CN114734378B - Through type shot blasting machine - Google Patents

Abstract

The application relates to a through type shot blasting machine, which comprises a machine seat which is horizontally placed, wherein a conveying device for conveying workpieces is arranged on the machine seat, the through type shot blasting machine also comprises a processing box which is covered on the machine seat, a shot blasting machine which is arranged on the side wall of the processing box, a recovery hopper which is arranged at the bottom of the machine seat, and a blanking barrel which is arranged at the top of the processing box. The application has the function of improving the application range of the shot blasting machine.

Description

Through type shot blasting machine

Technical Field

The application belongs to the field of metal processing, and particularly relates to a through type shot blasting machine.

Background

In the current heavy industry, many large-scale metal workpieces are required to be processed through multiple working procedures, so that the large-scale metal workpieces can be put into use later, and shot blasting treatment is carried out on the metal surfaces, and the method belongs to one of the large-scale metal workpieces.

Among the prior art, through shot-blasting machine generally includes the frame that the level was placed, be provided with the conveyor who is used for carrying the work piece on the frame, still including the processing case that covers the frame, set up in the peening ware of processing case lateral wall, set up in the recovery funnel of frame bottom and set up in the unloading bucket at processing case top, recovery funnel department is provided with the delivery pump who is used for carrying the pellet material that drops to recovery funnel department to unloading bucket, be provided with the conveyer pipe that is used for carrying the pellet material between peening ware and the unloading bucket, the pellet material gets into the peening ware from unloading bucket, after the work piece gets into the processing case through the conveying roller, start the peening ware and spouts the pellet material to the work piece, polish the work piece surface.

Aiming at the related technology, the inventor considers that the running speed of the existing shot blasting machine is single, and the shot blasting time is the same, so that the processing effect is single, the shot blasting machine cannot be suitable for workpieces with different processing requirements, and the application range is small.

Disclosure of Invention

In order to improve the application range of the shot blasting machine, the application provides a through type shot blasting machine.

The application provides a through type shot blasting machine which adopts the following technical scheme:

The utility model provides a through shot-blasting machine, includes the frame that the level was placed, is provided with the conveyor who is used for carrying the work piece on the frame, still including the processing case that the cover was located the frame, set up in the shot-blasting machine of processing case lateral wall, set up in the recovery funnel of frame bottom and set up in the unloading bucket at processing case top, conveyor includes carriage, commentaries on classics roller and chain, the carriage is followed frame length direction sets up, commentaries on classics roller has a plurality of commentaries on classics roller is followed frame length direction rotate set up in the carriage, commentaries on classics roller one end is provided with connecting gear, the chain is followed the carriage set up in changeing the roller, the chain with connecting gear engagement, the carriage is provided with the speed adjusting device that is used for controlling connecting gear rotational speed.

By adopting the technical scheme, the speed regulating device enables the running speed of the shot blasting machine to be regulated according to actual requirements, so that the shot blasting machine is applicable to workpieces with different processing requirements, and the application range of the shot blasting machine is further improved.

Optionally, speed adjusting device includes connecting rod, initiative bevel gear, connection box, main pivot, driven bevel gear, first speed adjusting gear, driving motor and second speed adjusting gear, connecting rod one end connect in connection gear, the fixed cover of initiative bevel gear is located the connecting rod is kept away from carriage one end, the connection box set firmly in the carriage, the connecting rod is provided with initiative bevel gear one end stretches into in the connection box, main pivot is followed the vertical rotation of connection box direction of height set up in the connection box, driven bevel gear fixed cover is located main pivot, driven bevel gear with initiative bevel gear intermeshing, first speed adjusting gear has a plurality of and equal fixed cover to be located main pivot, first speed adjusting gear diameter is followed main pivot direction of height is by high to low the shrink in proper order, driving motor set up in the frame, driving motor's pivot vertically runs through and stretches into in the connection box, second speed adjusting gear has a plurality of and all fixed cover to be located driving motor's pivot speed adjusting diameter, second speed adjusting gear along the height is followed first speed adjusting gear and is followed first speed adjusting gear height is increased by first speed adjusting gear height is followed one and is increased by first speed adjusting gear height.

Through adopting above-mentioned technical scheme, drive carriage goes up and down, the carriage passes through the connecting rod and drives the connecting box and go up and down, the connecting box drives main pivot and goes up and down, main pivot drives first speed governing gear and goes up and down and second speed governing gear meshing or break away from, according to the processing requirement of work piece, when needing rough machining, make the diameter less in the first speed governing gear with the great meshing of diameter in the second speed governing gear, thereby accelerate the transportation speed of carriage, when needing fine machining, make the diameter great in the first speed governing gear with the less meshing of diameter in the second speed governing gear, thereby reduce the transportation speed of carriage, multistage lift speed governing, convenient and fast.

Optionally, a plurality of lifting springs are arranged between the conveying frame and the machine base, and the workpiece is placed on the conveying frame.

Through adopting above-mentioned technical scheme, when the work piece was placed in the carriage, because self gravity, the drive carriage descends, according to the weight of work piece, makes the carriage descend certain height to make suitable first speed governing gear and corresponding second speed governing gear engagement, after the work piece processing is accomplished, lift spring drive carriage resets, need not the manpower and lifts the carriage, and is laborsaving convenient, and when the work piece was placed in the carriage simultaneously, spring force offset part gravity, buffering has reduced the probability that the work piece gravity is too big thereby leads to the carriage damage.

Optionally, the volume regulation pole that slides along the direction of height in the unloading bucket, a plurality of feed inlets have been seted up to unloading bucket inside wall, and is a plurality of the feed inlets are followed unloading bucket direction of height distributes, volume regulation pole lateral wall is provided with a plurality of dog that are used for sheltering from the feed inlet.

Through adopting above-mentioned technical scheme, when conveyor's conveying rate changes, the pill material volume in the unloading bucket changes correspondingly, when the work piece needs to throw roughly, conveying rate is faster, drive capacity adjustment pole slippage makes the dog shelter from wherein several feed port this moment, thereby the pill material volume in the unloading bucket reduces, and then throw roughly the work piece, when the work piece needs to throw finely, conveying rate is slower, open corresponding feed port quantity as required this moment, thereby the pill material volume in the unloading bucket increases, throw finely the work piece, different conveying rates correspond different pill material volumes, the processing effect of work piece has been improved.

Optionally, the frame has seted up along length direction and has adjusted the slide rail, it is provided with trapezoidal piece to adjust sliding in the slide rail, the carriage orientation frame one end is vertical to be provided with first slide bar, first slide bar butt in one of them slope of trapezoidal piece, the capacity regulation pole orientation frame one end is connected with the second slide bar, the second slide bar is kept away from capacity regulation pole one end runs through the unloading bucket and butt in another slope of trapezoidal piece.

Through adopting above-mentioned technical scheme, when the carriage descends, drive first slide bar and descend, one of them slope that first slide bar passed through trapezoidal piece promotes trapezoidal piece and slides, trapezoidal piece promotes the second slide bar through another slope and rises, the second slide bar drives the capacity and adjusts the pole and rise, when the carriage rises, first slide bar rises, trapezoidal piece does not receive the effort of first slide bar this moment, the capacity is adjusted the pole and is fallen owing to gravity drive second slide bar, need not the lift of manual control capacity regulation pole, it is high-efficient convenient.

Optionally, T type spacing groove has all been seted up to two slope faces of trapezoidal piece, T type spacing groove is followed trapezoidal piece slope face's length direction is seted up, first slide bar orientation trapezoidal piece one end is provided with first T type slider, second slide bar orientation trapezoidal piece one end is provided with the second T type slider, first T type slider with the second T type slider all slide set up in the T type spacing groove.

Through adopting above-mentioned technical scheme, first slide bar slides in T type spacing inslot through first T type slider and second slide bar slides in T type spacing inslot through second T type slider, and is more stable.

Optionally, a guide rod is vertically arranged between the conveying frame and the machine base, and one end of the guide rod slides through the conveying frame.

Through adopting above-mentioned technical scheme, the carriage goes up and down through the guide bar, has reduced the probability that the carriage inclines when going up and down.

Optionally, the anticreep groove has been seted up to regulation slide rail inside wall, the anticreep groove is followed adjust slide rail length direction is seted up, trapezoidal piece is provided with the anticreep pole, the anticreep pole slide set up in the anticreep groove.

Through adopting above-mentioned technical scheme, trapezoidal piece slides through the anticreep groove, has reduced the probability that the trapezoidal piece breaks away from the regulation slide rail in the process of sliding.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the processing requirements of different workpieces, the processing speed is adjusted, and the application range is enlarged.

2. And the blanking amount is adjusted according to the processing speed, and the processing effect is improved by matching with the transportation speed.

Drawings

FIG. 1 is a partial cross-sectional view of the overall structure of an embodiment of the present application.

Fig. 2 is a partial cross-sectional view of the entire structure of the present embodiment at other angles.

Reference numerals illustrate: 1. a base; 2. a conveying device; 201. a carriage; 202. a rotating roller; 203. a chain; 3. a processing box; 4. an opening; 5. a flexible curtain; 6. a shot blasting machine; 7. discharging barrels; 8. a connecting gear; 9. a speed regulating device; 901. a connecting rod; 902. a drive bevel gear; 903. a connection box; 904. a main rotating shaft; 905. a driven bevel gear; 906. a first speed regulating gear; 907. a driving motor; 908. a second speed regulating gear; 10. a lifting spring; 11. a guide rod; 12. a capacity adjusting lever; 13. a feed hole; 14. a stop block; 15. a recovery funnel; 16. a recovery pump; 17. a feeding pipeline; 18. a delivery conduit; 19. adjusting the sliding rail; 20. a first slide bar; 21. a second slide bar; 22. a trapezoid block; 23. a first T-shaped slider; 24. a second T-shaped slider; 25. a T-shaped limit groove; 26. an anti-drop groove; 27. an anti-drop rod; 28. and (3) mounting a plate.

Detailed Description

The application is described in further detail below with reference to fig. 1-2.

The embodiment of the application discloses a through type shot blasting machine.

The utility model provides a through-type shot blasting machine, refer to fig. 1 and 2, including the frame 1 that the level was placed, be provided with the conveyor 2 who is used for carrying the work piece on the frame 1, still including the processing case 3 that covers and locate the frame 1, set firmly in the peening ware 6 of processing case 3 lateral wall and set firmly in the unloading bucket 7 at processing case 3 top, the opening 4 has been seted up respectively at processing case 3 length direction both ends, the opening 4 department has all set firmly flexible baffle 5, be connected with pipeline 18 between unloading bucket 7 and peening ware 6, conveyor 2 is including setting firmly in the carriage 201 of frame 1, rotate the roller 202 that sets up in carriage 201 and set up the chain 203 between roller 202, carriage 201 sets firmly recovery funnel 15 towards frame 1 one end, roller 202 has a plurality of, a plurality of rollers 202 rotate along frame 1 length direction and set up in carriage 201, roller 202 one end fixed cover is equipped with connecting gear 8, chain 203 and connecting gear 8 mesh, carriage 201 is provided with the speed adjusting device 9 that is used for controlling connecting gear 8 rotational speed, speed adjusting device 9 makes the running rate of shot blasting machine according to the demand of the shot blasting machine, thereby the work piece of the different requirements of being applicable to the shot blasting machine, and the requirement of the shot blasting machine is different, and the requirement of the blasting machine is suitable for the requirement of the working scope.

Referring to fig. 1 and 2, the speed regulating device 9 includes a connecting rod 901 provided at a connecting gear 8, a drive bevel gear 902 provided at the connecting rod 901, a connecting box 903 provided at a carriage 201, a main shaft 904 provided in the connecting box 903, a driven bevel gear 905 provided at the main shaft 904, a first speed regulating gear 906 provided at the main shaft 904, a driving motor 907 provided at a machine base 1, and a second speed regulating gear 908 provided at the motor shaft, one end of the connecting rod 901 is fixedly connected to the connecting gear 8, the drive bevel gear 902 is fixedly sleeved at one end of the connecting rod 901 remote from the carriage 201, the connecting box 903 is fixedly provided at the carriage 201, one end of the connecting rod 901 provided with the drive bevel gear 902 extends into the connecting box 903, the main shaft 904 is vertically rotatably provided in the connecting box 903 in the height direction of the connecting box 903, the driven bevel gear 905 is fixedly sleeved at the main shaft 904, the driven bevel gear 905 is mutually meshed with the drive bevel gear 902, the diameters of the two first speed regulating gears 906 are sequentially reduced from high to low along the height direction of the main rotating shaft 904, the side wall of the machine base 1 is fixedly provided with the mounting plate 28, the driving motor 907 is fixedly arranged on the mounting plate 28, the rotating shaft of the driving motor 907 vertically penetrates through and stretches into the connecting box 903, the diameters of the two second speed regulating gears 908 are fixedly sleeved on the rotating shaft of the driving motor 907, the diameters of the two second speed regulating gears 908 are sequentially increased from high to low along the height direction of the main rotating shaft 904, the conveying frame 201 is lifted along the height direction of the machine base 1 to enable the first speed regulating gears 906 to be meshed with or separated from the second speed regulating gears 908, only one first speed regulating gear 906 is meshed with one second speed regulating gear 908 at a time and the small diameter gears are meshed with the large diameter gears, the conveying frame 201 is driven to lift, the conveying frame 201 drives the connecting box 903 to lift through the connecting rod 901, the connecting box 903 drives the main shaft 904 to lift, the main shaft 904 drives the first speed regulating gear 906 to lift and engage with or disengage from the second speed regulating gear 908, according to the processing requirement of the workpiece, when coarse processing is required, the smaller diameter of the first speed regulating gear 906 engages with the larger diameter of the second speed regulating gear 908, so that the transportation speed of the conveying frame 201 is accelerated, when fine processing is required, the larger diameter of the first speed regulating gear 906 engages with the smaller diameter of the second speed regulating gear 908, so that the transportation speed of the conveying frame 201 is reduced, and the multi-stage lifting speed regulation is realized, so that convenience and rapidness are realized.

Referring to fig. 1 and 2, a plurality of lifting springs 10 are arranged between a conveying frame 201 and a machine base 1, workpieces are placed on the conveying frame 201, when the workpieces are placed on the conveying frame 201, the elasticity of the springs counteracts the gravity of part of the workpieces, the rest gravity drives the conveying frame 201 to descend, the weight of the workpieces needing to be roughly machined is lighter, the distance for driving the conveying frame 201 to descend is equal to the vertical distance from a small diameter gear in a first speed regulating gear 906 to a large diameter gear in a second speed regulating gear 908, the weight of the workpieces needing to be finely machined is larger, the distance for driving the conveying frame 201 to descend is equal to the vertical distance from the large diameter gear in the first speed regulating gear 906 to the small diameter gear in the second speed regulating gear 908, when the workpieces are placed on the conveying frame 201, the situation that the first speed regulating gear 906 is not meshed with the second speed regulating gear 908 is avoided, a guide rod 11 is vertically arranged between the conveying frame 201 and the machine base 1, one end of the guide rod 11 slides to penetrate the conveying frame 201, the conveying frame 201 is lifted by the guide rod 11, the inclination probability of the conveying frame 201 during lifting is reduced, when a workpiece is placed on the conveying frame 201, due to self gravity, when the workpiece is a workpiece needing rough machining, the conveying frame 201 is driven to descend so that a small diameter gear in the first speed regulating gear 906 is meshed with a large diameter gear in the second speed regulating gear 908, then the driving motor 907 is started, when the workpiece is a workpiece needing fine machining, the conveying frame 201 descends so that the large diameter gear in the first speed regulating gear 906 is meshed with a small diameter gear in the second speed regulating gear 908, after the workpiece is machined, the lifting spring 10 drives the conveying frame 201 to reset, the conveying frame 201 does not need to be lifted manually, labor is saved and convenient, meanwhile, when the workpiece is placed on the conveying frame 201, the spring force counteracts part of gravity to buffer, the probability of the work piece being too heavy and thus causing the carriage 201 to break is reduced.

Referring to fig. 1 and 2, the capacity adjusting rod 12 is slidably arranged in the blanking barrel 7 along the height direction, two feeding holes 13 are formed in the inner side wall of the blanking barrel 7, the two feeding holes 13 are distributed along the height direction of the blanking barrel 7, a feeding pipeline 17 is connected between the two feeding holes 13 and the recovery hopper 15, a recovery pump 16 for feeding the pills in the recovery hopper 15 into the blanking barrel 7 is arranged at the position of the recovery hopper 15, a stop block 14 for shielding the feeding holes 13 is arranged on the side wall of the capacity adjusting rod 12, the size of the stop block 14 is larger than that of the feeding holes 13, when the conveying rate of the conveying device 2 changes, the quantity of the pills in the blanking barrel 7 correspondingly changes, when the workpieces are required to be roughly thrown, the conveying rate is faster, the capacity adjusting rod 12 is driven to slide the stop block 14 to shield the feeding holes 13 far away from the bottom of the blanking barrel 7, so that the quantity of the pills in the blanking barrel 7 is reduced, and then the workpieces are roughly thrown, when the workpieces are required to be finely thrown, the conveying rate is slower, the capacity adjusting rod 12 is driven to open the blocked feeding holes 13, when the quantity of the pills in the blanking barrel 7 is required to be shielded, the conveying rate is increased, when the quantity of the workpieces is correspondingly different, and the conveying rates of the workpieces are correspondingly processed.

Referring to fig. 1 and 2, an adjusting slide rail 19 is provided on a machine base 1 along a length direction, a trapezoid block 22 is slidably provided on the adjusting slide rail 19, a first slide bar 20 is vertically provided on one end of a carriage 201 facing the machine base 1, the first slide bar 20 is abutted to one of the slope surfaces of the trapezoid block 22, a capacity adjusting rod 12 is connected with a second slide bar 21 towards one end of the machine base 1, one end of the second slide bar 21, far away from the capacity adjusting rod 12, penetrates through a blanking barrel 7 and is abutted to the other slope surface of the trapezoid block 22, two slope surfaces of the trapezoid block 22 respectively face the first slide bar 20 and the second slide bar 21, when a workpiece to be machined is placed on the carriage 201, the carriage 201 descends, the first slide bar 20 is driven to descend, the first slide bar 20 is pushed by one of the slope surfaces of the trapezoid block 22, the second slide bar 21 is pushed by the other slope surface, the second slide bar 21 is driven by the second slide bar 21 to ascend, at the moment, the stopper 14 is driven by the second slide bar 21 to descend, the size is larger than the size of the feeding hole 13, the blocked feeding hole 13 is not opened, when the workpiece to be machined is placed on the carriage 201, the carriage 201 is driven by the second slide bar 12, the first slide bar is not required to descend, and the first slide bar 20 is driven by the second slide bar is not opened, and the second slide bar 12 is driven by the second slide bar is not required to ascend, when the size is driven by the second slide bar 13, when the workpiece to be machined, is not required to be small.

Referring to fig. 1 and 2, two slope surfaces of the trapezoid block 22 are provided with T-shaped limiting grooves 25, the T-shaped limiting grooves 25 are formed in the length direction of the slope surface of the trapezoid block 22, a first T-shaped sliding block 23 is arranged at one end of the first sliding rod 20, which faces the trapezoid block 22, a second T-shaped sliding block 24 is arranged at one end of the second sliding rod 21, which faces the trapezoid block 22, the first T-shaped sliding block 23 and the second T-shaped sliding block 24 are both arranged in the T-shaped limiting grooves 25 in a sliding mode, the first sliding rod 20 slides in the T-shaped limiting grooves 25 through the first T-shaped sliding block 23, and the second sliding rod 21 slides in the T-shaped limiting grooves 25 through the second T-shaped sliding block 24, so that the sliding type is more stable.

Referring to fig. 1 and 2, the anti-drop groove 26 is formed in the inner side wall of the adjusting slide rail 19, the anti-drop groove 26 is formed in the length direction of the adjusting slide rail 19, the trapezoid block 22 is provided with an anti-drop rod 27, the anti-drop rod 27 is arranged in the anti-drop groove 26 in a sliding mode, and the trapezoid block 22 slides through the anti-drop groove 26, so that the probability that the trapezoid block 22 is separated from the adjusting slide rail 19 in the sliding process is reduced.

The implementation principle of the embodiment is as follows: in a state that no workpiece is placed on the conveying frame 201, the two first speed regulating gears 906 and the two second speed regulating gears 908 are not meshed, the two first speed regulating gears 906 are above the two second speed regulating gears 908, a feeding hole 13 far away from the bottom of the blanking barrel 7 is blocked by a stop block 14, the blanking barrel 7 is in a full-load state of the shot, the workpiece to be processed is placed on the conveying frame 201, the conveying frame 201 descends to the corresponding height according to the weight of the workpiece, the corresponding first speed regulating gears 906 are meshed with the corresponding second speed regulating gears 908, a driving motor 907 is started, the rotating roller 202 rotates to convey the workpiece, meanwhile, a recovery pump 16 is started, the shot in the blanking barrel 7 enters the shot blasting machine 6 through a conveying pipeline 18, the shot is sprayed to the surface of the workpiece by the shot blasting machine 6, then the shot falls to the recovery funnel 15, and the shot in the recovery hopper 15 is conveyed to the blanking barrel 7 through the feeding pipeline 17 by the recovery pump 16 for recycling.

The above is a preferred embodiment of the present application, and is not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. The utility model provides a through shot-blasting machine, includes frame (1) that the level was placed, is provided with conveyor (2) that are used for carrying the work piece on frame (1), still including cover processing case (3) of locating frame (1), set up in peening ware (6) of processing case (3) lateral wall, set up in recovery funnel (15) of frame (1) bottom and set up in unloading bucket (7) at processing case (3) top, its characterized in that: the conveying device (2) comprises a conveying frame (201), rotating rollers (202) and a chain (203), the conveying frame (201) is arranged along the length direction of the machine base (1), the rotating rollers (202) are arranged in a plurality, the rotating rollers (202) are arranged along the length direction of the machine base (1) in a rotating mode, one end of each rotating roller (202) is provided with a connecting gear (8), the chain (203) is arranged on the rotating rollers (202) along the conveying frame (201), the chain (203) is meshed with the connecting gears (8), the conveying frame (201) is provided with a speed regulating device (9) for controlling the rotating speed of the connecting gears (8), the speed regulating device (9) comprises a connecting rod (901), a driving bevel gear (902), a connecting box (903), a main rotating shaft (904), a driven bevel gear (905), a first speed regulating gear (906), a driving motor (907) and a second speed regulating gear (908), one end of the connecting rod (901) is connected with the connecting gears (8), the driving bevel gear (901) is fixedly sleeved on one end of the connecting rod (901) and is far away from the connecting box (201), connecting rod (901) is provided with initiative bevel gear (902) one end stretches into in connecting box (903), main pivot (904) follow connecting box (903) direction of height vertical rotation set up in connecting box (903), driven bevel gear (905) fixed cover is located main pivot (904), driven bevel gear (905) with initiative bevel gear (902) intermeshing, first speed adjusting gear (906) have a plurality of and equal fixed cover locate main pivot (904), first speed adjusting gear (906) diameter is followed main pivot (904) direction of height is from high to low in proper order dwindle, driving motor (907) set up in frame (1), the pivot of driving motor (907) vertically runs through and stretches into in connecting box (903), second speed adjusting gear (908) have a plurality of and equal fixed cover locate the pivot of driving motor (907), second speed adjusting gear (908) diameter is followed main pivot (904) direction of height is from high to low in proper order, first speed adjusting gear (908) and second speed adjusting gear (908) are just meshed with first speed adjusting gear (908) one speed adjusting gear (908) height is followed.

2. A pass-through shot blasting machine according to claim 1, wherein: a plurality of lifting springs (10) are arranged between the conveying frame (201) and the machine base (1), and workpieces are placed on the conveying frame (201).

3. A pass-through shot blasting machine according to claim 2, wherein: the blanking barrel (7) is internally provided with a capacity adjusting rod (12) in a sliding manner along the height direction, the inner side wall of the blanking barrel (7) is provided with a plurality of feeding holes (13), the feeding holes (13) are distributed along the height direction of the blanking barrel (7), and the side wall of the capacity adjusting rod (12) is provided with a plurality of check blocks (14) for shielding the feeding holes (13).

4. A through-type shot blasting machine according to claim 3, wherein: the machine base (1) is provided with an adjusting sliding rail (19) along the length direction, a trapezoid block (22) is arranged in the adjusting sliding rail (19) in a sliding manner, a conveying frame (201) faces one end of the machine base (1) and is vertically provided with a first sliding rod (20), the first sliding rod (20) is abutted to one of the trapezoid blocks (22) in a slope manner, a second sliding rod (21) is connected to one end of the machine base (1) in a direction towards the capacity adjusting rod (12), and one end of the second sliding rod (21) is far away from one end of the capacity adjusting rod (12) and penetrates through the discharging barrel (7) and is abutted to the other slope surface of the trapezoid block (22).

5. A pass-through shot blasting machine according to claim 4, wherein: t type spacing groove (25) have all been seted up to two slope surfaces of trapezoidal piece (22), T type spacing groove (25) are followed the length direction of trapezoidal piece (22) slope surface is seted up, first slide bar (20) orientation trapezoidal piece (22) one end is provided with first T type slider (23), second slide bar (21) orientation trapezoidal piece (22) one end is provided with second T type slider (24), first T type slider (23) with second T type slider (24) all slide set up in T type spacing groove (25).

6. A pass-through shot blasting machine according to claim 5, wherein: guide rods (11) are vertically arranged between the conveying frames (201) and the machine base (1), and one ends of the guide rods (11) slide and penetrate through the conveying frames (201).

7. A pass-through shot blasting machine according to claim 6, wherein: the anti-drop groove (26) is formed in the inner side wall of the adjusting sliding rail (19), the anti-drop groove (26) is formed in the length direction of the adjusting sliding rail (19), the trapezoid block (22) is provided with an anti-drop rod (27), and the anti-drop rod (27) is slidably arranged in the anti-drop groove (26).