CN221409418U - GPRS network remote measurement and control equipment - Google Patents

Abstract

The utility model relates to the technical field of network measurement and control equipment and discloses GPRS network remote measurement and control equipment, which comprises a protection box, wherein moving grooves are symmetrically formed in the bottoms of two sides of the inner cavity wall of the protection box, lifting grooves are symmetrically formed in the two sides of the inner cavity wall of the protection box, a driving mechanism is arranged at the bottom of the inner cavity of the protection box and comprises a double-shaft motor, an L-shaped moving block and a lifting block, a dust-proof plate is fixedly connected to one side of the lifting block far away from the lifting groove, a fixing mechanism is fixedly connected to the top of the L-shaped moving block, and the fixing mechanism comprises a supporting plate fixedly connected to the top of the L-shaped moving block.

Description

GPRS network remote measurement and control equipment

Technical Field

The utility model relates to the technical field of network measurement and control equipment, in particular to GPRS network remote measurement and control equipment.

Background

At present, along with the development of technology, we have stepped into the information age, which not only brings convenience to our life, but also needs remote control technology in various industries. For example, in the environmental protection industry, real-time monitoring of numerous pollution emission points is often required, and most of the monitoring data needs to be sent to a back-end server of a management center for processing.

The GPRS network remote measurement and control equipment refers to an IP monitoring system used for specific application in the fields of safety monitoring and remote monitoring, the existing network measurement and control equipment consists of a protection box and a measurement and control equipment body, and the protection box is sealed through fixing modes such as bolts, however, when the monitoring equipment body breaks down and needs to enter a field for maintenance, the protection box is opened in a bolt fixing mode, secondly, because the internal space of the protection box is limited, the equipment body fixed in the protection box is detached and installed by bolts, the operation is complex, the equipment body can be taken out only by the operation of multiple steps, and the maintenance efficiency of the measurement and control equipment is relatively reduced.

Disclosure of utility model

The utility model aims to provide a GPRS network remote measurement and control device, which solves the problems that when the existing monitoring device body breaks down and needs access maintenance, the existing monitoring device body is complicated to open by a bolt fixing mode, and the device body fixed in the protection box is time-consuming and labor-consuming to detach and install by bolts due to limited internal space of the protection box, so that the operation is complicated, the device body can be taken out by multi-step operation, and the maintenance efficiency of the measurement and control device is relatively reduced.

The utility model provides the following technical scheme: the utility model provides a GPRS network remote measurement and control equipment, includes the protection box, the movable trough has been seted up to the inner chamber wall both sides bottom symmetry of protection box, the lift groove has still been seted up to the inner chamber wall both sides symmetry of protection box, actuating mechanism is installed to the inner chamber bottom of protection box, actuating mechanism includes biax motor, L shape movable block and lifter, one side fixedly connected with dust guard of lift groove is kept away from to the lifter, the top fixedly connected with fixed establishment of L shape movable block, fixed establishment includes the backup pad of fixed connection at L shape movable block top, top one side fixedly connected with fixed splint of backup pad, the top of backup pad is equipped with the measurement and control equipment main part.

As the optimization of the technical scheme, the fixing mechanism forms a sliding structure through the L-shaped moving blocks and the moving grooves, the dust-proof plate forms a sliding structure through the lifting blocks and the lifting grooves, and the lifting blocks and the L-shaped moving blocks are two groups in number and are symmetrically distributed.

As the preference of above-mentioned technical scheme, the bottom fixed mounting of biax motor is in the inner chamber bottom of protection box, the equal fixedly connected with initiative pivot of two output shafts of biax motor, two the equal fixedly connected with first initiative conical gear of one end that initiative pivot kept away from each other, one side meshing of first initiative conical gear has first driven conical gear, the one end fixedly connected with first screw thread lead screw of first driven conical gear, the one end fixedly connected with second initiative conical gear that first screw thread lead screw kept away from first driven conical gear, one side meshing of second initiative conical gear has second driven conical gear, the top fixedly connected with second screw thread lead screw of second driven conical gear.

As the preference of above-mentioned technical scheme, the both ends and the protection box bearing of first screw thread lead screw are connected, the one end that second driven bevel gear was kept away from to the second screw thread lead screw is connected with the protection box bearing, first screw thread lead screw and L shape movable block threaded connection, second screw thread lead screw and lifter block threaded connection.

As the preference of above-mentioned technical scheme, the sliding tray has been seted up to the top one side that the fixed splint was kept away from to the backup pad, one side that the backup pad is close to the sliding tray is provided with the pull handle, the one end fixedly connected with sliding block of pull handle, the top fixedly connected with movable clamp plate of sliding block, one side that the sliding block is close to the pull handle is provided with reset spring.

As the optimization of the technical scheme, the pull handle penetrates through the outer wall of the supporting plate and extends into the sliding groove, the reset spring is movably sleeved at one end, close to the sliding block, of the pull handle, and the movable clamping plate and the sliding groove form a sliding structure through the sliding block.

According to the utility model, through the driving mechanism, when the measurement and control equipment body is required to be overhauled, the double-shaft motor is started to drive the driving rotating shaft to rotate, the driving rotating shaft drives the first driving conical gear to rotate, the first driving conical gear drives the first driven conical gear to rotate, the first driven conical gear drives the first threaded screw rod to rotate, the first threaded screw rod drives the L-shaped moving block to move outwards along the moving groove, and then drives the fixing mechanism fixed at the top of the L-shaped moving block to move outwards, so that the measurement and control equipment body is driven to move outwards, meanwhile, the rotation of the first threaded screw rod drives the second driving conical gear to rotate, the second driving conical gear drives the second driven conical gear to rotate, the second threaded screw rod drives the lifting block to move upwards along the lifting groove, the lifting block drives the dust-proof plate to move upwards, after the device body is opened, the measurement and control equipment body can be disassembled by pulling the pulling handle, the operation is convenient, and the overhauling efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of an open internal structure of a GPRS network remote measurement and control device;

FIG. 2 is a schematic diagram of the overall structure of a GPRS network remote measurement and control device;

FIG. 3 is a schematic diagram of the internal structure of a section of a protection box of a GPRS network remote measurement and control device;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3 at A;

FIG. 5 is an enlarged schematic view of the structure of FIG. 3 at B;

FIG. 6 is a schematic diagram of a cross-sectional structure of a protection box of a GPRS network remote measurement and control device;

fig. 7 is a schematic diagram of a cross-sectional structure of a fixing mechanism of a GPRS network remote measurement and control device.

In the figure: 1. a protective case; 2. a dust-proof plate; 3. a measurement and control device main body; 4. a fixing mechanism; 41. a support plate; 42. a pull handle; 43. moving the clamping plate; 44. a fixed clamping plate; 45. a sliding block; 46. a return spring; 47. a sliding groove; 5. a driving mechanism; 51. a biaxial motor; 52. a driving rotating shaft; 53. a first driving bevel gear; 54. a first driven bevel gear; 55. a first threaded screw; 56. an L-shaped moving block; 57. a second driving bevel gear; 58. a second driven bevel gear; 59. a second threaded screw rod; 510. a lifting block; 6. a lifting groove; 7. and a moving groove.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1-3 and fig. 6, the present utility model provides a technical solution: the utility model provides a GPRS network remote measurement and control equipment, including protection box 1, the movable tank 7 has been seted up to the inner chamber wall both sides bottom symmetry of protection box 1, lift groove 6 has still been seted up to the inner chamber wall both sides symmetry of protection box 1, actuating mechanism 5 is installed to the inner chamber bottom of protection box 1, actuating mechanism 5 includes biax motor 51, L shape movable block 56 and lift piece 510, one side fixedly connected with dust guard 2 of lift piece 510 keeping away from lift groove 6, the top fixedly connected with fixed establishment 4 of L shape movable block 56, fixed establishment 4 includes the backup pad 41 of fixed connection at L shape movable block 56 top, top one side fixedly connected with fixed splint 44 of backup pad 41, the top of backup pad 41 is equipped with measurement and control equipment main part 3, fixed establishment 4 constitutes sliding structure through L shape movable block 56 and movable tank 7, dust guard 2 constitutes sliding structure through lift piece 510 and lift groove 6, the quantity of lift piece 510 and L shape movable block 56 is two sets of, and be symmetrical distribution.

Further, through fixed establishment 4 and actuating mechanism 5 that set up, through the lift groove 6 and the removal groove 7 of seting up, make the transmission subassembly of installation inside more stable when the operation, through pulling handle 42, can dismantle measurement and control equipment main part 3, loosen handle 42, can install fixedly to measurement and control equipment main part 3, through start biax motor 51, control biax motor 51 drives initiative pivot 52 clockwise rotation, can accomplish the rising to dust guard 2 with its outside of opening with measurement and control equipment main part 3 shift out to protection box 1, through start biax motor 51, control biax motor 51 drives initiative pivot 52 anticlockwise rotation, can accomplish the decline to the dust guard 2 and close the inside with measurement and control equipment main part 3 to protection box 1.

As an implementation manner in this embodiment, as shown in fig. 3-5, the bottom of the dual-shaft motor 51 is fixedly installed at the bottom of the inner cavity of the protection box 1, two output shafts of the dual-shaft motor 51 are fixedly connected with driving rotating shafts 52, one ends of the two driving rotating shafts 52, which are far away from each other, are fixedly connected with first driving conical gears 53, one side of each first driving conical gear 53 is meshed with a first driven conical gear 54, one end of each first driven conical gear 54 is fixedly connected with a first threaded screw 55, one end of each first threaded screw 55, which is far away from each first driven conical gear 54, is fixedly connected with a second driving conical gear 57, one side of each second driving conical gear 57 is meshed with a second driven conical gear 58, the top end of each second driven conical gear 58 is fixedly connected with a second threaded screw 59, two ends of each first threaded screw 55 are in bearing connection with the protection box 1, one end of each second threaded screw 59, which is far away from each second driven conical gear 58, is in threaded connection with an L-shaped moving block 56, and each second threaded screw 59 is in threaded connection with a lifting block 510.

Further, the driving mechanism 5 is arranged, when the main body of the measurement and control device needs to be overhauled, the double-shaft motor 51 is started, the driving rotary shaft 52 is driven to rotate by the double-shaft motor 51, the driving rotary shaft 52 is driven to rotate by the first driving conical gear 53, the first driven conical gear 54 is driven to rotate by the first threaded screw 55, the first threaded screw 55 can drive the L-shaped moving block 56 to move outwards along the moving groove 7, then the fixing mechanism 4 fixed at the top of the L-shaped moving block 56 is driven to move outwards, so that the main body 3 of the measurement and control device is driven to move outwards, meanwhile, the second driving conical gear 57 is driven to rotate by the rotation of the first threaded screw 55, the second driven conical gear 58 is driven to rotate by the second driving conical gear 57, the second threaded screw 59 is driven to move by the lifting block 510 upwards along the lifting groove 6, and the dust-proof plate 2 is driven to move upwards by the lifting block 510.

As an implementation manner in this embodiment, as shown in fig. 7, a sliding groove 47 is formed on a side, away from the top of the fixed clamping plate 44, of the supporting plate 41, a pull handle 42 is provided on a side, close to the sliding groove 47, of the supporting plate 41, one end of the pull handle 42 is fixedly connected with a sliding block 45, the top of the sliding block 45 is fixedly connected with a movable clamping plate 43, a return spring 46 is provided on a side, close to the pull handle 42, of the sliding block 45, the pull handle 42 extends into the sliding groove 47 through the outer wall of the supporting plate 41, the return spring 46 is movably sleeved on one end, close to the sliding block 45, of the pull handle 42, and the movable clamping plate 43 and the sliding groove 47 form a sliding structure through the sliding block 45.

Further, through the fixed establishment 4 that sets up, place the measurement and control equipment main part 3 at the top that backup pad 41 is close to fixed splint 44, thereby through outwards pulling pull handle 42, pull handle 42 drives slider 45 outwards slide along slide groove 47, slider 45 drives the outside slip of movable splint 43 and breaks away from the fixed to measurement and control equipment main part 3 step by step, thereby be convenient for dismantle the measurement and control equipment main part 3 fast, in the outside gliding in-process of slider 45, slider 45 can extrude reset spring 46, reset spring 46 is in the compression state this moment, after loosening pull handle 42, under reset action of reset spring 46, push away movable splint 43 to one side of measurement and control equipment main part 3, thereby be convenient for carry out the centre gripping to the measurement and control equipment main part 3 fast, avoid it to drop.

Working principle: when the main body of the measurement and control equipment needs to be overhauled, by starting the double-shaft motor 51, the double-shaft motor 51 is controlled to drive the driving rotating shaft 52 to rotate clockwise, the driving rotating shaft 52 drives the first driving conical gear 53 to rotate, the first driving conical gear 53 drives the first driven conical gear 54 to rotate, the first driven conical gear 54 drives the first threaded screw 55 to rotate, the first threaded screw 55 drives the L-shaped moving block 56 to move outwards along the moving groove 7, and then drives the fixing mechanism 4 fixed at the top of the L-shaped moving block 56 to move outwards, so that the main body 3 of the measurement and control equipment is driven to move outwards, meanwhile, the rotation of the first threaded screw 55 also drives the second driving conical gear 57 to rotate, the second driving conical gear 57 drives the second driven conical gear 58 to rotate, the second driven conical gear 58 drives the second threaded screw 59 to rotate, the lifting block 510 moves upwards along the lifting groove 6, the lifting block 510 drives the dust-proof plate 2 to move upwards, the lifting of the dust-proof plate 2 can finish the lifting of the dust-proof plate 2 and simultaneously move the main body 3 of the measurement and control equipment out of the measurement and control equipment to the outside of the protection box 1, the double-shaft motor is driven by driving the fixing mechanism 4 fixed at the top of the L-shaped moving block 56, so that the main body 3 of the measurement and control equipment is driven to move outwards, meanwhile, the first driving conical gear 55 drives the second driving conical gear 52 to move outwards, the second driving conical gear 52 rotates outwards, the second driving conical gear 52, the second driving conical gear 55 drives the second driving conical gear 55 to rotate, the second driving conical gear 45, the second lifting plate 45 rotates upwards, the second lifting plate 45, the lifting plate 45 and the lifting plate 45, and the lifting plate 45 so as to finish the lifting plate 45, and the lifting main body 45. After loosening the pull handle 42, under the reset action of the reset spring 46, the movable clamping plate 43 is pushed to one side of the measurement and control equipment main body 3, so that the fixing of the measurement and control equipment main body 3 is conveniently and rapidly completed, the use stability is improved, the falling of the measurement and control equipment main body 3 is avoided, the disassembly, the installation and the maintenance of the measurement and control equipment main body 3 are conveniently and rapidly carried out, the operation is convenient and fast, and the maintenance efficiency is improved.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting.

Claims (6)

1. The GPRS network remote measurement and control equipment comprises a protection box (1), and is characterized in that: the utility model discloses a protection box, including protection box (1), protection box, backup pad, fixed connection, measuring and controlling equipment main part (3) are located in the inner chamber wall both sides bottom symmetry of protection box (1), removal groove (7) have been seted up to protection box (1), lift groove (6) have still been seted up to protection box (1) inner chamber wall both sides symmetry, actuating mechanism (5) are installed to protection box (1) inner chamber bottom, actuating mechanism (5) are including biax motor (51), L shape movable block (56) and lifter (510), one side fixedly connected with dust guard (2) of lift groove (6) are kept away from to lifter (510), the top fixedly connected with fixed establishment (4) of L shape movable block (56), fixed establishment (4) include backup pad (41) at L shape movable block (56) top, top one side fixedly connected with fixed splint (44) of backup pad (41), the top of backup pad (41) is equipped with measurement and control equipment main part (3).

2. A GPRS network remote measurement and control device according to claim 1, characterized in that: the fixed mechanism (4) forms a sliding structure with the moving groove (7) through the L-shaped moving block (56), the dust-proof plate (2) forms a sliding structure with the lifting groove (6) through the lifting block (510), and the lifting block (510) and the L-shaped moving block (56) are two groups in number and are symmetrically distributed.

3. A GPRS network remote measurement and control device according to claim 1, characterized in that: the bottom fixed mounting of biax motor (51) is in the inner chamber bottom of protection box (1), the equal fixedly connected with initiative pivot (52) of two output shafts of biax motor (51), two the equal fixedly connected with first initiative conical gear (53) of one end that initiative pivot (52) kept away from each other, one side meshing of first initiative conical gear (53) has first driven conical gear (54), one end fixedly connected with first screw thread lead screw (55) of first driven conical gear (54), one end fixedly connected with second initiative conical gear (57) of first screw thread lead screw (55) kept away from first driven conical gear (54), one side meshing of second initiative conical gear (57) has second driven conical gear (58), the top fixedly connected with second screw thread lead screw (59) of second driven conical gear (58).

4. A GPRS network remote measurement and control device according to claim 3, characterized in that: the two ends of the first threaded screw rod (55) are connected with the bearing of the protection box (1), one end, far away from the second driven bevel gear (58), of the second threaded screw rod (59) is connected with the bearing of the protection box (1), the first threaded screw rod (55) is in threaded connection with the L-shaped movable block (56), and the second threaded screw rod (59) is in threaded connection with the lifting block (510).

5. A GPRS network remote measurement and control device according to claim 1, characterized in that: the utility model discloses a fixed splint, including fixed splint (44) and backup pad, backup pad (41) are kept away from top one side of fixed splint (44) and have been seted up sliding tray (47), one side that backup pad (41) are close to sliding tray (47) is provided with draws handle (42), the one end fixedly connected with sliding block (45) of drawing handle (42), the top fixedly connected with of sliding block (45) removes splint (43), one side that sliding block (45) are close to drawing handle (42) is provided with reset spring (46).

6. The GPRS network remote measurement and control device according to claim 5, wherein: the pull handle (42) penetrates through the outer wall of the supporting plate (41) to extend into the sliding groove (47), the reset spring (46) is movably sleeved at one end, close to the sliding block (45), of the pull handle (42), and the movable clamping plate (43) and the sliding groove (47) form a sliding structure through the sliding block (45).