CN112393026A

CN112393026A - Gas pipeline slidable support frame

Info

Publication number: CN112393026A
Application number: CN202011195297.3A
Authority: CN
Inventors: 王鹏飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-30
Filing date: 2020-10-30
Publication date: 2021-02-23

Abstract

The invention discloses a slidable support frame for a gas pipeline, which comprises a sliding device, a transmission device, a guide device, an adjusting device, a base and a connecting beam. The sliding device is arranged at the bottom and comprises a transverse sliding device driven by a transverse screw rod and a longitudinal sliding device driven by a longitudinal screw rod, so that the transverse and longitudinal positions of the flue gas pipeline are integrally adjusted. Through the transmission device taking gear transmission as the main part, the structure is compact, the stability is good, and the guide device and the adjusting device are driven to longitudinally displace along the direction of the guide rail through the mutual meshing of the output gear and the rack. The large roller and the small roller which are respectively arranged on the guide device are matched with the adjusting device to perform local displacement, and the gas pipeline is transversely moved and conveyed through different rollers. The final position of the gas pipeline is locally adjusted through the adjusting device, and finally the locking pin is driven to be locked through the locking oil cylinder.

Description

Gas pipeline slidable support frame

Technical Field

The invention relates to the field of industrial machinery, in particular to a slidable support frame for a gas pipeline.

Background

In the installation of a common gas pipeline, the pipeline is directly and fixedly installed, so that the pipeline is difficult to maintain, and the moving flexibility of the pipeline is poor. To solve this problem, application No.: CN106002760B discloses a dustproof pipeline supporting device, and this invention has solved the part support problem of pipeline class to a certain extent, but it is unable to adjust, and the flexibility is relatively poor.

Disclosure of Invention

The invention provides a slidable support frame for a gas pipeline, which aims at the technical problem and comprises a sliding device, a transmission device, a guide device, an adjusting device, a base and a connecting beam, wherein the sliding device is fixedly arranged on the ground, the transmission device is fixedly arranged on the base, the guide device is fixedly arranged on the transmission device, the adjusting device is fixedly arranged on the guide device, and the base is fixedly arranged on the sliding device.

The sliding device comprises: the horizontal motor, the horizontal motor cabinet, horizontal lead screw, vertical slider, horizontal slider, the longitudinal tie plate, vertical motor cabinet, vertical lead screw, vertical connecting seat, horizontal motor fixed mounting is on horizontal motor cabinet, horizontal motor cabinet fixed mounting subaerial, horizontal lead screw fixed mounting is at the output of horizontal motor, vertical slider rotates and installs on vertical lead screw, horizontal slider rotates and installs on horizontal lead screw, vertical connecting plate fixed mounting is on horizontal slider, vertical motor fixed mounting is on vertical motor cabinet, vertical motor cabinet fixed mounting is on vertical lead screw, vertical lead screw fixed mounting is at the output of vertical motor, vertical connecting seat fixed mounting is on vertical slider.

The transmission device includes: a transmission motor base, a transmission motor connecting seat, a transmission motor, a shaft coupling, a large straight gear, a box body, an input shaft, a large bearing cover, a middle bearing cover, a flange, a small straight gear, a middle shaft sleeve, a middle shaft, a middle bearing, a small bevel gear, a large bevel gear, a small bearing, an output shaft, a round nut, a large shaft, a small bearing cover, an output shaft seat, an output gear, a guide rail, a rack and a longitudinal beam, wherein the transmission motor base is fixedly arranged on the base, the transmission motor connecting seat is fixedly arranged on the transmission motor base, the transmission motor is fixedly arranged on the transmission motor connecting seat, the shaft coupling is fixedly arranged at the output end of the transmission motor, the large straight gear is fixedly arranged on the input shaft, the box body is fixedly arranged on the base, the input shaft is rotatably arranged on the large shaft, the large bearing cover is fixedly arranged on the box body, small spur gear fixed mounting is on the jackshaft, the middle shaft sleeve rotates and installs on the jackshaft, the jackshaft rotates and installs on middle bearing, middle bearing rotates and installs on the box, small bevel gear fixed mounting is in the end of jackshaft, big bevel gear fixed mounting is at the end of output shaft, small bearing rotates and installs on the box, the output shaft rotates and installs on little bearing, round nut rotates and installs on the input shaft, big shaft rotates and installs on the box, little bearing cap fixed mounting is on the box, output shaft seat fixed mounting is on the base, output gear fixed mounting is on the output shaft, guide rail fixed mounting is on the longeron, rack fixed mounting is on the longeron, longeron fixed mounting is on the tie-beam.

The guide device includes: the direction boundary beam, the direction end roof beam, the direction longeron, big running roller seat, the running roller, running roller seat fixed plate, little running roller seat, little running roller, the adjustment fixed plate, direction boundary beam fixed mounting is between two direction end roof beams, direction end roof beam fixed mounting is on the box, direction longeron fixed mounting is on direction end roof beam, big running roller seat fixed mounting is on direction longeron, the running roller rotates to be installed on big running roller seat, running roller seat fixed plate fixed mounting is on direction longeron, little running roller seat fixed mounting is on running roller seat fixed plate, little running roller rotates to be installed on little running roller seat, adjustment fixed plate fixed mounting is on direction end roof beam.

The adjusting device comprises: an adjusting bottom plate, an adjusting vertical plate, a sliding plate, an annular plate, a clamping seat, a vertical pressing head, a transverse pressing head, a pressing slider, an adjusting guide rail, a top plate, a sleeve, a locking pin, a connecting arm, a joint seat, a piston, an oil cylinder seat, a locking base, an oil cylinder and a swing arm, wherein the adjusting bottom plate is fixedly arranged on the adjusting fixing plate, the adjusting vertical plate is fixedly arranged on the adjusting bottom plate, the sliding plate is slidably arranged on the adjusting guide rail, the annular plate is fixedly arranged on the sliding plate, the clamping seat is fixedly arranged on the annular plate, the vertical pressing head is fixedly arranged on the clamping seat, the transverse pressing head is fixedly arranged on the pressing slider, the pressing slider is fixedly arranged on the clamping seat, the adjusting guide rail is fixedly arranged on the adjusting vertical plate, the top plate is fixedly arranged at the top ends of, the joint seat is fixedly arranged on the piston, the piston is rotatably arranged on the oil cylinder, the oil cylinder seat is fixedly arranged on the locking base, the locking base is fixedly arranged on the adjusting vertical plate, the oil cylinder is fixedly arranged on the oil cylinder seat, and the swing arm is rotatably arranged on the locking base.

Furthermore, the transverse screw rod and the transverse sliding block form rotating fit through the shaft hole.

Furthermore, the longitudinal sliding block and the longitudinal screw rod form a rotating fit through the shaft hole.

Furthermore, the input shaft and the large shaft form a rotating fit through the shaft hole.

Furthermore, the large spur gear and the small spur gear are meshed with each other to form rotating fit.

Furthermore, the intermediate shaft and the intermediate bearing form a rotating fit through the shaft hole.

Furthermore, the small bevel gear and the large bevel gear are meshed with each other to form a rotating fit.

Furthermore, the output gear and the rack are meshed with each other to form rotating fit.

Furthermore, the sliding plate and the adjusting guide rail form sliding fit through a sliding rail.

Compared with the prior art, the invention has the beneficial effects that:

(1) the whole support frame can be displaced in the transverse direction and the longitudinal direction by adopting the bottom sliding device, so that the integral displacement is realized;

(2) the guide device and the adjusting device are locally moved longitudinally through the transmission device taking the gear rack as the transmission basis, and the adjustment is flexible;

(3) the invention has the advantages of high flexibility, good adjustability, obvious effect, high automation degree, compact structure and convenient disassembly and assembly.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of the sliding apparatus of the present invention.

Fig. 3 is a schematic view of the transmission of the present invention.

FIG. 4 is a schematic view of a guide device according to the present invention.

FIG. 5 is a schematic view of an adjusting device according to the present invention.

1-a slipping device; 2-a transmission device; 3-a guiding device; 4-adjusting the device; 5-a base; 6-connecting the beams; 101-a transverse motor; 102-a transverse motor mount; 103-transverse screw rod; 104-longitudinal slide block; 105-a lateral slider; 106-longitudinal connecting plate; 107-longitudinal motor; 108-longitudinal motor base; 109-longitudinal screw rod; 110-longitudinal connecting base; 201-transmission motor base; 202-drive motor connection base; 203-a transmission motor; 204-coupling; 205-large spur gear; 206-a box body; 207-input shaft; 208-large bearing cap; 209-middle bearing cap; 210-a flange; 211-small spur gear; 212-intermediate shaft sleeve; 213-intermediate shaft; 214-intermediate bearing; 215-bevel pinion gear; 216-large bevel gear; 217-small bearing; 218-an output shaft; 219-round nut; 220-large shaft; 221-small bearing cap; 222-output shaft seat; 223-output gear; 224-a guide rail; 225-rack; 226-longitudinal beams; 301-guide edge beam; 302-guiding the end beam; 303-guiding longitudinal beams; 304-large roller seat; 305-a roller; 306-roller seat fixing plate; 307-small roller seat; 308-small roller; 309-adjusting the fixing plate; 401-adjusting the bottom plate; 402-adjusting a vertical plate; 403-a slide plate; 404-annular plate; 405-a card holder; 406-a vertical hold down head; 407-transverse compression head; 408-a hold-down slider; 409-adjusting the guide rail; 410-a top plate; 411-sleeve; 412-locking pins; 413-a linker arm; 414-joint seat; 415-a plunger; 416-cylinder block; 417-locking base; 418-oil cylinder; 419-swing arm.

Detailed Description

The present invention will be further described with reference to specific embodiments, illustrative examples and illustrations of the invention herein are provided to explain the present invention and are not intended to limit the invention.

Example (b): a gas pipeline slidable support frame as shown in fig. 1, 2, 3, 4 and 5.

The specific structure of the slidable support frame for the gas pipeline is shown in figure 1, wherein a sliding device 1 is fixedly installed on the ground, a transmission device 2 is fixedly installed on a base 5, a guide device 3 is fixedly installed on the transmission device 2, an adjusting device 4 is fixedly installed on the guide device 3, and the base 5 is fixedly installed on the sliding device 1. Adopt bottom displacement device 1 to make whole carriage can both carry out the displacement in horizontal and vertical, realized wholeness displacement to rack and pinion is transmission 2 on the basis of transmission for guider 3 and adjusting device 4 take place local longitudinal movement, adjust in a flexible way.

The concrete structure of the sliding device 1 is shown in fig. 2, wherein the transverse motor 101 is fixedly installed on the transverse motor base 102, the transverse motor base 102 is fixedly installed on the ground, the transverse screw rod 103 is fixedly installed at the output end of the transverse motor 101, the longitudinal slide block 104 is rotatably installed on the longitudinal screw rod 109, the transverse slide block 105 is rotatably installed on the transverse screw rod 103, the longitudinal connecting plate 106 is fixedly installed on the transverse slide block 105, the longitudinal motor 107 is fixedly installed on the longitudinal motor base 108, the longitudinal motor base 108 is fixedly installed on the longitudinal screw rod 109, the longitudinal screw rod 109 is fixedly installed at the output end of the longitudinal motor 107, and the longitudinal connecting base 110 is fixedly installed on the longitudinal slide block. The device comprises transverse sliding driven by a transverse screw rod 103 and longitudinal sliding driven by a longitudinal screw rod 109, and is used for integrally adjusting the transverse and longitudinal positions of the flue gas pipeline.

The specific structure of the transmission device 2 is shown in fig. 3, wherein a transmission motor base 201 is fixedly installed on a base 5, a transmission motor connecting base 202 is fixedly installed on the transmission motor base 201, a transmission motor 203 is fixedly installed on the transmission motor connecting base 202, a coupling 204 is fixedly installed at the output end of the transmission motor 203, a large spur gear 205 is fixedly installed on an input shaft 207, a box body 206 is fixedly installed on the base 5, the input shaft 207 is rotatably installed on a large shaft 220, a large bearing cover 208 is fixedly installed on the box body 206, a middle bearing cover 209 is fixedly installed on the box body 206, a flange 210 is fixedly installed on the box body 206, a small spur gear 211 is fixedly installed on a middle shaft 213, a middle shaft sleeve 212 is rotatably installed on the middle shaft 213, the middle shaft 213 is rotatably installed on a middle bearing 214, the middle bearing 214 is rotatably installed on the box body 206, and the small, big bevel gear 216 fixed mounting is in the end of output shaft 218, little bearing 217 rotates and installs on box 206, output shaft 218 rotates and installs on little bearing 217, round nut 219 rotates and installs on input shaft 207, big axle 220 rotates and installs on box 206, little bearing cap 221 fixed mounting is on box 206, output shaft seat 222 fixed mounting is on base 5, output gear 223 fixed mounting is on output shaft 218, guide rail 224 fixed mounting is on longeron 226, rack 225 fixed mounting is on longeron 226, longeron 226 fixed mounting is on tie-beam 6. The transmission device 2 mainly using gear transmission has compact structure and good stability, and the guide device 3 and the adjusting device 4 are driven to longitudinally displace along the direction of the guide rail 224 by the mutual meshing of the output gear 223 and the rack 225.

The specific structure of the guiding device 3 is shown in fig. 4, wherein the guiding edge beam 301 is fixedly installed between two guiding end beams 302, the guiding end beams 302 are fixedly installed on the box 206, the guiding longitudinal beam 303 is fixedly installed on the guiding end beams 302, the large roller seat 304 is fixedly installed on the guiding longitudinal beam 303, the large roller 305 is rotatably installed on the large roller seat 304, the roller seat fixing plate 306 is fixedly installed on the guiding longitudinal beam 303, the small roller seat 307 is fixedly installed on the roller seat fixing plate 306, the small roller 308 is rotatably installed on the small roller seat 307, and the adjusting fixing plate 309 is fixedly installed on the guiding end beams 302. The large roller 305 and the small roller 308 which are respectively arranged on the guide device 3 are matched with the adjusting device to perform local displacement, and the gas pipeline is transversely moved and conveyed through different rollers.

The specific structure of the adjusting device 4 is shown in fig. 5, wherein an adjusting bottom plate 401 is fixedly mounted on an adjusting fixing plate 309, an adjusting vertical plate 402 is fixedly mounted on the adjusting bottom plate 401, a sliding plate 403 is slidably mounted on an adjusting guide rail 409, an annular plate 404 is fixedly mounted on the sliding plate 403, a clamping seat 405 is fixedly mounted on the annular plate 404, a vertical pressing head 406 is fixedly mounted on the clamping seat 405, a transverse pressing head 407 is fixedly mounted on a pressing slider 408, the pressing slider 408 is fixedly mounted on the clamping seat 405, the adjusting guide rail 409 is fixedly mounted on the adjusting vertical plate 402, a top plate 410 is fixedly mounted at the top end of the two adjusting vertical plates 402, a sleeve 411 is fixedly mounted on the top plate 410, a locking pin 412 is rotatably mounted on the sleeve 411, a connecting arm 413 is rotatably mounted on the locking pin 412, an articulated seat 414 is fixedly mounted on a piston 415, the piston 415 is rotatably, the locking base 417 is fixedly installed on the adjusting vertical plate 402, the oil cylinder 418 is fixedly installed on the oil cylinder base 416, and the swing arm 419 is rotatably installed on the locking base 417. The final position of the gas line is locally adjusted by the adjusting device 4 and is finally locked by the locking cylinder 418 driving the locking pin 412.

When the invention is used, the sliding device 1 is arranged at the bottom and comprises transverse sliding driven by the transverse screw rod 103 and longitudinal sliding driven by the longitudinal screw rod 109, so that the transverse and longitudinal positions of the flue gas pipeline are integrally adjusted. The transmission device 2 mainly using gear transmission has compact structure and good stability, and the guide device 3 and the adjusting device 4 are driven to longitudinally displace along the direction of the guide rail 224 by the mutual meshing of the output gear 223 and the rack 225. The large roller 305 and the small roller 308 which are respectively arranged on the guide device 3 are matched with the adjusting device 4 to perform local displacement, and the gas pipeline is transversely moved and conveyed through different rollers. The final position of the gas line is locally adjusted by the adjusting device 4 and is finally locked by the locking cylinder 418 driving the locking pin 412.

Claims

1. The utility model provides a gas pipeline slidable support frame, includes displacement device (1), transmission (2), guider (3), adjusting device (4), base (5), tie-beam (6), its characterized in that:

the displacement device (1) comprises: a transverse motor base (102) and a longitudinal connecting base (110);

the transmission (2) comprises: a transmission motor base (201) and a longitudinal beam (226);

the guiding device (3) comprises: a guide side beam (301) and an adjusting fixing plate (309);

the adjustment device (4) comprises: an adjustment floor (401);

a transverse motor base (102) of the sliding device (1) is fixedly installed on the ground, a transmission motor base (201) is fixedly installed on a base (5), a guide edge beam (301) is fixedly installed on a longitudinal beam (226), an adjusting bottom plate (401) is fixedly installed on an adjusting fixing plate (309), and the base (5) is fixedly installed on a longitudinal connecting base (110).

2. The gas pipeline slidable support frame of claim 1, wherein: the displacement device (1) further comprises: a transverse motor (101), a transverse screw rod (103), a longitudinal slide block (104), a transverse slide block (105), a longitudinal connecting plate (106), a longitudinal motor (107), a longitudinal motor base (108) and a longitudinal screw rod (109), horizontal motor (101) fixed mounting is on horizontal motor cabinet (102), horizontal lead screw (103) fixed mounting is at the output of horizontal motor (101), vertical slider (104) rotate to be installed on vertical lead screw (109), horizontal slider (105) rotate to be installed on horizontal lead screw (103), vertical connecting plate (106) fixed mounting is on horizontal slider (105), vertical motor (107) fixed mounting is on vertical motor cabinet (108), vertical motor cabinet (108) fixed mounting is on vertical lead screw (109), vertical lead screw (109) fixed mounting is at the output of vertical motor (107), vertical connecting seat (110) fixed mounting is on vertical slider (104).

3. The gas pipeline slidable support frame of claim 1, wherein: the transmission (2) further comprises: the transmission motor connecting seat (202), the transmission motor (203), a coupling (204), a large straight gear (205), a box body (206), an input shaft (207), a large bearing cover (208), a middle bearing cover (209), a flange (210), a small straight gear (211), a middle shaft sleeve (212), a middle shaft (213), a middle bearing (214), a small bevel gear (215), a large bevel gear (216), a small bearing (217), an output shaft (218), a round nut (219), a large shaft (220), a small bearing cover (221), an output shaft seat (222), an output gear (223), a guide rail (224) and a rack (225), wherein the transmission motor connecting seat (202) is fixedly arranged on the transmission motor seat (201), the transmission motor (203) is fixedly arranged on the transmission motor connecting seat (202), the coupling (204) is fixedly arranged at the output end of the transmission motor (203), the large straight gear (205) is fixedly arranged on the input shaft (207), the box body (206) is fixedly arranged on the base (5), the input shaft (207) is rotatably arranged on the large shaft (220), the large bearing cover (208) is fixedly arranged on the box body (206), the middle bearing cover (209) is fixedly arranged on the box body (206), the flange (210) is fixedly arranged on the box body (206), the small spur gear (211) is fixedly arranged on the middle shaft (213), the middle shaft sleeve (212) is rotatably arranged on the middle shaft (213), the middle shaft (213) is rotatably arranged on the middle bearing (214), the middle bearing (214) is rotatably arranged on the box body (206), the small bevel gear (215) is fixedly arranged at the end of the middle shaft (213), the large bevel gear (216) is fixedly arranged at the end of the output shaft (218), the small bearing (217) is rotatably arranged on the box body (206), the output shaft (218) is rotatably arranged on the small bearing (217), and the round nut (219) is rotatably arranged on the input shaft (207), the large shaft (220) is rotatably installed on the box body (206), the small bearing cover (221) is fixedly installed on the box body (206), the output shaft seat (222) is fixedly installed on the base (5), the output gear (223) is fixedly installed on the output shaft (218), the guide rail (224) is fixedly installed on the longitudinal beam (226), the rack (225) is fixedly installed on the longitudinal beam (226), and the longitudinal beam (226) is fixedly installed on the connecting beam (6).

4. The gas pipeline slidable support frame of claim 1, wherein: the guiding device (3) further comprises: guide end beam (302), guide longitudinal beam (303), big roller seat (304), running roller (305), running roller seat fixed plate (306), little roller seat (307), little running roller (308), guide boundary beam (301) fixed mounting is between two guide end beam (302), guide longitudinal beam (303) fixed mounting is on guide end beam (302), big roller seat (304) fixed mounting is on guide longitudinal beam (303), running roller (305) rotate to be installed on big roller seat (304), running roller seat fixed plate (306) fixed mounting is on guide longitudinal beam (303), little roller seat (307) fixed mounting is on running roller seat fixed plate (306), little running roller (308) rotate to be installed on little roller seat (307), adjustment fixed plate (309) fixed mounting is on guide end beam (302).

5. The gas pipeline slidable support frame of claim 1, wherein: the adjustment device (4) further comprises: an adjusting vertical plate (402), a sliding plate (403), an annular plate (404), a clamping seat (405), a vertical pressing head (406), a transverse pressing head (407), a pressing slider (408), an adjusting guide rail (409), a top plate (410), a sleeve (411), a locking pin (412), a connecting arm (413), a joint seat (414), a piston (415), an oil cylinder seat (416), a locking base (417), an oil cylinder (418) and a swing arm (419), wherein the adjusting vertical plate (402) is fixedly arranged on an adjusting bottom plate (401), the sliding plate (403) is slidably arranged on the adjusting guide rail (409), the annular plate (404) is fixedly arranged on the sliding plate (403), the clamping seat (405) is fixedly arranged on the annular plate (404), the vertical pressing head (406) is fixedly arranged on the clamping seat (405), the transverse pressing head (407) is fixedly arranged on the pressing slider (408), the pressing slider (408) is fixedly arranged on the clamping seat (405), an adjusting guide rail (409) is fixedly installed on an adjusting vertical plate (402), a top plate (410) is fixedly installed at the top ends of the two adjusting vertical plates (402), a sleeve (411) is fixedly installed on the top plate (410), a locking pin (412) is rotatably installed on the sleeve (411), a connecting arm (413) is rotatably installed on the locking pin (412), a joint seat (414) is fixedly installed on a piston (415), the piston (415) is rotatably installed on an oil cylinder (418), an oil cylinder seat (416) is fixedly installed on a locking base (417), the locking base (417) is fixedly installed on the adjusting vertical plate (402), the oil cylinder (418) is fixedly installed on the oil cylinder seat (416), and a swing arm (419) is rotatably installed on the locking base (417).

6. The gas pipeline slidable support frame of claim 1, wherein: the transverse screw rod (103) and the transverse sliding block (105) form rotating fit through shaft holes.

7. The gas pipeline slidable support frame of claim 1, wherein: the longitudinal sliding block (104) and the longitudinal screw rod (109) form rotating fit through a shaft hole.

8. The gas pipeline slidable support frame of claim 1, wherein: the input shaft (207) and the large shaft (220) form rotating fit through shaft holes.

9. The gas pipeline slidable support frame of claim 1, wherein: the large straight gear (205) and the small straight gear (211) are meshed with each other to form rotating fit.

10. The gas pipeline slidable support frame of claim 1, wherein: the middle shaft (213) and the middle bearing (214) form rotating fit through shaft holes, the small bevel gear (215) and the large bevel gear (216) form rotating fit through mutual meshing, the output gear (223) and the rack (225) form rotating fit through mutual meshing, and the sliding plate (403) and the adjusting guide rail (409) form sliding fit through a sliding rail.