CN206248256U - A kind of solenoid-driven force test device - Google Patents

Abstract

The utility model provides a kind of solenoid-driven force test device, including support, also include the bearing support above the support, the dynamometer being arranged on the bearing support and the trundle that can be connected with the startup mandrel of tested magnetic valve, the installation portion for installing tested magnetic valve is provided with the support, the dynamometer be located at the installation portion surface, and the measurement bar of the dynamometer with the installation position on same vertical curve.Replace traditional counterweight by using dynamometer, can direct measurement obtain the driving force of magnetic valve, it is simple to operate and testing efficiency is of a relatively high.The measurement bar of dynamometer and installation portion are arranged on same vertical curve simultaneously, without the tested relative position between magnetic valve and dynamometer of adjustment after tested magnetic valve is arranged on installation portion, further simplify operational motion.

Description

A kind of solenoid-driven force test device

Technical field

The utility model is related to a kind of device for measuring force, particularly a kind of solenoid-driven force test device.

Background technology

Traditional solenoid-driven force test device is typically with weights and is surveyed come the driving force to magnetic valve Amount, a kind of attractive force of solenoid valve detection means, the dress as disclosed in the Chinese invention patent application of Publication No. CN102607743A Put including V-type magnetic valve support post, gap adjustment support post, gap adjustment screws, dial gauge, dynamometry tie assembly pulley Part, pulley support column, counterweight and base plate, wherein V-type magnetic valve support post and gap adjustment support post be mounted side by side in Plane one end on bottom, between be provided with gap, the dial gauge and gap adjustment screws are installed on gap adjustment support post；Pulley Support post is parallel with magnetic valve support post and gap adjustment support post, is fixed on the plane other end on base plate, pulley branch The pulley assembly is installed on support column, dynamometry tie one end is connected and fixed on V-type magnetic valve branch through gap adjustment screws Magnetic valve armature on support column, the other end is by connecting weights after pulley assembly.

Due to the weight of counterweight be it is relatively-stationary, for the ease of operation, detection person generally can by with standard force value pair The counterweight answered is placed on device, and whether only can reach standard force value to solenoid-driven power measures, if necessary to Difference between solution solenoid-driven power and standard force value, then need constantly to adjust counterweight, operates relatively complicated, testing efficiency phase To relatively low.

In view of this, the applicant conducts in-depth research to solenoid-driven force test device, has this case to produce then.

Utility model content

The purpose of this utility model is to provide a kind of of a relatively high solenoid-driven power of simple to operate, testing efficiency to survey Trial assembly is put.

To achieve these goals, the utility model is adopted the following technical scheme that：

A kind of solenoid-driven force test device, including support, also including the bearing support above the support, are set Dynamometer on the bearing support and can with the trundle that mandrel is connected that starts of tested magnetic valve, on the support The installation portion for installing tested magnetic valve is provided with, the dynamometer is located at the surface of the installation portion, and the dynamometry The measurement bar of meter is with the installation position on same vertical curve.

As it is of the present utility model it is a kind of improve, two are fixedly connected with the support and are parallel to each other and are arranged vertically Stud, all spiral is combined with the first nut and the second nut, first nut and second nut on the every stud Rotary orientation conversely, one end of the bearing support is set on a stud, the other end is set in another stud On, first nut and second nut on the every stud are adjacent in the both sides up and down of the bearing support respectively.

Used as a kind of improvement of the present utility model, the measurement bar of the dynamometer is provided with towards one end of the installation portion Horizontally disposed flat board.

Used as a kind of improvement of the present utility model, the dynamometry is calculated as digital display electronic dynamometer.

Using above-mentioned technical proposal, the utility model has the advantages that：

1st, by using dynamometer replace traditional counterweight, can direct measurement obtain magnetic valve driving force, it is simple to operate And testing efficiency is of a relatively high.The measurement bar of dynamometer and installation portion are arranged on same vertical curve simultaneously, by tested magnetic valve Without the tested relative position between magnetic valve and dynamometer of adjustment after on installation portion, further simplify operational motion.

2nd, first nut and second nut opposite by setting rotary orientation, it is ensured that bearing support is connected firmly, while It is conveniently adjusted height and position of the support frame relative to installation portion.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model solenoid-driven force measuring device.

Correspondence is indicated in each figure as follows：

10- supports；11- installation portions；

12- studs；The nuts of 13- first；

The nuts of 14- second；20- bearing supports；

30- dynamometers；31- measurement bars；

40- is tested magnetic valve；50- trundles.

Specific embodiment

The utility model is described further with specific embodiment below in conjunction with the accompanying drawings.

As shown in figure 1, the solenoid-driven force test device that the present embodiment is provided is including support 10, positioned at the top of support 10 Bearing support 20, the dynamometer 30 that is arranged on bearing support 20 and can start what mandrel was connected with tested magnetic valve 40 Trundle 50, wherein, it is digital display electronic dynamometer that dynamometer 30 is preferably.

The installation portion 11 for installing tested magnetic valve 40 is provided with support 10, tested magnetic valve 40 is on installation portion 11 Specific mounting means can be conventional mode, no longer describe in detail herein.Dynamometer 30 is located at the surface of installation portion 11, and surveys The measurement bar 31 of power meter 30 is located on same vertical curve with installation portion 11, and so tested magnetic valve 40 is arranged on installation portion 11 Can directly be tested without the tested relative position between magnetic valve 40 and dynamometer 30 of adjustment afterwards, testing efficiency is relatively It is high.

Connected mode between bearing support 20 and support 10 can be conventional mode, for the ease of adjustment bearing support 20 Height and position, while being securely connected when ensuring that bearing support 20 is used, in the present embodiment, is fixedly connected with two on support 10 The stud 12 for being parallel to each other and arranging vertically, all spiral is combined with the first nut 13 and the second nut 14 on every stud 12, the The rotary orientation of one nut 13 and the second nut 14 is another conversely, one end of bearing support 20 is arranged on a stud 12 wherein End is set on another stud 12, and the first nut 13 and the second nut 14 on every stud 12 are adjacent in bearing support 20 respectively Both sides up and down, i.e. the two ends of bearing support 20 are locked at stud 12 by the nut 14 of corresponding first nut 13 and second respectively On.Because the rotary orientation of the first nut 13 and the second nut 14 is conversely, the first nut 13 and the second nut 14 are difficult when using Release, effectively ensure that the connectivity robustness of bearing support 20.

Additionally, in the present embodiment, the measurement bar 31 of dynamometer 30 is provided with horizontally disposed towards one end of installation portion 11 Flat board 32, so, even if after tested magnetic valve 40 is arranged on installation portion 11, it starts and exists between mandrel and measurement bar 31 Parallelism error, also can be by supporting on flat board 32, by tested magnetic valve 40 with the trundle 50 for starting mandrel drive connection Driving force be transferred in measurement bar 31 and measure.

The utility model is described in detail above in conjunction with accompanying drawing, but implementation method of the present utility model and not only It is limited to above-mentioned implementation method, those skilled in the art can make various modifications according to prior art to the utility model, such as will Flat board 32 in above-described embodiment is arranged on trundle 50 towards on one end of dynamometer 30 etc., and it is new that these belong to this practicality The protection domain of type.

Claims (4)

1. a kind of solenoid-driven force test device, including support, it is characterised in that also including the branch above the support Bolster, the dynamometer being arranged on the bearing support and the trundle that can be connected with the startup mandrel of tested magnetic valve, The installation portion for installing tested magnetic valve is provided with the support, the dynamometer is located at the surface of the installation portion, And the measurement bar of the dynamometer with the installation position on same vertical curve.

2. solenoid-driven force test device as claimed in claim 1, it is characterised in that be fixedly connected with two on the support The stud that root is parallel to each other and arranges vertically, all spiral is combined with the first nut and the second nut on the every stud, described The rotary orientation of the first nut and second nut conversely, one end of the bearing support is set on a stud, separately One end is set on another stud, and first nut and second nut on the every stud are adjacent to respectively The both sides up and down of the bearing support.

3. solenoid-driven force test device as claimed in claim 1 or 2, it is characterised in that the measurement bar of the dynamometer One end of the installation portion is provided with horizontally disposed flat board.

4. solenoid-driven force test device as claimed in claim 3, it is characterised in that the dynamometry is calculated as digital display electronic survey Power meter.