CN219233208U - Ash removal mechanism of generator set oil mass monitoring device - Google Patents

Abstract

The utility model provides an ash removal mechanism of a generator set oil mass monitoring device, and relates to the technical field of monitoring devices. The ash removal mechanism of the oil quantity monitoring device of the generator set comprises a monitoring device shell, air outlets are formed in the left side and the right side of the monitoring device shell, a cleaning mechanism is movably arranged on the inner surface of the air outlets, a cavity is formed in the top end of the monitoring device shell, a rotating mechanism is contained in the cavity, a driving end of the rotating mechanism is provided with a driving mechanism, and a moving mechanism is arranged at the coupling position of the cleaning mechanism and the rotating mechanism. The ash cleaning mechanism of the oil quantity monitoring device of the generator set has the advantages that dust deposited on the inner wall of the air outlet can be cleaned conveniently and rapidly, normal heat dissipation of parts in the shell of the monitoring device is guaranteed, and safety of the shell of the monitoring device during operation is improved.

Description

Ash removal mechanism of generator set oil mass monitoring device

Technical Field

The utility model relates to the technical field of monitoring devices, in particular to an ash removing mechanism of a generator set oil quantity monitoring device.

Background

The diesel engine monitor is a CPU electronic measurement and control system for fully automatic control of diesel engine and generator set, and can accurately detect and display the rotation speed, oil pressure, water temperature and oil temperature of diesel engine, and can implement timely monitoring of the above-mentioned measured parameters according to user settings, and can give out acoustic alarm, optical alarm and remote transmission alarm, etc. if the parameters are set with stopping function, if the parameters exceed stopping value, then the stopping signal is sent out to control the electric actuating mechanism to cut off fuel oil circuit, automatically control diesel engine to stop in emergency, and maximally protect diesel engine.

However, the existing monitor still has a disadvantage when in use, and because the working environment of the monitor is messy, certain dust can be attached to the air outlets on two sides of the monitor which are in the environment for a long time, if the dust is not treated in time, the heat dissipation effect of the internal parts of the monitor is easy to be poor, and the monitor can not normally run when serious.

Therefore, it is necessary to provide a new ash removing mechanism of the oil quantity monitoring device of the generator set to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problems, the utility model provides an ash removal mechanism of an oil quantity monitoring device of a generator set.

The ash removing mechanism of the oil quantity monitoring device of the generator set comprises a monitoring device shell, wherein air outlets are formed in the left side and the right side of the monitoring device shell, a cleaning mechanism is movably arranged on the inner surface of the air outlet, a cavity is formed in the top end of the monitoring device shell, a rotating mechanism is accommodated in the cavity, a driving end of the rotating mechanism is provided with a driving mechanism, and a moving mechanism is arranged at a coupling position of the cleaning mechanism and the rotating mechanism; when the driving mechanism is driven, the rotating mechanism drives the cleaning mechanism to reciprocate in the vertical direction on the inner surface of the air outlet through the moving mechanism, and the cleaning mechanism is used for cleaning dust deposited on the inner wall of the air outlet.

Preferably, the driving mechanism comprises a forward and reverse rotation motor arranged on the outer surface of one side of the monitoring device shell through a support, and the forward and reverse rotation motor is close to the top of the monitoring device shell.

Preferably, the driving end of the forward and reverse rotation motor is rotationally connected with a driving rotation shaft, and one end of the driving rotation shaft, far away from the forward and reverse rotation motor, is rotationally extended to the inside of the cavity and is connected with an inner wall bearing at one side of the cavity at the tail end.

Preferably, the rotating mechanism comprises first bevel gears symmetrically and fixedly sleeved on the outer surface of the driving rotating shaft, and one sides of the two first bevel gears are meshed and connected with second bevel gears.

Preferably, the moving mechanism comprises a moving screw fixedly penetrating through the inner surface of the second bevel gear, and one end of the moving screw far away from the second bevel gear rotates to extend into the monitoring device shell and is connected with an inner bottom wall bearing of the monitoring device shell at the tail end.

Preferably, the outer surface thread of the movable screw rod is sheathed with a movable ball nut, and the movable ball nut is positioned in the monitoring device shell.

Preferably, the cleaning mechanism comprises a fixing plate fixed on one side surface of the movable ball nut, and the fixing plate is close to the inner wall of the air outlet.

Preferably, a first brush plate is fixed on one side surface of the fixing plate, and a second brush plate is fixed on one side surface of the fixing plate and positioned on one side of the first brush plate.

Compared with the related art, the ash removal mechanism of the oil quantity monitoring device of the generator set has the following beneficial effects:

the utility model provides an ash removal mechanism of an oil quantity monitoring device of a generator set, which enables a driving rotating shaft to rotate clockwise and anticlockwise through a positive and negative rotating motor, so that two first bevel gears sleeved on the outer wall of the driving rotating shaft synchronously rotate along with the rotation of the driving rotating shaft, and second bevel gears respectively meshed with one side of the two first bevel gears synchronously rotate along with the rotation of the two first bevel gears, so that two movable screw rods respectively installed in the inner walls of the two second bevel gears synchronously rotate along with the rotation of the two second bevel gears, two movable ball nuts respectively sleeved on the outer walls of the two movable screw rods synchronously move back and forth along with the rotation of the two movable screw rods, and a fixed plate respectively installed on one side of the two movable ball nuts synchronously moves along with the movement of the two movable ball nuts, and a first brush plate and a second brush plate respectively installed on one side of the fixed plate synchronously move along with the movement of the fixed plate in the same direction of the inner wall of a port, so that the inner wall of a shell can be conveniently and rapidly cleaned up, and the dust can be conveniently and quickly removed, and conveniently monitored, and the dust can be discharged into a shell.

Drawings

FIG. 1 is a schematic diagram of a soot cleaning mechanism of a fuel monitoring device for a generator set according to a preferred embodiment of the present utility model;

FIG. 2 is a schematic elevational cross-sectional view of the monitor housing of FIG. 1;

fig. 3 is a schematic diagram showing the specific structure of the rotating mechanism and the cleaning mechanism shown in fig. 2.

Reference numerals in the drawings: 1. a monitoring device housing; 2. an air outlet; 3. a driving mechanism; 31. a forward and reverse rotation motor; 32. driving the rotating shaft; 4. a cavity; 5. a rotating mechanism; 51. a first bevel gear; 52. a second bevel gear; 6. a moving mechanism; 61. moving the screw; 62. moving the ball nut; 7. a cleaning mechanism; 71. a fixing plate; 72. a first brush plate; 73. and a second brush plate.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

Referring to fig. 1 to 3 in combination, an ash removing mechanism of a generator set oil quantity monitoring device comprises a monitoring device shell 1, wherein an air outlet 2 is formed in the left side and the right side of the monitoring device shell 1, a cleaning mechanism 7 is movably arranged on the inner surface of the air outlet 2, a cavity 4 is formed in the top end of the monitoring device shell 1, a rotating mechanism 5 is accommodated in the cavity 4, a driving end of the rotating mechanism 5 is provided with a driving mechanism 3, and a moving mechanism 6 is arranged at a coupling position of the cleaning mechanism 7 and the rotating mechanism 5; when the driving mechanism 3 is driven, the rotating mechanism 5 drives the cleaning mechanism 7 to reciprocate in the vertical direction on the inner surface of the air outlet 2 through the moving mechanism 6, so as to clean dust deposited on the inner wall of the air outlet 2.

When the device is used, when dust on the air outlet 2 needs to be cleaned, the forward and reverse rotating motor 31 is started firstly, so that the driving rotating shaft 32 can rotate clockwise and anticlockwise, the two first bevel gears 51 sleeved on the outer wall of the driving rotating shaft 32 can synchronously rotate along with the rotation of the driving rotating shaft 32, the second bevel gears 52 respectively meshed with one side of the two first bevel gears 51 can synchronously rotate along with the rotation of the two first bevel gears 51 in opposite directions, the two moving screw rods 61 respectively installed in the inner walls of the two second bevel gears 52 can synchronously rotate along with the rotation of the two second bevel gears 52, the two moving ball nuts 62 respectively sleeved on the outer walls of the two moving screw rods 61 can synchronously move back and forth along with the rotation of the two moving screw rods 61 in the vertical direction, the fixed plates 71 respectively installed on one side of the two moving ball nuts 62 can synchronously move along with the movement of the two moving ball nuts 62, the first plates 71 respectively installed on one side of the fixed plates can be synchronously moved along with the movement of the two moving ball nuts, the two moving nuts can conveniently move along with the movement of the two moving ball nuts, the inner wall of the two moving ball nuts can conveniently and rapidly move along with the air outlet 1, and the air outlet 1 can be conveniently and rapidly cleaned, and conveniently and rapidly can be cleaned on the inner surface of the air outlet 1.

In the specific implementation, as shown in fig. 2 and 3, the cleaning mechanism 7 includes a fixing plate 71 fixed to a side surface of the moving ball nut 62, and the fixing plate 71 is close to an inner wall of the air outlet 2.

In use, the fixing plate 71 is mounted on one side of the moving ball nut 62, so that preparation can be made for the cleaning surfaces of the first brush plate 72 and the second brush plate 73 to be closely attached to the inner wall of the air outlet 2 later.

Referring to fig. 2 and 3, a first brush plate 72 is fixed to one side surface of the fixing plate 71, and a second brush plate 73 is fixed to one side surface of the fixing plate 71 and located at one side of the first brush plate 72.

When the dust collector is used, the first brush plate 72 and the second brush plate 73 are mounted on the inner wall of the air outlet 2 in a close fit manner, so that when the ball nut 62 moves, the first brush plate 72 and the second brush plate 73 can be driven to synchronously move on the inner wall of the air outlet 2, and dust deposited on the inner wall of the air outlet 2 can be cleaned.

Referring to fig. 2 and 3, the moving mechanism 6 includes a moving screw 61 fixedly penetrating the inner surface of the second bevel gear 52, and one end of the moving screw 61 away from the second bevel gear 52 is rotatably extended into the monitoring device housing 1 and is connected to the inner bottom wall bearing of the monitoring device housing 1 at the end.

In use, the moving screw 61 is mounted inside the second bevel gear 52, so that the second bevel gear 52 rotates while driving the moving screw 61 to synchronously rotate in the same lateral direction.

Referring to fig. 2, a moving ball nut 62 is screwed on the outer surface of the moving screw 61, and the moving ball nut 62 is located inside the monitoring device housing 1.

In use, the moving ball nut 62 is sleeved on the outer wall of the moving screw 61, so that the moving screw 61 rotates and the moving ball nut 62 can move back and forth in the vertical direction on the outer wall of the moving screw 61.

Referring to fig. 2 and 3, the rotating mechanism 5 includes a first bevel gear 51 symmetrically and fixedly sleeved on the outer surface of the driving rotating shaft 32, and a second bevel gear 52 is engaged and connected to one side of each of the first bevel gears 51.

In use, by mounting the first bevel gear 51 on the outer wall of the drive rotation shaft 32, the drive rotation shaft 32 rotates and simultaneously drives the first bevel gear 51 to rotate, so that the second bevel gear 52 meshed with one side of the first bevel gear 51 rotates along with the rotation of the first bevel gear 51.

Referring to fig. 1 and 2, the driving mechanism 3 includes a forward/reverse motor 31 mounted on an outer surface of one side of the monitor housing 1 through a support, and the forward/reverse motor 31 is near the top of the monitor housing 1.

When the motor is used, the forward and reverse rotation motor 31 is arranged on the support with the damping effect, so that the motor can play a role in buffering and supporting for vibration generated by the forward and reverse rotation motor 31 during operation, and the safety and stability of the forward and reverse rotation motor 31 during operation are improved.

Referring to fig. 2, the driving end of the forward and reverse rotation motor 31 is rotatably connected with a driving rotation shaft 32, and one end of the driving rotation shaft 32 far away from the forward and reverse rotation motor 31 is rotatably extended into the cavity 4 and is connected with an inner wall bearing at one side of the cavity 4 at the tail end.

In use, the drive rotation shaft 32 is enabled to rotate in both clockwise and counterclockwise directions by the activation of the forward and reverse rotation motor 31.

The utility model provides an ash removal mechanism of a generator set oil mass monitoring device, which has the following working principle:

when the dust on the exhaust outlet 2 needs to be cleaned, the forward and reverse rotating motor 31 is started first, so that the driving rotating shaft 32 can rotate clockwise and anticlockwise, the two first bevel gears 51 sleeved on the outer wall of the driving rotating shaft 32 can synchronously rotate along with the rotation of the driving rotating shaft 32, the second bevel gears 52 respectively meshed with the two first bevel gears 51 can synchronously rotate along with the rotation of the two first bevel gears 51, the two moving screw 61 respectively installed in the inner wall of the two second bevel gears 52 can synchronously rotate along with the rotation of the two second bevel gears 52, the two moving ball nuts 62 respectively sleeved on the outer wall of the two moving screw 61 can synchronously move back and forth along with the rotation of the two moving screw 61, the fixing plates 71 respectively installed on one side of the two moving ball nuts 62 can synchronously move along with the movement of the two moving ball nuts 62, the first brush plates 72 respectively installed on one side of the fixing plates 71 and the second brush plates 72 can synchronously move along with the rotation of the two moving screw 61 in the same direction as the inner wall of the two moving screw 61, the inner wall of the housing 1 can be monitored, and the dust can be conveniently and rapidly cleaned, and conveniently and rapidly in the housing 1 can be cleaned.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. The utility model provides an ash removal mechanism of generating set oil mass monitoring devices, its characterized in that, including monitoring devices casing (1), air exit (2) have all been seted up to the left and right sides of monitoring devices casing (1), the internal surface activity of air exit (2) is provided with clean mechanism (7), the inside cavity (4) that is formed with in top of monitoring devices casing (1), slewing mechanism (5) have been acceptd to the inside of cavity (4), the drive end of slewing mechanism (5) is provided with actuating mechanism (3), the coupling department of clean mechanism (7) and slewing mechanism (5) is provided with shifter (6), slewing mechanism (5) are including symmetrical fixed first bevel gear (51) of cup jointing in drive axis of rotation (32) surface, two one side meshing of first bevel gear (51) all is connected with second bevel gear (52).

2. The ash removal mechanism of a generator set oil quantity monitoring device according to claim 1, wherein the driving mechanism (3) comprises a forward and reverse rotation motor (31) mounted on the outer surface of one side of the monitoring device shell (1) through a support, and the forward and reverse rotation motor (31) is close to the top of the monitoring device shell (1).

3. The ash removal mechanism of the generator set oil quantity monitoring device according to claim 2, wherein the driving end of the forward and reverse rotation motor (31) is rotatably connected with a driving rotation shaft (32), and one end of the driving rotation shaft (32) away from the forward and reverse rotation motor (31) is rotatably extended to the inside of the cavity (4) and is in bearing connection with one side inner wall of the cavity (4) at the tail end.

4. The ash removal mechanism of a generator set oil quantity monitoring device according to claim 1, wherein the moving mechanism (6) comprises a moving screw (61) fixedly penetrating through the inner surface of the second bevel gear (52), and one end of the moving screw (61) far away from the second bevel gear (52) rotates, extends into the monitoring device shell (1) and is connected with an inner bottom wall bearing of the monitoring device shell (1) at the tail end.

5. The ash removal mechanism of a generator set oil quantity monitoring device according to claim 4, wherein the outer surface of the moving screw (61) is in threaded sleeve connection with a moving ball nut (62), and the moving ball nut (62) is positioned in the monitoring device shell (1).

6. The ash removal mechanism of a generator set oil quantity monitoring device according to claim 1, wherein the cleaning mechanism (7) comprises a fixed plate (71) fixed on one side surface of a movable ball nut (62), and the fixed plate (71) is close to the inner wall of the air outlet (2).

7. The ash removal mechanism of a generator set oil quantity monitoring device according to claim 6, wherein a first brush plate (72) is fixed on one side surface of the fixing plate (71), and a second brush plate (73) is fixed on one side surface of the fixing plate (71) and located on one side of the first brush plate (72).

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