CN211207145U - Engineering quality monitoring device based on wireless measurement and control technology - Google Patents

Abstract

The utility model discloses an engineering quality monitoring device based on wireless measurement and control technique realizes, the loach carrying platform comprises a supporting fram, the upper surface of support frame is provided with elevating system, the upper surface of support frame and the right side fixed mounting who is located elevating system have control mechanism, the lower fixed surface of support frame installs fixed establishment, elevating system's bottom fixed mounting has monitor. An engineering quality monitoring device based on wireless measurement and control technique realizes, through the elevating system who sets up, can go on from top to bottom no dead angle control to engineering production process, very big guarantee engineering quality, efficiency is higher, elevating system and monitor through setting up, make monitor be convenient for install and change, the practicality is stronger, the security is stronger, the mode of using more to peg graft, convenient to detach and change like this, the practicality is stronger, through the glass groove that sets up, be convenient for change and wash the protection lens, convenient and fast.

Description

Engineering quality monitoring device based on wireless measurement and control technology

Technical Field

The utility model relates to a quality control field, in particular to engineering quality monitoring device field based on wireless measurement and control technique realizes.

Background

The wireless measurement and control technology is specially designed for application occasions needing distributed monitoring, a system adopts a high-precision data collector to obtain various operating parameters, data are transmitted to a remote measurement and control center in real time through a wireless network, the comprehensive monitoring of the working process is realized, workers in the monitoring center can master the working condition of each device at any time and judge whether the device works or not.

Present engineering quality monitoring device has some problems, firstly, current monitoring device can only be fixed in a position mostly, there is the control dead angle, secondly, current monitoring device is when changing or dismantling, it is comparatively difficult, and finally, and current monitor probe's protection lens is when damaging or need wash, need dismantle the probe, it is comparatively troublesome, current monitoring device relies on outside power supply mostly, both can't work after the outage, in view of this, we propose an engineering quality monitoring device based on wireless measurement and control technique realization.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an engineering quality monitoring device based on wireless measurement and control technique realizes, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an engineering quality monitoring device based on wireless measurement and control technique realizes, includes the support frame, the upper surface of support frame is provided with elevating system, the upper surface of support frame and the right side fixed mounting that is located elevating system have control mechanism, the lower fixed surface of support frame installs fixed establishment, elevating system's bottom fixed mounting has monitor.

Further, the bottom fixed mounting of support frame has the switch, the through-hole has been seted up to the upper surface of support frame, the last fixed surface of support frame installs the motor mount, the top fixed mounting of motor mount has micro motor.

Further, the fixed cover of micro motor's output has connect the gear, the surface meshing transmission of gear is connected with the rack, the upper end fixed mounting of rack has the limiting plate, the lower extreme of rack passes through-hole and monitor fixed connection, the fixed slot has been seted up to the both sides of the bottom of rack, the interior edge screw hole of seting up of fixed slot, the tip fixed mounting of the bottom of rack has the inserted block, through the elevating system who sets up, can carry out from top to bottom no dead angle control to the engineering production process, very big guarantee engineering quality, efficiency is higher.

Further, control mechanism's inside fixed mounting has microprocessor, control mechanism's inside and the left side fixed mounting who is located microprocessor have wireless transmitter, control mechanism's inside and the left side fixed mounting who is located wireless transmitter have a storage power supply, microprocessor's output and micro motor electric connection, microprocessor's input and monitor pass through LAN wireless connection, through the inside storage power supply of control mechanism who sets up, can supply power when external power supply is cut off, prevent to take place the incident when external power supply is cut off, and the security is stronger.

Furthermore, a slot is formed in the upper surface of the fixing mechanism, a fixing piece is fixedly mounted inside the slot, the middle of the rack is movably connected with the slot in an inserting mode, and the inner surface of the fixing piece is connected with the rack in a sliding mode.

Further, the glass groove has been seted up to monitor's upper surface, the inside in glass groove is pegged graft and is fixed with the protection lens, monitor's the middle part fixed mounting of upper surface has the picture peg, the thread groove has been seted up at the side middle part of picture peg, monitor's upper surface and the middle part that is located two picture pegs are seted up flutedly, and elevating system and monitor through setting up make monitor be convenient for install and change, and the practicality is stronger, and the security is stronger, through the glass groove that sets up, is convenient for change and wash the protection lens, convenient and fast.

Further, the side of picture peg is pegged graft fixedly with the fixed slot, the surface and the recess of inserted block are pegged graft fixedly, the interior edge of thread groove passes through the bolt fastening with the screw hole, and the inserted block through elevating system's bottom is pegged graft with the recess, and the bolt is connected screw hole and thread groove, the mode of using more to peg graft, convenient to detach and change like this, and the practicality is stronger.

Further, the model of monitor probe is DSIPCB121, wireless transmitter's model is HCT01, microprocessor is the C51 singlechip, microprocessor passes through P L C system control micro motor and rotates, switch and microprocessor electric connection, microprocessor's output and wireless transmitter electric connection.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. through the elevating system who sets up, can go on from top to bottom not having the dead angle control to the engineering production process, very big guarantee engineering quality, efficiency is higher, when using, control mechanism passes through P L C system control micro motor and rotates, micro motor drives the gear and rotates, gear and rack meshing transmission, the rack is under the effect of stationary blade, the steady lift, the monitor that is located the rack bottom can reciprocate along with the rack, at this moment can carry out a plurality of dimension real time monitoring from top to bottom to the engineering production process, very big guarantee engineering quality, certain practicality has.

2. Through elevating system and the monitor that sets up, make monitor be convenient for install and change, the practicality is stronger, the security is stronger, when needs installation or change monitor, can be directly when elevating system lands the minimum, closing switch, at this moment monitor stops to go up and down, install or change monitor in the low place, do not need the artificial eminence installation of climbing, the security is stronger, the inserted block and the recess grafting of bottom through elevating system, the bolt is connected screw hole and thread groove, the mode of using more to peg graft, convenient to detach and change like this, the practicality is stronger.

3. Through the glass groove that sets up, be convenient for change and wash the protective glass piece, convenient and fast damages at the protective glass piece, when needing to change the protective glass piece, directly takes out the protective glass piece from the glass groove, needn't dismantle monitor, and convenient and fast can supply power when external power is cut off through the inside storage power of the control mechanism who sets up, prevents to take place the incident when external power is cut off, and the security is stronger.

Drawings

Fig. 1 is the utility model relates to an engineering quality monitoring device's overall structure schematic diagram based on wireless measurement and control technique realizes.

Fig. 2 is the utility model relates to an engineering quality monitoring device's partial structure schematic diagram based on wireless measurement and control technique realizes.

Fig. 3 is the utility model relates to an engineering quality monitoring device's elevating system and fixed establishment's schematic diagram of being connected based on wireless measurement and control technique realizes.

Fig. 4 is the utility model relates to an engineering quality monitoring device's A's enlarged schematic diagram in fig. 2 based on wireless measurement and control technique realizes.

Fig. 5 is the utility model relates to an engineering quality monitoring device's control mechanism schematic structure based on wireless measurement and control technique realizes.

Fig. 6 is the utility model relates to an engineering quality monitoring device's monitor based on wireless measurement and control technique realizes's schematic structure.

In the figure: 1. a support frame; 2. a lifting mechanism; 3. a control mechanism; 4. a fixing mechanism; 5. monitoring the probe; 101. a switch; 102. a through hole; 201. a motor fixing frame; 202. a micro motor; 203. a gear; 204. a rack; 205. a limiting plate; 206. fixing grooves; 207. a threaded hole; 208. inserting a block; 301. a microprocessor; 302. a wireless transmitter; 303. storing the power supply; 401. a slot; 402. a fixing sheet; 501. protecting the lens; 502. a glass tank; 503. inserting plates; 504. a thread groove; 505. and (4) a groove.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Example 1

As shown in fig. 1-6, an engineering quality monitoring device based on wireless measurement and control technology comprises a support frame 1, wherein an elevating mechanism 2 is arranged on the upper surface of the support frame 1, a control mechanism 3 is fixedly arranged on the upper surface of the support frame 1 and on the right side of the elevating mechanism 2, a fixing mechanism 4 is fixedly arranged on the lower surface of the support frame 1, and a monitoring probe 5 is fixedly arranged at the bottom end of the elevating mechanism 2.

The switch 101 is fixedly installed at the bottom of the support frame 1, the through hole 102 is formed in the upper surface of the support frame 1, the motor fixing frame 201 is fixedly installed on the upper surface of the support frame 1, and the micro motor 202 is fixedly installed above the motor fixing frame 201.

The fixed cover of micro motor 202's output has connected with gear 203, the surface meshing transmission of gear 203 is connected with rack 204, the upper end fixed mounting of rack 204 has limiting plate 205, the lower extreme of rack 204 passes through-hole 102 and monitor 5 fixed connection, fixed slot 206 has been seted up to the both sides of the bottom of rack 204, threaded hole 207 has been seted up along in the fixed slot 206, the tip fixed mounting of the bottom of rack 204 has inserted block 208, elevating system 2 through the setting, can go on from top to bottom no dead angle control to the engineering production process, very big guarantee engineering quality, high efficiency.

The slot 401 is opened to the upper surface of fixed establishment 4, and the inside fixed mounting of slot 401 has stationary blade 402, and the middle part and the slot 401 activity of rack 204 are pegged graft, and the internal surface and the rack 204 sliding connection of stationary blade 402 set up rack 204 like this and under the effect of stationary blade 402, stably go up and down.

Through the elevating system 2 that sets up, can go on from top to bottom no dead angle control to the engineering production process, very big guarantee engineering quality, efficiency is higher, when using, control mechanism 3 rotates through P L C system control micro motor 202, micro motor 202 drives gear 203 and rotates, gear 203 and rack 204 meshing transmission, rack 204 is under stationary blade 402's effect, the steady lift, the monitor 5 that is located rack 204 bottom can reciprocate along with rack 204, at this moment can carry out a plurality of dimension real time monitoring from top to bottom to the engineering production process, very big guarantee engineering quality, certain practicality has.

Example 2

As shown in fig. 1-6, an engineering quality monitoring device based on wireless measurement and control technology comprises a support frame 1, wherein an elevating mechanism 2 is arranged on the upper surface of the support frame 1, a control mechanism 3 is fixedly arranged on the upper surface of the support frame 1 and on the right side of the elevating mechanism 2, a fixing mechanism 4 is fixedly arranged on the lower surface of the support frame 1, and a monitoring probe 5 is fixedly arranged at the bottom end of the elevating mechanism 2.

The output end of the micro motor 202 is fixedly sleeved with a gear 203, the outer surface of the gear 203 is connected with a rack 204 in a meshing transmission mode, the upper end of the rack 204 is fixedly provided with a limiting plate 205, the lower end of the rack 204 penetrates through the through hole 102 to be fixedly connected with the monitoring probe 5, two sides of the bottom of the rack 204 are provided with fixing grooves 206, the inner edges of the fixing grooves 206 are provided with threaded holes 207, and the end part of the bottom end of the rack 204 is fixedly provided with an insert block 208.

Glass groove 502 has been seted up to monitor 5's upper surface, glass groove 502's inside grafting is fixed with protective glass piece 501, monitor 5's upper surface's middle part fixed mounting has picture peg 503, picture peg 503's side middle part has seted up thread groove 504, monitor 5's upper surface and the middle part that is located two picture pegs 503 have seted up recess 505, through elevating system 2 and the monitor 5 that sets up, make monitor 5 be convenient for install and change, the practicality is stronger, and the security is stronger.

The side surface of the inserting plate 503 is fixedly inserted into the fixing groove 206, the outer surface of the inserting block 208 is fixedly inserted into the groove 505, the inner edge of the thread groove 504 is fixed with the thread hole 207 through a bolt, the inserting block 208 at the bottom of the lifting mechanism 2 is inserted into the groove 505, the thread hole 207 and the thread groove 504 are connected through a bolt, and the inserting mode is used in many ways, so that the dismounting and the replacement are convenient, and the practicability is high.

Through elevating system 2 and monitor 5 who sets up, make monitor 5 be convenient for installation and change, the practicality is stronger, the security is stronger, when needs installation or change monitor 5, can be directly when elevating system 2 descends the minimum, close switch 101, at this moment monitor 5 stops to go up and down, install or change monitor 5 in the low place, do not need the artificial eminence installation of climbing, the security is stronger, inserted block 208 and recess 505 through elevating system 2's bottom are pegged graft, the bolt is connected screw hole 207 and thread groove 504, the mode of pegging graft is used more, convenient to detach and change like this, the practicality is stronger.

Example 3

As shown in fig. 1-6, an engineering quality monitoring device based on wireless measurement and control technology comprises a support frame 1, wherein an elevating mechanism 2 is arranged on the upper surface of the support frame 1, a control mechanism 3 is fixedly arranged on the upper surface of the support frame 1 and on the right side of the elevating mechanism 2, a fixing mechanism 4 is fixedly arranged on the lower surface of the support frame 1, and a monitoring probe 5 is fixedly arranged at the bottom end of the elevating mechanism 2.

Control mechanism 3's inside fixed mounting has microprocessor 301, control mechanism 3's inside and the left side fixed mounting who is located microprocessor 301 have wireless transmitter 302, control mechanism 3's inside and the left side fixed mounting who is located wireless transmitter 302 have storage power 303, microprocessor 301's output and micro motor 202 electric connection, microprocessor 301's input and monitor 5 pass through LAN wireless connection, through the inside storage power 303 of control mechanism 3 who sets up, can supply power when external power is cut off, prevent that the incident takes place when external power is cut off, the security is stronger.

The upper surface of the monitoring probe 5 is provided with a glass groove 502, the inside of the glass groove 502 is fixedly inserted with a protective lens 501, the middle part of the upper surface of the monitoring probe 5 is fixedly provided with an inserting plate 503, the middle part of the side surface of the inserting plate 503 is provided with a thread groove 504, the upper surface of the monitoring probe 5 and the middle parts of the two inserting plates 503 are provided with grooves 505, and the protective lens 501 is convenient to replace and clean through the arranged glass groove 502, thereby being convenient and fast.

Through the glass groove 502 that sets up, be convenient for change and wash protective glass piece 501, convenient and fast, damage protective glass piece 501, when protective glass piece 501 needs to be changed, directly take out protective glass piece 501 from glass groove 502, needn't dismantle monitor 5, convenient and fast, through the inside storage power 303 of control mechanism 3 that sets up, can supply power when external power is cut off, prevent to take place the incident when external power is cut off, the security is stronger.

It should be noted that, the utility model relates to an engineering quality monitoring device based on wireless measurement and control technique realization, when using, at first, fix the bottom of support frame 1 subaerial, and the circular telegram, when using, control mechanism 3 passes through P L C system control micro motor 202 and rotates, micro motor 202 drives gear 203 and rotates, gear 203 and rack 204 meshing transmission, rack 204 is under the effect of stationary blade 402, the steady lift, the monitor probe 5 that is located rack 204 bottom can reciprocate along with rack 204, at this moment, can carry out a plurality of dimension real time monitoring from top to bottom to the engineering production process, very big guarantee engineering quality, certain practicality has, secondly, when needing to install or change monitor probe 5, can be directly when elevating system 2 descends the minimum, close switch 101, at this moment monitor probe 5 stops going up and down, install or change monitor probe 5 in the low place, do not need the artificial eminence installation of climbing, the security is stronger, plug 208 and recess 505 grafting through elevating system 2's bottom, bolt 207 and thread groove 504 connection, the mode of grafting is convenient to use more, it changes and changes the monitor probe 5 like this, need not to be convenient for the high altitude installation, the protection glass is installed, the safety is prevented that the lens from outside to take place the direct control of taking out of the inside control probe 501, the protection glass, the convenient change, the power supply can be taken out, the convenient for the safety, the protection lens 501, the safety is more convenient change, the protection.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an engineering quality monitoring device based on wireless measurement and control technique realizes, includes support frame (1), its characterized in that: the upper surface of support frame (1) is provided with elevating system (2), the right side fixed mounting that the upper surface of support frame (1) just is located elevating system (2) has control mechanism (3), the lower fixed surface of support frame (1) installs fixed establishment (4), the bottom fixed mounting of elevating system (2) has monitor (5).

2. The engineering quality monitoring device realized based on the wireless measurement and control technology according to claim 1, characterized in that: the bottom fixed mounting of support frame (1) has switch (101), through-hole (102) have been seted up to the upper surface of support frame (1), the last fixed surface of support frame (1) installs motor mount (201), the top fixed mounting of motor mount (201) has micro motor (202).

3. The engineering quality monitoring device realized based on the wireless measurement and control technology according to claim 2 is characterized in that: the fixed cover of output of micro motor (202) has connect gear (203), the surface meshing transmission of gear (203) is connected with rack (204), the upper end fixed mounting of rack (204) has limiting plate (205), the lower extreme of rack (204) passes through-hole (102) and monitor (5) fixed connection, fixed slot (206) have been seted up to the both sides of the bottom of rack (204), interior along set up threaded hole (207) of fixed slot (206), the tip fixed mounting of the bottom of rack (204) has inserted block (208).

4. The engineering quality monitoring device realized based on the wireless measurement and control technology according to claim 1, characterized in that: the utility model discloses a wireless monitoring system, including control mechanism (3), the inside fixed mounting of control mechanism (3) has microprocessor (301), the inside of control mechanism (3) and the left side fixed mounting who is located microprocessor (301) have wireless transmitter (302), the inside of control mechanism (3) and the left side fixed mounting who is located wireless transmitter (302) have storage power (303), the output and micro motor (202) electric connection of microprocessor (301), the input and the monitor (5) of microprocessor (301) pass through LAN wireless connection.

5. The engineering quality monitoring device realized based on the wireless measurement and control technology according to claim 3, characterized in that: the upper surface of fixed establishment (4) has seted up slot (401), the inside fixed mounting of slot (401) has stationary blade (402), the middle part and the slot (401) activity of rack (204) are pegged graft, the internal surface and the rack (204) sliding connection of stationary blade (402).

6. The engineering quality monitoring device realized based on the wireless measurement and control technology according to claim 1, characterized in that: glass groove (502) have been seted up to the upper surface of monitor (5), the inside grafting of glass groove (502) is fixed with protection lens (501), the middle part fixed mounting of the upper surface of monitor (5) has picture peg (503), thread groove (504) have been seted up at the side middle part of picture peg (503), the middle part that the upper surface of monitor (5) just is located two picture pegs (503) is seted up fluted (505).

7. The engineering quality monitoring device realized based on the wireless measurement and control technology according to claim 3 or 6, characterized in that: the side surface of the insert plate (503) is fixedly inserted into the fixing groove (206), the outer surface of the insert block (208) is fixedly inserted into the groove (505), and the inner edge of the thread groove (504) is fixed with the thread hole (207) through a bolt.

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