CN204405008U - One is weighed horizontal metroscope - Google Patents

Abstract

The utility model relates to one and to weigh horizontal metroscope, comprising: pedestal, is arranged on the weighing device on pedestal, measuring motion, control panel.Weighing device comprises at least two weighing units be arranged side by side, and weighing unit comprises the gravity sensor be arranged on pedestal and the bearing platform be arranged on gravity sensor; Bearing platform comprises the support portion of one end positioning supports to sample to be tested.Measuring motion comprises at least two and surveys long unit with the length information between two opposite ends obtaining each sample to be tested respectively.Control panel and gravity sensor are electrically connected to receive and show the weight information that weighing device obtains, control panel with survey long unit and be electrically connected to receive and show the length information that measuring motion obtains.The utility model is weighed to multiple sample to be tested simultaneously and is surveyed length, and result directly shows on the control panel, improves work efficiency, improves measuring accuracy.

Description

One is weighed horizontal metroscope

Technical field

The utility model relates to pick-up unit, more particularly, relates to one and to weigh horizontal metroscope.

Background technology

Whether the weight wanting to detect unit length reinforcing bar sample in correlation technique is up to standard, and normally intercept 5 sections of reinforcing bar samples, weigh respectively, then survey length respectively, finally whether the weight of the reinforcing bar unit length that statistical computation is to be measured is up to standard again.This process need repeatedly carries out weighing and surveying length, inefficiency, and measurement is repeatedly added and also easily produces error.

Utility model content

The technical problems to be solved in the utility model is, provides one to weigh horizontal metroscope.

The utility model solves the technical scheme that its technical matters adopts: structure one is weighed horizontal metroscope, comprising: pedestal,

Be arranged on the weighing device on described pedestal, described weighing device comprises at least two weighing units be arranged side by side, and weighing unit described in each comprises and is arranged on gravity sensor on described pedestal and is arranged on described gravity sensor to place the bearing platform of sample to be tested; Described bearing platform comprises the support portion of one end positioning supports to described sample to be tested; Described support portion comprises the supporting surface offseted with described one end end face of described sample to be tested;

Be arranged on the measuring motion on described pedestal, described measuring motion comprises at least two and surveys long unit with the length information between two opposite ends obtaining sample to be tested described in each respectively; And

Be arranged on the control panel on described pedestal, described control panel and gravity sensor described in each are electrically connected respectively to receive and show the weight information that described weighing device obtains, and described control panel and the long unit of described survey are electrically connected to receive and show the length information that described measuring motion obtains.

Preferably, described bearing platform also comprises and tilts upward extended rake, described rake comprise for described sample to be tested against dip plane, described support zone in the lower end of described rake, with the lower surface allowing described supporting surface support described sample to be tested.

Preferably, described rake comprises the first draw-in groove be disposed on described dip plane, the second draw-in groove, and described first draw-in groove, the second draw-in groove extend in the same way along the vergence direction of described rake, and the section of described first draw-in groove, the second draw-in groove is all V-shaped.

Preferably, the vergence direction of described supporting surface and described rake is perpendicular.

Preferably, described weighing device comprises five weighing units be disposed side by side on described pedestal, and described measuring motion comprises respectively corresponding with weighing unit five and surveys long unit.

Preferably, described horizontal metroscope of weighing also comprises one and to be arranged on described pedestal and the guiding mechanism that can move around along the vergence direction of described rake, the long unit of described survey comprises the stay cord scrambler be arranged on described guiding mechanism, and each stay cord scrambler is corresponding with a weighing unit position;

Described stay cord scrambler and described control panel are electrically connected, and the stay cord of described stay cord scrambler launches along the vergence direction pull-out of described rake or offsets specific distance relative to described supporting surface.

Preferably, the end of described stay cord pull-out is corresponding with described supporting surface place plane connects.

Preferably, described in horizontal metroscope of weighing also comprise one and to be arranged on described pedestal and the guiding mechanism that can move around along the vergence direction of described rake, the long unit of described survey comprises grating scale, and each grating scale is corresponding with a weighing unit position;

Described grating scale comprises scale grating and grating reading head, and the described rake of described scale grating and correspondence position be arranged in parallel, and is positioned at the side opposing with described dip plane; Described grating reading head is arranged on described guiding mechanism, and is positioned at the side relative with described dip plane, and described grating reading head is arranged towards described scale grating.

Preferably, the lower end of described scale grating flushes with described supporting surface or offsets specific distance relative to described supporting surface.

Preferably, described control panel comprises function key;

Described pedestal is also provided with start key and drive unit, and described start key and described drive unit are electrically connected; Described drive unit and described guiding mechanism corresponding matching, move around to drive described guiding mechanism.

Implement horizontal metroscope of weighing of the present utility model, there is following beneficial effect: the utility model is by arranging multiple weighing unit and arranging the measuring motion measured respectively the specimen length on bearing platform, can weigh to multiple sample to be tested simultaneously and survey length, weight and length measurement also directly show on the control panel, convenient and swift, improve work efficiency, improve measuring accuracy.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the perspective view of the horizontal metroscope of weighing in the utility model embodiment;

Fig. 2 is the perspective view of the weighing device in Fig. 1;

Fig. 3 is that weighing device and measuring motion combinationally use status architecture schematic diagram.

Identifier declaration in figure: pedestal 10, guide rail 11, weighing device 20, weighing unit 21, gravity sensor 211, bearing platform 212, rake 213, first draw-in groove 2131, second draw-in groove 2132, support portion 214, supporting surface 2141, guiding mechanism 30, guide frame 31, measuring motion 40, grating scale 41, scale grating 411, grating reading head 412, control panel 50, function key 51, start key 60, drive unit 70, sample to be tested 80.

Embodiment

In order to there be understanding clearly to technical characteristic of the present utility model, object and effect, now contrast accompanying drawing and describe embodiment of the present utility model in detail.

As shown in Figure 1 to Figure 3, the horizontal metroscope of weighing in the utility model first preferred embodiment comprises pedestal 10 and is arranged on weighing device 20, guiding mechanism 30, measuring motion 40, control panel 50, start key 60, the drive unit 70 on pedestal 10.

As shown in Figure 2, in certain embodiments, weighing device 20 comprises five weighing units 21 be arranged side by side, and to place sample to be tested 80 respectively, weighs respectively simultaneously, obtain the weight information of each sample to be tested 80 to five samples to be tested 80.Certainly, also can only utilize part weighing unit 21 wherein to work, measure the sample to be tested 80 that total quantity is less than five.Understandably, in other embodiments, weighing device 20 also can comprise the weighing unit 21 of two or other quantity.

Each weighing unit 21 comprises the gravity sensor 211 be arranged on pedestal 10 and the bearing platform 212 be arranged on gravity sensor 211.Bearing platform 212 comprises and tilts upward extended with the rake 213 placing sample to be tested 80, and is located at rake 213 lower end to support the support portion 214 of sample to be tested 80 lower end.In other embodiments, rake 213 also can vertically arrange or be horizontally disposed with, and one end of the 214 pairs of samples to be tested 80 in support portion positions support, with can make sample to be tested 80 vertically or level steadily place.

Further, rake 213 comprises the dip plane 2131 corresponding with sample to be tested 80, be disposed on the first draw-in groove 2131, second draw-in groove 2132 on dip plane 2131, first draw-in groove 2131, second draw-in groove 2132 is extended in the same way along the vergence direction of rake 213, and sample to be tested 80 along inclined direction can be placed in the first draw-in groove 2131, second draw-in groove 2132 and test.The section of the first draw-in groove 2131, second draw-in groove 2132 is all V-shaped, sample to be tested 80 for different-diameter specification can steadily be placed, and the length direction of sample to be tested 80 is limited, place all in a direction when making to test at every turn, ensure precision when measuring length.In other embodiments, the section of the first draw-in groove 2131, second draw-in groove 2132 also can all take the shape of the letter U.

Support portion 214 comprises the supporting surface 2141 offseted with the lower end surface of sample to be tested 80, with the lower surface allowing supporting surface 2141 support sample to be tested 80.Preferably, supporting surface 2141 is perpendicular with the vergence direction of rake 213, when measuring length, directly with the lower end surface benchmark that supporting surface 2141 is sample to be tested 80, can ensure unifying datum during each measurement, promote the precision measured.

Guiding mechanism 30 can be arranged on pedestal 10 along the vergence direction of rake 213 with moving around, further, guiding mechanism 30 comprise can along the vergence direction of rake 213 move around ground guide frame 31, guide frame 31 is horizontally installed between each bearing platform 212.Pedestal 10 is provided with the guide rail 11 coordinated with guide frame 31 and moves around for guide frame 31.

As shown in Figure 3, measuring motion 40 comprise with weighing unit 21 respectively corresponding five in position survey long unit, survey long unit and comprise grating scale 41.Grating scale 41 comprises scale grating 411 and grating reading head 412, and scale grating 411 be arranged in parallel with the rake 213 of correspondence position, and is positioned at the side opposing with dip plane 2131; Grating reading head 412 is arranged on guiding mechanism 30, and is positioned at the side relative with dip plane 2131, and grating reading head 412 is arranged towards scale grating 411.The lower end opposite support face 2141 of scale grating 411 offsets specific distance, this offset distance of calculating that may correspond to when obtaining length information, ensures the accurate of length information.In other embodiments, the lower end of scale grating 411 also can flush with supporting surface 2141.

Sample to be tested 80 is placed into bearing platform 212 is tested time, rake 213 is stretched out in the upper end of sample to be tested 80, and guiding scale grating 411 and grating reading head 412 lay respectively at the both sides of sample to be tested 80, and grating reading head 412 correspondence is mapped on scale grating 411.Guiding mechanism 30 drives grating reading head 412 to move around, move down in process at guiding mechanism 30, when sample to be tested 80 blocks the injection direction of grating reading head 412, the length information between sample to be tested 80 liang of opposite ends can be obtained, and be transferred to control panel 50 and show.

Control panel 50 comprises touch display screen and is arranged on the touch function keys 51 on touch display screen, touch display screen is electrically connected with gravity sensor 211, grating scale 41 respectively, to receive respectively and to show the weight information of weighing device 20 acquisition and the length information of measuring motion 40 acquisition.Weight information comprises the weight summation that each weighing unit 21 claims, length information comprises the length summation that each grating scale 41 records, certainly, on control panel 50, the data of display also can comprise the weight information that each weighing unit 21 claims respectively, and the length information that each grating scale 41 records.

The weight of the sample to be tested 80 of unit length can be calculated by built-in computing circuit by click function key 51.Start key 60 and drive unit 70 are electrically connected, with the switch of accessory drive 70.Drive unit 70 and guiding mechanism 30 corresponding matching, move around to drive guiding mechanism 30.In other embodiments, also guide frame 31 is driven to move around by being arranged on the drive units such as oil cylinder on pedestal 10.。

When needs are tested, the vergence direction of the sample to be tested 80 of some along rake 213 is placed in the first draw-in groove 2131, second draw-in groove 2132, and the lower end of sample to be tested 80 and supporting surface 2141 are offseted.Click start key 60, drive unit 70 drives guiding mechanism 30 to move down, each grating scale 41 obtains the length information of the sample to be tested 80 recorded respectively and is passed to control panel 50 and calculates rear display length summation, gravity sensor 211 obtains the weight information of sample to be tested 80 respectively and is passed to control panel 50 and calculates rear display weight summation, the weight of the sample to be tested 80 of length-specific can be drawn again by click function key 51, be used for judging whether sample to be tested 80 meets standard.Certainly, in other embodiments, also function key 51 can be cancelled, the weight of the sample to be tested 80 of length-specific also can directly show by control panel 50 after calculating.

In other embodiments, five long unit of survey also can comprise being arranged on guiding mechanism 30 distinguishes five stay cord scramblers corresponding to position with five weighing units 21, each stay cord scrambler is corresponding with weighing unit 21 position, the stay cord of stay cord scrambler launches along the vergence direction pull-out of rake 213, the end of stay cord pull-out is corresponding with supporting surface 2141 place plane to be connected, to make supporting surface 2141 as the lower end surface benchmark of sample to be tested 80 to measure the length of sample to be tested 80 on brace table.Stay cord scrambler obtains the range information of upper end end face to corresponding supporting surface 2141 of the sample to be tested 80 on each weighing unit 21 respectively, and this information is the length information of upper end end face to lower end surface of the sample to be tested 80 of correspondence position.Certainly, stay cord also can be connected with other benchmark, and opposite support face 2141 offsets specific distance, draws the length of the sample to be tested 80 be placed on bearing platform 212 with energy indirect calculation.Control panel 50 and stay cord scrambler are electrically connected, to receive respectively and to show the length information of measuring motion acquisition.

Further, in other embodiments, survey long unit and also can comprise resistor type displacement sensor electronic ruler, resistor type displacement sensor electronic ruler is arranged along the vergence direction of rake 213, obtains the length information of sample to be tested 80 in guiding mechanism 30 moving process respectively.

Understandably, above-mentioned each technical characteristic can combination in any use and unrestricted.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model instructions and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. to weigh a horizontal metroscope, it is characterized in that, comprising: pedestal (10),

Be arranged on the weighing device (20) on described pedestal (10), described weighing device (20) comprises at least two weighing units (21) be arranged side by side, and weighing unit described in each (21) comprises the gravity sensor (211) that is arranged on described pedestal (10) and is arranged on described gravity sensor (211) to place the bearing platform (212) of sample to be tested (80); Described bearing platform (212) is to the support portion (214) of one end positioning supports of described sample to be tested (80); Described support portion (214) comprises the supporting surface (2141) offseted with described one end end face of described sample to be tested (80);

Be arranged on the measuring motion (40) on described pedestal (10), described measuring motion comprises at least two and surveys long unit with the length information between two opposite ends obtaining sample to be tested described in each (80) respectively; And

Be arranged on the control panel (50) on described pedestal (10), described control panel (50) and gravity sensor (211) described in each are electrically connected respectively to receive and show the weight information that described weighing device (20) obtains, and described control panel (50) and the long unit of described survey are electrically connected to receive and show the length information that described measuring motion (40) obtains.

2. horizontal metroscope of weighing according to claim 1, it is characterized in that, described bearing platform (212) also comprises and tilts upward extended rake (213), described rake (213) comprise for described sample to be tested (80) against dip plane (2131), described support portion (214) is positioned at the lower end of described rake (213), with the lower surface allowing described supporting surface (2141) support described sample to be tested (80).

3. horizontal metroscope of weighing according to claim 2, it is characterized in that, described rake (213) comprises the first draw-in groove (2131) be disposed on described dip plane (2131), the second draw-in groove (2132), described first draw-in groove (2131), the second draw-in groove (2132) extend in the same way along the vergence direction of described rake (213), and the section of described first draw-in groove (2131), the second draw-in groove (2132) is all V-shaped.

4. horizontal metroscope of weighing according to claim 2, is characterized in that, described supporting surface (2141) is perpendicular with the vergence direction of described rake (213).

5. horizontal metroscope of weighing according to claim 1 and 2, it is characterized in that, described weighing device (20) comprises five weighing units (21) be disposed side by side on described pedestal (10), and described measuring motion (40) comprises respectively corresponding with weighing unit (21) five and surveys long unit.

6. horizontal metroscope of weighing according to claim 2, it is characterized in that, described horizontal metroscope of weighing also comprises one and is arranged on the upper and guiding mechanism (30) that can move around along the vergence direction of described rake (213) of described pedestal (10), the long unit of described survey comprises the stay cord scrambler being arranged on described guiding mechanism (30), and each stay cord scrambler is corresponding with weighing unit (21) position;

Described stay cord scrambler and described control panel (50) are electrically connected, and the stay cord of described stay cord scrambler launches along the vergence direction pull-out of described rake (213).

7. horizontal metroscope of weighing according to claim 6, is characterized in that, the end of described stay cord pull-out connects with described supporting surface (2141) place plane is corresponding or offsets specific distance relative to described supporting surface (2141).

8. horizontal metroscope of weighing according to claim 2, it is characterized in that, described horizontal metroscope of weighing also comprises one and is arranged on the upper and guiding mechanism (30) that can move around along the vergence direction of described rake (213) of described pedestal (10), the long unit of described survey comprises grating scale (41), and each grating scale (41) is corresponding with weighing unit (21) position;

Described grating scale (41) comprises scale grating (411) and grating reading head (412), and described scale grating (411) be arranged in parallel with the described rake (213) of correspondence position, and is positioned at the side opposing with described dip plane (2131); Described grating reading head (412) is arranged on described guiding mechanism (30), and is positioned at the side relative with described dip plane (2131), and described grating reading head (412) is arranged towards described scale grating (411).

9. horizontal metroscope of weighing according to claim 8, is characterized in that, the lower end of described scale grating (411) flushes with described supporting surface (2141) or offsets specific distance relative to described supporting surface (2141).

10. the horizontal metroscope of weighing according to claim 6 or 8, is characterized in that, described control panel (50) comprises touch display screen and function key (51);

Described pedestal (10) is also provided with start key (60) and drive unit (70), described start key (60) and described drive unit (70) are electrically connected; Described drive unit (70) and described guiding mechanism (30) corresponding matching, move around to drive described guiding mechanism (30).