CN201569685U - Voltage measuring apparatus - Google Patents
Voltage measuring apparatus Download PDFInfo
- Publication number
- CN201569685U CN201569685U CN2009202956226U CN200920295622U CN201569685U CN 201569685 U CN201569685 U CN 201569685U CN 2009202956226 U CN2009202956226 U CN 2009202956226U CN 200920295622 U CN200920295622 U CN 200920295622U CN 201569685 U CN201569685 U CN 201569685U
- Authority
- CN
- China
- Prior art keywords
- resistance
- contact
- measuring
- measuring disk
- node
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Measurement Of Resistance Or Impedance (AREA)
Abstract
The utility model discloses a voltage measuring apparatus, four step panels of which all consist of a measuring panel and a substituting panel, wherein the resistance values on the measuring panel and the substituting panel are both integer power of ten, and the resistances can be compared by the using standard resistance at an electric bridge, thus improving the manufacturing precision of the resistance and also increasing the measuring accuracy of the whole voltage measuring apparatus; and the four measuring panels are connected by leads directly, without being switched by switches, so that contact resistance variation influence of the switches does not exist when the voltage measuring apparatus is in measuring.
Description
Technical field
The utility model relates to the instrument of measuring DC voltage.
Background technology
Announced the ZL200510062375.1 patent of invention on May 7th, 2008, it is a kind of voltage-measuring equipment that four step discs are arranged, its the 3rd, the 4th step disc respectively has measuring disk, replacement dish and bracket panel are formed, measuring disk is identical with resistance on the replacement dish, resistance of the every increase of measuring disk, the replacement dish just reduces same resistance, because the 3rd step disc is declined in the time of the 10th, the total resistance of circuit changed when the 4th step disc was put different indicating value, the 3rd step disc is put in the time of the 10th, the total resistance of circuit was constant when the 4th step disc was put different indicating value, the 3rd step disc removes for this reason measuring disk, outside the replacement dish, having increased bracket panel distinguishes step disc and puts the 10th and the circuit of declining the 0 10th. two kind of situation and connect, the 4th step disc has also increased bracket panel, has 10 resistance to insert or cut out several resistance respectively above and makes the total resistance of circuit constant.Four measurement disks is connected two and measures between terminal, and the switch contact resistance variation influence on the step disc is got rid of outside the measurement loop.
Because the 3rd, the 4th step disc all has bracket panel, increased the number of plies of the 3rd, the 4th step disc switch, thereby increased the volume of instrument, also make switch and apparatus structure become complicated, if find in the instrument verification process that particularly the 3rd, the 4th step disc measurement data is overproof, the internal layer resistance that revise the 3rd, the 4th step disc switch bothers very much.Application number 200820120442.4 makes progress than ZL200510062375.1, behind the replacement dish brush of first step disc, is divided into two-way but the electric current of these two kinds of voltage-measuring equipments is flowed through, and through each step disc, merges in the measuring disk brush of first step disc; The problem that it brings is that second and third, four resistances of coiling last resistance all are that two same numbers are formed, and resistance is again little, does not have measuring resistance to compare; As use interim standard resistance, the lead-in wire error between two interim standard resistance is just difficult so; Therefore this voltage-measuring equipment second and third, the resistances of four dishes are difficult to do accurately.
The utility model content
The purpose of this utility model is, when voltage-measuring equipment has four step discs, and contact resistance and variation that the measuring switch stepping is switched, the switch thermoelectrical potential does not influence measurement result; And three, the 4th step disc is all without bracket panel.Making four resistance on the step disc all be designed to resistance is 10 integral number power, and available standards resistance compares at electric bridge, and manufacturing brings convenience to instrument for this.Simultaneously, it also has two ranges.
The technical solution of the utility model is:
Electric current from voltage-measuring equipment 4.5V working power positive pole through 8 Ω resistance R
5Resistor network and range transfer resistance to four step discs between node A, the B arrive dpdt double-pole double-throw (DPDT) range selector K
1Reach 463 Ω setting resistance R N and range of adjustment at the lockable adjustable resistance R of 0~0.5 Ω
P3, again to the resistance R of 437 Ω
0, through the adjustable resistance R of 0~18 Ω
P2Reach the adjustable resistance R that forms by 20 17 Ω resistance
P1Get back to the working power negative pole and form the work loop of voltage-measuring equipment; From standard cell EN positive pole through being connected to galvanometer G double-point double-throw switch K between two normally closed contacts
2, to setting up resistance R N and lockable adjustable resistance R
P3, arrive the standard cell negative pole again and form the voltage-measuring equipment standard loop; It is characterized in that first step disc between node A, the B is by each I measuring disk and the I ' replacement dish of being made up of 19 100 Ω resistance, the brush of I measuring disk is communicated with the brush of the I ' replacement dish, second step disc passes through 2000 Ω resistance R by each II measuring disk and the II ' replacement dish of being made up of 10 10 Ω resistance between the brush of the brush of II measuring disk and the II ' replacement dish
1Connect, the 3rd step disc passes through 110 Ω resistance R by each III measuring disk and the III ' replacement dish of being made up of 10 10 Ω resistance between the brush of the brush of III measuring disk and the III ' replacement dish
3Connect, by IV measuring disk and the IV ' replacement dish that 10 1 Ω resistance are formed, the brush of IV measuring disk is communicated with the brush of the IV ' replacement dish the 4th step disc by each; Voltage-measuring equipment working power positive pole is through 8 Ω resistance R
5Be divided into two branch roads behind node A: left side branch node A connects the II ' replacement and coils the 10th contact, the II ' replacement is coiled the 0th contact and is connected the I ' replacement and coil the 19th contact, I measuring disk the 0th contact connects II measuring disk the 10th contact, II measuring disk the 0th contact connected node B; The right branch node A is by 10450 Ω resistance R
2The back connects the III ' replacement and coils the 0th contact, and the III ' replacement is coiled the 10th contact and connected the IV ' replacement and coil the 0th contact, and IV measuring disk the 10th contact connects III measuring disk the 0th contact, and III measuring disk the 10th contact is by 395 Ω resistance R
4Back connected node B; 112 Ω resistance r
1An end and resistance R
5Be parallel to node C, node C connects voltage-measuring equipment working power positive pole, resistance r
1The other end connect dpdt double-pole double-throw (DPDT) range selector K
1K
1-1Layer * 0.1 range contact, Node B connects dpdt double-pole double-throw (DPDT) range selector K
1K
1-1Layer and K
1-2Two normally closed contact of layer, 907.4 Ω resistance r
2Two ends connect dpdt double-pole double-throw (DPDT) range selector K respectively
1K
1-2Layer * 0.1 range contact and * 1 range contact, dpdt double-pole double-throw (DPDT) range selector K
1K
1-2Layer * 1 range contact connection setting resistance R N hot end; Voltage-measuring equipment is used to connect measured " U
X" two terminals, anodal terminal is connected with I measuring disk the 19th contact, the negative pole terminal is by galvanometric change-over switch K
2Be connected with IV measuring disk the 0th contact.
By above technical scheme, the measuring disk that four step discs are used for measure portion connects with lead, and contact resistance and variation be not in measuring the loop, and the just voltage-measuring equipment work loop of influence always hinders, because total resistance resistance is very big, so variation can be ignored; Owing to saved bracket panel, make apparatus structure simple, resistance on measuring disk and the replacement dish all is designed to 10 integral number power, the error of indication of this resistance can be compared with measuring resistance on electric bridge, can improve the resistance precision on the apparatus measures dish, manufacturing brings convenience to instrument for this, thereby and has also improved the measurement accuracy of voltage-measuring equipment complete machine.
Description of drawings
Fig. 1 is a kind of schematic circuit of the present utility model.
In Fig. 1, the adjustable resistance R of 20 * 17 Ω
P1Expression adjustable resistance R
P1Resistance by 20 17 Ω is formed, and in like manner, 19 * 100 Ω represent to be made up of the resistance of 19 100 Ω, and 10 * 10 Ω represent to be made up of the resistance of 10 10 Ω, and 10 * 1 Ω represent to be made up of the resistance of 10 1 Ω.
Embodiment
Among the figure, when four step discs all during reset, left side resistance value between node A, B equals (1900+100)/2 Ω+100 Ω=1100 Ω, the right resistance value between node A, B equals Ω+395 Ω=11000 Ω of 10450 Ω+100 Ω+(100+10)/2, therefore, between node A, B flow in 10/11 left side of total current, flows in 1/11 the right.When each step disc was put other contact, the resistance that measuring disk increases in each step disc equaled the resistance that the replacement dish reduces, so the resistance value on the left side and the right is constant between node A, B.
Voltage-measuring equipment standard operation electric current is 2.2mA, left side electric current is 2mA between node A, B, the right electric current is 0.2mA, left side electric current is divided into two branch roads after flowing to the contact that contacts with the II ' replacement dish brush, one the tunnel flows to the contact that contacts with II measuring disk brush through first step disc, and another road is through the II ' replacement dish brush, 2000 Ω resistance R
1To the contact that contacts with II measuring disk brush, two branch road resistance values equate, so two branch currents all are 1mA.The right electric current is divided into two branch roads after flowing to the contact that contacts with the III ' replacement dish brush, and one the tunnel flows to the contact that contacts with III measuring disk brush through the 4th step disc, and another road is through the III ' replacement dish brush, 110 Ω resistance R
3To the contact that contacts with III measuring disk brush, two branch road resistance values equate, so two branch currents all are 0.1mA.
At * 1 range, after the working current standardization, the I measuring disk is put n
1, the II measuring disk is put n
2, the III measuring disk is put n
3, the IV measuring disk is put n
4, K switch
2Throw to the left side, be positioned at this moment that voltage is between two terminals of measurement:
U
X=1×100n
1+1×10×10+1×10n
2-0.2×395-0.1×10×10-0.1×10×(10-n
3)-0.1×1×(10-n
4)(mv)
=100n
1+100+10n
2-79-10-10+n
3-1+0.1n
4(mv)
=100n
1+10n
2+n
3+0.1n
4(mv)
When * 0.1 range, all-in resistance is 1008 Ω between node C, A, B, and resistance is the resistance r of 112 Ω
1In parallel with resistance between node C, A, B, the resistance r of 112 Ω
1Resistance be 1/9 of 1008 Ω, the electric current that flows through between node A, B is reduced to * 1/10 during 1 range, then the amount limit is reduced to * 1/10 during 1 range, resistance r
1With resistance value is reduced after resistance between node A, B is in parallel, therefore in circuit, seal in 907.2
Ω resistance r
2Keep all-in resistance constant.At this moment the indicating value of four step discs is expressed as:
U
X=10n
1+n
2+0.1n
3+0.01n
4(mv)
The electromotive force of every series-produced standard cell disperses, and between 1.0188V~1.0196V, standardized working current is 2.42mA, and therefore setting up resistance R N gets 463 Ω, adds the lockable adjustable resistance R of 0~0.5 Ω
P3, variation range that can the coverage criteria cell emf.
Electromotive force was about 1.65V when dry cell was new, just abandon when following to 1.4V with old, can both make the working current of voltage-measuring equipment be adjusted to standardization in order to make dry cell under new, former affection condition, the voltage-measuring equipment operating voltage is 4.5V, adopt three groups of dry cell series connection, get adjustable resistance R
P1Be 20 * 17 Ω, adjustable resistance R
P2Be 0~18 Ω and series connection-individual 437 Ω resistance R
0
Internal attachment standard is calibration like this: at " U
x" two of two ends measure terminals and connect 2V normal voltage signal, K switch by polarity
2Throw to the left side, the measuring disk indicating value is identical with standard voltage value, regulates resistance R by regulating working current
P1And R
P2, make the galvanometer nulling, again with K switch
2Throw to the right, regulate adjustable resistance R
P3, make galvanometer nulling once more, again with K switch
2Throw to the left side, regulate adjustable resistance R
P2, make the galvanometer nulling, again with K switch
2Throw to the right, regulate adjustable resistance R
P3, make the galvanometer nulling, work as K switch
2Throw to the left side and throw when the equal nulling of galvanometer is not regulated on the right, the working current of account for voltage surveying instrument is promptly set up ohmically pressure drop and is equated with the electromotive force of unsaturated standard cell EN, at this moment with adjustable resistance R with regard to standardization
P3Locking, this voltage-measuring equipment is from now on just as standard.
Claims (1)
1. voltage-measuring equipment, electric current from voltage-measuring equipment 4.5V working power positive pole through 8 Ω resistance R
5Resistor network and range transfer resistance to four step discs between node A, the B arrive dpdt double-pole double-throw (DPDT) range selector K
1Reach 463 Ω setting resistance R N and range of adjustment at the lockable adjustable resistance R of 0~0.5 Ω
P3, again to the resistance R of 437 Ω
0, through the adjustable resistance R of 0~18 Ω
P2Reach the adjustable resistance R that forms by 20 17 Ω resistance
P1Get back to the working power negative pole and form the work loop of voltage-measuring equipment; From standard cell EN positive pole through being connected to galvanometer G double-point double-throw switch K between two normally closed contacts
2, to setting up resistance R N and lockable adjustable resistance R
P3, arrive the standard cell negative pole again and form the voltage-measuring equipment standard loop; It is characterized in that first step disc between node A, the B is by each I measuring disk and the I ' replacement dish of being made up of 19 100 Ω resistance, the brush of I measuring disk is communicated with the brush of the I ' replacement dish, second step disc passes through 2000 Ω resistance R by each II measuring disk and the II ' replacement dish of being made up of 10 10 Ω resistance between the brush of the brush of II measuring disk and the II ' replacement dish
1Connect, the 3rd step disc passes through 110 Ω resistance R by each III measuring disk and the III ' replacement dish of being made up of 10 10 Ω resistance between the brush of the brush of III measuring disk and the III ' replacement dish
3Connect, by IV measuring disk and the IV ' replacement dish that 10 1 Ω resistance are formed, the brush of IV measuring disk is communicated with the brush of the IV ' replacement dish the 4th step disc by each; Voltage-measuring equipment working power positive pole is through 8 Ω resistance R
5Be divided into two branch roads behind node A: left side branch node A connects the II ' replacement and coils the 10th contact, the II ' replacement is coiled the 0th contact and is connected the I ' replacement and coil the 19th contact, I measuring disk the 0th contact connects II measuring disk the 10th contact, II measuring disk the 0th contact connected node B; The right branch node A is by 10450 Ω resistance R
2The back connects the III ' replacement and coils the 0th contact, and the III ' replacement is coiled the 10th contact and connected the IV ' replacement and coil the 0th contact, and IV measuring disk the 10th contact connects III measuring disk the 0th contact, and III measuring disk the 10th contact is by 395 Ω resistance R
4Back connected node B; 112 Ω resistance r
1An end and resistance R
5Be parallel to node C, node C connects voltage-measuring equipment working power positive pole, resistance r
1The other end connect dpdt double-pole double-throw (DPDT) range selector K
1K
1-1Layer * 0.1 range contact, Node B connects dpdt double-pole double-throw (DPDT) range selector K
1K
1-1Layer and K
1-2Two normally closed contact of layer, 907.4 Ω resistance r
2Two ends connect dpdt double-pole double-throw (DPDT) range selector K respectively
1K
1-2Layer * 0.1 range contact and * 1 range contact, dpdt double-pole double-throw (DPDT) range selector K
1K
1-2Layer * 1 range contact connection setting resistance R N hot end; Voltage-measuring equipment is used to connect measured " U
X" two terminals, anodal terminal is connected with I measuring disk the 19th contact, the negative pole terminal is by galvanometric change-over switch K
2Be connected with IV measuring disk the 0th contact.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009202956226U CN201569685U (en) | 2009-12-30 | 2009-12-30 | Voltage measuring apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009202956226U CN201569685U (en) | 2009-12-30 | 2009-12-30 | Voltage measuring apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201569685U true CN201569685U (en) | 2010-09-01 |
Family
ID=42661979
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2009202956226U Expired - Fee Related CN201569685U (en) | 2009-12-30 | 2009-12-30 | Voltage measuring apparatus |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201569685U (en) |
-
2009
- 2009-12-30 CN CN2009202956226U patent/CN201569685U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101769951B (en) | Two-measuring-range potential difference meter with four metering panels | |
CN201576040U (en) | Potential difference meter | |
CN101393235B (en) | DC potentiometer | |
CN101776704B (en) | Voltage-measuring device with four measuring panels | |
CN201569684U (en) | Voltage measuring device with four meter panels | |
CN1818676B (en) | Single-measuring range potential difference meter with five reading digits | |
CN201569687U (en) | Potentiometer with four measuring discs | |
CN101359002B (en) | Potential difference meter using sliding disk | |
CN201576042U (en) | Potential difference meter with four step discs | |
CN201569688U (en) | DC potentiometer with 1umV resolution | |
CN201569685U (en) | Voltage measuring apparatus | |
CN201569689U (en) | DC potentiometer with four measuring discs | |
CN201255748Y (en) | DC potential difference meter | |
CN201569694U (en) | Voltage measurement device | |
CN101776705B (en) | Potentiometer with four step plates | |
CN201569686U (en) | Voltage measuring apparatus | |
CN201576041U (en) | DC potentiometer | |
CN101354410A (en) | DC potential difference meter using slide wire tray | |
CN201247275Y (en) | Dc potential difference meter employing slide wire disk | |
CN101813721B (en) | Pressure measuring instrument | |
CN101788585B (en) | Voltage measuring instrument with resolution of 0.01 Mu V | |
CN201622298U (en) | Two-range potential difference meter | |
CN101393236B (en) | Potential difference meter | |
CN201622297U (en) | DC voltage measuring instrument | |
CN101788590B (en) | Voltage measuring device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20100901 Termination date: 20101230 |