CN111745547A - Stainless steel polishing equipment capable of automatically cleaning and recycling - Google Patents

Abstract

An automatic stainless steel polishing equipment who clears up recovery includes: shell, shot-blasting room still include: the device comprises a lifting device, a shot blasting device and a central control device; the shot blasting device is used for spraying shot materials to the materials; the middle part of the shot blasting chamber is provided with a rolling shaft; the rolling shaft is connected with the central control device, and the central control device outputs an opening signal to the rolling shaft, so that the rolling shaft rotates; the rotating directions of the rolling shafts are consistent; the rolling shafts are spaced at a preset distance; the bottom of shot-blasting room is provided with retrieves cleaning device, retrieves cleaning device and includes: the device comprises a filter screen, a driving motor and a moving track; the moving tracks are arranged on two sides of the inner wall of the shot blasting chamber, two sides of the filter screen are respectively connected with the moving tracks, the driving motor is connected with the filter screen, and the driving motor drives the filter screen to move along the moving tracks; the driving motor is connected with the central control device, the central control device outputs a sieving signal to the driving motor, and the driving motor drives the filter sieve to move back and forth along the moving track after receiving the sieving signal.

Description

Stainless steel polishing equipment capable of automatically cleaning and recycling

Technical Field

The invention relates to the field of polishing of metal parts, in particular to stainless steel polishing equipment capable of automatically cleaning and recycling.

Background

Shot blasting machines (shot blasting machines) utilize high-speed shots thrown by shot blasting machines to clean or strengthen casting equipment on the surface of a casting. The shot blasting machine can simultaneously perform sand falling, core removal and cleaning on the casting, the shot blasting equipment is firstly applied to cleaning of surface bonded sand and oxide skin of cast steel and iron castings in the casting industry, and almost all the cast steel, ash castings, malleable iron castings, ductile iron castings and the like are subjected to shot blasting treatment. The method is not only used for removing oxide scales and bonded sand on the surface of the casting, but also is an indispensable preparation process before the quality inspection of the casting, for example, a large-sized turbine shell needs to be strictly cleaned by throwing and spraying shots before nondestructive inspection is carried out, so that the reliability of the inspection result is ensured. In the production of general castings, shot blasting cleaning is an essential technological means for finding casting surface defects such as subcutaneous blowholes, slag holes, bonded sand, cold shut, peeling and the like. The surface cleaning of non-ferrous metal castings, such as aluminum alloy, copper alloy and the like, not only removes oxide scale and finds surface defects of the castings, but also mainly aims at removing burrs of die castings and obtaining surface quality with decoration significance by shot blasting and obtaining comprehensive effects.

Shot blasting machines blast abrasives onto workpieces by sand blasting to cut or clean the workpieces, eliminate some attachments such as rust on metal surfaces, or bombard shots such as steel balls onto the workpieces by shot blasting to coat the workpieces with tin, zinc, and other metals or to impart residual stresses to the workpiece surfaces. The shot blasting medium can be sand, silicon carbide particles, small steel balls and the like with various specifications. The blasting media can be recycled after being sprayed, and the abrasive powder generated by the bombardment of the abrasive on the workpiece and the cutting particles of the workpiece form impurities, and the scattering of the impurities pollutes the working environment. In order to reuse blasting media that have been used once and prevent the scattering of blasting impurities, it is necessary to recover the blasting media and treat impurities generated during the blasting operation.

In the prior art, a shot blasting medium recovery mechanism in a shot blasting machine usually comprises a filter screen, impurities in the shot blasting medium are filtered and removed through the filter screen, the shot blasting medium which can be recycled returns to the shot blasting machine again for use, but the filter screen is usually horizontally arranged, and the filtering effect is influenced.

Disclosure of Invention

The purpose of the invention is as follows:

aiming at the technical problems mentioned in the background technology, the invention provides a stainless steel polishing device capable of automatically cleaning and recycling.

The technical scheme is as follows:

an automatic stainless steel polishing equipment who clears up recovery includes: shell, shot-blasting room still include: the device comprises a lifting device, a shot blasting device and a central control device;

the shot blasting chamber is arranged in the shell, and the lifting device is arranged on one side of the shot blasting chamber;

the shot blasting device is connected with the lifting device, and the lifting device is used for lifting shot materials from a lower layer and outputting the shot materials to the shot blasting device;

the shot blasting device is used for spraying shot materials to the materials;

the middle part of the shot blasting chamber is provided with a plurality of rolling shafts, and the rolling shafts are sequentially parallel and are positioned on the same horizontal plane; the rolling shaft is connected with the central control device, and the central control device outputs an opening signal to the rolling shaft, so that the rolling shaft rotates; the rotating directions of the rolling shafts are consistent; the rolling shafts are spaced at a preset distance;

the bottom of shot-blasting room is provided with retrieves cleaning device, retrieve cleaning device includes: the device comprises a filter screen, a driving motor and a moving track;

the moving tracks are arranged on two sides of the inner wall of the shot blasting chamber, two sides of the filter screen are respectively connected with the moving tracks, the driving motor is connected with the filter screen, and the driving motor drives the filter screen to move along the moving tracks;

the driving motor is connected with the central control device, the central control device outputs a sieving signal to the driving motor, and the driving motor drives the filter sieve to move back and forth along the moving track after receiving the sieving signal.

As a preferred mode of the invention, a separating sieve is arranged on one side of the bottom of the filter sieve, the separating sieve is movably connected with the filter sieve, and the separating sieve is connected with the central control device; the separation sieve is vertical to the filter sieve when in a standby position;

the central control device outputs a separation signal to the separation screen, and the separation screen is removed from being vertical to the filter screen and rotates to be in the same plane with the filter screen;

and when the filter screen is positioned at a standby position, the edge of the side surface of the filter screen is in contact with the inner wall of the shot blasting chamber.

As a preferred mode of the present invention, an upward-going track is disposed on one side of the moving track, and the upward-going track is disposed on the other side of the standby position of the filter screen;

the filter screen moves upward through an upward track.

As a preferred mode of the invention, a recovery bin is arranged in the shot blasting chamber, and the recovery bin is arranged on the other side of the standby position of the filter screen;

the recovery bin and the shot blasting chamber are provided with isolating devices, and the filter screen avoids the isolating devices through an ascending rail.

As a preferred mode of the invention, the surface of the rolling shaft is provided with an isolation net, and meshes are arranged on the isolation net;

the isolation net covers the surface of the rolling shaft, and a support frame is arranged on the isolation net and the surface of the rolling shaft;

the support frame is used for supporting the isolation net to be separated from the surface of the rolling shaft.

As a preferable mode of the present invention, the separation nets of the adjacent rolling shafts are not in contact with each other.

As a preferable mode of the present invention, the lifting device includes a plurality of lift buckets;

the upper surface of the lifting bucket is provided with a filter screen, and the diameter of the meshes of the filter screen is consistent with that of the filter screen.

As a preferred mode of the present invention, two ends of the rolling shaft are respectively connected to a rotating arm;

the rotating arm and the shot blasting chamber are provided with a rotating connecting shaft, and the rotating connecting shaft is arranged on one side of the rotating arm close to a cabin door of the shot blasting chamber;

the rotary connecting shaft is connected with the central control device, the central control device outputs a discharging signal to the rotary connecting shaft, and the rotary arm rotates around the rotary connecting shaft to release the material on the surface of the rolling shaft to the cabin door.

As a preferable mode of the invention, the rotating connecting shaft is further provided with a lifting device, the lifting device is connected with the central control device, and the lifting device is connected with the rotating connecting shaft and the rotating arm;

and the central control device outputs a lifting signal to the lifting device, so that the lifting device is lifted, and the horizontal position of the rolling shaft in the shot blasting chamber is lifted.

The invention realizes the following beneficial effects:

and the particles after shot blasting are filtered in time, so that impurities are prevented from being mixed into the polishing particles. The hardware placing position is improved, the rolling shaft is arranged to be used for placing the hardware, the hardware rotating efficiency can be improved, polishing is convenient, and polishing time is shortened. And is also beneficial to the falling and recovery of the grinding particles.

The longitudinal automatic filter sieve improves the filtering efficiency and does not influence polishing.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic side view of an automated cleaning and recycling stainless steel polishing apparatus provided in the present invention;

FIG. 2 is a schematic side view of a second automated clean-up recycled stainless steel polishing apparatus provided in accordance with the present invention;

FIG. 3 is a schematic diagram of an isolation net of an automatic cleaning and recycling stainless steel polishing device provided by the invention;

FIG. 4 is a schematic view of a rotating arm of an automatic cleaning and recycling stainless steel polishing device provided by the present invention;

FIG. 5 is a schematic diagram of a lifting device of an automatic cleaning and recycling stainless steel polishing device provided by the invention.

Wherein: 1. the shot blasting machine comprises a shot blasting chamber, 11 lifting devices, 111 lifting hoppers, 112 filter screens, 12 impeller heads, 2 rolling shafts, 31 filter screens, 32 moving rails, 4 separating screens, 5 ascending rails, 61 isolating devices, 7 isolating screens, 71 supporting frames, 8 rotating arms, 81 rotating connecting shafts and 82 lifting devices.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Unless otherwise defined, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" is not to be interpreted as implying any or all combinations of one or more of the associated listed items.

Spatially relative terms, such as "above … …," "above … …," "above … …, above," "overlying" and the like, may be used herein for ease of description to describe the spatial relationship of one device or feature to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously positioned and the spatially relative descriptors used herein interpreted accordingly.

Example one

An automatic stainless steel polishing equipment who clears up recovery includes: shell, shot-blasting room 1 still include: lifting device 11, impeller head 12, central control unit.

The shot blasting chamber 1 is arranged in the shell, and the lifting device 11 is arranged on one side of the shot blasting chamber 1.

The shot blasting chamber 1 is used for placing objects for shot blasting.

The shot blasting device 12 is connected with the lifting device 11, and the lifting device 11 is used for lifting the shot from the lower layer and outputting the shot to the shot blasting device 12.

The lifting device 11 transports the shot materials deposited on the lower layer to the top layer and is thrown out to the object by the shot blasting device 12.

The shot blasting device 12 is used for spraying shot materials to materials.

The middle part of the shot blasting chamber 1 is provided with a plurality of rolling shafts 2, and the rolling shafts 2 are parallel in sequence and are positioned on the same horizontal plane. The rolling shaft 2 is connected with the central control device, and the central control device outputs an opening signal to the rolling shaft 2, so that the rolling shaft 2 rotates. The rolling shafts 2 rotate in the same direction. The rolling shafts 2 are spaced apart from each other by a predetermined distance.

The rolling shaft 2 is used for placing an object, the rolling shaft 2 continuously rolls to drive the object to rotate, and lines can be arranged on the surface of the rolling shaft 2 to improve friction force.

The articles roll over the rolling shafts 2 without falling out of the gap between the rolling shafts 2.

The bottom of shot-blasting room 1 is provided with retrieves cleaning device, retrieve cleaning device includes: filter screen 31, driving motor, removal track 32.

The moving tracks 32 are arranged on two sides of the inner wall of the shot blasting chamber 1, two sides of the filter screen 31 are respectively connected with the moving tracks 32, the driving motor is connected with the filter screen 31, and the driving motor drives the filter screen 31 to move along the moving tracks 32.

The filter screen 31 is used for screening out impurities in the shot materials, and avoids influencing the shot blasting precision.

The filter screen 31 is driven to move along the rail.

The driving motor is connected with the central control device, the central control device outputs a sieving signal to the driving motor, and after the driving motor receives the sieving signal, the driving motor drives the filter sieve 31 to move back and forth along the moving track 32.

Example two

The present embodiment is substantially the same as the previous embodiments, except that, as a preferred mode of the present embodiment, a separating screen 4 is disposed on one side of the bottom of the filtering screen 31, the separating screen 4 is movably connected to the filtering screen 31, and the separating screen 4 is connected to the central control device. The separating screen 4 is perpendicular to the filtering screen 31 when in the standby position.

The central control device outputs a separation signal to the separation sieve 4, and the separation sieve 4 is removed from the vertical state with the filter sieve 31 and rotates to be in the same plane with the filter sieve 31.

The edge of the side surface of the filter screen 31 is in contact with the inner wall of the shot blasting chamber 1 when the filter screen is in the standby position.

In a preferred embodiment of the present invention, an upward rail 5 is provided on one side of the moving rail 32, and the upward rail 5 is provided on the other side of the standby position of the filter screen 31.

The filter screen 31 is moved upward by the ascending rail 5.

The separating screen 4 is used for separating the filtered impurities when the filtering screen 31 rises and carrying the impurities out of the pellet storage bin.

As a preferable mode of this embodiment, a recovery bin is disposed in the blasting chamber 1, and the recovery bin is disposed on the other side of the standby position of the filter screen 31.

The recovery bin and the shot blasting chamber 1 are provided with isolating devices 61, and the filter screen 31 avoids the isolating devices 61 through the ascending rails 5.

The recovery bin is used for recovering impurities, after the filter sieve 31 moves to the position above the recovery bin, the central control device drives the separation sieve 4 to change the angle with the filter sieve 31, the impurities on the separation sieve are released, and the impurities fall into the recovery bin.

As a preferable mode of this embodiment, an isolation net 7 is disposed on the surface of the rolling shaft 2, and a mesh is disposed on the isolation net 7.

The separation net 7 is used for improving the separation efficiency of the pills, preventing the pills from being accumulated on the surface of the object, improving the friction force of the rolling shaft 2 and assisting the object to rotate.

The isolation net 7 covers the surface of the rolling shaft 2, and a support frame 71 is arranged on the isolation net 7 and the surface of the rolling shaft 2.

The supporting frame 71 serves to separate the separation net 7 from the surface of the rolling shaft 2 such that a space is formed therebetween.

The supporting frame 71 is used for supporting the separation net 7 to be separated from the surface of the rolling shaft 2.

As a preferable mode of this embodiment, the separation webs 7 of the adjacent rolling shafts 2 do not contact each other. The separation net 7 is not contacted with each other to avoid influencing the rotation of the rolling shaft 2.

As a preferred way of this embodiment, the lifting device 11 comprises several lifting skips 111.

The upper surface of the lift bucket 111 is provided with a filter screen 112, and the diameter of the mesh of the filter screen 112 is consistent with that of the filter screen 31. The filter mesh 112 can prevent foreign substances from entering the elevator bucket 111.

EXAMPLE III

The present embodiment is substantially the same as the above-mentioned embodiments, except that, as a preferable mode of the present embodiment, both ends of the rolling shaft 2 are respectively connected with a rotating arm 8.

The rotating arm 8 can drive the rolling shaft 2 to directly rotate in a large angle, so that the objects on the rolling shaft 2 can be collected conveniently.

The rotating arm 8 and the shot blasting chamber 1 are provided with a rotating connecting shaft 81, and the rotating connecting shaft 81 is arranged on one side, close to a cabin door of the shot blasting chamber 1, of the rotating arm 8.

The rotating connecting shaft 81 is connected with the central control device, the central control device outputs a discharging signal to the rotating connecting shaft 81, and the rotating arm 8 rotates around the rotating connecting shaft 81 to release the material on the surface of the rolling shaft 2 to the cabin door.

As a preferable mode of the present embodiment, the rotating connecting shaft 81 is further provided with a lifting device 82, the lifting device 82 is connected with the central control device, and the lifting device 82 connects the rotating connecting shaft 81 with the rotating arm 8.

The central control device outputs a lifting signal to the lifting device 82, so that the lifting device 82 is lifted, and the horizontal position of the rolling shaft 2 in the shot blasting chamber 1 is lifted

The raising means 82 enable the overall height of the rotating arm 8 to be raised, which is more advantageous for the collection of material.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. An automatic stainless steel polishing equipment who clears up recovery includes: shell, shot-blasting room (1), its characterized in that still includes: the device comprises a lifting device (11), a shot blasting machine (12) and a central control device;

the shot blasting chamber (1) is arranged in the shell, and the lifting device (11) is arranged on one side of the shot blasting chamber (1);

the shot blasting machine (12) is connected with the lifting device (11), and the lifting device (11) is used for lifting shot materials from a lower layer and outputting the shot materials to the shot blasting machine (12);

the shot blasting device (12) is used for spraying shot materials to the materials;

the middle part of the shot blasting chamber (1) is provided with a plurality of rolling shafts (2), and the rolling shafts (2) are sequentially parallel and are positioned on the same horizontal plane; the rolling shaft (2) is connected with the central control device, and the central control device outputs an opening signal to the rolling shaft (2), so that the rolling shaft (2) rotates; the rotating directions of the rolling shafts (2) are consistent; the rolling shafts (2) are spaced at a preset distance;

the bottom of shot-blasting room (1) is provided with retrieves cleaning device, retrieve cleaning device includes: a filter screen (31), a driving motor and a moving track (32);

the moving tracks (32) are arranged on two sides of the inner wall of the shot blasting chamber (1), two sides of the filter screen (31) are respectively connected with the moving tracks (32), the driving motor is connected with the filter screen (31), and the driving motor drives the filter screen (31) to move along the moving tracks (32);

the driving motor is connected with the central control device, the central control device outputs a sieving signal to the driving motor, and the driving motor drives the filter sieve (31) to move back and forth along the moving track (32) after receiving the sieving signal.

2. The automatic stainless steel polishing equipment for cleaning and recycling is characterized in that a separating screen (4) is arranged on one side of the bottom of the filtering screen (31), the separating screen (4) is movably connected with the filtering screen (31), and the separating screen (4) is connected with the central control device; the separation screen (4) is vertical to the filter screen (31) when in a standby position;

the central control device outputs a separation signal to the separation sieve (4), and the separation sieve (4) is removed from the vertical state with the filter sieve (31) and rotates to be in the same plane with the filter sieve (31);

the edge of the side surface of the filter screen (31) is in contact with the inner wall of the shot blasting chamber (1) when the filter screen is at a standby position.

3. The automatic cleaning and recycling stainless steel polishing device according to claim 2, wherein one side of the moving track (32) is provided with an upward-going track (5), and the upward-going track (5) is arranged on the other side of the standby position of the filter screen (31);

the filter screen (31) moves upwards through the ascending rail (5).

4. The stainless steel polishing equipment for automatic cleaning and recovery according to claim 3, characterized in that a recovery bin is arranged in the shot blasting chamber (1), and the recovery bin is arranged at the other side of the standby position of the filter screen (31);

the recovery bin and the shot blasting chamber (1) are provided with isolating devices (61), and the filter screen (31) avoids the isolating devices (61) through the ascending rail (5).

5. The automatic cleaning and recycling stainless steel polishing device according to claim 1, wherein the surface of the rolling shaft (2) is provided with an isolation net (7), and meshes are arranged on the isolation net (7);

the isolation net (7) covers the surface of the rolling shaft (2), and a support frame (71) is arranged on the isolation net (7) and the surface of the rolling shaft (2);

the support frame (71) is used for supporting the separation net (7) to be separated from the surface of the rolling shaft (2).

6. An automated cleaning and recycling stainless steel polishing apparatus according to claim 5, wherein the separation nets (7) of the adjacent rolling shafts (2) are not in contact with each other.

7. An automated conditioning and recycling stainless steel polishing apparatus according to claim 1, characterized in that said lifting device (11) comprises a plurality of lifting skips (111);

the upper surface of the lifting bucket (111) is provided with a filter screen (112), and the diameter of the meshes of the filter screen (112) is consistent with that of the filter screen (31).

8. The stainless steel polishing device for automatic cleaning and recycling according to claim 1, wherein two ends of the rolling shaft (2) are respectively connected with a rotating arm (8);

the rotating arm (8) and the shot blasting chamber (1) are provided with a rotating connecting shaft (81), and the rotating connecting shaft (81) is arranged on one side of the rotating arm (8) close to a cabin door of the shot blasting chamber (1);

the rotating connecting shaft (81) is connected with the central control device, the central control device outputs a discharging signal to the rotating connecting shaft (81), and the rotating arm (8) rotates around the rotating connecting shaft (81) to release the materials on the surface of the rolling shaft (2) to the cabin door.

9. An automatic cleaning and recycling stainless steel polishing device according to claim 8, characterized in that the rotating connecting shaft (81) is further provided with a lifting device (82), the lifting device (82) is connected with the central control device, and the lifting device (82) is connected with the rotating connecting shaft (81) and the rotating arm (8);

and the central control device outputs a lifting signal to the lifting device (82), so that the lifting device (82) is lifted, and the horizontal position of the rolling shaft (2) in the shot blasting chamber (1) is lifted.

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