CN213206116U - Base for efficient energy-saving pump - Google Patents

Abstract

The utility model discloses a base for energy-efficient pump, including the mounting panel, the mounting panel below is equipped with elevating system, elevating system is by support column, slidable mounting slide bar in the support column, with slide bar bottom sliding connection's first bull stick, with the drive assembly that first bull stick is connected constitutes, be equipped with shock attenuation supporting mechanism on the mounting panel. The beneficial effects of the utility model are that, the mounting panel below is equipped with elevating system, only need a driving motor can realize the vertical migration of energy-saving pump, the problem of prior art's unable adjustment energy-saving pump high position has been solved, the mounting panel top is equipped with the mount pad, the mount pad below is equipped with two damper assembly, play the supporting role, still play absorbing effect when energy-saving pump work production rocks simultaneously, two damper assembly cooperation works, overall structure is reliable and more stable, this device has the characteristics that the reliability is high and shock attenuation effect is strong.

Description

Base for efficient energy-saving pump

Technical Field

The utility model relates to an energy-saving pump technical field, especially a base for energy-efficient pump.

Background

The high-efficiency energy-saving pump is mainly suitable for various purposes such as water supply and drainage of urban high-rise buildings, fire water, water supply and drainage of factories and mines, long-distance water delivery, water use in production process circulation, heating, ventilation and air conditioning circulation, domestic water and the like. Most fixed mounting of current energy-efficient pump is in specific position, can't adjust the height of pump as required to the pump can vibrate in the use, can influence the life of pump if not setting up shock-absorbing measure, uses still to influence the performance of pump itself for a long time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problem, a base for energy-efficient pump has been designed, including the mounting panel, the mounting panel below is equipped with elevating system, elevating system is by support column, slidable mounting slide bar in the support column, with slide bar bottom sliding connection's first bull stick, with the drive assembly that first bull stick is connected constitutes, be equipped with shock attenuation supporting mechanism on the mounting panel.

The driving assembly is composed of a driving motor, a worm fixedly installed on an output shaft of the driving motor, a worm wheel in meshing transmission with the worm, and a rotating shaft fixedly installed with the worm wheel.

The utility model discloses a slide bar, including slide bar, first bull stick one end is equipped with logical groove, the dead lever is installed and is led to the inslot portion.

The number of the support columns, the number of the sliding rods and the number of the first rotating rods are four, the number of the worm gears and the number of the rotating shafts are two, the worm gears are symmetrically arranged on two sides of the worm, and two ends of the rotating shaft are fixedly connected with the two first rotating rods respectively.

The supporting device is characterized in that a supporting seat is fixedly mounted on the supporting column, an axle supporting seat is fixedly mounted on the supporting seat, a driving motor is fixedly mounted on the supporting seat, and the rotating shaft is rotatably mounted on the axle supporting seat.

The damping supporting mechanism is composed of a lower supporting platform fixedly mounted on the mounting plate, a first damping component fixedly mounted on the lower supporting platform, a lower mounting seat connected with the first damping component, and an upper mounting seat connected with the lower mounting seat through bolts.

The first shock absorption assembly is composed of an outer rod fixedly installed on the lower support platform, an inner rod installed in the outer rod in a sliding mode, and a compression spring fixedly installed between the lower end face of the inner rod and the lower support platform.

Fixed mounting has the chute seat on the mounting panel, the terminal surface is equipped with second damper, second damper by fixed mounting connecting block on the mounting seat outer wall down, with the connecting block rotate the second bull stick of connecting, with second bull stick rotates slider, the fixed mounting of connecting be in slider and damping spring in the chute seat constitute.

The second damping assembly is provided with two sides which are symmetrically distributed on the lower mounting seat.

The lower mounting seat and the upper mounting seat are internally provided with damping lugs, and the mounting plate is provided with mounting holes.

Utilize the technical scheme of the utility model a base for energy-efficient pump of preparation, the mounting panel below is equipped with elevating system, only needs a driving motor can realize the vertical migration of energy-conserving pump, has solved the problem that prior art can't adjust energy-conserving pump high position. The mounting panel top is equipped with the mount pad, and the mount pad below is equipped with two damper assembly, plays the supporting role, still plays absorbing effect when energy-saving pump work production rocks simultaneously. Two damper components cooperation work, overall structure is reliable and more stable, and this device has the characteristics that the reliability is high and the shock attenuation effect is strong.

Drawings

Fig. 1 is an isometric view of a base for an energy-efficient pump according to the present invention;

fig. 2 is a front view of a base for an energy-efficient pump according to the present invention;

FIG. 3 is an isometric view of a lifting mechanism in a base for an energy efficient pump according to the present invention;

fig. 4 is a cross-sectional view of a base for an energy-efficient pump according to the present invention;

in the figure, 1, mounting plate; 2. a lifting mechanism; 3. a support pillar; 4. a slide bar; 5. a first rotating lever; 6. a drive assembly; 7. a shock-absorbing support mechanism; 8. a drive motor; 9. a worm; 10. a worm gear; 11. a rotating shaft; 12. a groove; 13. fixing the rod; 14. a through groove; 15. a supporting seat; 16. a shaft support seat; 17. a lower support table; 18. a first dampening member; 19. a lower mounting seat; 20. an upper mounting seat; 21. an outer rod; 22. an inner rod; 23. a compression spring; 24. a chute seat; 25. a second dampening member; 26. connecting blocks; 27. a second rotating rod; 28. a slider; 29. a damping spring; 30. a shock absorbing bump; 31. and (7) installing holes.

Detailed Description

For a better understanding of the present invention, the following further description is given in conjunction with the following embodiments and accompanying drawings.

As shown in fig. 1 and 4, a base for energy-efficient pump, including mounting panel 1, mounting panel 1 below is equipped with elevating system 2, elevating system 2 by support column 3, slidable mounting slide bar 4 in the support column 3, with slide bar 4 bottom sliding connection's first bull stick 5, with drive assembly 6 that first bull stick 5 is connected constitutes, be equipped with shock attenuation supporting mechanism 7 on the mounting panel 1. The driving assembly 6 is composed of a driving motor 8, a worm 9 fixedly installed on an output shaft of the driving motor 8, a worm wheel 10 in meshing transmission with the worm 9, and a rotating shaft 11 fixedly installed with the worm wheel 10.

As shown in fig. 3 and 4, the number of the support column 3, the number of the sliding rod 4 and the number of the first rotating rods 5 are four, the number of the worm gears 10 and the number of the rotating shafts 11 are two, the worm gears 10 are symmetrically installed on two sides of the worm 9, and two ends of each rotating shaft 11 are respectively fixedly connected with the two first rotating rods 5. The energy-saving pump passes through bolted connection and installs on mounting panel 1, elevating system 2 drives the energy-saving pump and reciprocates, driving motor 8 is responsible for providing power and drives worm 9 rotatory, worm 9 is rotatory to be driven worm wheel 10 and rotates, worm wheel 10 is equipped with two and diameter and number of teeth homogeneous phase the same, worm wheel 10 is installed in worm 9 both sides and is connected with worm 9 meshing, two worm wheel 9 of during operation rotate opposite direction, drive two pivot 11 rotations respectively, pivot 11 plays the transmission and drives first bull stick 5 and rotate together, thereby two first bull sticks 5 upwards deflect or deflect downwards simultaneously and drive the slide bar 4 and rise or descend, slide bar 4 is at 3 inside relative vertical movements of support column.

As shown in fig. 1, a groove 12 is formed at the bottom of the sliding rod 4, a fixing rod 13 is fixedly installed in the groove 12, a through groove 14 is formed at one end of the first rotating rod 5, and the fixing rod 13 is installed inside the through groove 14. Wherein all seted up the cavity on the lateral wall all around of support column 3, first bull stick 5 is equipped with the lateral wall cavity and the dead lever 13 sliding connection that the support column 3 was passed to the one end that leads to groove 14, it is the same with the diameter size of dead lever 13 to lead to groove 14's logical groove height, dead lever 13 can be at the inside relative movement that leads to groove 14, and lead to groove 14 through dead lever 13 relatively and remove and can realize reciprocating of slide bar 4, 3 relative slide bar 4 of support column still play limiting displacement, ensure 4 vertical movement of slide bar, support column 3 and slide bar 4 are equipped with four corners that are located mounting panel 1 respectively, mounting panel 1 and 4 fixed connection of slide bar, slide bar 4 plays the effect of supporting mounting panel 1 simultaneously.

As shown in fig. 3, a support seat 15 is fixedly mounted on the support pillar 3, a shaft support seat 16 is fixedly mounted on the support seat 15, the driving motor 8 is fixedly mounted on the support seat 15, and the rotating shaft 11 is rotatably mounted on the shaft support seat 16. Supporting seat 15 and axle supporting seat 16 play the supporting role, and wherein supporting seat 15 and 3 side welding of support column are as an organic whole, and axle supporting seat 16 passes through bolted connection with supporting seat 15 to be fixed together, and driving motor 8 passes through bolted connection to be installed on supporting seat 15, is equipped with the through-hole on the axle supporting seat 16, and pivot 11 rotates to be installed in the through-hole of axle supporting seat 16.

As shown in fig. 4, the damper support mechanism 7 is composed of a lower support base 17 fixedly mounted on the mounting plate 1, a first damper assembly 18 fixedly mounted on the lower support base 17, a lower mounting base 19 connected to the first damper assembly 18, and an upper mounting base 20 bolted to the lower mounting base 19.

The first shock absorption assembly 18 is composed of an outer rod 21 fixedly mounted on the lower support platform 17, an inner rod 22 slidably mounted in the outer rod 21, and a compression spring 23 fixedly mounted between the lower end surface of the inner rod 22 and the lower support platform 17. The inner rod 22 and the lower surface of the lower mounting seat 19 are integrally formed, the inner rod 22 can move up and down inside the outer rod 21, the outer rod 21 plays a limiting role relative to the inner rod 22, the compression spring 23 is located between the lower end face of the inner rod 22 and the upper surface of the lower supporting platform 17, and the energy-saving pump plays a role in supporting and damping when in shaking during working.

As shown in fig. 1 and 4, a chute seat 24 is fixedly mounted on the mounting plate 1, a second damping assembly 25 is arranged on the lower end surface of the lower mounting seat 19, and the second damping assembly 25 is composed of a connecting block 26 fixedly mounted on the outer wall of the lower mounting seat 19, a second rotating rod 27 rotatably connected with the connecting block 26, a sliding block 28 rotatably connected with the second rotating rod 27, and a damping spring 29 fixedly mounted in the sliding block 28 and the chute seat 24. The second shock absorbing assembly 25 is provided with two symmetrical shock absorbing assemblies which are arranged on two sides of the lower mounting seat 19.

Damping spring 29 one end fixed mounting is in the lateral wall of chute seat 24, the other end fixed mounting is on slider 28 side terminal surface, slider 28 can slide at the inside level of chute seat 24, chute seat 24 plays the guide effect to the removal of slider 28, damping spring 29 plays the cushioning effect when slider 28 removes, second bull stick 27 one end rotates with slider 28 to be connected, the other end rotates with connecting block 26 to be connected, through the rotation of second bull stick 27, the reciprocating of lower mount pad 19 can make slider 28 carry out the horizontal direction and move, damping spring 29 receives the extrusion and shortens, play the cushioning effect. Meanwhile, the two second damping components 25 symmetrically arranged below the lower mounting seat 19 can also play a role in keeping the lower mounting seat 19 stable, protect the inner rod 22 and the outer rod 21, and prevent the phenomenon that the lower mounting seat 19 is excessively deflected to cause the inner rod 22 and the outer rod 21 to be excessively stressed and broken.

The lower mounting seat 19 and the upper mounting seat 20 are both internally provided with a damping lug 30, and the mounting plate 1 is provided with a mounting hole 31. During installation, the mounting hole of the energy-saving pump is aligned with the mounting hole 31 in the mounting plate 1 and fixed through bolt connection, then the lower mounting seat 19 and the upper mounting seat 20 are fixed together through bolt connection, the two mounting seats fix the energy-saving pump rear seat in a sleeved mode, and the shock absorption bump plays a shock absorption and buffering role.

In this embodiment, the mounting panel below is equipped with elevating system, only needs a driving motor can realize the vertical migration of energy-conserving pump, has solved the problem that prior art can't adjust energy-conserving pump height position. The mounting panel top is equipped with the mount pad, and the mount pad below is equipped with two damper assembly, plays the supporting role, still plays absorbing effect when energy-saving pump work production rocks simultaneously. Two damper components cooperation work, overall structure is reliable and more stable, and this device has the characteristics that the reliability is high and the shock attenuation effect is strong.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (10)

1. The utility model provides a base for energy-efficient pump, includes mounting panel (1), mounting panel (1) below is equipped with elevating system (2), its characterized in that, elevating system (2) by support column (3), slidable mounting be in slide bar (4) in support column (3), with slide bar (4) bottom sliding connection's first bull stick (5), with drive assembly (6) that first bull stick (5) are connected constitute, be equipped with shock attenuation supporting mechanism (7) on mounting panel (1).

2. The base for the energy-efficient pump according to claim 1, wherein the driving assembly (6) is composed of a driving motor (8), a worm (9) fixedly installed on an output shaft of the driving motor (8), a worm wheel (10) engaged with the worm (9) for transmission, and a rotating shaft (11) fixedly installed with the worm wheel (10).

3. The base for the energy-efficient pump as claimed in claim 2, wherein the sliding rod (4) is provided with a groove (12) at the bottom, a fixing rod (13) is fixedly installed in the groove (12), one end of the first rotating rod (5) is provided with a through slot (14), and the fixing rod (13) is installed inside the through slot (14).

4. The base for the energy-efficient pump according to claim 2, wherein the number of the supporting column (3), the sliding rod (4) and the first rotating rod (5) is four, the number of the worm gears (10) and the number of the rotating shafts (11) are two, the worm gears (10) are symmetrically installed on two sides of the worm (9), and two ends of the rotating shaft (11) are respectively fixedly connected with the two first rotating rods (5).

5. The base for the energy-efficient pump according to claim 2, wherein the supporting pillar (3) is fixedly provided with a supporting seat (15), the supporting seat (15) is fixedly provided with a shaft supporting seat (16), the driving motor (8) is fixedly arranged on the supporting seat (15), and the rotating shaft (11) is rotatably arranged on the shaft supporting seat (16).

6. The base for the energy-efficient pump according to claim 1, wherein the damping support mechanism (7) is composed of a lower support platform (17) fixedly mounted on the mounting plate (1), a first damping component (18) fixedly mounted on the lower support platform (17), a lower mounting seat (19) connected with the first damping component (18), and an upper mounting seat (20) bolted with the lower mounting seat (19).

7. The base for the energy-efficient pump as claimed in claim 6, wherein the first shock absorption assembly (18) is composed of an outer rod (21) fixedly installed on the lower support platform (17), an inner rod (22) slidably installed in the outer rod (21), and a compression spring (23) fixedly installed between the lower end surface of the inner rod (22) and the lower support platform (17).

8. The base for the energy-efficient pump according to claim 6, characterized in that a chute seat (24) is fixedly installed on the mounting plate (1), a second damping component (25) is arranged on the lower end surface of the lower mounting seat (19), the second damping component (25) is composed of a connecting block (26) fixedly installed on the outer wall of the lower mounting seat (19), a second rotating rod (27) rotatably connected with the connecting block (26), a sliding block (28) rotatably connected with the second rotating rod (27), and a damping spring (29) fixedly installed in the sliding block (28) and the chute seat (24).

9. A mount for an economizer pump as claimed in claim 8, characterized in that the second damper assembly (25) is provided with two symmetrically arranged sides of the lower mounting seat (19).

10. The base for the energy-efficient pump according to claim 6, wherein the lower mounting seat (19) and the upper mounting seat (20) are provided with shock absorption lugs (30), and the mounting plate (1) is provided with mounting holes (31).

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