CN219891342U - Power monitoring device of transformer substation - Google Patents

Abstract

The utility model relates to the technical field of power detection auxiliary devices, in particular to a transformer substation power monitoring device which can realize adjustment of the distance and the height of clamping plates by using one motor, effectively reduces the manufacturing cost and improves the practicability; including the bottom plate, interval adjustment mechanism includes the rack, rack fixed mounting installs the motor on the bottom plate, it is equipped with transmission lead screw to rotate on the rack, transmission lead screw bottom is connected with the motor output, the spiral shell dress cover is equipped with the lifter plate on the transmission lead screw, the symmetry is connected with two sets of guide bars between bottom plate and the rack, all fixed cover is equipped with the gear on two sets of accommodate lead screws, bilateral symmetry is connected with two sets of U-shaped boards on the rack, equal spiral shell dress cover has the connecting plate on two sets of accommodate lead screws, two sets of connecting plates pass through spacing spout and do not slidable mounting on two sets of U-shaped frames, two sets of connecting plate inboard all are connected with splint, the rack front end is connected with the layer board.

Description

Power monitoring device of transformer substation

Technical Field

The utility model relates to the technical field of power detection auxiliary devices, in particular to a transformer substation power monitoring device.

Background

Along with the continuous development of digital technology, the digital development of the transformer substation has become the trend, and at present in high accuracy transformer substation power monitoring equipment, open-type current sensor uses more extensively, when fixed to it, some occasions can use fixing device to replace the bolt, guarantee open-type current sensor's life, but some fixing device's fixed effect is unstable, drops easily along with the extension of live time and damages, and then reduced open-type sensor's life, and can't select suitable fixed height according to open-type sensor's specification for the suitability of device reduces.

Through retrieving, the technical scheme in the technical scheme of the transformer substation power monitoring device with the publication number of CN214013588U disclosed in China can solve the technical problem of the existing fixing device, but certain defects still exist when the transformer substation power monitoring device is used, and the technical scheme in the patent uses two motors to realize the adjustment of the distance and the height of the clamping plates, so that the transformer substation power monitoring device is higher in manufacturing cost and lower in practicability.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the transformer substation power monitoring device which can realize the adjustment of the distance and the height of the clamping plates by using one motor, effectively reduce the manufacturing cost and improve the practicability.

Technical proposal

In order to achieve the above purpose, the present utility model provides the following technical solutions: including bottom plate, interval adjustment mechanism and altitude mixture control mechanism, interval adjustment mechanism includes the rack, rack fixed mounting is on the bottom plate, install the motor on the bottom plate, it is equipped with the transmission lead screw to rotate on the rack, the transmission lead screw bottom is connected with the motor output, the spiral shell dress is equipped with the lifter plate on the transmission lead screw, the symmetry is connected with two sets of guide bars between bottom plate and the rack, be equipped with two sets of guiding holes on the lifter plate, two sets of guide bars pass two sets of guiding holes respectively, bilateral symmetry's slip is equipped with two sets of risers between bottom plate and the rack, both ends and two sets of riser inboard all are connected with and are equipped with the articulated seat, all articulate between two sets of articulated seats about every, altitude mixture control mechanism includes two sets of U-shaped frame, two sets of U-shaped frame are fixed mounting respectively on two sets of riser tops, all rotate on two sets of U-shaped frame and are equipped with the adjusting lead screw, all fixed cover is equipped with the gear on the rack, bilateral symmetry is connected with two sets of U-shaped plates on the lifter plate, all be equipped with the rack respectively, and two sets of gear engagement with two sets of U-shaped frame, two sets of connecting plates have the lug plates to connect two sets of connecting plates through the connecting plates on two sets of screw-shaped frame, two sets of limiting brackets, two sets of connecting plates have the connecting plates.

Preferably, the outer sides of the two groups of vertical plates are respectively connected with a stabilizer bar, the left end and the right end of the placing frame are respectively provided with a sliding hole, and the two groups of stabilizer bars respectively slide through the two groups of sliding holes.

Preferably, four groups of universal wheels are arranged at the bottom end of the bottom plate.

Preferably, two groups of hand push handles are symmetrically connected to the placement frame.

Preferably, the inner sides of the two groups of clamping plates are respectively connected with an anti-slip pad.

Preferably, sliding sleeves are arranged in the two groups of guide holes on the lifting plate.

Compared with the prior art, the utility model has the beneficial effects that: the motor drives the transmission screw rod to rotate, the transmission screw rod drives the lifting plate to move up and down, the lifting plate drives the vertical plate to move through the hinged slat, the U-shaped frame is driven to move through the movement of the vertical plate, the distance between the clamping plates is adjusted, in the moving process of the U-shaped frame, the meshing transmission of the gear and the rack drives the adjusting screw rod to rotate, the adjusting screw rod drives the connecting plate to move up and down through the matching of the threads, the connecting plate drives the clamping plates to move up and down, so as to adjust the height of the clamping plates, when the open-type current sensor is fixed, the open-type current sensor is reasonably placed on the top of the placing frame and the supporting plate, the motor drives the transmission screw rod to rotate through the starting motor, the transmission screw rod drives the lifting plate to move up, the vertical plate pulls the vertical plate to move inwards through the hinged slat, the vertical plate drives the U-shaped frame to move inwards, and simultaneously, the U-shaped frame drives the adjusting screw rod to rotate through the meshing of the gear and the rack when the U-shaped frame moves, the connecting plate drives the connecting plate to move downwards, so that the clamping plates are clamped at the proper position of the open-type current sensor, the open-type current sensor can be manufactured through the height adjusting mechanism and the gap adjusting device, and the practical manufacturing cost can be reduced.

Drawings

FIG. 1 is a schematic illustration of an axially measured structure of the present utility model;

FIG. 2 is a schematic front side view of the present utility model;

FIG. 3 is a schematic view of the A-A cross-sectional structure of the present utility model;

FIG. 4 is a schematic view of the partial enlarged structure at A of the present utility model;

the reference numerals in the drawings: 1. a bottom plate; 2. a placing rack; 3. a motor; 4. a transmission screw rod; 5. a lifting plate; 6. a guide rod; 7. a riser; 8. a hinge base; 9. hinged laths; 10. a U-shaped frame; 11. adjusting a screw rod; 12. a gear; 13. a U-shaped plate; 14. a rack; 15. a connecting plate; 16. a clamping plate; 17. a supporting plate; 18. a stabilizer bar; 19. a universal wheel; 20. a hand push handle; 21. an anti-slip pad; 22. and a sliding sleeve.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

Example 1

Referring to fig. 1-4, the power monitoring device for a transformer substation of the present utility model comprises a base plate 1, a placement frame 2 is fixedly installed on the base plate 1, a motor 3 is installed on the base plate 1, a transmission screw rod 4 is rotatably provided on the placement frame 2, the bottom end of the transmission screw rod 4 is connected with the output end of the motor 3, a lifting plate 5 is screwed on the transmission screw rod 4, two groups of guide rods 6 are symmetrically connected between the base plate 1 and the placement frame 2, two groups of guide holes are provided on the lifting plate 5, the two groups of guide rods 6 respectively pass through the two groups of guide holes, two groups of vertical plates 7 are provided between the base plate 1 and the placement frame 2 in a bilateral symmetry sliding manner, hinge seats 8 are respectively connected with the left and right ends of the lifting plate 5 and the inner sides of the two groups of vertical plates 7, the two groups of hinging seats 8 are hinged with hinging laths 9, two groups of U-shaped frames 10 are respectively and fixedly arranged at the top ends of two groups of vertical plates 7, two groups of U-shaped frames 10 are respectively and rotatably provided with adjusting screw rods 11, gears 12 are respectively and fixedly sleeved on the two groups of adjusting screw rods 11, two groups of U-shaped plates 13 are symmetrically connected on a rack 2 left and right, racks 14 are respectively arranged on the two groups of U-shaped plates 13, the two groups of gears 12 are respectively meshed with the two groups of racks 14, limiting sliding grooves are respectively arranged on the two groups of U-shaped frames 10, connecting plates 15 are respectively and slidably arranged on the two groups of U-shaped frames 10 through the limiting sliding grooves in a threaded manner, clamping plates 16 are respectively connected on the inner sides of the two groups of connecting plates 15, and a supporting plate 17 is connected to the front end of the rack 2; firstly, through starting motor 3, motor 3 drives transmission lead screw 4 and rotates, transmission lead screw 4 drives lifter plate 5 and reciprocates, make lifter plate 5 drive riser 7 through articulated slat 9 and remove, through the removal of riser 7 drive U-shaped frame 10, make U-shaped frame 10 drive splint 16 remove, thereby adjust splint 16's interval, in U-shaped frame 10 removal in-process, drive adjusting screw 11 through the meshing transmission of gear 12 and rack 14 and rotate, adjusting screw 11 drives connecting plate 15 through the cooperation of screw thread and reciprocates, make connecting plate 15 drive splint 16 reciprocate, thereby adjust splint 16's height, when fixed open-type current sensor, with open-type current sensor reasonable place at rack 2 and layer board 17 top, through starting motor 3, motor 3 drive transmission lead screw 4 rotates, make transmission lead screw 4 drive lifter plate 5 upwards move, riser 5 pulls riser 7 inwards and remove, U-shaped frame 10 inwards move, U-shaped frame 10 drives 16 inwards, simultaneously, U-shaped frame 10 drives connecting plate 16 through gear 12 and rack 14 and drives connecting plate 15 through the cooperation of gear 12 and drive adjusting screw 15, thereby can make the gap adjustment mechanism and can be adjusted to the height of splint 16 through the high-efficient manufacturing, thereby, the cost is high-efficient, the manufacturing device can be realized, and the height adjustment device is realized, and the height of the device is adjusted.

Example 2

Referring to fig. 1-4, the power monitoring device for a transformer substation of the present utility model comprises a base plate 1, a placement frame 2 is fixedly installed on the base plate 1, a motor 3 is installed on the base plate 1, a transmission screw 4 is rotatably installed on the placement frame 2, the bottom end of the transmission screw 4 is connected with the output end of the motor 3, a lifting plate 5 is screwed on the transmission screw 4, two groups of guide rods 6 are symmetrically connected between the base plate 1 and the placement frame 2, two groups of guide holes are arranged on the lifting plate 5, the two groups of guide rods 6 respectively pass through the two groups of guide holes, two groups of vertical plates 7 are symmetrically and slidingly arranged between the base plate 1 and the placement frame 2, hinge seats 8 are respectively connected with the left end and the right end of the lifting plate 5 and the inner sides of the two groups of vertical plates 7, hinge battens 9 are respectively hinged between each upper hinge seat 8 and each lower hinge seat 8, two groups of U-shaped frames 10 are respectively fixedly installed at the top ends of the two groups of vertical plates 7, the two groups of U-shaped frames 10 are respectively provided with adjusting screw rods 11 in a rotating manner, the two groups of adjusting screw rods 11 are respectively fixedly sleeved with gears 12, the two groups of U-shaped plates 13 are connected to the rack 2 in a bilateral symmetry manner, the two groups of U-shaped plates 13 are respectively provided with racks 14, the two groups of gears 12 are respectively meshed with the two groups of racks 14, the two groups of U-shaped frames 10 are respectively provided with limiting sliding grooves, the two groups of adjusting screw rods 11 are respectively sheathed with connecting plates 15 in a threaded manner, the two groups of connecting plates 15 are respectively and slidably arranged on the two groups of U-shaped frames 10 through the limiting sliding grooves, the inner sides of the two groups of connecting plates 15 are respectively connected with clamping plates 16, the front end of the rack 2 is connected with supporting plates 17, the outer sides of the two groups of vertical plates 7 are respectively connected with stabilizing rods 18, the left end and the right end of the rack 2 are respectively provided with sliding holes, and the two groups of stabilizing rods 18 respectively slide through the two groups of sliding holes; firstly, through starting motor 3, motor 3 drives transmission lead screw 4 and rotates, transmission lead screw 4 drives lifter plate 5 and reciprocates, make lifter plate 5 drive riser 7 through articulated slat 9 and remove, through the removal of riser 7 drive U-shaped frame 10, make U-shaped frame 10 drive splint 16 remove, thereby adjust splint 16's interval, in U-shaped frame 10 removal in-process, drive adjusting screw 11 through the meshing transmission of gear 12 and rack 14 and rotate, adjusting screw 11 drives connecting plate 15 through the cooperation of screw thread and reciprocates, make connecting plate 15 drive splint 16 reciprocate, thereby adjust splint 16's height, when fixed open-type current sensor, with open-type current sensor reasonable place at rack 2 and layer board 17 top, through starting motor 3, motor 3 drive transmission lead screw 4 rotates, make transmission lead screw 4 drive lifter plate 5 upwards move, riser 5 pulls riser 7 inwards and remove, U-shaped frame 10 inwards moves, U-shaped frame 10 drives 16 inwards, simultaneously, U-shaped frame 10 moves through gear 12 and rack 14 and drive connecting plate 15 and drive the connecting plate 16 and reciprocate, thereby can make the height of splint 16 through the cooperation of gear 12 and rack 11, thereby can be adjusted to the height-adjusting plate 16, the device can be realized, the height is improved and the height is realized, and the device is realized, and the height is reduced, and can be used to the side by the side of side, and can be adjusted to the device.

Referring to fig. 1, four sets of universal wheels 19 are mounted at the bottom end of the base plate 1; through setting up universal wheel 19, can make the removal of device more laborsaving convenient.

Referring to fig. 1, two sets of hand grips 20 are symmetrically connected to the rack 2; by providing the push handle 20, the pushing device can be moved conveniently.

Referring to fig. 1, the inner sides of the two sets of clamping plates 16 are respectively connected with an anti-slip pad 21; by providing the anti-slip pad 21, the anti-slip pad 21 can be more tightly and firmly clamped by the open-type current sensor.

Referring to fig. 1, sliding sleeves 22 are disposed in the two sets of guiding holes on the lifting plate 5; by providing the slide sleeve 22, the lifting plate 5 can slide on the guide rod 6 more smoothly.

When the transformer substation power monitoring device works, firstly, the motor 3 is started, the motor 3 drives the transmission screw rod 4 to rotate, the transmission screw rod 4 drives the lifting plate 5 to move up and down, the lifting plate 5 drives the vertical plate 7 to move through the hinged slat 9, the U-shaped frame 10 drives the clamping plate 16 to move through the movement of the vertical plate 7, the distance between the clamping plates 16 is adjusted, in the moving process of the U-shaped frame 10, the meshing transmission of the gear 12 and the rack 14 drives the adjustment screw rod 11 to rotate, the adjustment screw rod 11 drives the connecting plate 15 to move up and down through the matching of threads, the connecting plate 15 drives the clamping plate 16 to move up and down, so that the height of the clamping plate 16 is adjusted, when the open-type current sensor is fixed, the open-type current sensor is reasonably placed at the top ends of the placing frame 2 and the supporting plate 17, the motor 3 drives the transmission screw rod 4 to rotate, the transmission screw rod 4 drives the lifting plate 5 to move up through the hinged slat 9, the vertical plate 7 drives the U-shaped frame 10 to move inwards, the U-shaped frame 10 is driven by the vertical plate 10 to move inwards, the U-shaped frame 10 is driven by the clamping plate 10 to move inwards, the U-shaped frame 10 drives the clamping plate 16 to move inwards, and simultaneously, the clamping plate 16 is driven by the gear 12 to move towards the clamping plate 11 to move through the meshing transmission plate 11 to rotate, and the clamping plate 11 is driven to rotate through the clamping plate 11, so that the open-type current sensor is properly and is meshed with the clamping plate 11 to rotate when the clamping plate 11 is driven to move to rotate.

The installation mode, the connection mode or the setting mode of the substation power monitoring device are common mechanical modes, and the substation power monitoring device can be implemented as long as the beneficial effects of the substation power monitoring device can be achieved; the motor of the substation power monitoring device is purchased in the market, and a person skilled in the art only needs to install and operate according to the attached use instruction.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (6)

1. The power monitoring device of the transformer substation comprises a bottom plate (1) and is characterized by further comprising a spacing adjusting mechanism and a height adjusting mechanism;

the space adjusting mechanism comprises a placing frame (2), the placing frame (2) is fixedly arranged on a bottom plate (1), a motor (3) is arranged on the bottom plate (1), a transmission screw rod (4) is rotationally arranged on the placing frame (2), the bottom end of the transmission screw rod (4) is connected with the output end of the motor (3), a lifting plate (5) is sleeved on the transmission screw rod (4) in a threaded manner, two groups of guide rods (6) are symmetrically connected between the bottom plate (1) and the placing frame (2), two groups of guide holes are formed in the lifting plate (5), the two groups of guide rods (6) respectively penetrate through the two groups of guide holes, two groups of vertical plates (7) are symmetrically arranged between the bottom plate (1) and the placing frame (2) in a sliding manner, hinge seats (8) are respectively connected to the left end and the right end of the lifting plate (5) and the inner side of the two groups of the vertical plates (7), and hinge battens (9) are respectively hinged between the upper hinge seats and the lower hinge seats (8);

the height adjusting mechanism comprises two groups of U-shaped frames (10), the two groups of U-shaped frames (10) are fixedly arranged at the top ends of two groups of vertical plates (7) respectively, adjusting screw rods (11) are rotationally arranged on the two groups of U-shaped frames (10), gears (12) are fixedly sleeved on the two groups of adjusting screw rods (11), two groups of U-shaped plates (13) are connected on the rack (2) in a bilateral symmetry mode, racks (14) are arranged on the two groups of U-shaped plates (13), the two groups of gears (12) are meshed with the two groups of racks (14) respectively, limiting sliding grooves are formed in the two groups of U-shaped frames (10), connecting plates (15) are sleeved on the two groups of U-shaped frames (10) in a threaded mode respectively through the limiting sliding grooves, clamping plates (16) are connected on the inner sides of the two groups of the connecting plates (15), and supporting plates (17) are connected to the front ends of the rack (2).

2. The substation power monitoring device according to claim 1, wherein the outer sides of the two groups of vertical plates (7) are respectively connected with a stabilizer bar (18), sliding holes are respectively formed in the left end and the right end of the rack (2), and the two groups of stabilizer bars (18) respectively slide through the two groups of sliding holes.

3. A substation electrical power monitoring device according to claim 2, characterized in that the bottom end of the base plate (1) is fitted with four sets of universal wheels (19).

4. A substation electrical power monitoring device according to claim 3, characterized in that two sets of hand grips (20) are symmetrically connected to the rack (2).

5. A substation electrical power monitoring device according to claim 4, characterized in that the inner sides of the two sets of clamping plates (16) are each connected with a non-slip mat (21).

6. A substation electrical power monitoring device according to claim 5, characterized in that sliding sleeves (22) are arranged in both sets of guiding holes on the lifting plate (5).