CN221050372U - Building equipment fault diagnosis device - Google Patents

Abstract

The utility model provides a fault diagnosis device for building equipment, which relates to the technical field of fault diagnosis and comprises a box body and a knob, wherein a partition plate is connected to the inner wall of the box body, a first circular gear is connected to the bottom side of the inner wall of the box body, a second circular gear is connected to the bottom side of the inner wall of the box body, the second circular gear is connected to the box body in a rotating way, two circular gears are meshed with the first circular gear, a circular plate is connected to the upper side of the first circular gear, a fixed block is connected to the upper side of the circular plate, and three fixed blocks are arranged on the fixed block. According to the utility model, the rotary knob drives the bevel gear II to drive the bevel gear I, the rotary disc and the rotary rod to rotate, and the rotary rod drives the fixed block to enable the circular plate to rotate along with the circular gear I to drive the circular gear II to rotate and drive the two screw rods to rotate, so that the diagnosis box moves upwards in the axial direction of the screw rods, and the rotary knob can drive the circular gear I and the circular gear II to rotate for two circles to improve the efficiency of lifting the diagnosis box.

Description

Building equipment fault diagnosis device

Technical Field

The utility model relates to the technical field of fault diagnosis, in particular to a fault diagnosis device for construction equipment.

Background

Building equipment fault diagnosis devices are commonly used to maintain and monitor various equipment of a building, such as elevators, air conditioners, water pumps, etc. The device can help engineers and technicians to quickly locate and solve equipment faults, thereby improving the reliability and the service life of equipment and reducing the maintenance cost.

The building equipment fault diagnosis device is generally placed in the protective box, when the building equipment fault diagnosis device is used, the building equipment fault diagnosis device is required to be lifted, or the building equipment fault diagnosis device is required to be directly taken out of the protective box, and the operation panel screen and the display panel screen are exposed so as to facilitate wiring, operation and data observation. Therefore, the building equipment fault diagnosis device is provided, and the building equipment fault diagnosis device is convenient to lift or take out.

Disclosure of utility model

The utility model aims to solve the defect that the fault diagnosis device is inconvenient to lift or take out in the technical field of fault diagnosis.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a construction equipment fault diagnosis device, includes box and knob, the box inner wall is connected with the baffle, box inner wall downside is connected with circular gear one, circular gear one and box rotate to be connected, box inner wall downside is connected with circular gear two, circular gear two and box rotate to be connected, circular gear two have two circular gear two all with circular gear one meshing, circular gear one upside is connected with the plectane, the plectane upside is connected with the fixed block, the fixed block has three the fixed block is circumference array distribution, two circular gear two upside all is connected with the lead screw, the lead screw has two, two the lead screw upper end all runs through the baffle, the baffle upside is connected with the guide bar, the guide bar has two, box inner wall downside is connected with the carousel, carousel and box rotate to be connected with the bull stick, the upside is connected with the bull stick, six bevel gears have been the circumference array distribution, two bevel gears have been seted up to one side of bevel gears, diagnosis box one side has been connected with the bevel gear one side of bevel gear, diagnosis groove has been seted up down.

As a preferred embodiment, two circular gears two are symmetrically arranged, and the circular gear one is positioned between the two circular gears two.

As a preferable implementation mode, the upper sides of the three fixed blocks are connected with limiting pieces, and the outer diameters of the limiting pieces are larger than the outer diameters of the fixed blocks.

As a preferred embodiment, the circular gear one, the circular plate, the fixed block, the limiting piece, the circular gear two, the rotary table, the rotary rod, the bevel gear one and the knob are all positioned below the partition plate.

As a preferred embodiment, there are two screw grooves, and the two screw grooves are respectively engaged with the two screw rods.

As a preferred embodiment, there are two guide grooves, and the two guide grooves are respectively connected with the two guide rods in a sliding manner.

As a preferred embodiment, one side of the diagnosis box is provided with two buckling grooves, and the two buckling grooves are respectively positioned on two opposite side surfaces of the diagnosis box.

Compared with the prior art, the utility model has the advantages and positive effects that:

According to the utility model, the knob is rotated to drive the bevel gear II to rotate, so that the bevel gear I is driven to rotate, the turntable is driven to rotate, the rotating rod connected to the turntable rotates, the rotating rod touches the fixed block and toggles the fixed block when rotating, the fixed block and the circular plate rotate along with the fixed block, the circular gear I is driven to rotate, the two circular gears II are driven to rotate, the two screw rods are driven to rotate, the diagnosis box moves upwards in the axial direction of the screw rods, and meanwhile, the diagnosis box slides on the guide rod to avoid rotation. The round knob can drive the round gear I and the round gear II to rotate for two circles, so that the efficiency of lifting the diagnosis box is improved. The diagnosis box moves upwards to be exposed from the box body, so that fault diagnosis can be performed, or the diagnosis box is taken out from the box body to perform fault diagnosis.

Drawings

Fig. 1 is a schematic structural diagram of a fault diagnosis device for construction equipment according to the present utility model.

Fig. 2 is a cross-sectional view of a case of a construction equipment failure diagnosis apparatus provided by the present utility model.

Fig. 3 is a schematic structural view of a circular gear one of a fault diagnosis device for construction equipment.

Fig. 4 is a schematic structural diagram of a turntable of a fault diagnosis device for construction equipment.

Fig. 5 is a schematic structural diagram of a diagnosis box of a fault diagnosis device for construction equipment.

Fig. 6 is a schematic structural diagram of a fault diagnosis device for construction equipment shown in fig. 2 at a.

Legend description:

1. A case; 11. a partition plate; 12. a plate groove; 13. a clamping groove; 14. a fixed shaft;

2. A diagnostic box; 21. a thread groove; 22. a guide groove; 23. a buckling groove;

3. A first circular gear; 31. a circular plate; 32. a fixed block; 33. a limiting piece;

4. A second round gear;

5. A screw rod;

6. A guide rod;

7. a turntable; 71. A rotating rod; 72. Bevel gears I;

8. A knob; 81. Bevel gears II;

9. A cover plate; 91. a pulling piece; 92. and (5) clamping blocks.

Detailed Description

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

Example 1

As shown in fig. 1 to 5, the present utility model provides a technical solution: the utility model provides a building equipment fault diagnosis device, including box 1 and knob 8, box 1 inner wall is connected with baffle 11, box 1 inner wall bottom side is connected with round gear one 3, round gear one 3 and box 1 rotate to be connected, box 1 inner wall bottom side is connected with round gear two 4, round gear two 4 and box 1 rotate to be connected, round gear two 4 have two, two round gears two 4 symmetry sets up, round gear one 3 is located between two round gears two 4, two round gears two 4 all mesh with round gear one 3, round gear one 3 upside is connected with plectane 31, plectane 31 upside is connected with fixed block 32, fixed block 32 has three, three fixed block 32 is circumference array distribution, three fixed block 32 upside all is connected with spacing piece 33, spacing piece 33 external diameter is greater than fixed block 32 external diameter, two round gears two 4 upside all are connected with lead screw 5, lead screw 5 has two, the upper ends of the two screw rods 5 penetrate through the partition plate 11, the upper side of the partition plate 11 is connected with two guide rods 6, the bottom side of the inner wall of the box body 1 is connected with a turntable 7, the turntable 7 is rotationally connected with the box body 1, the upper side of the turntable 7 is connected with a rotating rod 71, the rotating rod 71 is six, the six rotating rods 71 are distributed in a circumferential array, the lower side of the turntable 7 is connected with a bevel gear I72, one side of a knob 8 is connected with a bevel gear II 81, the bevel gear II is meshed with the bevel gear I72, the round gear I3, a circular plate 31, a fixed block 32, a limiting piece 33, a round gear II 4, the turntable 7, the rotating rod 71, the bevel gear I72 and the knob 8 are all positioned below the partition plate 11, the upper side of the partition plate 11 is connected with a diagnosis box 2, the lower side of the diagnosis box 2 is provided with two screw grooves 21, the two screw grooves 21 are respectively engaged with the two screw rods 5, the lower side of the diagnosis box 2 is provided with a guide groove 22, the guide groove 22 is provided with two, the two guide grooves 22 are respectively connected with the two guide rods 6 in a sliding way, one side of the diagnosis box 2 is provided with two buckling grooves 23, and the two buckling grooves 23 are respectively positioned on the two opposite side surfaces of the diagnosis box 2.

In this embodiment, the rotation knob 8 drives the bevel gear two 81 to rotate, drives the bevel gear one 72 to rotate, thereby drives the turntable 7 to rotate, and makes the rotating rod 71 connected to the turntable 7 rotate, and the rotating rod 71 touches the fixed block 32 and toggles the fixed block 32 when rotating, so that the fixed block 32 and the circular plate 31 rotate along with the fixed block, and then drives the circular gear one 3 to rotate, so that the two circular gears two 4 rotate, drives the two screw rods 5 to rotate, and makes the diagnosis box 2 move upwards in the axial direction of the screw rods 5. The diagnosis box 2 is moved upward to be exposed from the box body 1, thereby performing fault diagnosis.

Example 2

As shown in fig. 2 and 6, a plate groove 12 is formed in one side of the box body 1, a clamping groove 13 is formed in the inner wall of the plate groove 12, a fixed shaft 14 is connected to the inner wall of the plate groove 12, the rear part 14 of the fixed shaft is fixedly connected with the plate groove 12, a cover plate 9 is sleeved on the outer wall of the fixed shaft 14, the cover plate 9 is rotationally connected with the fixed shaft 14, a poking piece 91 is connected to one side of the cover plate 9, a clamping block 92 is connected to one side of the poking piece 91, the clamping block 92 is clamped with the clamping groove 13, one end of a knob 8 is located in the plate groove 12, and one end of the knob 8 is located below the partition plate 11.

In this embodiment, the pulling piece 91 is pulled, so that the clamping block 92 is separated from the clamping groove 13, and the cover plate 9 is driven to rotate, so that the cover plate 9 exposes the plate groove 12, and simultaneously exposes the knob 8 with one end positioned in the plate groove 12, so that the knob 8 can be rotated to lift the diagnostic box 2. After fault diagnosis is completed and the diagnosis box 2 is restored to the original position, the poking piece 91 is poked, the cover plate 9 rotates to the inside of the plate groove 12, meanwhile, the clamping block 92 is clamped with the clamping groove 13, the knob 8 is covered, and the error touching of the knob 8 is avoided.

Working principle:

As shown in fig. 1-6, the knob 8 is rotated to drive the bevel gear two 81 to rotate, and drive the bevel gear one 72 to rotate, so as to drive the turntable 7 to rotate, and make the rotating rod 71 connected to the turntable 7 rotate, and the rotating rod 71 touches the fixed block 32 and toggles the fixed block 32 when rotating, so that the fixed block 32 and the circular plate 31 rotate along with the fixed block, and further drive the circular gear one 3 to rotate, so that the two circular gears two 4 rotate, drive the two screw rods 5 to rotate, so that the diagnosis box 2 moves upwards in the axial direction of the screw rods 5, and slide on the guide rod 6 to avoid rotation of the diagnosis box 2. The round knob 8 can drive the round gear I3 and the round gear II 4 to rotate for two circles, so that the efficiency of lifting the diagnosis box 2 is improved. The diagnosis box 2 moves upwards to be exposed from the box body 1, so that the diagnosis box 2 is convenient for wiring and fault diagnosis. Or after the diagnosis box 2 is lifted to expose the two buckling grooves 23, the diagnosis box 2 is stabilized through the buckling grooves 23 until the diagnosis box 2 is completely separated from the screw rod 5, and then the diagnosis box 2 is taken out from the box body 1 through the two buckling grooves 23 for fault diagnosis. Toggle plate 91 for fixture block 92 breaks away from draw-in groove 13, and drives apron 9 rotation, makes apron 9 expose board groove 12, exposes knob 8 that one end is located board groove 12 inside simultaneously, can rotate knob 8 and carry out the lifting to diagnosis case 2. After fault diagnosis is completed and the diagnosis box 2 is restored to the original position, the poking piece 91 is poked, the cover plate 9 rotates to the inside of the plate groove 12, meanwhile, the clamping block 92 is clamped with the clamping groove 13, the knob 8 is covered, and the error touching of the knob 8 is avoided.

The drawings of the present utility model are merely to show specific structural positions to aid understanding, and are not limited to scale dimensions, specifications, and the like.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (7)

1. The utility model provides a construction equipment fault diagnosis device, includes box (1) and knob (8), its characterized in that, box (1) inner wall is connected with baffle (11), box (1) inner wall bottom side is connected with circular gear one (3), circular gear one (3) and box (1) rotate to be connected, box (1) inner wall bottom side is connected with circular gear two (4), circular gear two (4) and box (1) rotate to be connected, circular gear two (4) have two, two circular gear two (4) all with circular gear one (3) meshing, circular gear one (3) upside is connected with plectane (31), circular gear one (31) upside is connected with fixed block (32), fixed block (32) have three fixed block (32) are circumference array distribution, two circular gear two (4) upside all are connected with lead screw (5), lead screw (5) have two, two lead screw (5) all with circular gear one (3) and circular gear one (3) meshing, circular gear one (31) upside is connected with circular gear one (3), circular gear one (31) upside is connected with rotary table (3) and is connected with lead screw (7) on the side (7) of the baffle (7), the rotary table is characterized in that the number of the rotary bars (71) is six, the six rotary bars (71) are distributed in a circumferential array, a first bevel gear (72) is connected to the lower side of the rotary table (7), a second bevel gear (81) is connected to one side of the knob (8), the second bevel gear (81) is meshed with the first bevel gear (72), a diagnosis box (2) is connected to the upper side of the partition plate (11), a thread groove (21) is formed in the lower side of the diagnosis box (2), and a guide groove (22) is formed in the lower side of the diagnosis box (2).

2. The construction equipment failure diagnosis apparatus according to claim 1, wherein: the two circular gears (4) are symmetrically arranged, and the circular gear (3) is positioned between the two circular gears (4).

3. The construction equipment failure diagnosis apparatus according to claim 1, wherein: and the upper sides of the three fixed blocks (32) are connected with limiting sheets (33), and the outer diameters of the limiting sheets (33) are larger than the outer diameters of the fixed blocks (32).

4. A construction equipment failure diagnosis apparatus according to claim 3, wherein: the circular gear I (3), the circular plate (31), the fixed block (32), the limiting piece (33), the circular gear II (4), the rotary table (7), the rotary rod (71), the bevel gear I (72) and the rotary knob (8) are all positioned below the partition plate (11).

5. The construction equipment failure diagnosis apparatus according to claim 1, wherein: the number of the thread grooves (21) is two, and the two thread grooves (21) are respectively matched with the two screw rods (5).

6. The construction equipment failure diagnosis apparatus according to claim 1, wherein: the guide grooves (22) are two, and the two guide grooves (22) are respectively connected with the two guide rods (6) in a sliding way.

7. The construction equipment failure diagnosis apparatus according to claim 1, wherein: the diagnosis box is characterized in that buckling grooves (23) are formed in one side of the diagnosis box (2), two buckling grooves (23) are formed, and the two buckling grooves (23) are respectively located on two opposite side surfaces of the diagnosis box (2).