CN208780391U - Standard force-measuring tester - Google Patents

Abstract

The utility model discloses a kind of standard force-measuring testers, including pedestal, lead screw, bracket, first crossbar, first sensor, tested sensor, reversed force measuring machine, second sensor, adding mechanism；There is lead-screw drive mechanism, which matches with lead screw, and lead screw is in internal stent, which matches with first crossbar simultaneously in pedestal；Reversed force measuring machine includes upper and lower two frames.The utility model can solve the technical issues of how improving existing standard force-measuring tester measurement range.

Description

Standard force-measuring tester

Technical field

Whether the utility model relates to a kind of standard force-measuring testers, specifically a kind of qualified to detected sensor Standard force-measuring tester.

Background technique

As long as the general standard force snesor of current power tester simultaneously uses the standard force snesor to tested sensing Device is detected, and such detection range is limited.

Utility model content

The purpose of the utility model is to provide a kind of standard force-measuring tester, solve how to improve existing standard force-measuring test The technical issues of instrument measurement range.

Standard force-measuring tester, including it is pedestal, lead screw, bracket, first crossbar, first sensor, tested sensor, reversed Force measuring machine, second sensor, adding mechanism；There is lead-screw drive mechanism in pedestal, which matches with lead screw, Lead screw is in internal stent, which matches with first crossbar simultaneously；Reversed force measuring machine includes upper and lower two frames, the two Position is slidably matched at opposite among frame；First sensor is in above upper lower portion and first crossbar, is tested sensor Inside the position that upper and lower two frames are overlapped；Second sensor is fixed below lower frame and is fixed on by adding mechanism On pedestal.

It is further fixed on a second crossbar above the upper frame, there is a handwheel, the handwheel in the second crossbar It is connect by a screw rod with upper frame.

The second crossbar is fixed on bracket.

The upper and lower frames is made of two transverse slats and four positioning columns, wherein four positioning columns on upper frame run through Four positioning columns of the lower frame close to lower frame.

The adding mechanism includes pull rod, scale, counterweight hook；Pull rod is fixed between second sensor and pedestal, mark Ruler and counterweight hook cooperation.

The beneficial effects of the utility model are: wherein first sensor can be examined due to first sensor and second sensor Larger range is surveyed, such as 2-3 tons of range, detectable 100-200 kilograms of the range of second sensor, configuration in this way is realized The popularity of detection；Due to being equipped with reversed force measuring machine, the tested sensor of effect can be reversed, observation in real time is tested in this way passes The numerical value of sensor.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the other side structural schematic diagram of the utility model；

Fig. 3 is the main view of the utility model；

It is 1. pedestals in figure, 2. lead screws, 3. brackets, 4. first crossbars, 5. first sensors, 6. tested sensors, 7. reversed Force measuring machine, frame, 72. lower frames, 8. second sensors, 9. adding mechanisms, 91. pull rods, 92. scales, 93. counterweights on 71. Hook, 10. second crossbars, 11. handwheels.

Specific embodiment

Please refer to Fig. 1 to Fig. 3, the standard force-measuring tester in figure, including a bracket of lead screw 2, two of pedestal 1, two 3, a first sensor 5, one of first crossbar 4, one tested sensor 6, one reversed force measuring machine 7, one second biographies The second crossbar 10 of adding mechanism 9, one of sensor 8, one.

There is lead-screw drive mechanism, which is existing component, therefore not shown in the diagram in pedestal 1.The silk Thick stick transmission mechanism is matched with lead screw 2, and lead-screw drive mechanism is using structure conventional at present and uses corresponding existing controller control Braking is made.

Lead screw 2 is in inside bracket 3 and arranges at the left and right sides, and two lead screws 2 pass through with the end of first crossbar 4 or so normal respectively The mode of rule cooperates；Through the above configuration, when lead screw 2 acts, first crossbar 4 can move up and down.

Bracket 3 is made of existing carbon steel material, internal to have the cavity for placing lead screw 2.

First crossbar 4 is equally made of existing carbon steel material, and effect is to cooperate to make reversed force measuring machine with lead screw 2 The upper frame 71 of structure 7 moves upward.

First sensor 5 uses existing load cell, belongs to the measurement biggish sensor of numerical value, such as can detecte 2-3 tons of numerical value.Second sensor 8 uses existing load cell, belongs to the measurement lesser sensor of numerical value, such as can be with The numerical value of 100-200 kilograms of detection, above-mentioned data can carry out corresponding adjustment as needed.

Tested sensor 6 is proving ring.Reversed force measuring machine 7 includes upper frame 71, lower frame 72, among the two frames Position is slidably matched at opposite；Above-mentioned upper and lower frames is made of two transverse slats and four positioning columns, wherein on upper frame 71 For four positioning columns through lower frame 72 close to four positioning columns of lower frame, specific structure can refer to attached drawing.First sensor 5 Above upper 71 inside of frame and first crossbar 4, tested sensor 6 is in inside the position of upper and lower two frames coincidence；The Two sensors 8 are fixed on 72 lower section of lower frame and are fixed on pedestal 1 by adding mechanism 9, and configuration mode in this way is The movement to two relative directions of tested sensor 6 can be achieved.

It is further fixed on one above upper frame 71 and is fixed on second crossbar 10 on bracket 3, has in the second crossbar 10 One handwheel 11, the handwheel 11 are connect by a screw rod with upper frame 71, and configuration mode in this way can pass through handwheel 11 Effect be first crossbar 4 move up and down, act on it is identical as screw drive mechanism, one is to manually control, and one is electronic control System manually adjusts function wherein manually controlling and can play when upper and lower frames coincidence distance is larger well.

Adding mechanism 9 is conventional mechanism, specifically includes pull rod 91, scale 92, counterweight hook 93；Pull rod 91 is fixed on Between two sensors 8 and pedestal 1, scale 92 and counterweight hook 93 cooperate.

To keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, above in conjunction with the utility model Attached drawing in embodiment clearly and completely describes the technical scheme in the embodiment of the utility model, it is clear that retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, the above detailed description to the embodiments of the present invention provided in the accompanying drawings is not intended to limit requirement The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

Claims (5)

1. standard force-measuring tester, it is characterised in that: including pedestal, lead screw, bracket, first crossbar, first sensor, tested biography Sensor, reversed force measuring machine, second sensor, adding mechanism；There is in pedestal lead-screw drive mechanism, the lead-screw drive mechanism with Lead screw matching, lead screw are in internal stent, which matches with first crossbar simultaneously；Reversed force measuring machine includes upper and lower two frames Frame, the two frames centre position are slidably matched at opposite；First sensor is in above upper lower portion and first crossbar, quilt Sensor is surveyed to be in inside the position of upper and lower two frames coincidence；Second sensor is fixed below lower frame and by loading machine Structure is fixed on the base.

2. standard force-measuring tester according to claim 1, it is characterised in that: be further fixed on one above the upper frame A second crossbar, has a handwheel in the second crossbar, which is connect by a screw rod with upper frame.

3. standard force-measuring tester according to claim 2, it is characterised in that: the second crossbar is fixed on bracket On.

4. standard force-measuring tester according to claim 3, it is characterised in that: the upper and lower frames is by two transverse slats It is constituted with four positioning columns, wherein four positioning columns on upper frame are through lower frame close to four positioning columns of lower frame.

5. standard force-measuring tester according to claim 1, it is characterised in that: the adding mechanism includes pull rod, mark Ruler, counterweight hook；Pull rod is fixed between second sensor and pedestal, scale and counterweight hook cooperation.