Summary of the invention
It is an object of the invention to provide a kind of electronic strut load testing device, can be to electronic support
Bar carries out the easiest load testing.
For solving above-mentioned technical problem, the technical scheme is that
A kind of electronic strut load testing device, including:
For fixing the pedestal of electronic strut one end;
For executing loaded lever arm to described electronic strut, described lever arm include two by
Default angle fixes the long-armed of connection and galianconism, described long-armed on away from described long-armed and described short
One end that arm connects is used for adding mass, away from described galianconism and described long-armed on described galianconism
Connect one end for and the other end of described electronic strut hinged;
Support the bracing frame of described lever arm, the junction of described long-armed and described galianconism and described
Bracing frame is hinged, when described electronic strut being carried out thrust test, and described electronic strut and institute
State the junction of pedestal and the described long-armed heteropleural being positioned at support frame as described above;When to described electronic support
When bar carries out tensile test, the junction of described electronic strut and described pedestal and described long-armed position
Homonymy in support frame as described above.
Preferably, support frame as described above includes the support being fixed in described frame, on described support
Being provided with circular shaft, the junction of described long-armed and described galianconism is hinged by bearing and described circular shaft.
Preferably, the two ends of described circular shaft are fixing on the bracket by locking nut.
Preferably, described electronic strut is hinged by hangers and described pedestal.
Preferably, described frame is provided with substrate, and described substrate is provided with many groups in the horizontal direction
The fixing hole of distribution, fixing hole described in described hangers and one of which is bolted to connection.
Preferably, described default angle is 110 degree.
Preferably, it is provided with reinforcement between described long-armed and described galianconism.
Preferably, the ratio of the stroke of the length of described galianconism and described electronic strut is 5:3.
Preferably, described long-armed on away from described long-armed and described galianconism connect one end be provided with use
Post is fixed in the load being set with described mass.
Compared with prior art, technique scheme has the advantage that
One provided by the present invention electronic strut load testing device, including: for fixing electricity
The pedestal of dynamic strut one end;For executing loaded lever arm to electronic strut, lever arm includes
Fix the long-armed of connection and galianconism by default angle for two, long-armed on connect away from long-armed and galianconism
One end be used for adding mass, on galianconism away from galianconism and long-armed connection one end for and electricity
The other end of dynamic strut is hinged;The bracing frame of supporting lever lever arm, the junction of long-armed and galianconism and
Bracing frame is hinged, when electronic strut being carried out thrust test, and electronic strut and the connection of pedestal
Place and the long-armed heteropleural being positioned at bracing frame;When electronic strut is carried out tensile test, electronic support
The junction of bar and pedestal and the long-armed homonymy being positioned at bracing frame.Electronic strut is being carried out thrust
During test, first one end of electronic strut is fixed in frame the right side being positioned at bracing frame, then
The other end of electronic strut is fixed on one end of galianconism on lever arm, the now length on lever arm
Arm is in the left side of bracing frame, is then placed on long-armed by mass and connects away from long-armed and galianconism
The one end connect, the most electronic strut need to be in level at initial position, when electronic strut to
Left side when stretching out, can promote galianconism to do circular motion, and the mass being now placed on long-armed can be to
On do circular motion.When electronic strut is carried out tensile test, electronic strut and the company of pedestal
The place of connecing and the long-armed homonymy being positioned at bracing frame.And load capacity can met by lever arm
In the case of reduce mass weight, and when electronic strut generation angle changes, it is possible to
To test.
Accompanying drawing explanation
In order to be illustrated more clearly that the present invention or technical scheme of the prior art, below will be to reality
Execute the required accompanying drawing used in example or description of the prior art to be briefly described, it should be apparent that,
Accompanying drawing in describing below is some embodiments of the present invention, for those of ordinary skill in the art
From the point of view of, on the premise of not paying creative work, it is also possible to obtain other according to these accompanying drawings
Accompanying drawing.
The one electronic strut load testing that Fig. 1 is provided by a kind of detailed description of the invention of the present invention
The structural representation of device;
Fig. 2 is the structural representation of bracing frame in Fig. 1;
Fig. 3 is the structural representation of substrate in Fig. 1;
The one electronic strut load testing that Fig. 4 is provided by a kind of detailed description of the invention of the present invention
The structural representation of the lever arm of device.
Reference is as follows:
1 is pedestal, and 2 is electronic strut, and 3 is long-armed, and 4 is galianconism, and 5 is circular shaft, and 6 are
Bracing frame, 7 is substrate, and 8 is hangers, and 9 is the fixing post of load, and 10 is bearing, and 11 is lock
Jack panel, 12 is reinforcement.
Detailed description of the invention
The most as described in the background section, the accuracy of current electronic strut load testing device
Poor, operation inconvenience.
On the basis of the studies above, embodiments provide the load of a kind of electronic strut
Test device, when electronic strut being carried out thrust test, electronic strut and the junction of pedestal
With the long-armed heteropleural needing to be positioned at bracing frame, such as, when electronic strut is tested, first will
One end of electronic strut is fixed in frame the right side being positioned at bracing frame, then by electronic strut
The other end is fixed on one end of galianconism on lever arm, and now long-armed on lever arm is in bracing frame
Left side, then mass is placed on long-armed the one end connected away from long-armed and galianconism, its
In electronic strut need to be in level at initial position, when electronic strut stretches out to the left,
Galianconism can be promoted to do circular motion, and the mass being now placed on long-armed can upwards do circular motion.
When electronic strut is carried out tensile test, the junction of electronic strut and pedestal is positioned at long-armed
The homonymy of bracing frame.
Understandable in order to enable the above-mentioned purpose of the present invention, feature and advantage to become apparent from, below
In conjunction with accompanying drawing, the detailed description of the invention of the present invention is described in detail.
Elaborate detail in the following description so that fully understanding the present invention.But this
Bright can be different from alternate manner described here implement with multiple, those skilled in the art can
To do similar popularization in the case of intension of the present invention.Therefore the present invention is not by following public affairs
The restriction of the detailed description of the invention opened.
Refer to that Fig. 1 to Fig. 4, Fig. 1 are provided by a kind of detailed description of the invention of the present invention one
Plant the structural representation of electronic strut load testing device;Fig. 2 is the structure of bracing frame in Fig. 1
Schematic diagram;Fig. 3 is the structural representation of substrate in Fig. 1;Fig. 4 is that the present invention is a kind of concrete real
The structural representation of the lever arm of a kind of electronic strut load testing device that the mode of executing is provided.
A kind of detailed description of the invention of the present invention provides a kind of electronic strut 2 load testing dress
Put, including: for fixing the pedestal 1 of electronic strut 2 one end;For executing to electronic strut 2
Loaded lever arm, lever arm includes that two are fixed long-armed the 3 of connection and short by default angle
Arm 4, the one end connected away from long-armed 3 and galianconism 4 on long-armed 3 is used for adding mass, short
Cut with scissors for the other end with electronic strut 2 away from galianconism 4 and long-armed 3 one end connected on arm 4
Connect;The bracing frame 6 of supporting lever lever arm, long-armed 3 and the junction of galianconism 4 and bracing frame 6 cut with scissors
Connect, when electronic strut 2 being carried out thrust test, electronic strut 2 and the junction of pedestal 1
With long-armed 3 heteropleurals being positioned at bracing frame 6;When electronic strut 2 is carried out tensile test, electricity
The junction of dynamic strut 2 and pedestal 1 and long-armed 3 homonymies being positioned at bracing frame 6.
In the present embodiment, when electronic strut 2 being carried out thrust test, electronic strut 2 He
The junction of pedestal 1 and long-armed 3 needs to be positioned at the heteropleural of bracing frame 6, the most first by electronic support
One end of bar 2 is fixed in frame the right side being positioned at bracing frame 6, then by electronic strut 2
The other end is fixed on one end of galianconism 4 on lever arm, and now long-armed 3 on lever arm are in and prop up
The left side of support 6, is then placed on mass on long-armed 3 and connects away from long-armed 3 and galianconism 4
The one end connect, the most electronic strut 2 need to be in level at initial position, when electronic strut
2 when stretching out to the left, galianconism 4 can be promoted to do circular motion, be now placed in joining on long-armed 3
Weight can upwards do circular motion.When electronic strut 2 is carried out tensile test, electronic strut
2 and the junction of pedestal 1 and long-armed 3 homonymies being positioned at bracing frame 6.
It is essential that mass can be reduced in the case of meeting load capacity by lever arm
Weight, and when electronic strut 2 occurs angle to change, it is also possible to test.
Further, bracing frame 6 includes the support being fixed in frame, and support is provided with circular shaft
5, long-armed 3 and the junction of galianconism 4 connected by bearing 10 and circular shaft 5.Wherein can be by
Long-armed 3 and galianconism 4 be welded on the sidewall of an axle sleeve by default angle, then axle sleeve passes through
Bearing 10 and circular shaft 5 are attached, and make lever arm can rotate in perpendicular.
Further, the two ends of circular shaft 5 are fixed on support by locking nut 11.Wherein
Support includes the spider being positioned at pedestal 1 both sides front and back, and the top of spider is provided with placement circular shaft
The groove of 5, the two ends of circular shaft 5 are provided with screw thread, after the groove that circular shaft is placed on spider,
Two ends at circular shaft 5 are tightened locking nut 11 and can be fixed on spider by circular shaft again.
For the ease of electronic strut 2 is fixed on the pedestal 1, in the present embodiment, electronic support
Bar 2 is hinged by hangers 8 and pedestal 1.
In order to the electronic strut 2 of different strokes is carried out load testing, embodiment of the present invention institute
One electronic strut 2 load testing device provided, frame is provided with substrate 7, on substrate 7
It is provided with the many groups of fixing holes being distributed in the horizontal direction, hangers 8 and one of which fixing hole and passes through spiral shell
Bolt is fixing to be connected.When the stroke of electronic strut 2 is longer, select away from the one of bracing frame 6
Group fixing hole is attached;When the stroke of electronic strut 2 is shorter, select near bracing frame
One group of fixing hole of 6 connects.
One electronic strut 2 load testing device that the embodiment of the present invention is provided, long-armed 3 Hes
Default angle between galianconism 4 is 110 degree.The most long-armed 3 when being horizontal, as
The original position of electronic strut 2 load testing, until long-armed 3 rising 40 degree is final position,
In this process, galianconism 4 from 20 degree of vertical to the 20 of vertical another side
Degree, galianconism 4 have rotated 40 degree altogether.Due to massage armchair in use, electronic strut 2
Less angle change can be produced, and stress size also can change, therewith therefore by long-armed 3 Hes
Default angle between galianconism 4 is set to 110 degree of actual test processs meeting massage armchair.
It should be noted that the predetermined angle between long-armed 3 and galianconism 4 is set to 110 degree simply
Preferably, it is also possible to for other angle, specifically depending on the circumstances, this is not limited by the present embodiment
Fixed.
In order to strengthen the stressing conditions of lever arm, between long-armed 3 and galianconism 4, it is provided with reinforcement 12.
Further, the ratio of the stroke of the length of galianconism 4 and electronic strut 2 is 5:3.
Further, the one end connected away from long-armed 3 and galianconism 4 on long-armed 3 be provided with for
Post 9 is fixed in the load of suit mass.To electronic strut 2 load testing when, will join
Weight is enclosed within the fixing post 9 of load, therefore operates more convenient.Wherein mass is preferred
For counterweight, pass through counterweight, it is simple to staff knows the size of load.
In order to improve the stability of load testing device, two thick sticks can be set on bracing frame 6
Lever arm, and two lever arms are symmetrical for axis of symmetry with circular shaft 5, are certainly positioned on pedestal 1
Hangers 8 be also required to symmetrical, be therefore possible not only to two electronic struts 2 be carried out simultaneously
Test, improves work efficiency, and makes the stability of load testing device more preferable.
Strut load testing device electronic to one provided by the present invention has been carried out in detail above
Introduce.Principle and the embodiment of the present invention are set forth by specific case used herein,
The explanation of above example is only intended to help to understand the core concept of the present invention.It should be pointed out that,
For those skilled in the art, under the premise without departing from the principles of the invention,
The present invention can also be carried out some improvement and modification, these improve and modification also falls into the present invention
In scope of the claims.