CN214634246U - Vibratile inclined tube mounting structure - Google Patents

Abstract

The utility model discloses a pipe chute mounting structure that can vibrate, including shell, pipe chute body, biax motor and eccentric wheel, the welding of the inner wall top of shell has unable adjustment base, and the inside swing joint of shell has the pipe chute body, the outside integration of pipe chute body is provided with the fixed block, and one side that the pipe chute body was kept away from to the fixed block is fixed with the installation piece, the outside of installation piece closely laminates there is the connecting plate, and the middle part through connection of installation piece has an installation pole, the downside welding of connecting plate has the second spring, the outside lower extreme integration of first backup pad is provided with the mounting box. This pipe chute mounting structure that can vibrate the clearance of can vibrating when the long-pending mud in the pipe chute, effectively avoids the long-pending mud of adhesion in the pipe chute, guarantees the normal use of pipe chute, and life-span, and easy to assemble and dismantlement, and is easy and simple to handle, convenient to overhaul and change to can be effectively spacing, guarantee stability.

Description

Vibratile inclined tube mounting structure

Technical Field

The utility model relates to a pipe chute technical field specifically is a pipe chute mounting structure that can vibrate.

Background

The inclined tube is a part used for reducing hydraulic radius and accelerating sedimentation in a filler sedimentation tank, is widely applied to the sedimentation tank, is usually formed into a group by welding to reduce sedimentation time, needs to be connected with the sedimentation tank by using a mounting structure, has various mounting structures on the market, and still has some defects;

like current pipe chute mounting structure:

1. the inclined pipe is inconvenient to clean when mud is accumulated in the inclined pipe, the accumulated mud is easily adhered to the inner part of the inclined pipe, the service life of the inclined pipe is influenced, the inclined pipe needs to be frequently replaced, and the economic benefit of the inclined pipe is low;

2. inconvenient installation and dismantlement, inconvenient maintenance and change, the operation is not simple and convenient enough, therefore, we propose a pipe chute mounting structure that can vibrate to in order to solve the problem that proposes among the above-mentioned.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pipe chute mounting structure that can vibrate to solve the inconvenient clearance when the long-pending mud in the pipe chute of present pipe chute mounting structure that above-mentioned background art provided, the pipe chute content easily glues long-pending mud, influences the life of pipe chute, needs often to change the pipe chute, leads to pipe chute economic benefits low, and inconvenient installation and dismantlement, is not convenient for overhaul and change, problem that the operation is not simple and convenient enough.

In order to achieve the above object, the utility model provides a following technical scheme: a vibrating inclined tube mounting structure comprises a shell, an inclined tube body, a double-shaft motor and an eccentric wheel, wherein a fixed base is welded above the inner wall of the shell, the inclined tube body is movably connected inside the shell, a fixed block is integrally arranged on the outer side of the inclined tube body, a mounting block is fixed on one side, away from the inclined tube body, of the fixed block, a connecting plate is tightly attached to the outer side of the mounting block, a mounting rod penetrates through the middle of the mounting block, a second spring is welded on the lower side of the connecting plate, and a first supporting plate is mounted on the lower side of the second spring;

the outside lower extreme integration of first backup pad is provided with the mounting box, and the front side swing joint of mounting box has the eccentric wheel, the internally mounted of mounting box has double-shaft motor, and the outside of mounting box is fixed with first spring, the downside of first spring is connected with the second backup pad, and the second backup pad passes through the bolt fastening on the shell, the outside below integration of pipe chute body is provided with the baffle, unable adjustment base's outside welding has the stopper, and the outside swing joint of stopper has the limiting plate.

Preferably, the mounting block and the connecting plate are connected in a clamping groove connection mode, and the mounting block and the connecting plate are connected with the mounting rod in a threaded connection mode;

the outer side of the connecting plate is tightly attached to the outer side of the fixing block, and the connecting plate forms a sliding structure on the shell.

Preferably, the longitudinal section of the first supporting plate is of a U-shaped structure, the first supporting plate is symmetrically distributed about the central axis of the inclined tube body, and the first supporting plate forms a sliding structure on the shell.

Preferably, the eccentric wheels are symmetrically distributed about a vertical central axis of the mounting box, and the first springs are distributed on the mounting box in an array manner.

Preferably, the second support plate and the baffle are connected in a clamping groove connection mode, and the baffle and the second support plate are distributed on the vertical surface in a mutually perpendicular mode.

Preferably, the limiting plate is connected with the fixed base through the limiting block in a clamping groove connection mode, the limiting plate and the fixed base are arranged in parallel on a vertical surface, and the upper side of the fixed base is obliquely distributed on the vertical surface.

Compared with the prior art, the beneficial effects of the utility model are that: the vibrating inclined tube mounting structure can be used for vibrating and cleaning when mud is accumulated in an inclined tube, effectively avoiding the accumulated mud from being adhered in the inclined tube, ensuring the normal use of the inclined tube, prolonging the service life, facilitating the mounting and dismounting, being simple and convenient to operate, facilitating the overhauling and replacing, effectively limiting and ensuring the stability;

1. the inclined tube cleaning machine is provided with an eccentric wheel, a first spring and a second spring, the eccentric wheel is driven to rotate through a double-shaft motor, so that the mounting box vibrates, the amplitude of the first spring is increased, the first supporting plate drives the inclined tube body to vibrate, the amplitude of the second spring is increased, vibration cleaning can be performed when mud is accumulated in the inclined tube, the mud is effectively prevented from being adhered in the inclined tube, the normal use of the inclined tube is ensured, and the service life is prolonged;

2. the mounting block, the connecting plate and the mounting rod are arranged and connected through the mounting block and the connecting plate clamping groove, the mounting rod, the mounting block and the connecting plate are in threaded connection, and the first supporting plate and the connecting plate are connected with the shell clamping groove, so that the mounting and dismounting are convenient, the operation is simple and convenient, and the overhaul and the replacement are convenient;

3. be provided with baffle, limiting plate and stopper, slide in the stopper outside of front and back symmetric distribution through the limiting plate, can effectively be spacing, guarantee stability, the baffle slides in the second backup pad outside, effectively guides long-pending mud and discharges, avoids polluting the part.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the connection structure of the mounting block and the connecting plate of the present invention;

FIG. 3 is a schematic structural view of a first spring and a mounting box of the present invention;

fig. 4 is the utility model discloses overall structure schematic diagram is connected to limiting plate and stopper.

In the figure: 1. a housing; 2. a fixed base; 3. a pipe chute body; 4. a fixed block; 5. mounting blocks; 6. a connecting plate; 7. mounting a rod; 8. a first support plate; 9. mounting a box; 10. a double-shaft motor; 11. an eccentric wheel; 12. a first spring; 13. a second support plate; 14. a baffle plate; 15. a limiting plate; 16. a limiting block; 17. a second spring.

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. 1-4, the present invention provides a technical solution: a vibrating inclined tube mounting structure comprises a shell 1, a fixed base 2, an inclined tube body 3, a fixed block 4, a mounting block 5, a connecting plate 6, a mounting rod 7, a first supporting plate 8, a mounting box 9, a double-shaft motor 10, an eccentric wheel 11, a first spring 12, a second supporting plate 13, a baffle 14, a limiting plate 15, a limiting block 16 and a second spring 17, wherein the fixed base 2 is welded above the inner wall of the shell 1, the inclined tube body 3 is movably connected inside the shell 1, the fixed block 4 is integrally arranged on the outer side of the inclined tube body 3, the mounting block 5 is fixed on one side, away from the inclined tube body 3, of the fixed block 4, the connecting plate 6 is tightly attached to the outer side of the mounting block 5, the mounting rod 7 is connected to the middle of the mounting block 5 in a penetrating mode, the second spring 17 is welded on the lower side of the connecting plate 6, and the first supporting plate 8 is mounted on the lower side of the second spring 17;

the installation box 9 is integrally arranged at the lower end of the outer side of the first supporting plate 8, an eccentric wheel 11 is movably connected to the front side of the installation box 9, a double-shaft motor 10 is arranged inside the installation box 9, a first spring 12 is fixed to the outer side of the installation box 9, a second supporting plate 13 is connected to the lower side of the first spring 12, the second supporting plate 13 is fixed to the shell 1 through bolts, a baffle 14 is integrally arranged below the outer side of the inclined tube body 3, a limiting block 16 is welded to the outer side of the fixing base 2, and a limiting plate 15 is movably connected to the outer side of the limiting block 16.

As shown in FIG. 1, the longitudinal section of the first supporting plate 8 is U-shaped, and the first supporting plate 8 is symmetrically distributed about the central axis of the inclined tube body 3, and the first supporting plate 8 forms a sliding structure on the shell 1, can effectively drive the inclined tube body 3 to vibrate, as shown in fig. 1, the second supporting plate 13 and the baffle plate 14 are connected by a snap-in connection, and the baffle plate 14 and the second supporting plate 13 are vertically distributed on a vertical plane, can effectively prevent accumulated mud from falling on parts such as the first spring 12 and the like, for example, in the figures 1 and 2, the mounting block 5 and the connecting plate 6 are connected by adopting a clamping groove connection mode, and the mounting block 5 and the connecting plate 6 are both connected with the mounting rod 7 by adopting a threaded connection mode, the outer side of the connecting plate 6 is tightly attached to the outer side of the fixing block 4, and the connecting plate 6 forms a sliding structure on the shell 1, so that the mounting and the dismounting are convenient;

if eccentric wheel 11 distributes about the vertical axis line symmetry of mounting box 9 in fig. 3, and first spring 12 is array distribution on mounting box 9, can increase the amplitude, effectively clear up pipe chute body 3, like in fig. 4 limiting plate 15 is connected through the mode that stopper 16 and unable adjustment base 2 adopted the draw-in groove to connect, and limiting plate 15 and unable adjustment base 2 are parallel arrangement each other on vertical face, and the upside of unable adjustment base 2 is the slope distribution on vertical face, can carry on spacingly to pipe chute body 3, guarantee stability.

The working principle is as follows: when the vibrating inclined tube mounting structure is used, as shown in attached figures 1 and 2, an inclined tube body 3 is placed in a shell 1, a fixing block 4 fixed on the outer side of the inclined tube body 3 is tightly attached to a connecting plate 6, a mounting block 5 fixed on the fixing block 4 is connected with a clamping groove of the connecting plate 6, then the mounting block 5 is in threaded connection with the connecting plate 6 through a mounting rod 7, the connecting plate 6 is fixed with the inclined tube body 3, and a baffle plate 14 fixed on the outer side of the inclined tube body 3 is connected with a clamping groove of a second supporting plate 13;

when the accumulated mud in the inclined tube body 3 needs to be cleaned, as shown in attached figures 1 and 3, a double-shaft motor 10 is turned on, the double-shaft motor 10 drives eccentric wheels 11 which are symmetrically distributed front and back to rotate simultaneously, the eccentric wheels 11 are used for generating vibration, the eccentric wheels 11 drive the double-shaft motor 10 to vibrate up and down, first springs 12 which are symmetrically distributed up and down of the double-shaft motor 10 increase the vibration amplitude, a first supporting plate 8 which is arranged outside the double-shaft motor 10 slides on a shell 1 and drives a connecting plate 6 on the upper side to vibrate, a second spring 17 increases the vibration amplitude, the connecting plate 6 slides in the shell 1, a baffle plate 14 slides outside a second supporting plate 13 to prevent the accumulated mud in the inclined tube body 3 from falling on the first springs 12, a limiting plate 15 slides outside a limiting block 16 which is connected with a clamping groove of the limiting plate, a fixing base 2 and the limiting plate 15 play a limiting role in the inclined tube body 3, and the whole working process of the vibratable inclined tube mounting structure, those not described in detail in this specification are within the skill of the art.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a pipe chute mounting structure that can vibrate, includes shell (1), pipe chute body (3), biax motor (10) and eccentric wheel (11), its characterized in that: a fixed base (2) is welded above the inner wall of the shell (1), an inclined tube body (3) is movably connected inside the shell (1), a fixed block (4) is integrally arranged on the outer side of the inclined tube body (3), an installation block (5) is fixed on one side, away from the inclined tube body (3), of the fixed block (4), a connecting plate (6) is tightly attached to the outer side of the installation block (5), an installation rod (7) penetrates through the middle of the installation block (5), a second spring (17) is welded on the lower side of the connecting plate (6), and a first supporting plate (8) is installed on the lower side of the second spring (17);

the utility model discloses a pipe fitting, including shell (1), the outside lower extreme integration of first backup pad (8) is provided with mounting box (9), and the front side swing joint of mounting box (9) has eccentric wheel (11), the internally mounted of mounting box (9) has double-shaft motor (10), and the outside of mounting box (9) is fixed with first spring (12), the downside of first spring (12) is connected with second backup pad (13), and second backup pad (13) pass through the bolt fastening on shell (1), the outside below integration of pipe chute body (3) is provided with baffle (14), the outside welding of unable adjustment base (2) has stopper (16), and the outside swing joint of stopper (16) has limiting plate (15).

2. A vibratable down tube mounting structure as claimed in claim 1, wherein: the mounting block (5) and the connecting plate (6) are connected by a clamping groove, the mounting block (5) and the connecting plate (6) are connected with the mounting rod (7) by a thread connection,

the outer side of the connecting plate (6) is tightly attached to the outer side of the fixing block (4), and the connecting plate (6) forms a sliding structure on the shell (1).

3. A vibratable down tube mounting structure as claimed in claim 1, wherein: the longitudinal section of first backup pad (8) is "U" font structure, and first backup pad (8) about the axis symmetric distribution of pipe chute body (3) to first backup pad (8) constitutes sliding construction on shell (1).

4. A vibratable down tube mounting structure as claimed in claim 1, wherein: the eccentric wheels (11) are symmetrically distributed about a vertical central axis of the mounting box (9), and the first springs (12) are distributed on the mounting box (9) in an array mode.

5. A vibratable down tube mounting structure as claimed in claim 1, wherein: the second supporting plate (13) is connected with the baffle (14) in a clamping groove connection mode, and the baffle (14) and the second supporting plate (13) are vertically distributed on a vertical surface.

6. A vibratable down tube mounting structure as claimed in claim 1, wherein: limiting plate (15) are connected with unable adjustment base (2) through stopper (16) and the mode that the draw-in groove is connected, and limiting plate (15) and unable adjustment base (2) are parallel to each other on vertical face and set up to the upside of unable adjustment base (2) is the slope and distributes on vertical face.

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