CN205843886U - A kind of dynamometer calibrating installation - Google Patents

Abstract

The utility model discloses a kind of dynamometer calibrating installation, it comprises support, and support is arranged on base；Support comprises two parallel support arms；Connect between two support arms and have platform；Being provided with pulling force sensor on one support arm, pulling force sensor is arranged on support arm and is positioned at above described platform；The sensing head of pulling force sensor is connected with chuck；The hook for mounting steel cable it is provided with in described chuck；Being provided with hydraulic drive cylinder on another support arm, steel cable capstan winch is installed in the front end of hydraulic drive cylinder；Steel cable is connected on steel cable capstan winch away from one end of described chuck；Described hydraulic drive cylinder connects hydraulic tube and force-measuring gauge, and the other end of hydraulic tube is arranged on Hydraulic Station；Described pulling force sensor is connected to control computer terminal by data wire；Accredited dynamometer is placed on described platform.

Description

A kind of dynamometer calibrating installation

Technical field

This utility model relates to a kind of dynamometer calibrating installation, the most accurate specifically for detection dynamometer product.

Background technology

Dynamometer cannot be detected after the dynamometer product purchasing that steel cable is especially detected by existing dynamometer product Technical performance itself, can only purchase with qualified supplier, if do not checked whether qualified by calibrating installation, uses There is underproof product in Shi Wanyi, causes judgement misalignment, can damage the person, produces danger.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, it is provided that a kind of dynamometry Instrument calibrating installation, its can convenient reliable detection dynamometer product the most accurate.

In order to achieve the above object, this utility model is achieved by the following technical solutions:

A kind of dynamometer calibrating installation, comprises support, and support is arranged on base；Support comprises two parallel supports Arm；Connect between two support arms and have platform；

Being provided with pulling force sensor on one support arm, pulling force sensor is arranged on support arm and is positioned on described platform Side；The sensing head of pulling force sensor is connected with chuck；The hook for mounting steel cable it is provided with in described chuck；

Being provided with hydraulic drive cylinder on another support arm, steel cable capstan winch is installed in the front end of hydraulic drive cylinder；Steel cable One end away from described chuck is connected on steel cable capstan winch；

Described hydraulic drive cylinder connects hydraulic tube and force-measuring gauge, and the other end of hydraulic tube is arranged on Hydraulic Station；

Described pulling force sensor is connected to control computer terminal by data wire；

Accredited dynamometer is placed on described platform.

As preferred implementation of the present utility model: be additionally provided with the adjustable workbench of upper-lower position on described platform； Accredited dynamometer is placed on described workbench.

As preferred implementation of the present utility model: the number between described pulling force sensor and described control computer terminal According to being additionally provided with signal amplifier on line.

As preferred implementation of the present utility model: be additionally provided with reinforcement between side and the base of described support arm Muscle.

As preferred implementation of the present utility model: described chuck end face offers groove, institute is installed in described groove State hook；Described hook is hingedly mounted in described groove, and described hook is spacing described by the postive stop baffle of groove notch In groove.

As preferred implementation of the present utility model: described hook is hinged on the jointed shaft of groove, described jointed shaft On be also equipped with return spring.

As preferred implementation of the present utility model: described base and support are that iron plate material makes.

This utility model provides the benefit that:

Disclosed in this utility model, a kind of dynamometer calibrating installation, comprises support, and support is arranged on base；Support comprises Two parallel support arms；Connect between two support arms and have platform；Platform may finally prevent to be checked determining dynamometer product, should Series products by drawing process or stretching after steel cable contact measurement or not contact measurement judge pulling force；Typically , contact measurement is that pulling force suffered by the expansion steel cable using equal proportion is measured, and such as, dynamometer itself uses to possess to be stablized The stretcher strain of steel cable monitored by the material of deformation coefficient；Contact measurement is not for using displacement acquisition information to measure deformation Amount；These are all the products of prior art, are the objects that detected of this utility model；

Being provided with pulling force sensor on a support arm of the present utility model, pulling force sensor is arranged on support arm and position Above described platform；The sensing head of pulling force sensor is connected with chuck；It is provided with for mounting steel cable in described chuck Hook；Pulling force sensor uses high-precision sensor, it is possible to accurately measuring pulling force information, this information can be with dynamometry to be detected Instrument contrasts；Chuck can level tangle steel cable, dismantle easy to assembly；

Being provided with hydraulic drive cylinder on another support arm of the present utility model, steel cable is installed in the front end of hydraulic drive cylinder Capstan winch；Steel cable is connected on steel cable capstan winch away from one end of described chuck；Consequently, it is possible to this utility model can be easily Steel cable assembles, by hydraulic tensioning, consequently, it is possible to the pulling force of whole process can be by pulling force sensor and survey to be detected Power instrument Product checking；

Described hydraulic drive cylinder connects hydraulic tube and force-measuring gauge, and the other end of hydraulic tube is arranged on Hydraulic Station；This practicality Novel stretched by hydraulic power, the pulling force of hydraulic part can be measured by force-measuring gauge, consequently, it is possible to three data can be mutual Compare, it is possible to judge the deviation value of dynamometer product to be detected very reliably.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of detailed description of the invention of the present utility model.

Description of reference numerals:

1-workbench, 2-hydraulic drive cylinder, 3-steel cable, 4-links up with, 5-reinforcement, 8-data wire, and 9-computer controls eventually End, 10-Hydraulic Station, 11-hydraulic tube, 12-force-measuring gauge, 13-steel cable capstan winch；21-base, 22-support, 23-platform, 24-draws Force transducer, 25-chuck.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment describes this utility model detailed description of the invention:

As it is shown in figure 1, it illustrates detailed description of the invention of the present utility model, as it can be seen, disclosed in this utility model A kind of dynamometer calibrating installation, comprises support 22, and support is arranged on base 21；Support comprises two parallel support arms；Two Connect between individual support arm and have platform 23；

Being provided with pulling force sensor 24 on one support arm, pulling force sensor is arranged on support arm and is positioned at described platform Top；The sensing head of pulling force sensor is connected with chuck 25；The hook 4 for mounting steel cable 3 it is provided with in described chuck；

Being provided with hydraulic drive cylinder 2 on another support arm, steel cable capstan winch 13 is installed in the front end of hydraulic drive cylinder；Wirerope Rope is connected on steel cable capstan winch away from one end of described chuck；

Described hydraulic drive cylinder connects hydraulic tube 11 and force-measuring gauge 12, and the other end of hydraulic tube is arranged on Hydraulic Station 10；

Described pulling force sensor is connected to control computer terminal 9 by data wire 8；

Accredited dynamometer is placed on described platform.

Preferably, as shown in the figure: on described platform, be additionally provided with the adjustable workbench of upper-lower position；Put on described workbench Put accredited dynamometer.After workbench can adjust up and down, it is possible to adapt to the dynamometer product of more size specification,

Preferably, as shown in the figure: also set up on the data wire between described pulling force sensor and described control computer terminal There is signal amplifier.Use signal amplifier that the reliable data transmission of sensor can be allowed to computer.

Preferably, as shown in the figure: between side and the base of described support arm, be additionally provided with reinforcement 5.Reinforcement makes The structure of support is more stable.

Preferably, as shown in the figure: described chuck end face offers groove, described hook is installed in described groove；Described extension Hook is hingedly mounted in described groove, and described hook is spacing in described groove by the postive stop baffle of groove notch.This enforcement Example have employed the structure of the hook of similar crane, it is possible to the most reliable spacing steel cable.

Preferably, as shown in the figure: described hook is hinged on the jointed shaft of groove, described jointed shaft is also equipped with return Spring.

Preferably, as shown in the figure: described base and support are that iron plate material makes.

Above in conjunction with accompanying drawing, this utility model preferred implementation is explained in detail, but this utility model is not limited to Above-mentioned embodiment, in the ken that those of ordinary skill in the art are possessed, it is also possible to without departing from this utility model Making a variety of changes on the premise of objective, these changes relate to correlation technique well-known to those skilled in the art, and these all fall Enter the protection domain of this utility model patent.

Many other can be made without departing from spirit and scope of the present utility model to change and remodeling.Should be appreciated that this reality Being not limited to specific embodiment with novel, scope of the present utility model is defined by the following claims.

Claims (7)

1. a dynamometer calibrating installation, it is characterised in that: comprising support, support is arranged on base；Support comprises two puts down The support arm of row；Connect between two support arms and have platform；

Being provided with pulling force sensor on one support arm, pulling force sensor is arranged on support arm and is positioned at above described platform； The sensing head of pulling force sensor is connected with chuck；The hook for mounting steel cable it is provided with in described chuck；

Being provided with hydraulic drive cylinder on another support arm, steel cable capstan winch is installed in the front end of hydraulic drive cylinder；Steel cable away from One end of described chuck is connected on steel cable capstan winch；

Described hydraulic drive cylinder connects hydraulic tube and force-measuring gauge, and the other end of hydraulic tube is arranged on Hydraulic Station；

Described pulling force sensor is connected to control computer terminal by data wire；

Accredited dynamometer is placed on described platform.

2. a kind of dynamometer calibrating installation as claimed in claim 1, it is characterised in that: it is additionally provided with bottom on described platform Put adjustable workbench；Accredited dynamometer is placed on described workbench.

3. a kind of dynamometer calibrating installation as claimed in claim 1, it is characterised in that: described pulling force sensor and described control It is additionally provided with signal amplifier on data wire between computer terminal.

4. dynamometer calibrating installation as claimed in claim 1 a kind of, it is characterised in that: the side of described support arm and base it Between be additionally provided with reinforcement.

5. a kind of dynamometer calibrating installation as claimed in claim 1, it is characterised in that: described chuck end face offers groove, Described hook is installed in described groove；Described hook is hingedly mounted in described groove, and described hook is by the limit of groove notch Position baffle limiting is in described groove.

6. a kind of dynamometer calibrating installation as claimed in claim 5, it is characterised in that: described hook is hinged on the hinged of groove On axle, described jointed shaft is also equipped with return spring.

7. a kind of dynamometer calibrating installation as claimed in claim 1, it is characterised in that: described base and support are iron plate material Make.