CN210221685U - Full-automatic cement strength testing machine - Google Patents

Abstract

The utility model relates to a full-automatic cement strength testing machine belongs to the check out test set field, which comprises a bod, be provided with anti bottom plate and the resistance to compression bottom plate on the organism respectively, the position that just is located anti bottom plate on the organism is provided with the anti test device that rolls over that is used for detecting the anti strength of rolling over of test piece, the position that just is located the resistance to compression bottom plate on the organism is provided with the resistance to compression test device that is used for detecting test piece resistance to compression strength, the position that just is located resistance to compression bottom plate and resistance to compression bottom plate on the organism is provided with the collecting vat, the collecting vat is whole to be annular, the inner circle size of annular collecting vat sets up with resistance to compression bottom plate and resistance to compression bottom plate cooperation respectively, the collecting vat includes first combination groove and second combination groove, first combination groove and second combination groove are whole to be half circular arc, be provided with the connecting piece that is used for connecting first combination groove and second combination groove.

Description

Full-automatic cement strength testing machine

Technical Field

The utility model belongs to the technical field of check out test set's technique and specifically relates to a full-automatic cement strength testing machine is related to.

Background

When the cement strength is measured, a full-automatic cement strength tester is usually used, the equipment can detect the bending strength and the compressive strength of the cement, automatically provides test records, and is widely applied to the field of building material detection.

The existing Chinese patent with the publication number of CN202869903U discloses a full-automatic pressure testing machine, which comprises an anti-bending test system and a compression test system, wherein the anti-bending test system and the compression test system are arranged on a frame, the bottom of the frame is provided with an oil pump motor, the bottom of the oil pump motor is an oil tank, an oil path block is arranged between the oil tank and the oil pump motor, oil pipes are respectively connected between the oil pump motor and the anti-bending test system as well as between the oil pump motor and the compression test system, one is an anti-bending oil pipe, and the other is a compression oil pipe; the bending test system and the compression test system are arranged on two sides of the top of the rack, and a touch screen and a printer are arranged between the two systems; the anti-bending test system comprises an anti-bending oil cylinder, an anti-bending piston, an anti-bending sensor, an anti-bending clamp upper pressing block, a sensor threading pipe, an anti-bending stress rod, an anti-bending clamp seat, an anti-bending bottom plate, a reset spring, a piston guide rod and a limit switch; the compression test system comprises a compression oil cylinder, a compression piston, a compression sensor, a compression upper pressure plate, a sensor threading pipe, a compression stress rod, a compression clamp cushion block, a compression bottom plate, a reset spring, a piston guide rod and a limit switch.

The above prior art solutions have the following drawbacks: when utilizing this testing machine to carry out the intensity detection of cement, arrange the cement test piece in on the anti-anchor clamps seat or the resistance to compression anchor clamps cushion, the rethread does not start the controller alright with experimental, in the experimentation, the cement test piece can be crushed, the cement test piece can produce a lot of fragments and drop to frame or subaerial, the measurement personnel need clear up these fragments, but when carrying out the multiunit experiment, the quantity of fragment is very many, it is also very inconvenient to clear up.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic cement strength testing machine convenient to collect and clear up the cement fragment.

The utility model aims at realizing through the following technical scheme:

a full-automatic cement strength testing machine comprises a machine body, wherein an anti-bending bottom plate and an anti-compression bottom plate are respectively arranged on the machine body, an anti-bending test device for detecting the anti-bending strength of the test piece is arranged on the machine body and at the position of the anti-bending bottom plate, a compression test device for detecting the compression strength of the test piece is arranged on the machine body and positioned on the compression base plate, a collecting groove is arranged on the machine body and positioned on the anti-bending bottom plate and the anti-bending bottom plate, the collecting groove is annular as a whole, the size of the inner ring of the annular collecting groove is matched with the anti-bending bottom plate and the anti-bending bottom plate respectively, the collecting tank comprises a first combination tank and a second combination tank, the first combination tank and the second combination tank are integrally in a semi-arc shape, and a connecting piece for connecting the first combination groove and the second combination groove is arranged between the first combination groove and the second combination groove.

By adopting the technical scheme, when the equipment is used for detecting the strength of the cement test piece, the cement water piece is placed on the anti-bending test device or the anti-compression test device, then the anti-bending test device or the anti-compression test device is started, the anti-bending test device or the anti-compression test device can apply pressure on the cement test piece, the cement test piece can be crushed after being stressed to generate a large amount of fragments, the fragments can fall into the collecting tank when the cement test piece is crushed, after the detection is finished, a detector can separate the collecting tank into the first combined tank and the second combined tank through the connecting piece to take the collecting tank down from the machine body, then the detector can process the fragments in the first combined tank and the second combined tank, the fragments can be collected through the collecting tank, the fragments are prevented from scattering on the machine body everywhere, so that the detector can more conveniently clean the fragments, and after the fragments are treated, the first combination groove and the second combination groove are fixed to the periphery of the anti-bending bottom plate or the periphery of the anti-compression bottom plate through the connecting pieces.

The utility model discloses further set up to: the connecting piece is including setting up the connecting block on first combination groove, the connecting block is located the terminal surface at first combination groove both ends, set up the spread groove that supplies the connecting block immigration on the terminal surface at second combination groove both ends, connecting block and spread groove cooperation set up.

Through adopting above-mentioned technical scheme, when connecting first combination groove and second combination groove, with the connecting block on the first combination groove insert to the spread groove on the second combination groove in can, when dismantling first combination groove and second combination groove, make the connecting block break away from the spread groove can, it is very convenient.

The utility model discloses further set up to: be provided with first magnet piece on the inner wall of spread groove, be provided with the second magnet piece that adsorbs each other with first magnet piece on the connecting block.

Through adopting above-mentioned technical scheme, insert the connecting block back in the spread groove, first magnet piece can adsorb with second magnet piece each other for the connecting block is fixed to in the spread groove, thereby makes and to be connected more inseparabler between first combination groove and the second combination groove.

The utility model discloses further set up to: the arc-shaped top surface of the outer side wall of the first combination groove and the arc-shaped top surface of the outer side wall of the second combination groove are provided with holding grooves, the holding grooves extend along the arc-shaped edges of the first combination groove and are provided with baffle plates, the baffle plates are connected in the holding grooves in a sliding mode, a plurality of springs are arranged between the baffle plates and the bottom wall of the holding grooves, two ends of each spring are fixedly connected with the baffle plates and the holding grooves respectively, when the baffle plates are located in the holding grooves, the springs are in a compression state, and fixing pieces used for fixing the baffle plates to the holding grooves are arranged on.

Through adopting above-mentioned technical scheme, when testing, the testing personnel can loosen the mounting on first combination groove and the second combination groove, because the baffle is located the holding tank when, the spring is in compression state, and the spring after the compression can produce elasticity, after loosening the mounting, the spring can exert elasticity to the baffle, make the baffle shift out from holding the inslot, just increased the height in first combination groove and second combination groove after the baffle shifts out, make first combination groove and second combination groove can prevent the fragment that part splashes to fly out, make the collecting vat can collect the fragment better, and when clearing up the fragment, then can arrange the baffle in the holding tank and utilize the mounting fixed, reduce the influence to the testing personnel operation.

The utility model discloses further set up to: the mounting is including setting up the strip that blocks on first combination groove and second combination groove, block that the strip is articulated to be set up on first combination groove and second combination groove, set up the joint groove that supplies to block the strip joint on the baffle.

Through adopting above-mentioned technical scheme, with baffle immigration holding tank back, rotate through the pin joint and block the strip, make and block the joint inslot that the strip got into on the baffle, so alright shift out the holding tank with preventing the baffle, and whole structure is very simple, convenient to use more.

The utility model discloses further set up to: the spring is arranged on the side wall opposite to the accommodating groove, a fixing groove is formed in the position, located on the spring, of the side wall, the accommodating groove is formed in the length direction of the spring, and the spring is located in the fixing grooves on the two sides.

Through adopting above-mentioned technical scheme, the setting of fixed slot can prevent the spring to take place the slope when the compression to make the spring can better pop out the baffle, also can reduce the damage that the spring slope caused to spring itself simultaneously.

The utility model discloses further set up to: and lugs are arranged on the outer side walls of the first combination groove and the second combination groove.

By adopting the technical scheme, a detector can more conveniently connect or detach the first combination groove and the second combination groove through the lugs, so that the collecting groove is more convenient to use.

To sum up, the utility model discloses a beneficial technological effect does:

1. the collecting groove is formed in the positions of the anti-bending bottom plate and the anti-compression bottom plate on the machine body, so that fragments of a cement test piece in the test process can enter the collecting groove, the collecting groove is divided into the first combined groove and the second combined groove, so that a detector can take out the collecting groove from the machine body, the fragments in the collecting groove are cleaned, the fragments are prevented from scattering on the machine body through the collecting groove, and the detector can clean the fragments more conveniently;

2. the first combination groove and the second combination groove can be better connected through the connecting block and the connecting groove which are respectively arranged on the first combination groove and the second combination groove;

3. through set up the holding tank on first combination groove and second combination groove to set up the baffle that can stretch out at the holding tank, increased the height in first combination groove and second combination groove, make the collecting vat can collect the fragment that part splashes, thereby make the collecting vat can collect the fragment better.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a collecting tank for displaying the collecting tank according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a collecting tank according to an embodiment of the present invention;

FIG. 4 is an enlarged partial schematic view of portion A of FIG. 3;

fig. 5 is a schematic sectional view of the embodiment of the present invention after the baffle is removed.

In the figure, 1, a machine body; 11. an anti-folding bottom plate; 12. a compression-resistant bottom plate; 13. a bending resistance test device; 14. a compression test device; 2. collecting tank; 21. a first combination groove; 211. connecting blocks; 212. a second magnet block; 22. a second combination groove; 221. connecting grooves; 222. a first magnet block; 23. accommodating grooves; 231. fixing grooves; 24. a baffle plate; 241. a clamping groove; 25. a spring; 26. A barrier strip; 27. a lug.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a full-automatic cement strength testing machine, including organism 1, be provided with anti bottom plate 11 and resistance to compression bottom plate 12 on the organism 1, the position of being provided with anti test device 13 in anti bottom plate 11 on the organism 1, the position of being provided with resistance to compression bottom plate 12 on the organism 1 is provided with resistance to compression test device 14, the position of being provided with collecting vat 2 in anti bottom plate 11 and resistance to compression bottom plate 12 on the organism 1, collecting vat 2 wholly is annular and collecting vat 2's inner circle size and anti bottom plate 11 and resistance to compression bottom plate 12's big or small cooperation setting.

Referring to fig. 2 and 3, the collecting tank 2 includes a first combination groove 21 and a second combination groove 22, both the first combination groove 21 and the second combination groove 22 are semi-circular arc-shaped, the first combination groove 21 and the second combination groove 22 are spliced and arranged, a connecting block 211 and a connecting groove 221 are respectively arranged on the abutted surfaces of the first combination groove 21 and the second combination groove 22, a first magnet block 222 (see fig. 4) is arranged in the connecting groove 221, a second magnet block 212 is arranged on the connecting block 211, and after the connecting block 211 is inserted into the connecting groove 221, the first magnet block 222 and the second magnet block 212 are mutually adsorbed, so that the first combination groove 21 and the second combination groove 22 are more tightly connected, and in order to facilitate splicing or disassembling the first combination groove 21 and the second combination groove 22 by a tester, a lug 27 is arranged on the outer side walls of the first combination groove 21 and the second combination groove 22.

The cement test piece can be subjected to flexural strength detection or compressive strength detection by using the flexural test device 13 or the compressive test device 14, during the detection process, fragments generated by crushing the cement test piece can enter the collecting groove 2, a detector moves the first combination groove 21 and the second combination groove 22 through the lugs 27 to separate the first magnet block 222 from the second magnet block 212, and then the connecting block 211 is moved out of the connecting groove 221, so that the first combination groove 21 and the second combination groove 22 are separated, and then the fragments in the first combination groove 21 and the second combination groove 22 are respectively processed.

Referring to fig. 3 and 5, holding tank 23 has been seted up on the arc top surface of first combination groove 21 and second combination groove 22 lateral wall, holding tank 23 wholly is the arc setting, sliding connection has curved baffle 24 in holding tank 23, baffle 24 can follow vertical direction immigration or shift out holding tank 23, be provided with a plurality of springs 25 between the bottom surface of baffle 24 and the diapire of holding tank 23, springs 25's both ends respectively with baffle 24 and holding tank 23 fixed connection, when baffle 24 is located holding tank 23, spring 25 is in compression state, it is provided with a plurality of stop bars 26 to articulate on first combination groove 21 and the second combination groove 22, stop bars 26 and can prevent baffle 24 to shift out holding tank 23 after rotating through the pin joint, the joint groove 241 that supplies stop bars 26 to move into still has been seted up on the baffle 24 simultaneously.

The blocking strip 26 is rotated through the hinge point to move out of the clamping groove 241 and rotate to the direction far away from the baffle plate 24, at the moment, the spring 25 applies elastic force to the baffle plate 24 due to the elasticity generated in the compression state, the baffle plate 24 moves out of the accommodating groove 23 after being stressed, the heights of the first combination groove 21 and the second combination groove 22 are increased after the baffle plate 24 moves out, and therefore the first combination groove 21 and the second combination groove 22 can better collect fragments

Referring to fig. 2, the fixing groove 231 is formed at a position where the spring 25 is located on the opposite inner wall of the receiving groove 23, the spring 25 is located in the fixing grooves 231 at both sides, and the spring 25 does not incline when being compressed or extended in the fixing groove 231, so that the spring 25 can better pop out of the baffle plate 24.

The implementation principle of the embodiment is as follows: when utilizing full-automatic cement strength testing machine to carry out the detection of cement test piece flexural strength or compressive strength, the testing personnel at first place the cement water spare in flexural test device 13 or compressive test device 14 on to start flexural test device 13 or compressive test device 14, flexural test device 13 or compressive test device 14 can exert pressure to the cement test piece until the cement test piece is crushed, thereby reachs the flexural strength or compressive strength of cement test piece.

After the detection is finished, a detector can move the first combination groove 21 and the second combination groove 22 in opposite directions through the lugs 27 to move the connecting block 211 out of the connecting groove 221, so that the collecting groove 2 is separated and taken down from the anti-bending bottom plate 11 or the anti-compression bottom plate 12, then the detector can process the fragments in the first combination groove 21 and the second combination groove 22, then the first combination groove 21 and the second combination groove 22 are fixed to the periphery of the anti-bending bottom plate 11 or the periphery of the anti-compression bottom plate 12 through the connecting block 211 and the connecting groove 221, and the fragments of the cement test piece can be collected through the collecting groove 2, so that the fragments cannot scatter on the machine body 1 everywhere, and therefore the detector can clean the fragments more conveniently.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a full-automatic cement strength testing machine, includes organism (1), be provided with anti bottom plate (11) and resistance to compression bottom plate (12) on organism (1) respectively, the position that just is located anti bottom plate (11) on organism (1) is provided with anti rupture test device (13) that are used for detecting the anti rupture strength of test piece, the position that just is located resistance to compression bottom plate (12) on organism (1) is provided with resistance to compression test device (14) that are used for detecting test piece compressive strength, its characterized in that: the collecting tank is characterized in that a collecting tank (2) is arranged on the machine body (1) and located at the position of an anti-folding bottom plate (11) and the position of an anti-folding bottom plate (12), the collecting tank (2) is annular, the size of an inner ring of the annular collecting tank (2) is matched with the anti-folding bottom plate (12) and the anti-folding bottom plate (11) respectively, the collecting tank (2) comprises a first combination groove (21) and a second combination groove (22), the first combination groove (21) and the second combination groove (22) are in a semicircular arc shape integrally, and a connecting piece used for connecting the first combination groove (21) and the second combination groove (22) is arranged between the first combination groove (21) and the second combination groove (22).

2. The fully automatic cement strength testing machine according to claim 1, characterized in that: the connecting piece is including setting up connecting block (211) on first combination groove (21), connecting block (211) are located the terminal surface at first combination groove (21) both ends, set up on the terminal surface at second combination groove (22) both ends and supply connecting block (211) immigration connecting groove (221), connecting block (211) and connecting groove (221) cooperation setting.

3. The fully automatic cement strength testing machine according to claim 2, characterized in that: the inner wall of the connecting groove (221) is provided with a first magnet block (222), and the connecting block (211) is provided with a second magnet block mutually adsorbed with the first magnet block (222).

4. The fully automatic cement strength testing machine according to claim 1, characterized in that: holding tank (23) have all been seted up on the arc top surface of first combination groove (21) and second combination groove (22) lateral wall, holding tank (23) extend the setting along the arc limit of first combination groove (21), sliding connection has baffle (24) in holding tank (23), be provided with a plurality of springs (25) between the diapire of baffle (24) and holding tank (23), the both ends of spring (25) respectively with baffle (24) and holding tank (23) fixed connection, when baffle (24) are located holding tank (23), spring (25) are in compression state, be provided with the mounting that is used for fixed stop (24) to holding tank (23) on first combination groove (21) and second combination groove (22).

5. The fully automatic cement strength testing machine according to claim 4, characterized in that: the mounting is including setting up stopping strip (26) on first combination groove (21) and second combination groove (22), stop that strip (26) are articulated to be set up on first combination groove (21) and second combination groove (22), offer joint groove (241) that supply to stop strip (26) joint on baffle (24).

6. The fully automatic cement strength testing machine according to claim 4, characterized in that: fixing grooves (231) are formed in the positions, located on the opposite side walls of the accommodating grooves (23), of the springs (25), the fixing grooves (231) are arranged along the length direction of the springs (25), and the springs (25) are located in the fixing grooves (231) on the two sides.

7. The fully automatic cement strength testing machine according to claim 1, characterized in that: the outer side walls of the first combination groove (21) and the second combination groove (22) are provided with lugs (27).

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