CN204556405U - Concrete Intensity of Breaking Tester - Google Patents

Abstract

The utility model relates to engineering detecting experimental technique field.A kind of concrete Intensity of Breaking Tester, comprise main body frame, be arranged on test specimen on main body frame and load fixture, charger, test piece deformation test fixture and automatic control and collection system, described charger comprises the upper loading unit be arranged on girder and the lower loading unit be arranged on cushion cap, on described column, slip cap is provided with loading beam and lower loading beam, column between upper loading beam and lower loading beam is arranged with high strong spring, and upper loading beam and lower loading beam are respectively with upper loading unit with lower loading unit is corresponding holds out against setting.Concrete Intensity of Breaking Tester of the present utility model is reasonable in design, structure is simple, control mode is flexible, easy to operate, environment-friendly high-efficiency, accurately can obtain the stress-strain curve that Bending Concrete destroys, and is thus easy to promotion and implementation.

Description

Concrete Intensity of Breaking Tester

Technical field

The utility model relates to engineering detecting experimental technique field, particularly relates to a kind of concrete Intensity of Breaking Tester.

Background technology

Bending (anti-folding) Strength and Dformation is concrete important materials attribute, in road and airport engineering, and Bending Concrete (anti-folding) intensity or the important indicator of structural design and quality control.In reality, because bending loading mode is easier to realize relative to uniaxial direct tensile, bending (anti-folding) test is usually as the alternative method evaluating concrete tensile property, but owing to there is no unified applicable bending strength testing apparatus and deformation test device at present, even if to the concrete material of same kind, often there is some difference for the test findings of different researchist's gained, simultaneously, the members of existing multiple test flexural deformation device is not owing to reusing, cause the wasting of resources, some device also needs deformation test assembly to be pasted on test specimen, required instant glue very easily contaminated environment, its volatilization gas also can work the mischief to the health of operating personnel, and operation inconvenience, testing efficiency is low.Therefore, be necessary to develop a kind of simple, applicable concrete Intensity of Breaking Tester, for scientific research and construction engineering test provide reliable guarantee.

Utility model content

The purpose of this utility model is for above-mentioned the deficiencies in the prior art, provides that a kind of reasonable in design, structure is simple, environment-friendly high-efficiency, precisely can test the concrete Intensity of Breaking Tester of agent on crack resistance of concrete buckling strength and bend resistance deformability.

For achieving the above object, the technical scheme taked is:

A kind of concrete Intensity of Breaking Tester, comprise main body frame, the test specimen be arranged on main body frame loads fixture, charger, test piece deformation test fixture and automatic control and collection system, described main body frame comprises cushion cap, girder, be arranged on the frame base bottom cushion cap, and the column be arranged between cushion cap and girder, described charger comprises the upper loading unit be arranged on girder and the lower loading unit be arranged on cushion cap, on described column, slip cap is provided with loading beam and lower loading beam, column between upper loading beam and lower loading beam is arranged with high strong spring, upper loading beam and lower loading beam are respectively with upper loading unit with lower loading unit is corresponding holds out against setting, described test specimen loads fixture and comprises and be correspondingly respectively arranged on upper piece fixture unit on loading beam and lower loading beam and lower piece fixture unit, upper piece fixture unit is connected by coupking shaft with between upper loading beam.

Described upper loading unit comprises the upper load bar mated with the screw that girder is offered and the loading rotating disk being arranged on upper load bar top, described lower loading unit comprises the lower load bar mated with the screw that cushion cap is offered and the drive motor driving lower load bar, described lower load bar bottom outside is arranged with orienting sleeve, orienting sleeve is fixedly installed on frame base, is in transmission connection between described drive motor and lower load bar by break-in transmission gear; Described upper load bar and lower load bar top are spherical structure, and it forms point cantact respectively and between upper loading beam and lower loading beam.

Described upper piece fixture unit comprise set gradually load transducer, top board, U-shaped channel-shaped upper bracket, the loading girder be connected by coupking shaft with upper bracket and be arranged on the loaded roll loaded bottom girder, arc groove is provided with bottom described loading girder, described loaded roll coupling is arranged in arc groove, and loaded roll two ends and load to be provided with between girder and socket spring, offer sliding guide groove bottom described top board, described upper bracket is arranged in sliding guide groove by the connection of bolt coupling.

Described lower piece fixture unit comprises the sliding guide groove be opened on lower loading beam, connects the undersetting be arranged in sliding guide groove and the loaded roll being arranged on undersetting top by bolt coupling, described undersetting top is provided with arc groove, described loaded roll coupling is arranged in arc groove, and be provided with between loaded roll two ends and undersetting and socket spring, be also fixedly installed side shield outside described undersetting.

Described test piece deformation test fixture comprises displacement meter body frame, displacement meter subframe and displacement meter, described displacement meter body frame comprises to be set up the left limb of the body frame be fixed on test specimen, the right limb of body frame by tightening screw, connect the left limb of body frame and the right limb of body frame and is used for fixing the cross bar of displacement meter, described cross bar and the right limb of body frame are structure as a whole, cross bar and the left limb corresponding position of body frame offer bar-shaped trough, and tightening screw corresponding on the left limb of described body frame holds out against fixing through bar-shaped trough and test specimen; Described displacement meter subframe comprises the top board being set up the subframe body being fixed on test specimen bending deformation district and the decorative pearl on top of an official cap Corresponding matching being arranged on subframe body end and displacement meter end by tightening screw.

Described test piece deformation test fixture also includes fracture open measuring mechanism, described fracture open measuring mechanism comprises and is fixed on blessing jig bottom test specimen, top board jig by tightening screw sandwiched and is fixedly installed on the displacement meter accommodated bottom jig, and described top, displacement meter end is located on the test baffle that stretches out top board jig bottom.

The blessing point of described blessing jig and top board jig is symmetrically arranged with test specimen center.

LVDT displacement transducer is counted in described displacement.

Adopt technique scheme, acquired beneficial effect is:

(1) automatic and manual two kinds of load modes are provided, can be suitable in different test purposes and test condition, as worked because of power-off motor, or the test more responsive to controlled condition, as obtained the descending branch of concrete destruction stress-strain curve, this instrument is made to have stronger adaptability;

(2) setting of load transducer top coupking shaft and upper bracket coupking shaft, makes charger tight with contacting of test specimen, guarantees test specimen uniform force, avoid the adverse effect because test specimen manufacturing deviation causes test findings;

(3) the slidable adjustment structure of upper bracket and undersetting can meet the testing requirements of different loading, different sample dimensions, extends applicability, dirigibility that test specimen loads fixture;

(4) quick load and precise positioning test specimen are convenient in the setting of undersetting test specimen positioning baffle, improve test efficiency and test accuracy;

(5) design of test piece deformation test fixture make, test result more convenient to the clamping of test specimen and displacement meter more precisely, input cost is lower, operate more environmental protection;

(6) the fracture open measuring mechanism arranged bottom test specimen simple bending section directly can test the opening displacement amount in test specimen simple bending section crack, for comparative analysis provides valuable data;

(7) this testing machine adopts LVDT displacement meter to measure test piece deformation, avoids pasting the complex operation that foil gauge method is brought, the shortcoming that cost is higher because adopting;

(8) data in data acquisition system (DAS) energy real time record process of the test also can carry out analyzing and processing to test findings, provide rational parameter;

Concrete Intensity of Breaking Tester of the present utility model is reasonable in design, structure is simple, control mode is flexible, easy to operate, environment-friendly high-efficiency, accurately can obtain the stress-strain curve that Bending Concrete destroys, and is thus easy to promotion and implementation.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is one of structural representation of the utility model test piece deformation test fixture and charger.

Fig. 3 is the structural representation two of the utility model test piece deformation test fixture and charger.

Fig. 4 is normal concrete anti-folding failing load-amount of deflection full curve figure.

Fig. 5 is steel fiber reinforced concrete anti-folding failing load-amount of deflection full curve figure.

Sequence number in figure: in figure: 1 is cushion cap, 2 is girder, 3 is frame base, 4 is column, 5 is upper loading beam, 6 is lower loading beam, 7 is high strong spring, 8 is coupking shaft, 9 is upper load bar, 10 for loading rotating disk, 11 is lower load bar, 12 is drive motor, 13 is orienting sleeve, 14 is break-in transmission gear, 15 is load transducer, 16 is top board, 17 is upper bracket, 18 for loading girder, 19 is loaded roll, 20 for socketing spring, 21 is sliding guide groove, 22 is undersetting, 23 is side shield, 24 is the left limb of body frame, 25 is the right limb of body frame, 26 is cross bar, 27 is bar-shaped trough, 28 is tightening screw, 29 is subframe body, 30 is top board, 31 for accommodating jig, 32 is top board jig, 33 is LVDT displacement transducer, 34 is test baffle, 35 is test specimen, 36 is computing machine, 37 is controller, 38 is speed regulation frequency converter.

Embodiment

Elaborate below in conjunction with the embodiment of accompanying drawing to this.

Embodiment one: see Fig. 1, Fig. 2, a kind of concrete Intensity of Breaking Tester, comprises main body frame, is arranged on test specimen on main body frame and loads fixture, charger, test piece deformation test fixture and automatic control and collection system.

Wherein main machine frame comprises girder 2, cushion cap 1, left and right two columns 4 and frame base 3, described charger comprises the upper loading unit be arranged on girder 2 and the lower loading unit be arranged on cushion cap 1, on described column 4, slip cap is provided with loading beam 5 and lower loading beam 6, column 4 between upper loading beam 5 and lower loading beam 6 is arranged with high strong spring 7, upper loading beam 5 and lower loading beam 6 are respectively with upper loading unit with lower loading unit is corresponding holds out against setting, described test specimen loads fixture and comprises and be correspondingly respectively arranged on upper piece fixture unit on loading beam and lower loading beam and lower piece fixture unit, upper piece fixture unit is connected by coupking shaft 8 with between upper loading beam.

Wherein form a body structure between the cushion cap 1 of main machine frame and frame base 3, and there is certain rigidity, for the installations of power transmission assembly such as lower load bar 11, drive motor 12 and the installation of top load maintainer provide firm support, and provide protection for each assembly being installed on its inside.Described left and right pillar 4 is cemented in the center at cushion cap about 1 two ends respectively, and described girder 2 is consolidated in left and right pillar 4 top, constitutes the loading structure of main machine frame, for the applying of load provides counter-force.

Upper loading unit in described charger is manual loading, and lower loading unit is automatically load.Described upper loading unit comprises the upper load bar 9 mated with the screw that girder 2 is offered and the loading rotating disk 10 being arranged on upper load bar top, loading rotating disk 10 adopts with upper load bar 9 and is rigidly connected, upper load bar 9 is screw rod, through the screw that girder 2 center is arranged.Loading rotating disk 10 turns clockwise and load bar 9 can be made downwards to advance around screw, holds out against loading beam 5.Described upper load bar 9 top is sphere, forms point cantact with upper loading beam 5, and the length of two sheathed on column 4 high strong springs 7 is all identical with elasticity coefficient, and when avoiding loading, upper loading beam two ends trepanning and left and right principal post produce moment of flexure.Upper loading beam 5 is advanced downwards and can test specimen be made stressed by the upper piece fixture unit with being automatically connected in center, its underpart, realizes manual loading.The drive motor 12 of described lower loading unit is fixed on frame base 3, drive motor 12 main shaft connects break-in transmission gear 14, break-in transmission gear 14 is engaged with the gear teeth arranged in the middle part of lower load bar 11, motion that the rotation of break-in transmission gear 14 can drive lower load bar 11 to do to rise and decline is advanced, lower load bar 11 bottom is smooth round bar structure, be placed in orienting sleeve 13, ensure the vertical stability of lower load bar 11.Lower load bar 11 top is also spherical structure, point cantact is formed with lower loading beam 6, lower loading beam 6 forms upper and lower symmetrical structure with upper loading beam 5, when upper loading beam 5 is motionless, lower loading beam 5 is upwards advanced and can test specimen be made stressed by the lower piece fixture unit with being automatically connected on it under motor pushing, realizes by the automatic loading of driven by motor.

Described upper piece fixture unit comprise set gradually load transducer 15, top board 16, U-shaped channel-shaped upper bracket 17, the loading girder 18 be connected by coupking shaft 8 with upper bracket 17 and be arranged on the loaded roll 19 loaded bottom girder 18, top board 16 bottom center left and right directions arranges sliding guide groove 21, upper bracket 17 is connected with top board 16 by the bolt in sliding guide groove 21, and can be fixed on the optional position of top board 16.Loading girder 18 adopts coupking shaft 8 and upper bracket 17 to connect, upper end, side is that conical loading girder 18 can rotate around coupking shaft 8, arc groove is provided with bottom described loading girder 18, described loaded roll 19 coupling is arranged in arc groove, load girder 18 and loaded roll 19 two ends to adopt and socket spring 20 and connect, top charging assembly can be made like this to contact closely with test specimen, ensure stressed more even.Top board 16 upper end center is connected with load transducer 15 by bolt, load transducer 15 upper end is bound up on upper loading beam 5 bottom center by coupking shaft 8, the load plate left and right sides in adjustable that arranges of described coupking shaft 8 loads the exposure level of roll shaft and test specimen, ensure test specimen both sides uniform force, thus obtain test figure more accurately.

Described lower piece fixture unit comprises the sliding guide groove 21 be opened on lower loading beam 6, connects the undersetting 22 be arranged in sliding guide groove and the loaded roll 19 being arranged on undersetting 22 top by bolt coupling, undersetting 22 is connected and fixes with sliding guide groove 21 with lower loading beam 6 by bolt, in left side undersetting 22, outside is screwed left side, a L-type test specimen location baffle plate 23, fixes a test specimen position right side shield 23 inside the right undersetting 22.Described undersetting 22 arranges loaded roll 19, described undersetting 22 top is provided with arc groove, and described loaded roll 19 coupling is arranged in arc groove, and loaded roll 19 is connect with undersetting 22 by the spring 20 that sockets at two ends, loaded roll 19 is rotated flexibly, ensures the simply-supported state loaded.

Upper bracket 17 quantity on described top board 16 is two, left and right, can carry out slip adjust and be fixed on top board according to the length of test specimen loaded segment; When only with can realize during a upper bracket 3 load bending tests, use two upper brackets can realize the bending test of trisection point loading, the slidable adjustment of described undersetting 22 can according to the size adjustment span of test specimen, and the slidable adjustment design of upper and lower bearing extends applicability, dirigibility that test specimen loads fixture.On the left of the location of described test specimen, quick load and precise positioning test specimen are convenient in the setting of baffle plate and test specimen position right side shield, improve test efficiency and test accuracy.

Described test piece deformation test fixture comprises displacement meter body frame, displacement meter subframe and displacement meter, described displacement meter body frame comprises sets up the left limb 24 of the body frame be fixed on test specimen 35 by tightening screw, the right limb of body frame 25 be connected the left limb of body frame 24 and the right limb 25 of body frame and be used for fixing the cross bar 26 of displacement meter, described cross bar 26 is structure as a whole with the right limb 25 of body frame, cross bar 26 and body frame left limb 24 corresponding position offer bar-shaped trough 27, displacement meter body frame is fixed on test specimen right-hand member by the tightening screw 28 corresponding to right limb place by the right limb of displacement meter body frame 25 and cross bar 26, the left limb 24 of body frame is fixed on test specimen 35 left end by tightening screw 28, the tightening screw 28 of left end penetrates in the bar-shaped trough 27 of displacement meter body frame left end corresponding to displacement meter body frame left limb 24 place, this design is beneficial to be coordinated with the linear deformation of test specimen.The left limb of displacement meter body frame 24 and the right limb 25 of body frame are respectively across the two ends, left and right of test specimen 35, on the one hand support effect is played to displacement meter, just in time be fixed on test specimen side longitudinal centre line and undersetting vertical lines intersect point by the tightening screw on the left limb of displacement meter body frame 24 and the right limb 25 of body frame on the other hand, be more convenient for positioning displacement meter body frame and clamping.The cross bar 26 of displacement meter body frame arranges displacement meter locking clamp, by locking clamp, displacement meter is fixed on displacement meter body frame.Described displacement meter subframe comprises the top board 30 being set up the subframe body 29 being fixed on test specimen bending deformation district and the decorative pearl on top of an official cap Corresponding matching being arranged on subframe body 29 end and displacement meter end by tightening screw, and displacement meter body frame can by displacement meter carry out record with test piece end with the relative change of center with subframe.

Described automatic control and collection system comprises automatic control unit and data acquisition unit, and automatic control unit comprises computing machine 36, controller 37, speed regulation frequency converter 38, motor 12.The speed regulation frequency converter 38 of automatic control unit is connected with motor 12 and controller 37 respectively by cable, and controller 37 is connected with computing machine 36 by cable.Control signal is transferred to speed regulation frequency converter to controller, controller through signal conversion by the command that computer control software sends, and realizes turning to and rotating speed control motor by speed regulation frequency converter.

Data acquisition unit is made up of load transducer 15, LVDT displacement transducer 33, controller 37, computing machine 36, data line and cable etc.The load transducer 15 of data acquisition system (DAS) is connected with controller 37 respectively by cable with LVDT displacement transducer 33, and respectively simulating signal is passed to controller 37, pass to computing machine 36 by cable after controller converts simulating signal to digital signal, the data transmitted constantly also preserved by computing machine by software records.Described controller is integrated with assemblies such as comprising amplifier, A/D converter, microprocessor (CPU), storer, communication interface circuit.

Embodiment two: see Fig. 1, Fig. 3, the structure of the present embodiment is substantially identical with embodiment one, something in common no longer repeats, its difference is: be provided with fracture open measuring mechanism bottom described test specimen, described fracture open measuring mechanism comprises and is fixed on blessing jig 31 bottom test specimen by tightening screw sandwiched, top board jig 32, and be fixedly installed on the LVDT displacement transducer 33 accommodated bottom jig 31, top, described displacement meter end is located on the test baffle 34 that stretches out top board jig 32 bottom, top board jig 32 and blessing jig 31 are separately fixed on the perpendicular line of girder test specimen 35 3 branch loaded roll, to obtain the joint open in test specimen simple bending section crack.Described top board jig 32 and blessing jig 31 increase generation relative movement with test piece deformation, and drive LVDT displacement transducer 33 directly to record the opening displacement amount in test specimen simple bending section crack.

When adopting control system to carry out the bending test automatically loaded, the control software design of computing machine sends instruction, control signal is transferred to controller, described controller controls speed regulation frequency converter after signal conversion makes motor rotation drive load maintainer action according to the program of setting, completes automatic load test.The load transducer of data acquisition system (DAS) is connected with controller respectively by cable with LVDT displacement transducer, and respectively simulating signal is passed to controller, described controller passes to computing machine by cable after converting simulating signal to digital signal, and the data transmitted constantly also preserved by described computing machine by software records.

Be below verification experimental verification of the present utility model, see Fig. 4, Fig. 5:

Concrete Intensity of Breaking Tester of the present utility model is adopted to test the fracture resistance of normal concrete and steel fiber reinforced concrete girder test specimen.Profile test in this example and result as follows:

Starting material are the Portland cement of 42.5 grades, II grade of flyash, and particle diameter is the limestone gravel of 5-20mm, modulus of fineness is thick river sand in 3.0, the (cold-)drawn (steel)wire of length 35mm, diameter 0.57mm cuts off type steel fibers, high-efficiency water-reducing agent of poly-carboxylic acid, tap water.The folk prescription match ratio of normal concrete and steel fiber reinforced concrete mixture is in table 1.

Table 1:

Concrete folk prescription match ratio/kg

Type	Coarse aggregate	Fine aggregate	Cement	Flyash	Water	Steel fibre	Water reducer
								Normal concrete	935.7	887.6	380.8	95.2	142.8	0.0	5.7
Steel fiber reinforced concrete	845.8	802.4	423.4	105.9	158.8	78.0	6.4

The method that test basis national standard " standard for test methods of mechanical properties of ordinary concrete " GB/T500081-2002 and " fiber concrete test method standard " CECS 13-2009 specifies is carried out.Girder sample dimensions is 100mm × 100mm × 400mm, during test material preparation, the mixture meeting workability requirement is poured into die trial, then form removal in 24 hours numbering in rest chamber, puts into fracture resistance is carried out in standard curing room maintenance test after 28 days, often organizes 3 test specimens.Survey two type agent on crack resistance of concrete bending performance indexs in table 2, bend resistance failing load-amount of deflection full curve is shown in Fig. 4 and Fig. 5.

Table 2:

As can be seen from the test findings of table 2 and Fig. 4 and Fig. 5, utilize the fracture resistance test that concrete Intensity of Breaking Tester of the present utility model carries out two type concrete girder test specimens, measured intensity level and deformation values discreteness are all within 10%, measuring accuracy is higher, conveniently can be obtained the load-amount of deflection full curve of test specimen destruction by data acquisition system (DAS).

Claims (8)

1. a concrete Intensity of Breaking Tester, it is characterized in that, comprise main body frame, the test specimen be arranged on main body frame loads fixture, charger, test piece deformation test fixture and automatic control and collection system, described main body frame comprises cushion cap, girder, be arranged on the frame base bottom cushion cap, and the column be arranged between cushion cap and girder, described charger comprises the upper loading unit be arranged on girder and the lower loading unit be arranged on cushion cap, on described column, slip cap is provided with loading beam and lower loading beam, column between upper loading beam and lower loading beam is arranged with high strong spring, upper loading beam and lower loading beam are respectively with upper loading unit with lower loading unit is corresponding holds out against setting, described test specimen loads fixture and comprises and be correspondingly respectively arranged on upper piece fixture unit on loading beam and lower loading beam and lower piece fixture unit, upper piece fixture unit is connected by coupking shaft with between upper loading beam.

2. concrete Intensity of Breaking Tester according to claim 1, it is characterized in that, described upper loading unit comprises the upper load bar mated with the screw that girder is offered and the loading rotating disk being arranged on upper load bar top, described lower loading unit comprises the lower load bar mated with the screw that cushion cap is offered and the drive motor driving lower load bar, described lower load bar bottom outside is arranged with orienting sleeve, orienting sleeve is fixedly installed on frame base, is in transmission connection between described drive motor and lower load bar by break-in transmission gear; Described upper load bar and lower load bar top are spherical structure, and it forms point cantact respectively and between upper loading beam and lower loading beam.

3. concrete Intensity of Breaking Tester according to claim 1, it is characterized in that, described upper piece fixture unit comprises the load transducer set gradually, top board, the upper bracket of U-shaped channel-shaped, the loading girder be connected by coupking shaft with upper bracket and be arranged on the loaded roll loaded bottom girder, arc groove is provided with bottom described loading girder, described loaded roll coupling is arranged in arc groove, and loaded roll two ends and load to be provided with between girder and socket spring, sliding guide groove is offered bottom described top board, described upper bracket is arranged in sliding guide groove by the connection of bolt coupling.

4. concrete Intensity of Breaking Tester according to claim 1, it is characterized in that, described lower piece fixture unit comprises the sliding guide groove be opened on lower loading beam, connects the undersetting be arranged in sliding guide groove and the loaded roll being arranged on undersetting top by bolt coupling, described undersetting top is provided with arc groove, described loaded roll coupling is arranged in arc groove, and be provided with between loaded roll two ends and undersetting and socket spring, be also fixedly installed side shield outside described undersetting.

5. concrete Intensity of Breaking Tester according to claim 1, it is characterized in that, described test piece deformation test fixture comprises displacement meter body frame, displacement meter subframe and displacement meter, described displacement meter body frame comprises to be set up the left limb of the body frame be fixed on test specimen, the right limb of body frame by tightening screw and and be connected the left limb of body frame and the right limb of body frame and is used for fixing the cross bar of displacement meter, described cross bar and the right limb of body frame are structure as a whole, cross bar and the left limb corresponding position of body frame offer bar-shaped trough, and tightening screw corresponding on the left limb of described body frame holds out against fixing through bar-shaped trough and test specimen; Described displacement meter subframe comprises the top board being set up the subframe body being fixed on test specimen bending deformation district and the decorative pearl on top of an official cap Corresponding matching being arranged on subframe body end and displacement meter end by tightening screw.

6. concrete Intensity of Breaking Tester according to claim 1, it is characterized in that, described test piece deformation test fixture includes fracture open measuring mechanism, described fracture open measuring mechanism comprises and is fixed on blessing jig bottom test specimen, top board jig by tightening screw sandwiched and is fixedly installed on the displacement meter accommodated bottom jig, and described top, displacement meter end is located on the test baffle that stretches out top board jig bottom.

7. concrete Intensity of Breaking Tester according to claim 6, is characterized in that, the blessing point of described blessing jig and top board jig is symmetrically arranged with test specimen center.

8. the concrete Intensity of Breaking Tester according to claim 5 or 6, is characterized in that, LVDT displacement transducer is counted in described displacement.