaning equipment, and particularly relates to a steel strip surface coating removing device.

Background

In the production of steel strip, in order to enhance the surface brightness and corrosion resistance, a metal film is usually coated on the surface of the steel strip, and zinc coating and aluminum coating are more common. When the steel strip is bent and welded into a steel pipe, the coating film on the welding part needs to be removed from the surface of the steel strip, so that the welding strength is ensured.

The mode of getting rid of steel band surface coating among the prior art mainly adopts emery wheel to polish or artifical polishing, and this kind of mode of getting rid of can lead to the workshop to produce a large amount of dusts, destroys workshop environment, influences workshop personnel's health.

Disclosure of Invention

The embodiment of the invention provides a device for removing a coating on the surface of a steel strip, and aims to solve the technical problems that in the prior art, a polishing process is adopted for removing the edge of the steel strip to generate a large amount of dust, so that the workshop environment is damaged, and the health of workshop personnel cannot be guaranteed.

In order to achieve the purpose, the invention adopts the technical scheme that:

provided is a steel strip surface coating removing device, comprising:

the base is used for supporting the steel belt so that the length direction of the base is parallel to the length direction of the steel belt;

the clamping mechanism is arranged on the upper surface of the base; the clamping mechanism is used for clamping the steel strip along the width direction of the steel strip so as to limit the steel strip to move along the length direction of the steel strip;

the two groups of distance adjusting supporting mechanisms are arranged on the clamping mechanism in a sliding manner along the width direction of the base and are respectively arranged on two sides of the steel belt; each distance adjusting support mechanism is provided with a plurality of assembling positions which are distributed at intervals along the vertical direction; and

the sliding clearing mechanism is used for contacting the steel strip, and the end surfaces of the contact part are a grinding surface and a blade surface which are arranged in parallel; the sliding clearing mechanism is suitable for being arranged on any one assembling position of any one of the distance adjusting and supporting mechanisms, and the edge surface and the polishing surface are arranged along the length direction of the base.

In one possible implementation, the clamping mechanism includes:

the two clamping plates are arranged on the upper surface of the base in a sliding mode along the width direction of the base and used for moving oppositely to clamp the steel belt or moving back to loosen the steel belt; and

the driving structure is arranged between the base and the clamping plates and used for driving the two clamping plates to move oppositely or back to back;

the two distance adjusting supporting mechanisms correspond to the two clamping plates one to one, and the distance adjusting supporting mechanisms are arranged on the upper surfaces of the clamping plates in a sliding mode.

In one possible implementation, the driving structure includes:

the two grooves are arranged on the upper surface of the base at intervals along the width direction of the base and are respectively positioned on two sides of the steel strip;

the two limiting convex parts are respectively and fixedly connected to the bottom surfaces of the two clamping plates and correspond to the two grooves one by one; the limiting convex parts are suitable for being embedded into the corresponding grooves; and

the double-end screw is axially arranged along the width direction of the base, axially penetrates through the base along the self axial direction and sequentially passes through the two grooves;

wherein, double-end screw has two screw thread portions that screw thread opposite direction, two screw thread portion respectively with two spacing bellying threaded connection is used for driving two spacing bellying removes or moves dorsad in opposite directions.

In one possible implementation, the distance adjustment support mechanism includes:

the distance adjusting plate is arranged on the upper surface of the clamping mechanism in a sliding mode along the width direction of the base; a plurality of guide holes are formed in the distance adjusting plate at intervals in the vertical direction, and each guide hole extends in the length direction of the base; the guide hole is the assembly position and is used for embedding the sliding clearing mechanism; and

and the locking structure is arranged between the clamping mechanism and the distance adjusting plate and is used for limiting the distance adjusting plate to move relative to the clamping mechanism.

In one possible implementation, the locking structure includes:

the positioning grooves are arranged on the upper surface of the clamping mechanism at intervals along the width direction of the base;

the locking hole penetrates through the distance adjusting plate along the up-down direction and is suitable for being coaxially communicated with any one of the positioning grooves; and

and the locking rod is used for passing through the locking hole from top to bottom and inserting into the correspondingly communicated positioning groove so as to limit the movement of the distance adjusting plate relative to the clamping mechanism.

In one possible implementation, the coast clearance mechanism includes:

the side surface of one side of the supporting plate is suitable for being connected with the side surface, facing the steel belt, of any one of the distance adjusting supporting mechanisms, so that the thickness direction of the supporting plate is parallel to the width direction of the base;

the polishing plate is fixedly connected to the supporting plate and extends along the thickness direction of the supporting plate; the extending end surface of the polishing plate is the polishing surface; and

and the scraping component is arranged on the supporting plate, can move along the thickness direction of the supporting plate and is used for contacting the steel strip, and the contact surface of the scraping component is the blade surface.

In one possible implementation, the scraping member includes:

the driving screw is axially arranged along the thickness direction of the supporting plate and is in threaded connection with the supporting plate;

the scraping plate is rotationally connected with the driving screw, and the rotational axial direction of the scraping plate is parallel to the axial direction of the driving screw; the scraper is used for contacting with the steel strip, and the contact surface of the scraper is the edge surface; when the driving screw rod is screwed in along the self axial direction, the driving screw rod drives the scraper to move; and

wherein, a rotation limiting component is arranged on the supporting plate and is used for being connected with the scraper so as to limit the scraper to rotate relative to the driving screw.

In one possible implementation, the rotation limiting member includes:

the rotation limiting plate is hinged to the supporting plate, is arranged in the vertical direction in the rotating axial direction and is used for being connected with the scraper so as to limit the scraper to rotate around the driving screw in the axial direction; and

the positioning screw rod sequentially penetrates through the rotation limiting plate, the scraper and the polishing plate, one end of the positioning screw rod is suitable for being abutted against the rotation limiting plate, and the other end of the positioning screw rod is in threaded connection with the polishing plate so as to limit the rotation limiting plate to rotate.

In a possible implementation manner, a connecting plate which is rotatably connected with the driving screw is detachably connected to one side, facing the driving screw, of the scraper.

In a possible implementation manner, a slot is formed in one side, facing the scraper, of the connecting plate, and an insertion block suitable for being inserted into the slot is arranged on the scraper;

the elastic lug boss is arranged on the inner peripheral wall of the slot, and the insertion block is provided with a clamping groove suitable for the elastic lug boss to be embedded.

In the embodiment of the application, the base is used for supporting the steel belt, and in the use process, the steel belt is erected on the base, so that the length direction of the steel belt is parallel to the length direction of the base, and the thickness direction of the steel belt (namely the width direction of the steel belt) is parallel to the width direction of the base.

When the surface coating of the steel strip is removed, the clamping mechanism is used for clamping and limiting, then the sliding removal mechanism is placed on any assembly position of any one of the distance-adjusting supporting mechanisms, the sliding removal mechanism is contacted with the steel strip by moving the distance-adjusting supporting mechanism, and finally the sliding removal mechanism is moved along the length direction of the steel strip so as to polish and scrape the surface of the coating.

In the process, the moving direction of the sliding clearing mechanism is defined to be from back to front, and the position of the sliding clearing mechanism is adjusted to enable the grinding surface to be positioned behind the blade surface, so that the following beneficial effects are obtained: after the blade face is partially coated, the amount of dust generated when the residual coating is polished is reduced, thereby fundamentally reducing the amount of dust produced.

Compared with the prior art, the device for removing the coating on the surface of the steel strip can scrape and polish the coating on the surface of the steel strip, and can effectively reduce the dust production in the process and protect the field environment during the production of the steel strip.

Drawings

FIG. 1 is a schematic perspective view of a device for removing a coating on a surface of a steel strip according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 taken along circle A;

FIG. 3 is a top view of FIG. 1 (with the steel belt hidden for ease of illustration of the structure);

FIG. 4 is an enlarged partial view of the circle B in FIG. 3;

FIG. 5 is a sectional view taken along line C-C of FIG. 3;

FIG. 6 is an exploded view of a pitch support mechanism used in an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a slide clearance mechanism employed in an embodiment of the present invention;

FIG. 8 is an exploded view of a slide clearance mechanism employed in an embodiment of the present invention;

FIG. 9 is an enlarged partial view of FIG. 8 taken at circle D;

description of reference numerals:

1. a base; 2. a clamping mechanism; 21. a clamping plate; 22. a drive structure; 221. a groove; 222. a limiting bulge part; 223. a double-ended screw; 2231. a first rotating handle; 3. a distance-adjusting supporting mechanism; 31. a distance adjusting plate; 311. a guide hole; 32. a locking structure; 321. positioning a groove; 322. a locking hole; 323. a locking lever; 4. a slide clearing mechanism; 41. a support plate; 42. grinding the plate; 43. a scraping member; 431. a drive screw; 4311. a second rotation handle; 432. a squeegee; 4321. inserting a block; 4322. a clamping groove; 433. a connecting plate; 4331. a slot; 4332. an elastic protrusion member; 44. a rotation limiting member; 441. a rotation limiting plate; 442. positioning a screw rod; 443. positioning a nut; 100. a steel strip.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 9 together, the surface coating removing apparatus for a steel strip according to the present invention will now be described. The steel strip surface coating removing device comprises a base 1, a clamping mechanism 2, two groups of distance adjusting supporting mechanisms 3 and a sliding removing mechanism 4.

The base 1 has a rectangular cross-section and has an upper surface for supporting the steel strip 100 so that its length direction is parallel to the length direction of the steel strip 100.

The clamping mechanism 2 is disposed on the upper surface of the base 1 and is used for clamping the steel strip 100 along the width direction of the steel strip 100 so as to limit the movement of the steel strip 100 along the length direction.

Two sets of the distance adjusting supporting mechanisms 3 are arranged on the clamping mechanism 2 in a sliding mode along the width direction of the base 1 and are respectively arranged on two sides of the steel strip 100, and the distance between the distance adjusting supporting mechanisms 3 and the steel plate can be correspondingly increased or decreased by moving the distance adjusting supporting mechanisms 3 along the width direction of the base 1.

Each of the distance-adjusting support mechanisms 3 has a plurality of fitting positions distributed at intervals in the up-down direction, each fitting position is suitable for mounting the sliding removing mechanism 4, and the distance between the sliding removing mechanism 4 and the steel strip 100 can be adjusted by moving the distance-adjusting support mechanism 3.

The sliding clearing mechanism 4 is used for contacting the steel strip 100, and the end surface of the contact part is a grinding surface and a blade surface which are arranged in parallel; wherein, the surface of polishing is used for polishing the cladding material, and the blade face is used for scraping the cladding material.

The sliding clearing mechanism 4 is suitable for being arranged on any one of the assembly positions, and enables the grinding surface and the blade surface to be arranged in tandem along the length direction of the base 1; and the sliding removing mechanism 4 can slide along the length direction of the base 1 relative to the distance adjusting supporting mechanism 3 so as to scrape and polish the coating in sequence.

When the surface coating of the steel strip 100 is removed, the clamping mechanism 2 is used for clamping and limiting, then the sliding removing mechanism 4 is placed on any assembling position of any one of the distance adjusting supporting mechanisms 3, the sliding removing mechanism 4 is contacted with the steel strip 100 by moving the distance adjusting supporting mechanism 3, and finally the sliding removing mechanism 4 is moved along the length direction of the steel strip 100, so that the surface of the coating is polished and scraped.

In the above process, the moving direction of the sliding clearing mechanism 4 is defined as from back to front, and the position of the sliding clearing mechanism 4 is adjusted to make the grinding surface be behind the blade surface, so that the following beneficial effects are obtained: after the blade face is partially coated, the amount of dust generated when the residual coating is polished is reduced, thereby fundamentally reducing the amount of dust produced.

Compared with the prior art, the device for removing the coating on the surface of the steel strip provided by the invention can scrape and polish the coating on the surface of the steel strip 100, and can effectively reduce the dust production in the process and protect the field environment when the steel strip 100 is produced.

In some embodiments, the above-described features of the clamping mechanism 2 may be configured as shown in FIG. 5. Referring to fig. 5, the clamping mechanism 2 includes two clamping plates 21 and a driving structure 22.

Two clamping plates 21 are slidably provided on the upper surface of the base 1 in the width direction of the base 1 for moving toward each other to clamp the steel strip 100 or moving away from each other to loosen the steel strip 100.

The driving structure 22 is disposed between the base 1 and the two clamping plates 21, and is used for driving the two clamping plates 21 to move towards each other or away from each other.

The two distance-adjusting supporting mechanisms 3 correspond to the two clamping plates 21 one by one, and the distance-adjusting supporting mechanisms 3 are slidably arranged on the upper surfaces of the clamping plates 21.

Through adopting above-mentioned technical scheme, two clamp plates 21 are driven simultaneously to drive structure 22 to drive two clamp plates 21 and move in opposite directions or move dorsad, thereby make steel band 100 obtain the centre gripping, when guaranteeing to slide clearance mechanism 4 and move along base 1 length direction relative movement for steel band 100, steel band 100 can not take place along the removal of fore-and-aft direction, thereby stability when having guaranteed to clear away steel band 100 surface coating.

In some embodiments, the above-described feature drive structure 22 may take the form of the structure shown in FIG. 5. Referring to fig. 5, the driving structure 22 includes two grooves 221, two limit protrusions 222, and a double-headed screw 223.

The two grooves 221 are provided on the upper surface of the base 1 at intervals in the width direction of the base 1, and are located on both sides of the steel strip 100 in the width direction of the base 1.

The two limiting protrusions 222 are respectively fixedly connected to the bottom surfaces of the two clamping plates 21 and are in one-to-one correspondence with the two grooves 221, and the limiting protrusions 222 are adapted to be inserted into the corresponding grooves 221.

The axial direction of the double-threaded screw 223 is arranged along the width direction of the base 1, and the double-threaded screw 223 penetrates through the base 1 along the self axial direction and is arranged sequentially through the two grooves 221.

Wherein, double-end screw 223 has two screw thread portions that screw thread direction is opposite, two screw thread portions respectively with two spacing bellying 222 threaded connection for drive two spacing bellying 222 move or move dorsad in opposite directions.

By adopting the technical scheme, the combined structure of the groove 221 and the limiting convex part 222 can limit the moving track of the clamping plate 21, so that the reliability of the device in actual use is improved; two screw thread portions of the double-thread screw 223 can move the two limit protrusions 222 simultaneously, so that the two clamping plates 21 can clamp the steel belt 100, and the stability of the device in actual use is improved.

It should be added that one end of the double-threaded screw 223 is located outside the base 1, and a first rotating handle 2231 for manual holding and rotating is coaxially connected to facilitate controlling the rotation of the double-threaded screw 223.

In some embodiments, the above-mentioned feature distance adjusting support mechanism 3 may adopt a structure as shown in fig. 6. Referring to fig. 6, the pitch support mechanism 3 includes a pitch plate 31 and a lock structure 32.

The distance adjusting plate 31 is slidably provided on the upper surface of the clamping mechanism 2 in the width direction of the base 1.

A plurality of guide holes 311 are arranged on the distance adjusting plate 31 at intervals along the vertical direction, and each guide hole 311 extends along the length direction of the base 1; the guide hole 311 is the aforementioned fitting position for fitting the slide clearance mechanism 4 and moving the slide clearance mechanism 4 in the extending direction of the guide hole 311.

A locking structure 32 is provided between the clamping mechanism 2 and the leveling plate 31 for limiting movement of the leveling plate 31 relative to the clamping mechanism 2.

Through adopting above-mentioned technical scheme, the direction of movement of clearance mechanism 4 is slided in the restriction of guiding hole 311, and locking structure 32 restriction clamping mechanism 2 and the relative position of roll adjustment board 31 have improved this device when stability in actual use, have improved the structural stability of this device.

In some embodiments, the feature locking feature 32 described above may be configured as shown in FIG. 6. Referring to fig. 6, the locking structure 32 includes a plurality of positioning grooves 321, locking holes 322, and locking levers 323.

A plurality of positioning grooves 321 are provided at intervals in the width direction of the base 1 on the upper surface of the clamping mechanism 2.

The locking hole 322 penetrates the distance adjustment plate 31 in the up-down direction and is adapted to be coaxially communicated with any one of the positioning grooves 321.

The locking lever 323 is adapted to pass through the locking hole 322 from top to bottom and be inserted into the correspondingly communicated positioning groove 321 to restrict the movement of the distance adjustment plate 31 relative to the clamping mechanism 2.

By adopting the above technical scheme, the distance adjusting plate 31 is moved along the width direction of the base 1 to increase/decrease the distance between the distance adjusting plate 31 and the steel strip 100, and the sliding removing mechanism 4 is ensured to be capable of contacting with the coating of the steel strip 100 after being inserted into the guide hole 311. The locking rod 323 is used for limiting the movement of the distance adjusting plate 31, so that the fixing effect of the distance adjusting plate 31 in the horizontal direction can be ensured, and the stability of the device in actual use is ensured.

It should be added that, in the present embodiment, as shown in fig. 1, two sets of locking structures 32 are provided and are spaced apart along the length direction of the base 1.

Since the distance adjusting plate 31 extends in the up-down direction and the height of the distance adjusting plate 31 in the up-down direction is large in order to secure the number of the guide holes 311 and the diameter of each guide hole 311 in the up-down direction, it is inconvenient to process the locking hole 322; in order to solve this problem, in some embodiments, the above-mentioned feature distance adjusting plate 31 may be configured as shown in fig. 1, specifically, a transverse plate protruding along the width direction of the base 1 is provided at the lower end, and the locking hole 322 is provided on the transverse plate.

In some embodiments, the characteristic glide clearance mechanism 4 described above may be configured as shown in fig. 7 and 8. Referring to fig. 7 and 8, the slide clearance mechanism 4 includes a support plate 41, a grinding plate 42, and a scraping member 43.

One side plate surface of the supporting plate 41 is suitable for being connected with the side surface of any one of the distance adjusting supporting mechanisms 3 facing the steel belt 100, so that the thickness direction of the supporting plate is parallel to the width direction of the base 1.

The polishing plate 42 is fixedly connected to the support plate 41 and extends in the thickness direction of the support plate 41; also, the extended end surface of the polishing plate 42 is a polishing surface.

The scraping member 43 is provided on the support plate 41 to be movable in the thickness direction of the support plate 41 for contact with the steel strip 100, and the contact surface of the scraping member 43 is a blade surface.

In actual use, by moving the scraping member 43, the relative positions of the scraping member 43 and the polishing plate 42 can be made to have the following three states:

firstly, the blade surface of the scraping component 43 is superposed with the polishing surface of the polishing plate 42, and the movable support plate 41 can scrape and polish the coating successively;

secondly, the blade surface of the scraping member 43 is located behind the polishing surface of the polishing plate 42 (for convenience of description, the thickness direction of the support plate 41 is defined as the front-back direction, specifically, the direction toward the steel strip 100 is the front-back direction), and the support plate 41 is moved to scrape off the coating;

thirdly, the blade surface of the scraping component 43 is positioned in front of the polishing surface of the polishing plate 42, and the coating can be polished by moving the supporting plate 41;

through adopting above-mentioned technical scheme, can realize the transform of three kinds of different usage patterns, improve the stability of this device when in-service use.

In some embodiments, the characteristic scraping member 43 may be configured as shown in fig. 7 and 8. Referring to fig. 7 and 8, the scraping member 43 includes a drive screw 431 and a scraper 432.

The axial direction of the drive screw 431 is arranged along the thickness direction of the support plate 41 and is in threaded connection with the support plate 41; specifically, the driving screw 431 penetrates the support plate 41 in the axial direction thereof, and the inner peripheral wall of the penetrating portion of the support plate 41 has an internal thread that is threadedly engaged with the outer periphery of the driving screw 431.

In this embodiment, the end of the driving screw 431 is connected to a second rotating handle 4311, and the driving screw 431 can be adjusted by hand optimally by the second rotating handle 4311, so that the driving screw 431 can be more convenient to be operated manually. The driving screw 431 is provided through the guide hole 311, and a protector surrounding the outer periphery of the driving screw 431 is connected to one side of the support plate 41 facing the distance adjustment plate 31.

The scraper 432 is rotationally connected with the driving screw 431, and the rotational axial direction of the scraper is parallel to the axial direction of the driving screw 431; the blade 432 is used to contact the steel strip 100, and the contact surface is the blade surface.

When the driving screw 431 is screwed in the self-axial direction, the driving screw 431 drives the scraper 432 to move.

Wherein, the support plate 41 is provided with a rotation limiting member 44, and the rotation limiting member 44 is used for connecting with the scraper 432 to limit the scraper 432 to rotate relative to the driving screw 431.

Through adopting above-mentioned technical scheme, drive screw 431 and scraper blade 432 cooperate to ensure scraper blade 432 can not take place to rotate, improved the stability of this device when the in-service use.

In some embodiments, the feature rotation limiting member 44 may be configured as shown in fig. 7 and 8. Referring to fig. 7 and 8, the rotation restricting member 44 includes a rotation restricting plate 441 and a positioning screw 442.

The rotation limiting plate 441 is hinged to the support plate 41, and is disposed in the up-down direction in the rotational axial direction, and is configured to be in contact with the scraper 432 to limit the scraper 432 from rotating in the axial direction around the drive screw 431.

Specifically, the rotation limiting plate 441 has a first rotation position and a second rotation position, and when the rotation limiting plate 441 is in the first rotation position, the rotation limiting plate 441 is connected with the scraper 432, so as to limit the rotation of the scraper 432; when the rotation limiting plate 441 is in the second rotation position, the rotation limiting plate 441 is separated from the squeegee 432, so that maintenance, repair, or replacement of the surface of the squeegee 432 can be performed.

The positioning screw 442 sequentially penetrates through the rotation limiting plate 441, the scraping plate 432 and the polishing plate 42, wherein one end of the positioning screw is suitable for abutting against the rotation limiting plate 441, and the other end of the positioning screw is in threaded connection with a positioning nut 443 suitable for abutting against the polishing plate 42 so as to limit the rotation limiting plate 441 to rotate.

By adopting the technical scheme, the rotation limiting plate 441 can limit the scraper 432 to rotate, so that the scraper 432 cannot rotate in the same direction when the driving screw 431 rotates relative to the scraper 432, the scraper 432 cannot move axially along the driving screw 431, and the reliability of the device in actual use is improved.

It should be added that, in the present embodiment, the distance between the scraper 432 and the grinding plate 42 is small, so that the grinding plate 42 can also abut against the scraper 432, thereby playing a role of limiting the rotation of the scraper 432; however, because of the time difference required between the sanding process and the doctoring process in this application (which would otherwise interfere with both processes), a spacing between the sanding plate 42 and the squeegee 432 is necessary; if the rotation of the blade 432 is restricted by the grinding plate 42, the rotation of the blade 432 cannot be restricted at the first time unless a portion suitable for contact with the blade 432 is provided on the grinding plate 42. Therefore, the rotation limiting plate 441 is selected to abut against the scraper 432 to limit the rotation of the scraper 432, and the process is more stable.

In some embodiments, the above-described feature wiper 432 may be configured as shown in FIG. 8. Referring to fig. 8, a connection plate 433 rotatably connected to the drive screw 431 is detachably connected to a side of the scraper 432 facing the drive screw 431.

Through adopting above-mentioned technical scheme, separation scraper blade 432 and connecting plate 433 can realize scraper blade 432 from the removal on the backup pad 41 to in maintenance, repair and change scraper blade 432, improved the efficiency of this device when in-service use.

In some embodiments, the above-described feature blades 432 and webs 433 may be configured as shown in FIGS. 8 and 9. Referring to fig. 8 and 9, the side of the connecting plate 433 facing the scraper 432 is provided with a slot 4331, and the scraper 432 is provided with an insertion block 4321 adapted to be inserted into the slot 4331.

The inner peripheral wall of the slot 4331 is provided with an elastic protrusion 4332, and the insert 4321 is provided with a clamping slot 4322 suitable for the elastic protrusion to be inserted.

When the scraper 432 and the connecting plate 433 are combined, the insertion block 4321 is inserted into the insertion groove 4331, so that the elastic projection 4332 is inserted into the clamping groove 4322, thereby limiting the movement of the insertion block 4321 away from the groove bottom of the insertion groove 4331.

Through adopting above-mentioned technical scheme, can make up scraper blade 432 and connecting plate 433 to the integrated configuration through elastic bulge 4332 and joint groove 4322 restricts the two separation, has improved the structural stability of this device.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. Steel band surface coating clearing device which characterized in that includes:

the base is used for supporting the steel belt so that the length direction of the base is parallel to the length direction of the steel belt;

the clamping mechanism is arranged on the upper surface of the base; the clamping mechanism is used for clamping the steel strip along the width direction of the steel strip so as to limit the steel strip to move along the length direction of the steel strip;

the two groups of distance adjusting supporting mechanisms are arranged on the clamping mechanism in a sliding manner along the width direction of the base and are respectively arranged on two sides of the steel belt; each distance adjusting support mechanism is provided with a plurality of assembling positions which are distributed at intervals along the vertical direction; and

the sliding clearing mechanism is used for contacting the steel strip, and the end surfaces of the contact part are a grinding surface and a blade surface which are arranged in parallel; the sliding clearing mechanism is suitable for being arranged on any one assembling position of any one of the distance adjusting and supporting mechanisms, and the edge surface and the polishing surface are arranged along the length direction of the base.

2. The steel strip surface coating removal apparatus of claim 1, wherein the clamping mechanism comprises:

the two clamping plates are arranged on the upper surface of the base in a sliding mode along the width direction of the base and used for moving oppositely to clamp the steel belt or moving back to loosen the steel belt; and

the driving structure is arranged between the base and the clamping plates and used for driving the two clamping plates to move oppositely or back to back;

the two distance adjusting supporting mechanisms correspond to the two clamping plates one to one, and the distance adjusting supporting mechanisms are arranged on the upper surfaces of the clamping plates in a sliding mode.

3. The steel strip surface coating removal apparatus of claim 2, wherein the drive structure comprises:

the two grooves are arranged on the upper surface of the base at intervals along the width direction of the base and are respectively positioned on two sides of the steel strip;

the two limiting convex parts are respectively and fixedly connected to the bottom surfaces of the two clamping plates and correspond to the two grooves one by one; the limiting convex parts are suitable for being embedded into the corresponding grooves; and

the double-end screw is axially arranged along the width direction of the base, axially penetrates through the base along the self axial direction and sequentially passes through the two grooves;

wherein, double-end screw has two screw thread portions that screw thread opposite direction, two screw thread portion respectively with two spacing bellying threaded connection is used for driving two spacing bellying removes or moves dorsad in opposite directions.

4. The steel strip surface coating removal device of claim 1, wherein the pitch adjustment support mechanism comprises:

the distance adjusting plate is arranged on the upper surface of the clamping mechanism in a sliding mode along the width direction of the base; a plurality of guide holes are formed in the distance adjusting plate at intervals in the vertical direction, and each guide hole extends in the length direction of the base; the guide hole is the assembly position and is used for embedding the sliding clearing mechanism; and

and the locking structure is arranged between the clamping mechanism and the distance adjusting plate and is used for limiting the distance adjusting plate to move relative to the clamping mechanism.

5. The steel strip surface coating removal apparatus of claim 4, wherein the locking structure comprises:

the positioning grooves are arranged on the upper surface of the clamping mechanism at intervals along the width direction of the base;

the locking hole penetrates through the distance adjusting plate along the up-down direction and is suitable for being coaxially communicated with any one of the positioning grooves; and

and the locking rod is used for passing through the locking hole from top to bottom and inserting into the correspondingly communicated positioning groove so as to limit the movement of the distance adjusting plate relative to the clamping mechanism.

6. The steel strip surface coating removal device of claim 1, wherein the slide removal mechanism comprises:

the side surface of one side of the supporting plate is suitable for being connected with the side surface, facing the steel belt, of any one of the distance adjusting supporting mechanisms, so that the thickness direction of the supporting plate is parallel to the width direction of the base;

the polishing plate is fixedly connected to the supporting plate and extends along the thickness direction of the supporting plate; the extending end surface of the polishing plate is the polishing surface; and

and the scraping component is arranged on the supporting plate, can move along the thickness direction of the supporting plate and is used for contacting the steel strip, and the contact surface of the scraping component is the blade surface.

7. The steel strip surface coating removal device of claim 6, wherein the scraping means comprises:

the driving screw is axially arranged along the thickness direction of the supporting plate and is in threaded connection with the supporting plate;

the scraping plate is rotationally connected with the driving screw, and the rotational axial direction of the scraping plate is parallel to the axial direction of the driving screw; the scraper is used for contacting with the steel strip, and the contact surface of the scraper is the edge surface; when the driving screw rod is screwed in along the self axial direction, the driving screw rod drives the scraper to move; and

wherein, a rotation limiting component is arranged on the supporting plate and is used for being connected with the scraper so as to limit the scraper to rotate relative to the driving screw.

8. The steel strip surface coating removal apparatus of claim 7, wherein the rotation limiting member comprises:

the rotation limiting plate is hinged to the supporting plate, is arranged in the vertical direction in the rotating axial direction and is used for being connected with the scraper so as to limit the scraper to rotate around the driving screw in the axial direction; and

the positioning screw rod sequentially penetrates through the rotation limiting plate, the scraper and the polishing plate, one end of the positioning screw rod is suitable for being abutted against the rotation limiting plate, and the other end of the positioning screw rod is in threaded connection with the polishing plate so as to limit the rotation limiting plate to rotate.

9. The steel strip surface coating removal device of claim 7, wherein a connection plate rotatably connected to the drive screw is detachably connected to a side of the scraper facing the drive screw.

10. The steel strip surface coating removing device according to claim 9, wherein a slot is provided on a side of the connecting plate facing the scraper, and an insertion block adapted to be inserted into the slot is provided on the scraper;

the elastic lug boss is arranged on the inner peripheral wall of the slot, and the insertion block is provided with a clamping groove suitable for the elastic lug boss to be embedded.

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