CN215110988U - Pipeline network support of underground pipeline - Google Patents

Abstract

The utility model discloses a pipe network bracket of an underground pipeline, which comprises a support rod, a bolt, a sliding plate, a telescopic unit and a connecting rod; a connecting rod is arranged above the front end face of the sliding plate, one end of the supporting rod is fixed on the lower surface of the front end of the connecting rod through a bolt, and the other end of the supporting rod is fixed on the front surface of the lower end of the sliding plate through a bolt; the flexible unit includes drive assembly, location bearing, threaded shaft, rectangular, square groove two and baffle, square groove two has been seted up to the front end inside of connecting rod, drive assembly sets up the latter half at square groove two, and the baffle setting is at the middle part of square groove two, the threaded shaft passes through location bearing and baffle rotation to be connected, and the one end of threaded shaft is connected with drive assembly, and flexible unit makes the threaded shaft rotate under drive assembly's effect, makes rectangular the stretching out through threaded shaft and the threaded connection who sets up between rectangular inside screw hole, realizes that a support places the effect of multi-line.

Description

Pipeline network support of underground pipeline

Technical Field

The utility model relates to a pipe network support technical field specifically is a pipeline network support of pipeline.

Background

Underground pipelines are important components of urban infrastructure and are material foundations for living and development of cities, the underground pipelines are complex in structure, under certain conditions, various pipelines need to be buried underground in the same region, in the process of deep burying, the levels among pipelines need to be reasonably arranged, the vertical distance among the pipelines needs to be paid attention, in order to prevent the pipelines from being connected with the pipelines to cause danger, generally, a certain distance is kept between the pipelines, gravity pipes or thicker pipelines such as sewage pipes or drain pipes, the vertical distance among the pipelines is even up to several meters, the difficulty in digging ditches is increased, however, the underground pipelines are influenced by geological conditions, even if the distance is enough, the pipelines still have the possibility of collision, and in some underground environments, the pipelines cannot meet the requirement of reasonable vertical clear distance;

the pipe network bracket of the underground pipeline with the application number of 201921747461.X in the prior art comprises a supporting plate, a connecting piece and a middle shaft, wherein the supporting plate is arc-shaped, the connecting piece is fixedly arranged in the middle of a convex surface of the supporting plate and is groove-shaped, a bearing is arranged in the groove, the middle shaft comprises an inner shaft and an outer shaft sleeved outside the inner shaft, the inner shaft and the outer shaft are in sliding connection, and the inner shaft and the outer shaft are respectively and fixedly connected with the inner peripheries of the bearings arranged in the two connecting pieces; the outer shaft is cylindrical, a ring groove is formed in the inner wall of one end, close to the supporting plate, of the outer shaft, an annular clamping plate is arranged on the inner shaft, the clamping plate is clamped in the ring groove, and a spring is arranged between the clamping plate and the supporting plate;

although the distance relation among pipelines is solved effectively to the pipe network support of underground pipeline among the prior art, need install more support when the pipeline is too much, increase cost and consuming time and power, for this reason, we propose a pipe network support of underground pipeline.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a pipeline network support of pipeline, flexible unit makes the screw shaft rotate under drive assembly's effect, makes rectangular stretching out through screw shaft and the threaded connection who sets up between rectangular inside screw hole, realizes that the effect of multi-line is placed to a support, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a pipe network support of an underground pipeline comprises a support rod, a bolt, a sliding plate, a telescopic unit and a connecting rod;

a slide plate: a connecting rod is arranged above the front end face, one end of the supporting rod is fixed on the lower surface of the front end of the connecting rod through a bolt, and the other end of the supporting rod is fixed on the front surface of the lower end of the sliding plate through a bolt;

a telescopic unit: include drive assembly, location bearing, threaded shaft, rectangular, square groove two and baffle, square groove two has been seted up to the front end inside of connecting rod, drive assembly sets up at the latter half of square groove two, and the baffle setting is at the middle part of square groove two, the threaded shaft passes through location bearing and is connected with the baffle rotation, and the one end of threaded shaft is connected with drive assembly, the other end of threaded shaft with set up at rectangular inside screw hole threaded connection, rectangular setting is at the first half of square groove two.

The slide plays gliding effect from top to bottom, and bracing piece and connecting rod play the effect of support, and location bearing plays the effect of restriction screw shaft position, through threaded connection between screw hole in screw shaft and the rectangular, makes rectangular along the direction slip of square groove two, realizes flexible effect.

Further, the transmission assembly comprises a second motor, a second fixed block, a shaft, a mounting seat, a driving bevel gear and a driven bevel gear, the driving bevel gear is rotatably connected with the side wall of the connecting rod through the shaft, the second motor is arranged on the right end face of the connecting rod through the second fixed block, one end of the shaft is rotatably connected with the mounting seat, the other end of the shaft is connected with an output shaft of the second motor, the input end of the second motor is electrically connected with an external power supply through an external control switch group, the driven bevel gear is fixed at the end part of the threaded shaft, and the driven bevel gear is meshed with the driving bevel gear.

An output shaft of a second motor connected with the second fixing block is connected with one end of the shaft, the second motor drives the shaft to rotate under the action of the second motor, so that a driving bevel gear fixed on the shaft is driven to rotate, the driven bevel gear is driven to rotate under the driving bevel gear through the meshing action between the driving bevel gear and the driven bevel gear, and the driven bevel gear rotates to drive the threaded shaft to rotate.

Furthermore, the pipeline fixing device further comprises a fixing plate, round holes and a sliding groove, wherein the fixing plate is fixed on a wall through the round holes formed in the four corners of the fixing plate through screws, the sliding groove is formed in the upper direction and the lower direction of the front end face of the fixing plate, a sliding plate is connected inside the sliding groove in a sliding mode, the fixing plate plays a role in fixing the pipeline support, and the sliding groove is used for enabling the sliding plate to slide in the groove.

Further, still include the transmission unit, the transmission unit includes box, square groove one, gear, transmission shaft, motor one, fixed block one and rack, the box sets up at the preceding terminal surface of slide, and square groove one has been seted up to the inside of box, the gear passes through transmission shaft one end and is connected with the right-hand member lateral wall rotation of box, and the transmission shaft other end rotates with the left end lateral wall of box to be connected, motor one sets up the right-hand member face at the box through fixed block one, the one end of transmission shaft and the output shaft of motor one, and the input of motor one is connected with external power source electricity through external control switch group, the rear end of spout direction is provided with the rack from top to bottom on the surface, the gear passes logical groove on the slide and is connected with rack toothing.

The transmission shaft is driven to rotate by the motor I, so that the gear is driven to rotate, and the sliding plate is connected with the rack through the meshing of the through groove in the sliding plate through the gear, so that the sliding plate can realize the vertical transmission effect.

Further, still include the non return unit, the non return unit includes little disc, loose axle, cylinder, spring, driving block and cylinder groove, circular through-hole has been seted up to the upper end of box, install the cylinder in the circular through-hole, the cylinder groove has been seted up to cylinder inside, loose axle and cylindrical upper and lower terminal surface swing joint run through in cylindrical upper and lower terminal surface, fixedly connected with driving block on the loose axle is located the lower terminal surface position department of cylinder inslot, be connected with the spring between the up end of driving block and the up end of cylinder inslot, the up end fixedly connected with little disc of loose axle.

The transmission block is fixed on the movable shaft, a spring is connected between the upper end face of the transmission block and the upper end face in the cylindrical groove, the transmission block is pressed on the inner lower end face of the cylindrical groove under the action of the spring, the lower end of the movable shaft is clamped with the gear, the gear is prevented from rotating, the small circular disc fixed on the upper end face of the movable shaft is pulled, the lower end of the movable shaft is separated from the gear, and the gear is rotated under the driving of the motor I.

Further, still include spacing unit, spacing unit includes spacing arc piece, installation axle, fixed block, disc and disc groove, the fixed block sets up at the up end of connecting rod, and the disc groove has been seted up to the fixed block inside, and disc inslot rotation is connected with the disc, and the disc rotates through the up end of installation axle with the fixed block to be connected, the spacing arc piece of up end fixedly connected with of installation axle, spacing arc piece are used for placing the effect of pipeline, and the disc rotates through the up end of installation axle with the fixed block to be connected, realizes the rotation of spacing arc piece equidirectional not.

Compared with the prior art, the beneficial effects of the utility model are that: this pipeline network support of pipeline has following benefit:

1. the pipe network support of the underground pipeline is provided with the transmission unit, and the transmission unit is meshed and connected with the rack arranged on the rear end surface in the chute through the gear, so that the sliding plate is driven to move up and down when the gear rotates, and the effect of adjusting the pipe network support up and down is realized;

2. the pipe network support of the underground pipeline is provided with the units, the telescopic units enable the threaded shafts to rotate under the action of the transmission assembly, and the long strips extend out through threaded connection between the threaded shafts and threaded holes formed in the long strips, so that the effect of placing multiple pipelines on one support is realized;

3. this pipeline network support of pipeline passes through the work of flexible unit, realizes the effect that a support placed the multi-pipeline, and through the work of transmission unit, the effect of adjusting from top to bottom of realization pipeline network support to realized depositing more pipelines simultaneously on a pipeline network support, and can adjust the position of network support according to the distance of vertical direction, made keep relative safe distance between the pipeline.

Drawings

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

FIG. 2 is a schematic view of a partial enlarged structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the transmission unit of the present invention;

FIG. 4 is an enlarged schematic view of the check unit of the present invention;

fig. 5 is an enlarged schematic view of the telescopic unit of the present invention.

In the figure: 1 fixed plate, 2 round holes, 3 supporting rods, 4 bolts, 5 transmission units, 51 boxes, 52 square groove I, 53 gears, 54 transmission shafts, 55 motor I, 56 fixed block I, 57 racks, 6 sliding plates, 7 telescopic units, 71 motor II, 72 fixed block II, 73 shafts, 74 mounting seats, 75 driving bevel gears, 76 driven bevel gears, 77 positioning bearings, 78 threaded shafts, 79 long strips, 710 square groove II, 711 partition plates, 8 limiting units, 81 limiting arc blocks, 82 mounting shafts, 83 fixed blocks, 84 disks, 85 disk grooves, 9 non-return units, 91 small disks, 92 movable shafts, 93 cylinders, 94 springs, 95 transmission blocks, 96 cylindrical grooves, 10 connecting rods and 11 sliding grooves.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present embodiment provides a technical solution: a pipe network support of an underground pipeline comprises a support rod 3, a bolt 4, a sliding plate 6, a telescopic unit 7 and a connecting rod 10;

a sliding plate 6: a connecting rod 10 is arranged above the front end face, one end of a supporting rod 3 is fixed on the lower surface of the front end of the connecting rod 10 through a bolt 4, and the other end of the supporting rod 3 is fixed on the front surface of the lower end of a sliding plate 6 through a bolt 4;

the expansion unit 7: the connecting rod comprises a transmission assembly, a positioning bearing 77, a threaded shaft 78, a strip 79, a square groove two 710 and a partition plate 711, the square groove two 710 is formed in the front end of the connecting rod 10, the transmission assembly is arranged on the rear half portion of the square groove two 710, the partition plate 711 is arranged in the middle of the square groove two 710, the threaded shaft 78 is rotatably connected with the partition plate 711 through the positioning bearing 77, one end of the threaded shaft 78 is connected with the transmission assembly, the other end of the threaded shaft 78 is in threaded connection with a threaded hole formed in the strip 79, and the strip 79 is arranged on the front half portion of the square groove two 710.

The sliding plate 6 plays a role in sliding up and down, the supporting rod 3 and the connecting rod 10 play a role in supporting, the positioning bearing 77 plays a role in limiting the position of the threaded shaft 78, and the strip 79 slides along the direction of the second square groove 710 through threaded connection between the threaded shaft 78 and a threaded hole in the strip 79, so that the telescopic effect is realized.

The transmission assembly comprises a second motor 71, a second fixed block 72, a shaft 73, a mounting seat 74, a driving bevel gear 75 and a driven bevel gear 76, the driving bevel gear 75 is rotatably connected with the side wall of the connecting rod 10 through the shaft 73, the second motor 71 is arranged on the right end face of the connecting rod 10 through the second fixed block 72, one end of the shaft 73 is rotatably connected with the mounting seat 74, the other end of the shaft 73 is connected with an output shaft of the second motor 71, the input end of the second motor 71 is electrically connected with an external power supply through an external control switch set, the driven bevel gear 76 is fixed at the end of a threaded shaft 78, and the driven bevel gear 76 is meshed with the driving bevel gear 75.

An output shaft of a second motor 71 connected with the second fixing block 72 is connected with one end of the shaft 73, the shaft 73 is driven to rotate under the action of the second motor 71, so that a driving bevel gear 75 fixed on the shaft 73 is driven to rotate, the driven bevel gear 76 is driven to rotate by the driving bevel gear 75 through the meshing action between the driving bevel gear 75 and the driven bevel gear 76, and the threaded shaft 78 is driven to rotate through the rotation of the driven bevel gear 76.

Still include fixed plate 1, round hole 2 and spout 11, fixed plate 1 is fixed on the wall through seting up the round hole 2 in fixed plate 1 four corners by the screw, and spout 11 has been seted up to the direction about the preceding terminal surface of fixed plate 1, and 11 inside sliding connection in spout have slide 6, and fixed plate 1 plays the effect of fixed pipeline support, and spout 11 is used for making slide 6 slide in the inslot.

Still include drive unit 5, drive unit 5 includes box 51, square groove 52, gear 53, transmission shaft 54, a motor 55, a fixed block 56 and rack 57, box 51 sets up the preceding terminal surface at slide 6, square groove 52 has been seted up to box 51's inside, gear 53 passes through transmission shaft 54 one end and is connected with box 51's right-hand member lateral wall rotation, the transmission shaft 54 other end rotates with box 51's left end lateral wall to be connected, motor 55 sets up the right-hand member face at box 51 through fixed block 56, the one end of transmission shaft 54 and the output shaft of motor 55, the input of motor 55 is connected with external power source electricity through external control switch group, the direction is provided with rack 57 about the rear end surface of spout 11, gear 53 passes logical groove on slide 6 and is connected with rack 57 meshing.

The transmission shaft 54 is driven by the first motor 55 to rotate, so that the gear 53 is driven to rotate, and the sliding plate 6 realizes the up-and-down transmission effect through the meshed connection of the gear 53 penetrating through the through groove on the sliding plate 6 and the rack 57.

Still include non return unit 9, non return unit 9 includes little disc 91, loose axle 92, cylinder 93, spring 94, driving block 95 and cylinder groove 96, circular through-hole has been seted up to box 51's upper end, install cylinder 93 in the circular through-hole, cylinder groove 96 has been seted up to cylinder 93 inside, loose axle 92 and cylinder 93's upper and lower terminal surface swing joint, run through in cylinder 93's upper and lower terminal surface, fixedly connected with driving block 95 on the loose axle 92, be located the lower terminal surface position department in cylinder groove 96, be connected with spring 94 between the up end of driving block 95 and the up end in cylinder groove 96, the up end fixedly connected with little disc 91 of loose axle 92.

The transmission block 95 is fixed on the movable shaft 92, a spring 94 is connected between the upper end face of the transmission block 95 and the upper end face in the cylindrical groove 96, the transmission block 95 is pressed on the lower end face in the inner portion of the cylindrical groove 96 under the action of the spring 94, the lower end of the movable shaft 92 is connected with the gear 53 in a clamping mode, the effect of preventing the gear 53 from rotating is achieved, the small circular disc 91 fixed on the upper end face of the movable shaft 92 is pulled, the lower end of the movable shaft 92 is separated from the gear 53, and the gear 53 is driven by the motor one 55 to rotate.

Still include spacing unit 8, spacing unit 8 includes spacing arc piece 81, installation axle 82, fixed block 83, disc 84 and disc groove 85, fixed block 83 sets up the up end at connecting rod 10, disc groove 85 has been seted up to fixed block 83 inside, disc groove 85 internal rotation is connected with disc 84, disc 84 rotates through the up end of installing axle 82 with fixed block 83 and is connected, the spacing arc piece 81 of up end fixedly connected with of installation axle 82, spacing arc piece 81 is used for placing the effect of pipeline, disc 84 rotates through the up end of installing axle 82 with fixed block 83 and is connected, realize the not equidirectional rotation of spacing arc piece 81.

The utility model provides a pair of pipeline's pipe network support's theory of operation as follows:

the fixing plate 1 is fixed on a wall through round holes 2 arranged at four corners of the front end face of the fixing plate 1 under the action of screws, a sliding groove 11 is arranged on the fixing plate 1, a sliding plate 6 is driven up and down in the sliding groove 11 under the action of a transmission unit 5, a motor I55 works under the fixation of a fixing block I56, the rotation of an output shaft of the motor I55 drives a transmission shaft 54 to rotate, a gear 53 is driven to rotate under the action of the transmission shaft 54, a transmission block 95 in a non-return unit 9 is fixed on a movable shaft 92, a spring 94 is connected between the upper end face of the transmission block 95 and the upper end face in a cylindrical groove 96, the transmission block 95 is pressed on the inner lower end face of the cylindrical groove 96 under the action of the spring 94, the lower end of the movable shaft 92 is clamped with the gear 53, the rotation of the gear 53 is prevented, the lower end of the movable shaft 92 is separated from the gear 53 by pulling a small circular disc 91 fixed on the upper end face of the movable shaft 92, the gear 53 is driven to rotate by the motor I55, the sliding plate 6 is driven to slide under the meshing action of the gear 53 and the rack 57, the support rod 3 connected to the sliding plate 6 supports the connecting rod 10 under the action of the bolt 4, the telescopic unit 7 is arranged on the connecting rod 10, the motor II 71 works under the fixation of the fixing block II 72, the rotation of the output shaft of the motor II 71 drives the rotation of the shaft 73 to play a role of stabilizing the shaft 73 under the action of the mounting seat 74, the rotation of the shaft 73 drives the rotation of the driving bevel gear 75 fixed on the shaft 73, the driven bevel gear 76 is driven to rotate by the driving bevel gear 75 through the meshing action between the driving bevel gear 75 and the driven bevel gear 76, the rotation of the driven bevel gear 76 drives the rotation of the threaded shaft 78, and the strip 79 slides along the direction of the square groove II 710 through the threaded connection between the threaded shaft 78 and the threaded hole in the strip 79, realize flexible effect, spacing arc 81 is used for placing the effect of pipeline, and disc 84 rotates through the up end of installation axle 82 with the fixed block 83 to be connected, realizes the not equidirectional rotation of spacing arc 81.

It should be noted that the first motor 55 and the second motor 71 disclosed in the above embodiments are both servo motors, and the control switch set controls the first motor 55 and the second motor 71 to operate by a method commonly used in the prior art.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a pipeline network support of pipeline which characterized in that: comprises a support rod (3), a bolt (4), a sliding plate (6), a telescopic unit (7) and a connecting rod (10);

sliding plate (6): a connecting rod (10) is arranged above the front end face, one end of the supporting rod (3) is fixed on the lower surface of the front end of the connecting rod (10) through a bolt (4), and the other end of the supporting rod (3) is fixed on the front surface of the lower end of the sliding plate (6) through the bolt (4);

expansion unit (7): include drive assembly, location bearing (77), screw shaft (78), rectangular (79), two (710) in square groove and baffle (711), two (710) in square groove have been seted up to the front end inside of connecting rod (10), drive assembly sets up the latter half at two (710) in square groove, and baffle (711) set up the middle part at two (710) in square groove, screw shaft (78) are passed through location bearing (77) and are rotated with baffle (711) and be connected, and the one end and the drive assembly of screw shaft (78) are connected, the other end and the screw hole threaded connection who sets up in rectangular (79) inside of screw shaft (78), rectangular (79) set up the first half at two (710) in square groove.

2. The pipe network support of an underground pipeline according to claim 1, wherein: the transmission assembly comprises a second motor (71), a second fixed block (72), a shaft (73), a mounting seat (74), a driving bevel gear (75) and a driven bevel gear (76), the driving bevel gear (75) is rotatably connected with the side wall of the connecting rod (10) through the shaft (73), the second motor (71) is arranged on the right end face of the connecting rod (10) through the second fixed block (72), one end of the shaft (73) is rotatably connected with the mounting seat (74), the other end of the shaft (73) is connected with an output shaft of the second motor (71), the input end of the second motor (71) is electrically connected with an external power supply through an external control switch set, the driven bevel gear (76) is fixed at the end of a threaded shaft (78), and the driven bevel gear (76) is meshed with the driving bevel gear (75).

3. The pipe network support of an underground pipeline according to claim 1, wherein: the fixing plate is characterized by further comprising a fixing plate (1), round holes (2) and sliding grooves (11), wherein the fixing plate (1) is fixed on a wall through the round holes (2) formed in the four corners of the fixing plate (1) through screws, the sliding grooves (11) are formed in the upper and lower directions of the front end face of the fixing plate (1), and sliding plates (6) are connected inside the sliding grooves (11) in a sliding mode.

4. The pipe network support of an underground pipeline according to claim 3, wherein: the automatic transmission device is characterized by further comprising a transmission unit (5), wherein the transmission unit (5) comprises a box body (51), a square groove I (52), a gear (53), a transmission shaft (54), a motor I (55), a fixed block I (56) and a rack (57), the box body (51) is arranged on the front end face of the sliding plate (6), the square groove I (52) is formed in the box body (51), one end of the gear (53) is rotatably connected with the side wall of the right end of the box body (51) through the transmission shaft (54), the other end of the transmission shaft (54) is rotatably connected with the side wall of the left end of the box body (51), the motor I (55) is arranged on the right end face of the box body (51) through the fixed block I (56), one end of the transmission shaft (54) is connected with an output shaft of the motor I (55), the input end of the motor I (55) is electrically connected with an external power supply through an external control switch group, and the rack (57) is arranged on the surface of the rear end of the sliding groove (11) in the up-down direction, the gear (53) penetrates through the through groove on the sliding plate (6) and is meshed and connected with the rack (57).

5. The pipe network support of an underground pipeline according to claim 4, wherein: still include non return unit (9), non return unit (9) include little disc (91), loose axle (92), cylinder (93), spring (94), driving block (95) and cylinder groove (96), circular through-hole has been seted up to the upper end of box (51), install cylinder (93) in the circular through-hole, cylinder groove (96) have been seted up to cylinder (93) inside, the upper and lower terminal surface swing joint of loose axle (92) and cylinder (93) runs through in the upper and lower terminal surface of cylinder (93), fixedly connected with driving block (95) on loose axle (92), the lower terminal surface position department that is located cylinder groove (96), be connected with spring (94) between the up end of driving block (95) and the up end in cylinder groove (96), the up end fixedly connected with little disc (91) of loose axle (92).

6. The pipe network support of an underground pipeline according to claim 1, wherein: still include spacing unit (8), spacing unit (8) include spacing arc piece (81), installation axle (82), fixed block (83), disc (84) and disc groove (85), fixed block (83) set up the up end at connecting rod (10), and fixed block (83) are inside to have seted up disc groove (85), and disc groove (85) internal rotation is connected with disc (84), and disc (84) rotate with the up end of fixed block (83) through installation axle (82) and are connected, the up end fixedly connected with spacing arc piece (81) of installation axle (82).

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