CN114346914A - Hang through type high-efficient shot-blasting machine - Google Patents

Abstract

The invention discloses a hanging through type high-efficiency shot blasting machine which comprises a shot blasting chamber, a hanging device, an auger device, a lifter, a cyclone dust collector and a filter cartridge dust collector, wherein the hanging device is arranged above the shot blasting chamber, the auger device is arranged at the bottom of the shot blasting chamber, the lifter is arranged on one side of the shot blasting chamber, the cyclone dust collector is respectively connected with the shot blasting chamber and a material return box through a dust removal pipeline, the filter cartridge dust collector is connected with the cyclone dust collector through a dust removal pipeline, the auger device comprises a material dropping box, an auger and a waste material collecting drawer, the material dropping box is arranged at the bottom of the shot blasting chamber, the auger is transversely arranged in the material dropping box, one end of the auger is in synchronous transmission connection with the lifter, the waste material collecting drawer is arranged at the bottom of the material dropping box, and a sieve plate is arranged between the material dropping box and the waste material collecting drawer. According to the invention, the used shot materials can be screened and recovered through the matching of the auger device and the elevator, and are conveyed back to the shot blasting device for recycling, so that raw materials are saved and the shot blasting efficiency is improved.

Description

Hang through type high-efficient shot-blasting machine

Technical Field

The invention relates to the technical field of shot blasting machines, in particular to a hanging through type efficient shot blasting machine.

Background

The suspension type shot blasting machine is also called a hook type shot blasting machine or a suspension type shot blasting machine, conveys a workpiece into a shot blasting chamber through a suspension system, ejects a shot material at a high speed through an impeller head to be shot on the surface of the workpiece, removes impurities, welding slag or rusty spots on the surface of the workpiece, and is suitable for surface cleaning and strengthening treatment of medium and small-sized cast and forged pieces in the industries of casting, construction, chemical engineering, motors, machine tools and the like.

Although the cleaning and strengthening effects of the existing suspension type shot blasting machine are better, and the use is flexible and convenient, the following problems still exist:

1. the used shot materials are directly conveyed back to the shot blasting machine through the elevator to be recycled, but the shot materials are crushed and deformed after colliding with a workpiece, part of the shot materials do not meet the use requirements, and the shot materials cannot be separated out by the conventional shot blasting machine, so that the shot blasting efficiency is influenced;

2. the shot blasting machine is usually fixed on the outer wall of a shot blasting chamber, and the shot blasting angle cannot be adjusted according to factors such as the size, the shape and the position of a workpiece, so that the universality needs to be improved.

Disclosure of Invention

In order to solve the technical problems, the invention discloses a hanging through type high-efficiency shot blasting machine which comprises a shot blasting chamber, a hanging device, an auger device, a lifter, a cyclone dust collector and a filter drum dust collector, wherein the hanging device is arranged above the shot blasting chamber, the auger device is arranged at the bottom of the shot blasting chamber, the lifter is arranged on one side of the shot blasting chamber, the bottom of the lifter is connected with the auger device, the top of the lifter is connected with a material return box, the cyclone dust collector is respectively connected with the shot blasting chamber and the material return box through dust removal pipelines, the filter drum dust collector is connected with the cyclone dust collector through a dust removal pipeline, the auger device comprises a material dropping box, an auger and a waste material collecting drawer, the material dropping box is arranged at the bottom of the shot blasting chamber, the auger is transversely arranged in the material dropping box, and one end of the auger is synchronously and drivingly connected with the lifter, the garbage collection drawer is arranged at the bottom of the blanking box, and a sieve plate is arranged between the blanking box and the garbage collection drawer.

Furthermore, the outer wall of the shot blasting chamber is provided with a first shot blasting device and a second shot blasting device, and the material return box is respectively connected with the first shot blasting device and the second shot blasting device through material return pipelines.

Further, the feed back box is including setting up first feed inlet and the second feed inlet in the box upper end, setting up first discharge gate and the second discharge gate at the box lower extreme, be equipped with the baffle between first feed inlet and the second feed inlet, be equipped with the unloading swash plate between first discharge gate and the second discharge gate, still be equipped with in the feed back box and divide the material baffle, divide material baffle one end to be provided with and divide the material motor, the other end with baffle swing joint.

Furthermore, an air inlet is formed in one side of the feed back box, an air outlet is formed in the other side of the feed back box, and the air outlet is connected with the cyclone dust collector through a dust removal pipeline.

Furthermore, shot blasting chamber outer wall is equipped with first mounting panel, second mounting panel and angle adjustment mechanism respectively, the one end of first mounting panel and second mounting panel respectively with shot blasting chamber outer wall rotates to be connected, the other end all with angle adjustment mechanism connects.

Further, angle adjustment mechanism includes drive unit and alignment jig, the alignment jig both ends are equipped with first supporting roller and second supporting roller respectively, the tip of first mounting panel is equipped with first slide, the tip of second mounting panel is equipped with the second slide, first supporting roller sets up in first slide, the second supporting roller sets up in the second slide.

Further, the first impeller head is arranged on the first mounting plate, and the second impeller head is arranged on the second mounting plate.

Further, the hanging device comprises a supporting frame, a cross beam, a winch and a hook, the cross beam is supported and arranged above the shot blasting chamber by the supporting frame, the winch is arranged on the cross beam through a sliding assembly, and the hook is connected with the winch.

Further, a through groove is formed in the top of the shot blasting chamber.

Furthermore, a maintenance platform is arranged at the top of the hoisting machine.

The invention has the beneficial effects that:

according to the hanging through type high-efficiency shot blasting machine, the used shot materials can be screened and recovered through the matching of the auger device and the elevator, and are conveyed back to the shot blasting machine for recycling, so that raw materials are saved, and the shot blasting efficiency is improved; meanwhile, the shot blasting angle is adjusted through the angle adjusting mechanism, shot blasting requirements of different workpieces can be met, and the universality of the shot blasting machine is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the screw feeder device of the present invention;

FIG. 3 is a schematic structural diagram of the feed back box of the invention;

FIG. 4 is a schematic view of a first shot blasting state of the shot blasting chamber of the invention;

FIG. 5 is a schematic structural view of the angle adjustment mechanism of the present invention;

FIG. 6 is a schematic view of a second shot blasting state of the shot blasting chamber of the invention.

Reference numerals:

1-shot blasting chamber; 11-a first impeller; 12-a second impeller; 13-a through slot; 14-a first mounting plate; 141-a first slide; 15-a second mounting plate; 151-a second slide; 16-an angle adjustment mechanism; 161-a drive unit; 162-an adjusting bracket; 163-first support roller; 164-a second support roller; 165-a resilient seal;

2-hanging device; 21-a support frame; 22-a cross beam; 23-a winch; 24-hanging hooks;

3-auger device; 31-blanking box; 32-auger; 33-a waste collection drawer; 34-a sieve plate;

4-a hoisting machine;

5-cyclone dust collector;

6-cartridge dust remover;

7-returning the material tank; 71-a first feed port; 72-a second feed port; 73-a first discharge port; 74-a second discharge port; 75-a separator; 76-blanking sloping plate; 77-material distributing baffle; 78-a material separating motor; 701-an air inlet; 702-an air outlet;

8-maintenance platform.

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.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

In the description of the embodiments, the terms "disposed," "connected," and the like are to be construed broadly unless otherwise explicitly specified or limited. For example, the connection can be fixed, detachable or integrated; can be mechanically or electrically connected; either directly or through an intervening medium, or through internal communication between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, the hanging pass-through type high-efficiency shot blasting machine of the embodiment comprises a shot blasting chamber 1, a hanging device 2, an auger device 3, a hoister 4, a cyclone dust collector 5 and a filter drum dust collector 6, wherein the hanging device 2 is arranged above the shot blasting chamber 1, the auger device 3 is arranged at the bottom of the shot blasting chamber 1, the hoister 4 is arranged on one side of the shot blasting chamber 1, the bottom of the shot blasting chamber is connected with the auger device 3, and the top of the shot blasting chamber is connected with a material return box 7. The cyclone dust collector 5 is respectively connected with the shot blasting chamber 1 and the feed back box 7 through a dust removal pipeline, and the filter cartridge dust collector 6 is connected with the cyclone dust collector 5 through a dust removal pipeline. The structures and working principles of the hoister 4, the cyclone dust collector 5 and the filter cartridge dust collector 6 are conventional technical means in the field, and are not described in detail herein.

And a maintenance platform 8 is arranged at the top of the elevator 4, so that the maintenance of the equipment is facilitated for workers.

The hanging device 2 comprises a support frame 21, a cross beam 22, a winch 23 and a hook 24, the cross beam 22 is supported and arranged above the shot blasting chamber 1 by the support frame 21, the winch 23 is arranged on the cross beam 22 through a sliding assembly, and the hook 24 is connected with the winch 23. The sliding assembly can drive the winch 23 to move along the cross beam 22, so that a workpiece hung on the hook 24 is conveyed into the shot blasting chamber 1 through the groove 13 along the top of the shot blasting chamber 1 for shot blasting treatment. The sliding component also adopts the conventional technical means in the field, such as a linear module, a sliding lead screw structure and the like.

The outer wall of the shot blasting chamber 1 is provided with a first shot blasting device 11 and a second shot blasting device 12, and the material return box 7 is respectively connected with the first shot blasting device 11 and the second shot blasting device 12 through material return pipelines.

As shown in fig. 2, the auger device 3 includes a blanking box 31, an auger 32 and a waste collection drawer 33, the blanking box 31 is disposed at the bottom of the shot blasting chamber 1, the auger 32 is transversely disposed in the blanking box 31, and one end of the auger is in synchronous transmission connection with the elevator 4, the waste collection drawer 33 is disposed at the bottom of the blanking box 31, and a screen plate 34 is disposed between the blanking box 31 and the waste collection drawer 33.

The used shot materials enter the material dropping box 31 through the shot blasting chamber 1 and drop on the sieve plate 34, impurities, welding slag, rust spots, an oxidation layer and part of crushed shot materials drop into the waste material collecting drawer 33 through the sieve plate 34, the qualified shot materials are conveyed to the elevator 4 through the auger 32, are lifted to the material returning box 7 at the top by the elevator 4 and then are distributed to the first shot blasting device 11 and the second shot blasting device 12 through the material returning box 7, and the shot blasting work is continued.

The waste collection drawer 33 can be drawn out, cleaned of impurities and inserted back to the bottom of the blanking box 31 to continue to receive waste.

As shown in fig. 3, the feed back box 7 includes a first feed opening 71 and a second feed opening 72 disposed at the upper end of the box body, and a first discharge opening 73 and a second discharge opening 74 disposed at the lower end of the box body, wherein a partition plate 75 is disposed between the first feed opening 71 and the second feed opening 72, and a blanking sloping plate 76 is disposed between the first discharge opening 73 and the second discharge opening 74. The material return box 7 is also provided with a material distribution baffle plate 77, one end of the material distribution baffle plate 77 is connected with a material distribution motor 78, and the other end is movably connected with the partition plate 75.

The material distributing motor 78 is arranged on the outer wall of the box body of the material returning box 7 and is connected with the material distributing baffle plate 77 through a rotating shaft, in an initial state, the top end of the partition plate 75 is connected with the partition plate 75, the shot materials entering from the first feeding hole 71 are distributed to the first impeller 11 through the first discharging hole 73, and the shot materials entering from the second feeding hole 72 are distributed to the second impeller 12 through the second discharging hole 74. When only one impeller head works, the material distributing baffle plate 77 can be driven to rotate by the material distributing motor 78 to deflect to one side, so that the shot materials are distributed. When the dividing baffle 77 is positioned on the left side, the shots entering from the first inlet 71 and the second inlet 72 both enter the second impeller 12 through the second outlet 74; when the dividing baffle 77 is positioned on the right side, the pellets entering from the first inlet 71 and the second inlet 72 both enter the first impeller 11 through the first outlet 73.

An air inlet 701 is further arranged on one side of the material return box 7, an air outlet 702 is arranged on the other side of the material return box, the air outlet 702 is connected with the cyclone dust collector 5 through a dust removal pipeline, and smoke generated in the material distribution process enters the cyclone dust collector 5 through the dust removal pipeline.

As shown in fig. 4, the outer wall of the blasting chamber 1 is provided with a first mounting plate 14, a second mounting plate 15 and an angle adjusting mechanism 16, one end of the first mounting plate 14 and one end of the second mounting plate 15 are rotatably connected with the outer wall of the blasting chamber 1, and the other end of the first mounting plate and the other end of the second mounting plate are connected with the angle adjusting mechanism 16. The first impeller 11 is disposed on a first mounting plate 14 and the second impeller 12 is disposed on a second mounting plate 15.

As shown in fig. 5, the angle adjusting mechanism 16 includes a driving unit 161 and an adjusting bracket 162, and a first supporting roller 163 and a second supporting roller 164 are respectively disposed at two ends of the adjusting bracket 162; a first slide rail 141 is arranged at the end part of the first mounting plate 14, a second slide rail 151 is arranged at the end part of the second mounting plate 15, a first supporting roller 163 is arranged in the first slide rail 141, and a second supporting roller 164 is arranged in the second slide rail 151; the supporting rollers are embedded in the slide ways, so that the supporting rollers and the slide ways cannot be separated in the movement process.

An elastic sealing element 165 is respectively arranged between the outer wall of the shot blasting chamber 1 and the first mounting plate 14 and the second mounting plate 15 and on two sides of the driving unit 161, so that the sealing effect is achieved, and the resetting of the first mounting plate 14 and the second mounting plate 15 can be assisted.

When the shot blasting angle needs to be adjusted, the driving unit 161 drives the adjusting frame 162 to reciprocate, and when the adjusting frame 162 extends outwards, the first supporting roller 163 and the second supporting roller 164 respectively roll along the first slideway 141 and the second slideway 151, and simultaneously support the first mounting plate 14 and the second mounting plate 15, so as to change the shot blasting angles of the first shot blasting device 11 and the second shot blasting device 12 (as shown in fig. 6); on the contrary, the driving unit 161 drives the adjusting frame 162 to retract, so as to adjust the shot blasting angles of the first shot blasting machine 11 and the second shot blasting machine 12.

The driving unit 161 employs conventional technical means in the art, such as an air cylinder, a hydraulic cylinder, a linear module, etc.

According to the hanging through type high-efficiency shot blasting machine, the auger device 3 is matched with the elevator 4, so that used shot materials can be screened and recovered, and conveyed back to the shot blasting machine for recycling, raw materials are saved, and shot blasting efficiency is improved; meanwhile, the shot blasting angle is adjusted through the angle adjusting mechanism 16, shot blasting requirements of different workpieces can be met, and the universality of the shot blasting machine is improved.

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, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein. In addition, the technical solutions between the various embodiments can be combined with each other, but must be based on the realization of those skilled in the art; where combinations of features are mutually inconsistent or impractical, such combinations should not be considered as being absent and not within the scope of the claimed invention.

Claims (10)

1. The utility model provides a hang through type high-efficient shot-blasting machine which characterized in that: comprises a shot blasting chamber, a hanging device, an auger device, a lifter, a cyclone dust collector and a filter cartridge dust collector, the hanging device is arranged above the shot blasting chamber, the auger device is arranged at the bottom of the shot blasting chamber, the hoister is arranged at one side of the shot blasting chamber, the bottom of the cyclone dust collector is connected with the auger device, the top of the cyclone dust collector is connected with the feed back box, the cyclone dust collector is respectively connected with the shot blasting chamber and the feed back box through dust removing pipelines, the filter drum dust remover is connected with the cyclone dust remover through a dust removal pipeline, the auger device comprises a blanking box, an auger and a waste collection drawer, the material dropping box is arranged at the bottom of the shot blasting chamber, the auger is transversely arranged in the material dropping box, and one end of the waste collection drawer is in synchronous transmission connection with the elevator, the waste collection drawer is arranged at the bottom of the blanking box, and a sieve plate is arranged between the blanking box and the waste collection drawer.

2. The hanging pass-through high efficiency shot blasting machine of claim 1, wherein: the outer wall of the shot blasting chamber is provided with a first shot blasting device and a second shot blasting device, and the material return box is connected with the first shot blasting device and the second shot blasting device through material return pipelines respectively.

3. The hanging pass-through high efficiency shot blasting machine of claim 1, wherein: the feed back box is including setting up first feed inlet and the second feed inlet in the box upper end, setting up first discharge gate and the second discharge gate at the box lower extreme, be equipped with the baffle between first feed inlet and the second feed inlet, be equipped with the unloading swash plate between first discharge gate and the second discharge gate, still be equipped with the branch material baffle in the feed back box, divide material baffle one end to be provided with and divide the material motor, the other end with baffle swing joint.

4. The hanging pass-through high efficiency shot blasting machine of claim 1, wherein: and an air inlet is formed in one side of the feed back box, an air outlet is formed in the other side of the feed back box, and the air outlet is connected with the cyclone dust collector through a dust removal pipeline.

5. The hanging pass-through high efficiency shot blasting machine of claim 2, wherein: the outer wall of the shot blasting chamber is provided with a first mounting plate, a second mounting plate and an angle adjusting mechanism respectively, one end of the first mounting plate and one end of the second mounting plate are connected with the outer wall of the shot blasting chamber in a rotating mode, and the other end of the first mounting plate and the other end of the second mounting plate are connected with the angle adjusting mechanism.

6. The hanging pass-through high efficiency shot blasting machine of claim 5, wherein: the angle adjusting mechanism comprises a driving unit and an adjusting frame, wherein the two ends of the adjusting frame are respectively provided with a first supporting roller and a second supporting roller, the end part of the first mounting plate is provided with a first slide way, the end part of the second mounting plate is provided with a second slide way, the first supporting roller is arranged in the first slide way, and the second supporting roller is arranged in the second slide way.

7. The hanging pass-through high efficiency shot blasting machine of claim 6, wherein: the first impeller head is arranged on the first mounting plate, and the second impeller head is arranged on the second mounting plate.

8. The hanging pass-through high efficiency shot blasting machine of claim 1, wherein: the hanging device comprises a support frame, a beam, a winch and a hook, the beam is supported and arranged above the shot blasting chamber by the support frame, the winch is arranged on the beam through a sliding assembly, and the hook is connected with the winch.

9. The hanging pass-through high efficiency shot blasting machine of claim 1, wherein: and a through groove is formed in the top of the shot blasting chamber.

10. The hanging pass-through high efficiency shot blasting machine of claim 1, wherein: and a maintenance platform is arranged at the top of the elevator.

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