CN207163850U - A kind of cement mortar consistency testing device for building - Google Patents

Abstract

It the utility model is related to a kind of building test device, more particularly to a kind of cement mortar consistency testing device for building.The technical problems to be solved in the utility model is to provide the cement mortar consistency testing device for building that a kind of test value error is small, simple to operate.In order to solve the above-mentioned technical problem, the utility model provides such a cement mortar consistency testing device for building, includes bottom plate, rotating mechanism, placing frame, side plate, fixed mechanism, elevating mechanism, the first fixed pulley, the second fixed pulley, connecting rod, circular cone and top plate；Side plate, rotating mechanism are fixed in bottom plate successively along floor length direction, and fixed mechanism, elevating mechanism are fixed in a sidepiece of the side plate away from rotating mechanism successively along side plate short transverse, and top plate is fixed at the top of side plate.The utility model has reached the effect that test value error is small, simple to operate.

Description

A kind of cement mortar consistency testing device for building

Technical field

It the utility model is related to a kind of building test device, more particularly to a kind of cement mortar consistency testing dress for building Put.

Background technology

Cement mortar denseness is different from " dilute thick " concept in general sense, and what cement mortar denseness represented is " flowing Property ", refer to mortar under gravity or external force effect whether readily flowed performance, its size represented with sinking to value, i.e. cement The cone of mortar consistency determining apparatus sinks to the millimeter of mortar depth, and the denseness determined with cement mortar texturometer is got over Greatly, mobility is bigger, i.e., the depth that cone is sunk to is bigger, and denseness is bigger, and mobility is better.

The work for the detection cement mortar service behaviour that cement mortar consistency testing must be done when being construction；Building In construction process, test concrete slump is a normality job.

There is the shortcomings that big test value error, complex operation in existing cement mortar consistency testing device, therefore need badly and grind Send out small, the simple to operate cement mortar consistency testing device for building of test value error a kind of.

Utility model content

(1) technical problems to be solved

Test value error is big, operates in order to overcome existing cement consistency of mortar test device to exist for the utility model The shortcomings that complicated, it is small, simple to operate for building that the technical problems to be solved in the utility model is to provide a kind of test value error Cement mortar consistency testing device.

(2) technical scheme

In order to solve the above-mentioned technical problem, the utility model provides such a cement mortar consistency testing dress for building Put, include bottom plate, rotating mechanism, placing frame, side plate, fixed mechanism, elevating mechanism, the first fixed pulley, the second fixed pulley, company Extension bar, circular cone and top plate；Side plate, rotating mechanism are fixed in bottom plate, fixed mechanism, elevating mechanism edge successively along floor length direction Side plate short transverse is fixed in a sidepiece of the side plate away from rotating mechanism successively, and top plate is fixed at the top of side plate, the first fixed pulley A sidepiece of the top plate close to elevating mechanism is fixed in, the second fixed pulley is fixed in a sidepiece of the top plate away from elevating mechanism, lifting Mechanism output end is fixed at the top of connecting rod around the first fixed pulley, the second fixed pulley, and circular cone is fixed in connecting rod bottom, circular cone Above placing frame.

Preferably, rotating mechanism includes fixed plate, electric pushrod, rack, gear, rotating shaft and bearing block；Fixed plate is consolidated Bottom plate is connected to, electric pushrod is fixed in a sidepiece of the fixed plate close to side plate, and it is defeated that rack is fixed in electric pushrod in the horizontal direction Going out end, bearing block is embedded in bottom plate, and rotating shaft bottom is pivotally connected with bearing block, and placing frame is fixed at the top of rotating shaft, and gear is fixed in rotating shaft, And wheel and rack engages.

Preferably, fixed mechanism includes the first slide rail, the first sliding block, the first L-shaped pole, the second sliding block, the second L-shaped branch Bar, elastic component and baffle plate；First slide rail is fixed in a sidepiece of the side plate away from rotating mechanism in the horizontal direction, and baffle plate is fixed in One slide rail one end, the first sliding block, the second sliding block are fixed in the first slide rail, the first L-shaped pole successively along the first slide rail length direction The first slider top is fixed in, the second L-shaped pole is fixed in the second slider top；Elastic component one end is fixed in the first L-shaped pole Close to a sidepiece of the second L-shaped pole, the other end is fixed in a sidepiece of the second L-shaped pole close to the first L-shaped pole.

Preferably, elevating mechanism includes the second slide rail, the second bracing wire, the 3rd sliding block, the first bracing wire and block；Second slides Rail is fixed in side plate along side plate length direction, and the 3rd sliding block is slidably connected in the second slide rail, and block passes through the first bracing wire and the 3rd Sliding block is affixed, and second bracing wire one end is affixed to be fixed in the 3rd slider top, the other end around the first fixed pulley, the second fixed pulley At the top of connecting rod.

Preferably, the cement mortar consistency testing device for building includes sliding sleeve, slide bar, fix bar；Slide bar is fixed in Bottom plate, sliding sleeve are connected with sliding bar, and fix bar is fixed in a sidepiece of the sliding sleeve close to connecting rod.

Preferably, scale is carved with slide bar.

Operation principle：When test cement mortar denseness using the present apparatus, first the container equipped with mortar is put into Put in frame, control rotating mechanism running, after the mortar in placing frame completes compacting, control rotating mechanism stops operating, and beats Fixed mechanism is opened, and then controls the output end of elevating mechanism to rise with hand, so as to drive the circular cone below connecting rod and connecting rod Decline, when epiconus subordinate, which drops to, to be contacted with mortar face, the output end of hand control elevating mechanism stops rising, until circular cone is not When rocking again, hand decontrols the output end of elevating mechanism, makes circular cone and connecting rod continue to lower into mortar, when circular cone is by mortar Resistance stops after declining, by measure under connecting rod by height, so as to calculate cement mortar consistometric value, after test terminates, control Elevating mechanism output end processed declines, and elevating mechanism is fixed by fixed mechanism, takes out the appearance that mortar is housed in placing frame Device, this device is not only simple to operate, and also test value error is small.

Because rotating mechanism includes fixed plate, electric pushrod, rack, gear, rotating shaft and bearing block；Fixed plate is fixed in Bottom plate, electric pushrod are fixed in a sidepiece of the fixed plate close to side plate, and rack is fixed in electric pushrod output end in the horizontal direction, Bearing block is embedded in bottom plate, and rotating shaft bottom is pivotally connected with bearing block, and placing frame is fixed at the top of rotating shaft, and gear is fixed in rotating shaft, and tooth Wheel and rack engages；When the container equipped with mortar is placed into placing frame, control electric pushrod output end is moved to the left, so as to Band carry-over bar is moved to the left, due to the cooperation of rack and pinion, so rack drives gear, rotating shaft rotate counterclockwise, rotating shaft band Dynamic placing frame rotates counterclockwise, i.e., mortar rotates counterclockwise；When rack is moved to high order end, control electric pushrod output end to Move right, so as to being moved right with carry-over bar, due to the cooperation of rack and pinion, so rack drives gear, rotating shaft are clockwise Rotate, rotating shaft drives placing frame to rotate clockwise, i.e., mortar rotates clockwise；By adding a centrifugal force to mortar, make sand Slurry completes compacting, is advantageous to improve mortar compacting degree, and also helping reduces the mortar wasted during manual tamper compacting.

Because fixed mechanism include the first slide rail, the first sliding block, the first L-shaped pole, the second sliding block, the second L-shaped pole, Elastic component and baffle plate；First slide rail is fixed in a sidepiece of the side plate away from rotating mechanism in the horizontal direction, and baffle plate is fixed in first Slide rail one end, the first sliding block, the second sliding block are fixed in the first slide rail successively along the first slide rail length direction, and the first L-shaped pole is consolidated The first slider top is connected to, the second L-shaped pole is fixed in the second slider top；One end is fixed in the first L-shaped pole close to the 2nd L One sidepiece of shape pole, the other end are fixed in a sidepiece of the second L-shaped pole close to the first L-shaped pole；After mortar has been tamped, The first sliding block, the second sliding block is controlled to do mutually from motion, so as to drive the first L-shaped pole, the second L-shaped pole to do mutually from fortune with hand It is dynamic so that elevating mechanism output end is no longer influenced by fixation, after elevating mechanism output end is left, decontrols hand, the first L-shaped pole, the Two L-shaped poles do relative motion in the presence of elastic component elastic force, so as to drive the first sliding block, the second sliding block to do relative motion； After first sliding block, the second shoe contact are closed together, elevating mechanism output end can be effectively fixed.

Because elevating mechanism includes the second slide rail, the second bracing wire, the 3rd sliding block, the first bracing wire and block；Second slide rail Side plate is fixed in along side plate length direction, the 3rd sliding block is slidably connected in the second slide rail, and block is slided by the first bracing wire and the 3rd Block is affixed, and second bracing wire one end is affixed to be fixed in company with the 3rd slider top, the other end around the first fixed pulley, the second fixed pulley At the top of extension bar；When fixed mechanism is opened, with hand control block slowly rise, conical base drops to contacted with mortar after, etc. After having spent several seconds, block is unclamped, the 3rd sliding block continues to rise, and circular cone stops after declining, and the 3rd sliding block stops rising, and test terminates Afterwards, block is controlled to decline, block drives the 3rd sliding block to decline by the first bracing wire, and the 3rd sliding block is driven by the second bracing wire and connected Bar, circular cone rise, and after block is fixed by fixed mechanism, connecting rod, circular cone return to initial position, in this way, being advantageous to reduce test The error of value, obtain more digital.

Because the cement mortar consistency testing device for building includes sliding sleeve, slide bar and fix bar；Slide bar is fixed in bottom Plate, sliding sleeve are connected with sliding bar, and fix bar is fixed in a sidepiece of the sliding sleeve close to connecting rod；When circular cone contacts with mortar, Open and control sliding sleeve to decline, so as to drive fix bar to decline, when fix bar and connecting rod upper-end contact, locking sliding sleeve is no longer Decline, until after circular cone falls into mortar, by measuring connecting rod upper end to the distance of sliding sleeve, you can draw the height that connecting rod declines Degree, and then cement mortar denseness is calculated, it is highly convenient for measuring.

Because being carved with scale on slide bar, the height of connecting rod decline is easily facilitated.

Control mode of the present utility model is controlled by manually starting with closing switch, the wiring diagram of dynamical element with The offer of power supply belongs to the common knowledge of this area, and the utility model is mainly used to protect mechanical device, so this practicality It is new not to be explained control mode and wiring arrangement.

(3) beneficial effect

The utility model completes the Ramming operation to mortar by rotating mechanism, is advantageous to save what is wasted during manual compacting Mortar, tamp manually inadequate, the test to cement mortar denseness is completed by the cooperation of fixed mechanism and elevating mechanism, favorably In reducing the error of test value, obtaining more accurately numeral, the effect that test value error is small, simple to operate is reached.

Brief description of the drawings

Fig. 1 is the first main structure diagram of the present utility model.

Fig. 2 is the main structure diagram of the utility model rotating mechanism.

Fig. 3 is the main structure diagram of the utility model fixed mechanism.

Fig. 4 is the main structure diagram of the utility model elevating mechanism.

Fig. 5 is second of main structure diagram of the present utility model.

Mark in accompanying drawing for：1- bottom plates, 2- rotating mechanisms, 21- fixed plates, 22- electric pushrods, 23- racks, 24- teeth Wheel, 25- rotating shafts, 26- bearing blocks, 3- placing frames, 4- side plates, 5- fixed mechanisms, the slide rails of 51- first, the sliding blocks of 52- first, 53- the One L-shaped pole, the sliding blocks of 54- second, 55- the second L-shaped poles, 56- elastic components, 57- baffle plates, 6- elevating mechanisms, 61- second are slided Rail, the bracing wires of 62- second, the sliding blocks of 63- the 3rd, the bracing wires of 64- first, 65- blocks, the fixed pulleys of 7- first, the fixed pulleys of 8- second, 9- connect Extension bar, 10- circular cones, 11- top plates, 12- sliding sleeves, 13- slide bars, 14- fix bars.

Embodiment

The utility model is further described with reference to the accompanying drawings and examples.

Embodiment 1

A kind of cement mortar consistency testing device for building, as Figure 1-5, include bottom plate 1, rotating mechanism 2, place Frame 3, side plate 4, fixed mechanism 5, elevating mechanism 6, the first fixed pulley 7, the second fixed pulley 8, connecting rod 9, circular cone 10 and top plate 11； Side plate 4, rotating mechanism 2 are fixed in bottom plate 1 successively along the length direction of bottom plate 1, and fixed mechanism 5, elevating mechanism 6 are along the height of side plate 4 Direction is fixed in a sidepiece of the side plate 4 away from rotating mechanism 2 successively, and top plate 11 is fixed in the top of side plate 4, and the first fixed pulley 7 is solid A sidepiece of the top plate 11 close to elevating mechanism 6 is connected to, the second fixed pulley 8 is fixed in a sidepiece of the top plate 11 away from elevating mechanism 6, The output end of elevating mechanism 6 is fixed in the top of connecting rod 9 around the first fixed pulley 7, the second fixed pulley 8, and circular cone 10 is fixed in connection The bottom of bar 9, circular cone 10 are located at the top of placing frame 3.

Rotating mechanism 2 includes fixed plate 21, electric pushrod 22, rack 23, gear 24, rotating shaft 25 and bearing block 26；Gu Fixed board 21 is fixed in bottom plate 1, and electric pushrod 22 is fixed in a sidepiece of the fixed plate 21 close to side plate 4, and rack 23 is in the horizontal direction The output end of electric pushrod 22 is fixed in, bearing block 26 is embedded in bottom plate 1, and the bottom of rotating shaft 25 is pivotally connected with bearing block 26, and placing frame 3 is affixed In the top of rotating shaft 25, gear 24 is fixed in rotating shaft 25, and gear 24 engages with rack 23.

Fixed mechanism 5 includes the first slide rail 51, the first sliding block 52, the first L-shaped pole 53, the second sliding block 54, the second L-shaped Pole 55, elastic component 56 and baffle plate 57；First slide rail 51 is fixed in a sidepiece of the side plate 4 away from rotating mechanism 2 in the horizontal direction, Baffle plate 57 is fixed in the one end of the first slide rail 51, and the first sliding block 52, the second sliding block 54 are affixed successively along the length direction of the first slide rail 51 In the first slide rail 51, the first L-shaped pole 53 is fixed in the top of the first sliding block 52, and the second L-shaped pole 55 is fixed in the second sliding block 54 Top；The one end of elastic component 56 is fixed in a sidepiece of the first L-shaped pole 53 close to the second L-shaped pole 55, and the other end is fixed in A sidepiece of the two L-shaped poles 55 close to the first L-shaped pole 53.

Elevating mechanism 6 includes the second slide rail 61, the second bracing wire 62, the 3rd sliding block 63, the first bracing wire 64 and block 65；The Two slide rails 61 are fixed in side plate 4 along the length direction of side plate 4, and the 3rd sliding block 63 is slidably connected in the second slide rail 61, and block 65 passes through First bracing wire 64 and the 3rd sliding block 63 are affixed, and the one end of the second bracing wire 62 is affixed to bypass first with the top of the 3rd sliding block 63, the other end Fixed pulley 7, the second fixed pulley 8 are fixed in the top of connecting rod 9.

The cement mortar consistency testing device for building includes sliding sleeve 12, slide bar 13, fix bar 14；Slide bar 13 is fixed in Bottom plate 1, sliding sleeve 12 are slidably connected with slide bar 13, and fix bar 14 is fixed in a sidepiece of the sliding sleeve 12 close to connecting rod 9.

Scale is carved with slide bar 13.

Operation principle：When test cement mortar denseness using the present apparatus, first the container equipped with mortar is put into Put in frame 3, control rotating mechanism 2 operates, and after the mortar in placing frame 3 completes compacting, control rotating mechanism 2 stops turning It is dynamic, fixed mechanism 5 is opened, and then control the output end of elevating mechanism 6 to rise with hand, so as to drive under connecting rod 9 and connecting rod 9 The circular cone 10 of side declines, when the tip of circular cone 10, which drops to, to be contacted with mortar face, in the output end stopping of hand control elevating mechanism 6 Rise, until when circular cone 10 no longer rocks, hand decontrols the output end of elevating mechanism 6, makes circular cone 10 and connecting rod 9 continue to lower into In mortar, when circular cone 10 by mortar resistance stop decline after, by measure under connecting rod 9 by height, so as to calculate cement bonded sand Consistometric value is starched, after test terminates, control elevating mechanism 6 output end declines, and elevating mechanism 6 is fixed by fixed mechanism 5, The container that mortar is housed in placing frame 3 is taken out, this device is not only simple to operate, and also test value error is small.

Because rotating mechanism 2 includes fixed plate 21, electric pushrod 22, rack 23, gear 24, rotating shaft 25 and bearing block 26；Fixed plate 21 is fixed in bottom plate 1, and electric pushrod 22 is fixed in a sidepiece of the fixed plate 21 close to side plate 4, and rack 23 is along level Direction is fixed in the output end of electric pushrod 22, and bearing block 26 is embedded in bottom plate 1, and the bottom of rotating shaft 25 is pivotally connected with bearing block 26, placing frame 3 The top of rotating shaft 25 is fixed in, gear 24 is fixed in rotating shaft 25, and gear 24 engages with rack 23；When the container equipped with mortar is placed When in placing frame 3, the control output end of electric pushrod 22 is moved to the left, so as to be moved to the left with carry-over bar 23, due to rack 23 With the cooperation of gear 24, so rack 23 rotates counterclockwise with moving gear 24, rotating shaft 25, rotating shaft 25 drives placing frame 3 counterclockwise Rotate, i.e., mortar rotates counterclockwise；When rack 23 is moved to high order end, the control output end of electric pushrod 22 moves right, from And moved right with carry-over bar 23, due to the cooperation of rack 23 and gear 24, so rack 23 is with moving gear 24, the up time of rotating shaft 25 Pin rotates, and rotating shaft 25 drives placing frame 3 to rotate clockwise, i.e., mortar rotates clockwise；By adding a centrifugal force to mortar, Mortar is completed compacting, be advantageous to improve mortar compacting degree, also helping reduces the mortar wasted during manual tamper compacting.

Because fixed mechanism 5 includes the first slide rail 51, the first sliding block 52, the first L-shaped pole 53, the second sliding block 54, Two L-shaped poles 55, elastic component 56 and baffle plate 57；First slide rail 51 is fixed in one of side plate 4 away from rotating mechanism 2 in the horizontal direction Sidepiece, baffle plate 57 are fixed in the one end of the first slide rail 51, the first sliding block 52, the second sliding block 54 along the length direction of the first slide rail 51 successively The first slide rail 51 is fixed in, the first L-shaped pole 53 is fixed in the top of the first sliding block 52, and the second L-shaped pole 55 is fixed in the second cunning The top of block 54；One end is fixed in a sidepiece of the first L-shaped pole 53 close to the second L-shaped pole 55, and the other end is fixed in the second L-shaped A sidepiece of the pole 55 close to the first L-shaped pole 53；After mortar has been tamped, the first sliding block 52, the second sliding block 54 are controlled with hand Do mutually from motion, so as to drive the first L-shaped pole 53, the second L-shaped pole 55 to do mutually from motion so that the output end of elevating mechanism 6 Fixation is no longer influenced by, after the output end of elevating mechanism 6 is left, decontrols hand, the first L-shaped pole 53, the second L-shaped pole 55 are in elastic component Done relative motion in the presence of 56 elastic force, so as to drive the first sliding block 52, the second sliding block 54 to do relative motion；First sliding block 52, After the contact closure together of second sliding block 54, the output end of elevating mechanism 6 can be effectively fixed.

Because elevating mechanism 6 includes the second slide rail 61, the second bracing wire 62, the 3rd sliding block 63, the first bracing wire 64 and block 65；Second slide rail 61 is fixed in side plate 4 along the length direction of side plate 4, and the 3rd sliding block 63 is slidably connected in the second slide rail 61, block 65 Affixed by the first bracing wire 64 and the 3rd sliding block 63, the one end of the second bracing wire 62 is affixed to be bypassed with the top of the 3rd sliding block 63, the other end First fixed pulley 7, the second fixed pulley 8 are fixed in the top of connecting rod 9；When fixed mechanism 5 is opened, control block 65 slow with hand Rise, the bottom of circular cone 10 drops to contact with mortar after, after waiting several seconds, release block 65, the 3rd sliding block 63 continues to rise, Circular cone 10 stops after declining, and the 3rd sliding block 63 stops rising, and after test terminates, control block 65 declines, and block 65 passes through first Bracing wire 64 drives the 3rd sliding block 63 to decline, and the 3rd sliding block 63 drives connecting rod 9, circular cone 10 to rise by the second bracing wire 62, block After 65 are fixed by fixed mechanism 5, connecting rod 9, circular cone 10 return to initial position, in this way, being advantageous to reduce the error of test value, obtain To more accurately numeral.

Because the cement mortar consistency testing device for building includes sliding sleeve 12, slide bar 13 and fix bar 14；Slide bar 13 Bottom plate 1 is fixed in, sliding sleeve 12 is slidably connected with slide bar 13, and fix bar 14 is fixed in a sidepiece of the sliding sleeve 12 close to connecting rod 9；When When circular cone 10 contacts with mortar, open and control sliding sleeve 12 to decline, so as to drive fix bar 14 to decline, when fix bar 14 is with being connected During 9 upper-end contact of bar, locking sliding sleeve 12 no longer declines, until after circular cone 10 falls into mortar, by measuring the upper end of connecting rod 9 to cunning The distance of set 12, you can draw the height that connecting rod 9 declines, and then calculate cement mortar denseness, be highly convenient for measuring.

Because being carved with scale on slide bar 13, the height of the decline of connecting rod 9 is easily facilitated.

Control mode of the present utility model is controlled by manually starting with closing switch, the wiring diagram of dynamical element with The offer of power supply belongs to the common knowledge of this area, and the utility model is mainly used to protect mechanical device, so this practicality It is new not to be explained control mode and wiring arrangement.

Embodiment described above only expresses preferred embodiment of the present utility model, and its description is more specific and detailed, But therefore it can not be interpreted as the limitation to the utility model patent scope.It should be pointed out that for the common of this area For technical staff, without departing from the inventive concept of the premise, some deformations can also be made, improves and substitutes, these are all Belong to the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (6)

1. a kind of cement mortar consistency testing device for building, it is characterised in that include bottom plate (1), rotating mechanism (2), put Put frame (3), side plate (4), fixed mechanism (5), elevating mechanism (6), the first fixed pulley (7), the second fixed pulley (8), connecting rod (9), circular cone (10) and top plate (11)；Side plate (4), rotating mechanism (2) are fixed in bottom plate (1) successively along bottom plate (1) length direction, Fixed mechanism (5), elevating mechanism (6) are fixed in one of side plate (4) away from rotating mechanism (2) successively along side plate (4) short transverse Sidepiece, top plate (11) are fixed at the top of side plate (4), and the first fixed pulley (7) is fixed in top plate (11) close to the one of elevating mechanism (6) Sidepiece, the second fixed pulley (8) are fixed in a sidepiece of the top plate (11) away from elevating mechanism (6), and elevating mechanism (6) output end bypasses First fixed pulley (7), the second fixed pulley (8) are fixed at the top of connecting rod (9), and circular cone (10) is fixed in connecting rod (9) bottom, circle Cone (10) is located above placing frame (3).

A kind of 2. cement mortar consistency testing device for building according to claim 1, it is characterised in that rotating mechanism (2) fixed plate (21), electric pushrod (22), rack (23), gear (24), rotating shaft (25) and bearing block (26) are included；It is fixed Plate (21) is fixed in bottom plate (1), and electric pushrod (22) is fixed in a sidepiece of the fixed plate (21) close to side plate (4), rack (23) Electric pushrod (22) output end is fixed in the horizontal direction, and bearing block (26) is embedded in bottom plate (1), rotating shaft (25) bottom and bearing block (26) it is pivotally connected, placing frame (3) is fixed at the top of rotating shaft (25), and gear (24) is fixed in rotating shaft (25), and gear (24) and rack (23) engage.

A kind of 3. cement mortar consistency testing device for building according to claim 2, it is characterised in that fixed mechanism (5) the first slide rail (51), the first sliding block (52), the first L-shaped pole (53), the second sliding block (54), the second L-shaped pole are included (55), elastic component (56) and baffle plate (57)；First slide rail (51) is fixed in side plate (4) away from rotating mechanism (2) in the horizontal direction A sidepiece, baffle plate (57) is fixed in the first slide rail (51) one end, and the first sliding block (52), the second sliding block (54) are along the first slide rail (51) length direction is fixed in the first slide rail (51) successively, and the first L-shaped pole (53) is fixed at the top of the first sliding block (52), and second L-shaped pole (55) is fixed at the top of the second sliding block (54)；Elastic component (56) one end is fixed in the first L-shaped pole (53) close to second One sidepiece of L-shaped pole (55), the other end are fixed in a sidepiece of the second L-shaped pole (55) close to the first L-shaped pole (53).

A kind of 4. cement mortar consistency testing device for building according to claim 3, it is characterised in that elevating mechanism (6) the second slide rail (61), the second bracing wire (62), the 3rd sliding block (63), the first bracing wire (64) and block (65) are included；Second slides Rail (61) is fixed in side plate (4) along side plate (4) length direction, and the 3rd sliding block (63) is slidably connected in the second slide rail (61), block (65) affixed by the first bracing wire (64) and the 3rd sliding block (63), the second bracing wire (62) one end is affixed to push up with the 3rd sliding block (63) Portion, the other end are fixed at the top of connecting rod (9) around the first fixed pulley (7), the second fixed pulley (8).

A kind of 5. cement mortar consistency testing device for building according to claim 4, it is characterised in that the water for building Cement mortar consistency testing device includes sliding sleeve (12), slide bar (13), fix bar (14)；Slide bar (13) is fixed in bottom plate (1), sliding Set (12) is slidably connected with slide bar (13), and fix bar (14) is fixed in a sidepiece of the sliding sleeve (12) close to connecting rod (9).

6. a kind of cement mortar consistency testing device for building according to claim 5, it is characterised in that on slide bar (13) It is carved with scale.