CN113910076B - Rotary pipeline rust removal equipment for hydraulic engineering - Google Patents

Abstract

The invention discloses rotary pipeline rust removing equipment for hydraulic engineering. The invention aims to provide rotary pipeline rust removal equipment which can automatically rotate a pipeline to remove rust, automatically press a fixed pipeline, automatically spray a rust remover onto the pipeline and can ensure full use for the pipeline rust removal and hydraulic engineering. The technical embodiment of the invention relates to rotary pipeline rust removing equipment for hydraulic engineering, which comprises a base, wherein the upper part of the base is connected with a shell; the support seat is connected with one side of the lower part in the shell; the upper part of the supporting seat is rotatably connected with the rotating seat; the upper part of the rotating seat is connected with a fixed rod; the rust removing mechanism is arranged on the upper side inside the shell. The rotary pipeline rust removing equipment for hydraulic engineering has the advantages of automatically rotating the pipeline to remove rust, automatically pressing and fixing the pipeline, automatically spraying a rust remover onto the pipeline, and fully removing rust for the pipeline.

Description

Rotary pipeline rust removal equipment for hydraulic engineering

Technical Field

The invention relates to a rust removing device, in particular to a rotary pipeline rust removing device for hydraulic engineering.

Background

The hydraulic engineering is used for controlling and preparing surface water and underground water in nature, and achieves the aim of removing harm and benefiting, and when the hydraulic engineering is constructed, the pipeline is an indispensable material, however, the pipeline is rusted after being placed for a long time, and the pipeline needs to be used continuously after rust removal in order to reduce waste.

The existing pipeline rust removing technology is basically that people hold a rust removing plate by hand, and under the condition of stabilizing the pipeline, the pipeline is rubbed by the rust removing plate to remove rust on the pipeline, however, in such an operation, firstly, the pipeline is not completely fixed, rust removing is possibly affected by dumping in the rust removing process, secondly, the rust removing plate is manually moved to remove rust on the pipeline, labor and time are consumed, the efficiency is low, and meanwhile, the rust on the pipeline cannot be completely removed by simply using the rust removing plate.

Therefore, it is necessary to develop a rotary pipeline derusting apparatus for automatic rotation of a pipeline to finish derusting, automatically pressing a fixed pipeline, automatically spraying a derusting agent onto the pipeline, and ensuring adequate use for hydraulic engineering for derusting of the pipeline.

Disclosure of Invention

The invention aims at the defects of the prior art, and provides the rotary pipeline rust removing equipment which can automatically rotate the pipeline to remove rust, automatically press and fix the pipeline, automatically spray the rust remover on the pipeline and can ensure that the pipeline rust removing equipment is fully used for hydraulic engineering of pipeline rust removal.

The aim of the invention can be achieved by adopting the following technical scheme:

in a first aspect, a rotary pipeline rust cleaning equipment for hydraulic engineering, including: the upper part of the base is connected with a shell; the support seat is connected with one side of the lower part in the shell; the upper part of the supporting seat is rotatably connected with the rotating seat; the upper part of the rotating seat is connected with a fixed rod; the upper side of the inner part of the shell is provided with a rust removing mechanism; the rotating mechanism is arranged between one side of the lower part in the shell and the lower side of the rotating seat.

Further, rust cleaning mechanism includes: the sliding sleeve is symmetrically connected with the upper side and the lower side of the inside of the shell; the inner sides of the sliding sleeves are connected with the sliding rods in a sliding manner; the rust removing plates are connected between the inner sides of the slide bars at the two sides; the guide rail is connected between the outer sides of the slide bars at the two sides; compression springs are connected between the guide rail and the sliding sleeve, and the compression springs are sleeved on the sliding rod; the electric push rod is arranged on one side of the upper part in the shell; the connecting rod is connected with the connecting rod on the upper side of the electric push rod telescopic rod, and the connecting rod is matched with the guide rail in a sliding mode.

Further, the rotary mechanism comprises: the driving motor is arranged at one side of the lower part in the shell; the fixed seat is connected with one side of the lower part in the shell; the rotating shaft is rotatably connected to one side of the fixing seat, and the lower side of the rotating shaft is connected with the output shaft of the driving motor; the driving wheel is connected with the upper side of the rotating shaft and the lower side of the rotating seat; the belt is connected between the driving wheels.

Further, still including the clamping assembly, the clamping assembly is including: the upper side of the fixing rod is connected with a guide rod; the clamping plates are uniformly and slidably connected to the outer sides of the guide rods at intervals; the stretching springs are symmetrically connected between the clamping plate and the guide rod up and down; the lower part of the guide rod is connected with the sliding sleeve in a sliding manner; the connecting rod is rotationally connected between the outer side of the sliding sleeve and the clamping plate.

Further, still include the linkage subassembly, the linkage subassembly is including: the middle of the lower part in the shell is rotationally connected with a screw rod; the lower part of the screw rod is connected with the screw sleeve through threads; four connecting shafts are uniformly connected to the upper part of the threaded sleeve at intervals, penetrate through the rotating seat, and are connected with the sliding sleeve at the upper sides; the lower part of the screw is connected with a first gear; the guide rod is connected to one side of the lower part in the shell; the guide rod is connected with the bidirectional rack in a sliding manner; the middle of one side of the lower part in the shell is rotationally connected with the rotating rod; the two sides of the rotating rod are connected with the second gear, and the bidirectional rack is meshed with the first gear and the second gear at one side; the rack bar is connected with the rack bar in the shell in a sliding way, the upper side of the rack bar is connected with the connecting rod, and the rack bar is meshed with the second gear on one side.

Further, still include storage subassembly, storage subassembly sets up between base and casing middle part one side.

Further, the storage subassembly includes: the connecting seat is connected between one sides of the middle part of the base; the support frame is connected between one side of the upper part of the connecting seat and one side of the middle part of the shell; the upper part of the support frame is connected with the mounting frame; the storage box is connected with the inside of mounting bracket upper portion.

Further, still including spraying the subassembly, spray the subassembly including: the spray heads are symmetrically connected with the two sides of the middle part in the shell from top to bottom; the cylinder body is symmetrically connected with the two sides in the shell from top to bottom; the inner sides of the cylinder bodies are connected with the piston rods in a sliding manner; the reset springs are connected between the piston rod and the cylinder body, and are sleeved on the piston rod; the outer sides of the piston rods are connected with contact rods, and the contact rods are matched with the guide rails; the water outlet pipe is connected between the cylinder body and the spray heads on the same side; and water pipes are connected between the cylinder body and the storage box.

The invention has the advantages that: (1) According to the invention, the connecting rod is driven to move downwards by the electric push rod telescopic rod, the guide rail, the slide rod and the rust removing plate are pushed to move inwards, so that the rust removing plate is tightly attached to a pipeline, the driving motor is started to drive the rotating seat and the pipeline to rotate, and the effect of automatically rotating the pipeline to remove rust is achieved; (2) According to the invention, the rack bar is driven to move downwards through the connecting rod, the screw is finally driven to rotate, the threaded sleeve, the connecting shaft and the sliding sleeve are driven to move upwards, the clamping plate is driven to move outwards through the connecting rod, and the pipeline is pressed and fixed, so that the effect of automatically pressing and fixing the pipeline is achieved; (3) According to the invention, the contact rod and the piston rod are pushed to move inwards through the guide rail, the rust remover is pushed out and sprayed onto the pipeline through the spray head, the guide rail moves outwards, the contact rod and the piston rod move outwards and reset, the rust remover is sucked into the cylinder body, the effect of automatically spraying the rust remover onto the pipeline is achieved, and the rust remover is fully used for pipeline rust removal.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a third embodiment of the present invention.

Fig. 4 is a schematic view of a first perspective structure of the rust removing mechanism of the present invention.

Fig. 5 is a schematic view of a second perspective structure of the rust removing mechanism of the present invention.

Fig. 6 is a schematic perspective view of a rotary mechanism according to the present invention.

Fig. 7 is a schematic view showing a first perspective structure of the clamping assembly of the present invention.

Fig. 8 is a schematic view of a second perspective view of the clamping assembly of the present invention.

Fig. 9 is a schematic view of a third perspective view of the clamping assembly of the present invention.

Fig. 10 is a schematic view showing a first perspective structure of the linkage assembly of the present invention.

Fig. 11 is a schematic view of a second perspective structure of the linkage assembly of the present invention.

Fig. 12 is a schematic view of a third perspective structure of the linkage assembly of the present invention.

Fig. 13 is a schematic view showing a fourth perspective structure of the linkage assembly of the present invention.

Fig. 14 is a partial perspective view of a storage assembly and a spray assembly according to the present invention.

Fig. 15 is a schematic view showing a first perspective structure of the spray assembly of the present invention.

Fig. 16 is a schematic view showing a second perspective structure of the spray assembly of the present invention.

Fig. 17 is a schematic view of a third perspective view of the spray assembly of the present invention.

Meaning of reference numerals in the drawings: 1. base, 2, housing, 3, support base, 4, rotating base, 5, fixed rod, 6, rust removing mechanism, 61, sliding sleeve, 62, sliding rod, 63, rust removing plate, 64, guide rail, 65, compression spring, 66, connecting rod, 67, electric push rod, 7, rotating mechanism, 71, driving motor, 72, fixing base, 73, rotating shaft, 74, driving wheel, 75, belt, 8, clamping component, 81, guide rod, 82, clamping plate, 83, tension spring, 84, sliding sleeve, 85, connecting rod, 9, linkage component, 91, screw, 92, threaded sleeve, 93, connecting shaft, 94, first gear, 95, guide rod, 96, bidirectional rack, 97, rotating rod, 98, second gear, 99, rack bar, 10, storage component, 101, connecting base, 102, support frame, 103, mounting bracket, 104, storage bin, 11, spraying component, 111, spray head, 112, cylinder, 113, piston rod, 114, reset spring, 115, bar, 116, water outlet pipe, 117, water inlet pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 1 to 6, this embodiment discloses a rotary pipeline rust cleaning equipment for hydraulic engineering, including base 1, casing 2, supporting seat 3, rotation seat 4, dead lever 5, rust cleaning mechanism 6 and rotary mechanism 7, base 1 upper portion is connected with casing 2, and the lower part right side is connected with supporting seat 3 in the casing 2, and supporting seat 3 upper portion rotation is connected with rotation seat 4, and rotation seat 4 upper portion is connected with dead lever 5, and casing 2 inside upside is equipped with rust cleaning mechanism 6, is equipped with rotary mechanism 7 between lower part left side and the rotation seat 4 downside in the casing 2.

The rust removing mechanism 6 comprises a sliding sleeve 61, sliding rods 62, rust removing plates 63, guide rails 64, compression springs 65, connecting rods 66 and electric push rods 67, wherein the sliding sleeve 61 is symmetrically connected to the upper side and the lower side of the shell 2 in a left-right mode, the sliding rods 62 are connected to the inner sides of the sliding sleeves 61 in a sliding mode, the rust removing plates 63 are connected between the inner sides of the sliding rods 62 on the left side and the right side, the guide rails 64 are connected between the outer sides of the sliding rods 62 on the left side and the right side, the compression springs 65 are connected between the guide rails 64 and the sliding sleeves 61, the compression springs 65 are sleeved on the sliding rods 62, the electric push rods 67 are arranged on the rear side of the inner upper portion of the shell 2, the upper sides of telescopic rods of the electric push rods 67 are connected with the connecting rods 66, and the connecting rods 66 are matched with the guide rails 64 in a sliding mode.

The rotating mechanism 7 comprises a driving motor 71, a fixed seat 72, a rotating shaft 73, a driving wheel 74 and a belt 75, wherein the driving motor 71 is arranged on the left side of the lower part in the shell 2, the fixed seat 72 is connected on the left side of the lower part in the shell 2, the rotating shaft 73 is rotatably connected on the right side of the fixed seat 72, the lower side of the rotating shaft 73 is connected with the output shaft of the driving motor 71, the driving wheel 74 is connected on the upper side of the rotating shaft 73 and the lower side of the rotating seat 4, and the belt 75 is connected between the driving wheels 74.

When a user needs to remove rust from a pipeline, the pipeline is firstly placed on the rotating seat 4 from top to bottom, the electric push rod 67 is started, the electric push rod 67 telescopic rod moves downwards, the connecting rod 66 is driven to move downwards, the push rail 64 moves inwards, the slide rod 62 and the rust removing plate 63 are driven to move inwards, the compression spring 65 is compressed, the rust removing plate 63 clamps the pipeline tightly, the driving motor 71 is started, the rotating shaft 73 is driven to rotate, the driving wheel 74 and the belt 75 are driven to rotate, the rotating seat 4 and the pipeline are driven to rotate, under the action of the rust removing plate 63, rust on the outer wall of the pipeline is removed, after the pipeline is removed, the driving motor 71 is closed, the rotating seat 4 and the pipeline stop rotating, the electric push rod 67 is started again, the electric push rod 67 telescopic rod moves upwards, the connecting rod 66 is driven to move upwards, the push rail 64 moves outwards, the slide rod 62 and the rust removing plate 63 are driven to move outwards, the compression spring 65 stretches back, the pipeline is far away, the electric push rod 67 is closed, the rust removing plate 63 stops moving, the pipeline is removed, and the pipeline is reciprocated, and the effect of automatically rotating the pipeline is achieved.

Example 2

As shown in fig. 1 to 3 and fig. 7 to 17, in some embodiments, the clamping assembly 8 further comprises a clamping assembly 8, the clamping assembly 8 comprises a guide rod 81, a clamping plate 82, a tension spring 83, a sliding sleeve 84 and a connecting rod 85, the upper side of the fixing rod 5 is connected with the guide rod 81, the outer side of the guide rod 81 is uniformly and slidably connected with the clamping plate 82 at intervals, the clamping plate 82 and the guide rod 81 are vertically and symmetrically connected with the tension spring 83, the lower part of the guide rod 81 is slidably connected with the sliding sleeve 84, and the outer side of the sliding sleeve 84 and the clamping plate 82 are rotatably connected with the connecting rod 85.

The linkage assembly 9 further comprises a screw 91, a threaded sleeve 92, a connecting shaft 93, a first gear 94, a guide rod 95, a bidirectional rack 96, a rotating rod 97, a second gear 98 and a rack rod 99, wherein the middle of the lower part in the shell 2 is rotationally connected with the screw 91, the lower part of the screw 91 is in threaded connection with the threaded sleeve 92, the upper part of the threaded sleeve 92 is uniformly connected with four connecting shafts 93 at intervals, the connecting shaft 93 passes through the rotating seat 4, the upper sides of the connecting shafts 93 are all connected with the sliding sleeve 84, the lower part of the screw 91 is connected with the first gear 94, the left rear side of the lower part in the shell 2 is connected with the guide rod 95, the upper side of the guide rod 95 is slidingly connected with the bidirectional rack 96, the middle of the rear side in the shell 2 is rotationally connected with the rotating rod 97, the front side and the rear side of the rotating rod 97 are both connected with the second gear 98, the bidirectional rack 96 is mutually meshed with the first gear 94 and the front side second gear 98, the left side of the rear part in the shell 2 is slidingly connected with the rack rod 99, the upper side of the rack rod 99 is connected with the connecting rod 66, and the second gear 98 is mutually meshed with the rear side second gear 98.

When the connecting rod 66 moves downwards, the rack rod 99 is driven to move downwards, the second gear 98 and the rotating rod 97 are driven to rotate, the bidirectional rack 96 is driven to move rightwards, the first gear 94 and the screw 91 are driven to rotate, the threaded sleeve 92 is driven to move upwards, the connecting shaft 93 and the sliding sleeve 84 are driven to move upwards, the clamping plate 82 is driven to move outwards through the connecting rod 85, the tension spring 83 is stretched, the clamping plate 82 is pressed and fixed on a pipeline, after the pipeline rust removal is finished, the connecting rod 66 moves upwards, the rack rod 99 is driven to move upwards, the second gear 98 and the rotating rod 97 are driven to rotate reversely, the bidirectional rack 96 is driven to move leftwards, the first gear 94 and the screw 91 are driven to rotate reversely, the threaded sleeve 92 is driven to move downwards, the connecting shaft 93 and the sliding sleeve 84 are driven to move downwards, the clamping plate 82 moves inwards and away from the pipeline through the connecting rod 85, the tension spring 83 is retracted, and the pipeline can be taken down after the clamping plate 82 is loosened, so that the pipeline is reciprocated, and the effect of automatically pressing and fixing the pipeline is achieved.

Still including storage subassembly 10, storage subassembly 10 is connected with connecting seat 101 including connecting seat 101, support frame 102, mounting bracket 103 and storage box 104 between the base 1 middle part rear side, is connected with support frame 102 between connecting seat 101 upper portion rear side and the casing 2 middle part rear side, and support frame 102 upper portion is connected with mounting bracket 103, and mounting bracket 103 upper portion inboard is connected with storage box 104.

The spray assembly 11 comprises a spray head 111, a cylinder 112, a piston rod 113, a return spring 114, a contact rod 115, a water outlet pipe 116 and a water inlet pipe 117, wherein the spray head 111 is symmetrically connected to the left side and the right side of the middle part in the shell 2, the cylinder 112 is symmetrically connected to the left side and the right side in the shell 2, the piston rod 113 is slidably connected to the inner side of the cylinder 112, the return spring 114 is connected between the piston rod 113 and the cylinder 112, the return spring 114 is sleeved on the piston rod 113, the contact rod 115 is connected to the outer side of the piston rod 113, the contact rod 115 is matched with the guide rail 64, the water outlet pipe 116 is connected between the cylinder 112 and the spray head 111 on the same side, and the water inlet pipe 117 is connected between the cylinder 112 and the storage box 104.

When a large amount of rust remover is injected into the storage box 104, the guide rail 64 moves inwards, the contact rod 115 is pushed to move inwards, the piston rod 113 is driven to move inwards, the reset spring 114 is compressed, then the guide rail 64 moves outwards and away from the contact rod 115, under the action of the reset spring 114, the piston rod 113 and the contact rod 115 are pushed to move outwards, the rust remover in the storage box 104 is sucked into the cylinder through the water inlet pipe 117, after the next guide rail 64 pushes the contact rod 115 and the piston rod 113 to move inwards, the rust remover is pushed out and flows into the spray head 111 through the water outlet pipe 116, the spray head 111 sprays on the outer wall of a pipeline to help the rust removing plate 63 to remove rust of the pipeline better, so that the effect of automatically spraying the rust remover onto the pipeline is achieved, and the rust remover is fully removed for the pipeline.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (3)

1. Rotary pipeline rust cleaning equipment that hydraulic engineering used, characterized by: comprises the following steps: the base (1), the upper portion of the base (1) is connected with the shell (2); a supporting seat (3), wherein one side of the lower part in the shell (2) is connected with the supporting seat (3); the rotating seat (4) is rotatably connected with the upper part of the supporting seat (3); a fixed rod (5), the upper part of the rotating seat (4) is connected with the fixed rod (5); the rust removing mechanism (6) is arranged on the upper side inside the shell (2); a rotating mechanism (7), wherein the rotating mechanism (7) is arranged between one side of the lower part in the shell (2) and the lower side of the rotating seat (4); the rust removing mechanism (6) comprises: the sliding sleeve (61) is symmetrically connected with the sliding sleeve (61) at the upper side and the lower side of the inside of the shell (2); the inner sides of the sliding sleeves (61) are connected with the sliding rods (62) in a sliding manner; the rust removing plates (63) are connected between the inner sides of the slide bars (62) at the two sides; the guide rail (64) is connected between the outer sides of the slide bars (62) at the two sides; the compression springs (65), the compression springs (65) are connected between the guide rail (64) and the sliding sleeve (61), and the compression springs (65) are sleeved on the sliding rod (62); an electric push rod (67), wherein one side of the upper part in the shell (2) is provided with the electric push rod (67); the connecting rod (66), the upper side of the telescopic rod of the electric push rod (67) is connected with the connecting rod (66), and the connecting rod (66) is in sliding fit with the guide rail (64); the rotating mechanism (7) comprises: a driving motor (71), wherein one side of the lower part in the shell (2) is provided with the driving motor (71); a fixed seat (72), wherein one side of the lower part in the shell (2) is connected with the fixed seat (72); a rotating shaft (73), wherein one side of the fixed seat (72) is rotatably connected with the rotating shaft (73), and the lower side of the rotating shaft (73) is connected with the output shaft of the driving motor (71); the driving wheel (74) is connected with the upper side of the rotating shaft (73) and the lower side of the rotating seat (4); a belt (75), wherein the belt (75) is connected between the driving wheels (74); still including clamping component (8), clamping component (8) are including: the upper side of the fixing rod (5) is connected with a guide rod (81); the clamping plates (82) are uniformly and slidably connected with the outer sides of the guide rods (81) at intervals; the stretching springs (83), the stretching springs (83) are symmetrically connected between the clamping plate (82) and the guide rod (81) up and down; a sliding sleeve (84), wherein the lower part of the guide rod (81) is connected with the sliding sleeve (84) in a sliding manner; the connecting rod (85) is rotationally connected between the outer side of the sliding sleeve (84) and the clamping plate (82); the device also comprises a linkage assembly (9), wherein the linkage assembly (9) comprises: the screw (91) is rotatably connected with the middle of the lower part in the shell (2); the lower part of the screw rod (91) is connected with the screw sleeve (92) through threads; the connecting shafts (93), four connecting shafts (93) are uniformly connected to the upper part of the threaded sleeve (92) at intervals, the connecting shafts (93) penetrate through the rotating seat (4), and the upper sides of the connecting shafts (93) are connected with the sliding sleeve (84); the lower part of the screw rod (91) is connected with a first gear (94); a guide rod (95), wherein one side of the lower part in the shell (2) is connected with the guide rod (95); the guide rod (95) is connected with the bidirectional rack (96) in a sliding manner; a rotating rod (97), wherein the middle of one side of the lower part in the shell (2) is rotatably connected with the rotating rod (97); the two sides of the rotating rod (97) are connected with the second gear (98), and the bidirectional rack (96) is meshed with the first gear (94) and the second gear (98) at one side; a rack bar (99), wherein one side in the shell (2) is connected with the rack bar (99) in a sliding way, the upper side of the rack bar (99) is connected with the connecting rod (66), and the rack bar (99) is meshed with a second gear (98) at one side; the utility model also comprises a spraying component (11), and the spraying component (11) comprises: the spray heads (111) are symmetrically connected with the spray heads (111) from top to bottom at two sides of the inner middle part of the shell (2); the cylinder body (112) is symmetrically connected with the cylinder body (112) from top to bottom at two sides in the shell (2); the piston rods (113) are connected with the inner sides of the cylinder bodies (112) in a sliding mode; the return springs (114), the return springs (114) are connected between the piston rods (113) and the cylinder body (112), and the return springs (114) are sleeved on the piston rods (113); the outer sides of the piston rods (113) are connected with the contact rods (115), and the contact rods (115) are matched with the guide rails (64); a water outlet pipe (116) is connected between the cylinder body (112) and the spray head (111) at the same side; a water pipe (117) is connected between the cylinder body (112) and the storage box (104), and a water inlet pipe (117) is connected between the cylinder body and the storage box.

2. A rotary pipeline rust removing apparatus for hydraulic engineering according to claim 1, characterized in that: the novel plastic box further comprises a storage component (10), wherein the storage component (10) is arranged between the base (1) and one side of the middle of the shell (2).

3. A rotary pipeline rust removing apparatus for hydraulic engineering according to claim 2, characterized in that: the storage component (10) comprises: the connecting seat (101) is connected between one sides of the middle part of the base (1), and the connecting seat (101) is connected between the two sides of the middle part of the base (1); the support frame (102) is connected between one side of the upper part of the connecting seat (101) and one side of the middle part of the shell (2); the mounting frame (103) is connected with the upper part of the supporting frame (102); the storage box (104) is connected with the storage box (104) on the inner side of the upper part of the installation frame (103).