CN108362589A - A kind of architectural engineering brick rigidity detection device - Google Patents

A kind of architectural engineering brick rigidity detection device Download PDF

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Publication number
CN108362589A
CN108362589A CN201810076383.9A CN201810076383A CN108362589A CN 108362589 A CN108362589 A CN 108362589A CN 201810076383 A CN201810076383 A CN 201810076383A CN 108362589 A CN108362589 A CN 108362589A
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CN
China
Prior art keywords
plate
pillar
monitor station
brick
frame
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CN201810076383.9A
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Chinese (zh)
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CN108362589B (en
Inventor
袁萍
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Jiao Dongsheng
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袁萍
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Priority to CN201810076383.9A priority Critical patent/CN108362589B/en
Publication of CN108362589A publication Critical patent/CN108362589A/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N3/00Investigating strength properties of solid materials by application of mechanical stress
    • G01N3/40Investigating hardness or rebound hardness

Abstract

The present invention relates to a kind of detection device more particularly to a kind of architectural engineering brick rigidity detection devices.The technical problem to be solved in the present invention is to provide a kind of architectural engineering brick rigidity detection devices that unified detection process can be carried out to the hardness of brick.The present invention provides such a architectural engineering brick rigidity detection devices, include the first pillar, the second pillar, driven wheel, conveyer belt, frame, driving wheel, the first sliding rail, first sliding block etc.;Bottom is equipped with the first pillar and the second pillar in frame, and the number of the first pillar is 4, and the number of the second pillar is 2, and the second pillar is located at before and after the first pillar between side.Invention achieves the effects that the hardness to brick carries out unified detection process, the distance of brick push is fixed, so that the position of push is more unified and accurate, and then improve the standard of detection, brick automatic push may be implemented in device, manpower is saved, the work of the manual folding and unfolding standard detection block of staff can be also saved.

Description

A kind of architectural engineering brick rigidity detection device
Technical field
The present invention relates to a kind of detection device more particularly to a kind of architectural engineering brick rigidity detection devices.
Background technology
Architectural engineering, refer to by construction to all kinds of building constructions and its affiliated facility and the circuit mating with it, pipeline, The installation activity of equipment is formed by engineering entity.Wherein " building construction ", which refers to, head cover, beam column, wall, basis and can Inner space is formed, meets people's production, lives, learns, the engineering that public activity needs.
Brick is common object in architectural engineering, and the hardness of brick has a great influence for building body, brick it is hard Degree needs unified detection, the underproof brick of hardness should be recycled, current rigidity detection device is mostly by people Work detects, and causes high effort for, and examination criteria disunity, therefore there is an urgent need for research and develop a kind of to carry out the hardness of brick unified inspection Survey the architectural engineering brick rigidity detection device of processing.
Invention content
(1)Technical problems to be solved
The present invention is common object in architectural engineering to overcome brick, and the hardness of brick has important shadow for building body It rings, the hardness of brick needs unified detection, the underproof brick of hardness should be recycled, current hardness determination Device mostly by artificial detection, causes high effort for, and the skimble-scamble disadvantage of examination criteria, and the technical problem to be solved by the present invention is to carry For a kind of architectural engineering brick rigidity detection device that can carry out unified detection process to the hardness of brick.
(2)Technical solution
In order to solve the above technical problem, the present invention provides such a architectural engineering brick rigidity detection devices, including There are the first pillar, the second pillar, driven wheel, conveyer belt, frame, driving wheel, the first sliding rail, the first sliding block, draw back plate, the first bullet Spring sets brick frame, first rotating shaft, reel, first bearing seat, mounting plate, the first rocking handle, standard detection block, drawstring, fixes and lead Plate, first baffle, second spring, pull rod, monitor station and moving stop, bottom is equipped with the first pillar and second in frame Column, the number of the first pillar are 4, and the number of the second pillar is 2, and the second pillar is located at before and after the first pillar between side, a left side Rotary type is equipped with driven wheel and driving wheel respectively on second pillar of right both sides, and conveyer belt is wound on driving wheel and driven wheel, First post top portion is equipped with monitor station, and through-hole is provided in the middle part of monitor station, and monitor station top left side is equipped with first baffle, detection Platform top right side, which is equipped with, sets brick frame, and monitor station inner left wall top is connected with second spring, and the right end of second spring is connected with shifting Dynamic baffle, the left end of moving stop are connected with pull rod, and pull rod is pierced by monitor station left wall top, the top of moving stop and monitor station Inner top contacts, and moving stop is located in through-hole, and monitor station right wall is equipped with the first spring and the first sliding rail, the first spring position In the upside of the first sliding rail, the first sliding rail is equipped with the first sliding block, and the left wall of the first sliding block is connected with the right end of the first spring, It is connected with draw back plate at the top of first sliding block, is in contact at the top of the bottom of draw back plate and monitor station, draw back plate, which passes through, sets a brick frame left side Right side wall bottom, frame roof left end are connected with mounting plate, first bearing seat are embedded on mounting plate, is equipped in first bearing seat First rotating shaft, first rotating shaft left end are equipped with the first rocking handle, and reel is equipped in first rotating shaft, drawstring is wound on reel, Mounting plate right wall bottom end is equipped with resting guide, and drawstring passes through resting guide, and the bottom end of drawstring is connected with standard detection block, standard Detection block is located above monitor station.
Preferably, further include thering is connecting rod, pouring weight, second bearing seat, the second shaft, cam, the second rocking handle, first to fix Plate, contact wheel and the second fixed plate, bottom right is equipped with the first fixed plate and the second fixed plate, the first fixed plate position in frame In the right side of the second fixed plate, rotary type is equipped with pouring weight at the top of the second fixed plate, and pouring weight antetheca top rotary type is connected with Extension bar, the left end of connecting rod and the right end rotary type of draw back plate connect, and contact wheel, the first fixed plate are equipped on the right side of pouring weight antetheca Top is equipped with second bearing seat, and the second shaft is equipped in second bearing seat, and cam and second is equipped in the second shaft and is shaken Handle, cam are located at the rear side of the second rocking handle, and cam is engaged with contact wheel.
Preferably, further include having the first belt pulley, flat belt and the second belt pulley, the first skin is connected on front side of driving wheel Belt wheel is equipped with the second belt pulley in the second shaft, the second belt pulley between cam and the second rocking handle, the second belt pulley with Flat belt is wound between first belt pulley, flat belt is located at the front side of pouring weight.
Preferably, further include having first bevel gear, third shaft, pinion gear, rack, connecting rod, second bevel gear and third Bearing block, draw back plate top are connected with connecting rod, and rack is equipped at the top of connecting rod, 3rd bearing is equipped in the middle part of frame inner top Seat is equipped with third shaft on 3rd bearing seat, is equipped with pinion gear and second bevel gear in third shaft, and pinion gear is located at the The downside of two bevel gears, pinion gear are located at the front side of rack, and pinion gear is engaged with rack, and first rotating shaft right end is equipped with the first cone Gear, first bevel gear are engaged with second bevel gear.
Preferably, further include having collection frame, the second sliding rail, handle, the second sliding block and push plate, installation on the left of monitor station rear wall There are collection frame, monitor station left wall top that the second sliding rail is installed, the top of the second sliding rail is equipped with the second sliding block, the top of the second sliding block Portion is connected with push plate, and the left end of push plate is connected with handle, and the rear wall of push plate is connected with first baffle antetheca, first baffle bottom It is in contact with monitor station top.
Operation principle:When needing to carry out hardness determination to brick, staff starts driving wheel and starts to work first, main Driving wheel, which rotates clockwise, drives driven wheel to rotate clockwise, and to drive conveyer belt to rotate clockwise, then brick is deposited in and is set In brick frame, the open height for setting brick frame left and right sidewall is the height of one block of brick, then a staff is arranged to push to the left Draw back plate will set that block brick release of brick frame the lowermost, and brick is contacted with moving stop, when brick is blocked by first baffle Afterwards, staff retracts to the right draw back plate, and another staff is arranged to shake the first rocking handle at this time, and reel is driven to pack up drawing Rope drives standard detection block to move up, and when standard detection block touches resting guide, staff unclamps the first rocking handle, Standard detection block moves downward under the effect of gravity, hits brick, if brick is excellent, hardness is qualified, staff to Zola moves pull rod, and moving stop is driven to be moved to the left so that brick is fallen to by through-hole on conveyer belt, and follow-up work is carried out. If brick is broken or impaired, hardness is unqualified, and staff is cleared up, and similarly carries out the detection operation of next block of brick.
Because further include have connecting rod, pouring weight, second bearing seat, the second shaft, cam, the second rocking handle, the first fixed plate, Contact wheel and the second fixed plate, bottom right is equipped with the first fixed plate and the second fixed plate in frame, and the first fixed plate is located at The right side of second fixed plate, the second fixed plate top rotary type are equipped with pouring weight, and pouring weight antetheca top rotary type is connected with connection Bar, the left end of connecting rod and the right end rotary type of draw back plate connect, and contact wheel, the first fixed plate top are equipped on the right side of pouring weight antetheca Portion is equipped with second bearing seat, and the second shaft is equipped in second bearing seat, cam and the second rocking handle are equipped in the second shaft, Cam is located at the rear side of the second rocking handle, and cam is engaged with contact wheel, so the staff for being responsible for push brick shakes the Two rocking handles, band moving cam rotate, and drive pouring weight to swing, and then draw back plate is driven to move left and right, brick is released, cam turns A dynamic circle can be realized the push of draw back plate and retract operation, and the distance pushed is fixed so that more unite the position of push One and precisely, and then improve detection standard.
Because further including having the first belt pulley, flat belt and the second belt pulley, the first belt is connected on front side of driving wheel Wheel is equipped with the second belt pulley in the second shaft, and the second belt pulley is between cam and the second rocking handle, the second belt pulley and the Flat belt is wound between one belt pulley, flat belt is located at the front side of pouring weight, so driving wheel drives the first skin while rotation Belt wheel rotates, and to drive the second belt pulley and cam rotation, realizes brick automatic push, saves manpower.
Because further including having first bevel gear, third shaft, pinion gear, rack, connecting rod, second bevel gear and 3rd bearing Seat, draw back plate top are connected with connecting rod, and rack is equipped at the top of connecting rod, 3rd bearing seat is equipped in the middle part of frame inner top, Third shaft is installed on 3rd bearing seat, pinion gear and second bevel gear are installed in third shaft, pinion gear is located at second The downside of bevel gear, pinion gear are located at the front side of rack, and pinion gear is engaged with rack, and first rotating shaft right end is equipped with the first cone tooth Wheel, first bevel gear are engaged with second bevel gear, so when draw back plate moves downward, band carry-over bar moves downward, and drives small tooth Wheel rotates forward, and then reel is driven to pack up drawstring, after brick is pushed out completely, i.e., when draw back plate is to by right movement, and band moving teeth Item moves right, and drives pinion gear reversion, and then reel is driven to release drawstring so that standard detection block hits brick, work Personnel judge rapidly its quality, are handled accordingly, and the work of the manual folding and unfolding standard detection block of staff can be so saved Make.
Because further including having collection frame, the second sliding rail, handle, the second sliding block and push plate, it is equipped on the left of monitor station rear wall Collection frame, monitor station left wall top are equipped with the second sliding rail, and the top of the second sliding rail is equipped with the second sliding block, the top of the second sliding block Be connected with push plate, the left end of push plate is connected with handle, and the rear wall of push plate is connected with first baffle antetheca, first baffle bottom with It is in contact at the top of monitor station, so when brick hardness is off quality, staff holds rapidly handle, pushes hand backward Handle so that brick is pushed into collection frame by push plate, push plate is then moved back to forward original position rapidly, you can quickly handle underproof Brick improves the efficiency of detection.
(3)Advantageous effect
Invention achieves the effect that the hardness to brick carries out unified detection process, the distance of brick push is fixed so that is pushed away The position sent is more unified and accurate, and then improves the standard of detection, and device may be implemented brick automatic push, save people Power can also save the work of the manual folding and unfolding standard detection block of staff.
Description of the drawings
Fig. 1 is the first main structure diagram of the present invention.
Fig. 2 is second of main structure diagram of the present invention.
Fig. 3 is the third main structure diagram of the present invention.
Fig. 4 is the 4th kind of main structure diagram of the present invention.
Fig. 5 is the partial top structural schematic diagram of the present invention.
Label in attached drawing be:The first pillars of 1-, the second pillars of 2-, 3- driven wheels, 4- conveyer belts, 5- frames, 6- is actively Wheel, the first sliding rails of 7-, the first sliding blocks of 8-, 9- draw back plates, the first springs of 90-, 10- set brick frame, 11- bricks, 12- first rotating shafts, 13- reels, 14- first bearing seats, 15- mounting plates, the first rocking handles of 16-, 17- standard detection blocks, 18- drawstrings, 19- fixations are led Plate, 20- first baffles, 21- second springs, 22- pull rods, 23- monitor stations, 24- through-holes, 25- moving stops, 26- connecting rods, 27- pouring weights, 28- second bearing seats, the second shafts of 29-, 30- cams, the second rocking handles of 31-, the first fixed plates of 32-, 33- contacts Wheel, the second fixed plates of 34-, the first belt pulleys of 35-, 36- flat belts, the second belt pulleys of 37-, 38- first bevel gears, 39- thirds Shaft, 40- pinion gears, 41- racks, 42- connecting rods, 43- second bevel gears, 44- 3rd bearing seats, 45- collection frames, 46- second Sliding rail, 47- handles, the second sliding blocks of 48-, 49- push plates.
Specific implementation mode
The present invention is further illustrated with reference to the accompanying drawings and examples.
Embodiment 1
A kind of architectural engineering brick rigidity detection device includes as shown in Figs. 1-5 the first pillar 1, the second pillar 2, driven Wheel 3, frame 5, driving wheel 6, the first sliding rail 7, the first sliding block 8, draw back plate 9, the first spring 90, sets brick frame 10, the at conveyer belt 4 One shaft 12, reel 13, first bearing seat 14, mounting plate 15, the first rocking handle 16, standard detection block 17, drawstring 18, fixation are led Plate 19, first baffle 20, second spring 21, pull rod 22, monitor station 23 and moving stop 25, bottom is equipped with first in frame 5 The number of pillar 1 and the second pillar 2, the first pillar 1 is 4, and the number of the second pillar 2 is 2, and the second pillar 2 is located at first Before and after pillar 1 between side, rotary type is equipped with driven wheel 3 and driving wheel 6, driving wheel 6 respectively on the second pillar 2 of the left and right sides Be wound with conveyer belt 4 on driven wheel 3,1 top of the first pillar is equipped with monitor station 23, and 23 middle part of monitor station is provided with through-hole 24, examines 23 top left side of scaffold tower is equipped with first baffle 20, and 23 top right side of monitor station, which is equipped with, sets brick frame 10,23 inner left wall of monitor station Top is connected with second spring 21, and the right end of second spring 21 is connected with moving stop 25, and the left end of moving stop 25 is connected with Pull rod 22, pull rod 22 are pierced by 23 left wall top of monitor station, and the top of moving stop 25 is contacted with 23 inner top of monitor station, and is moved Dynamic baffle 25 is located in through-hole 24, and 23 right wall of monitor station is equipped with the first spring 90 and the first sliding rail 7, and the first spring 90 is located at first The upside of sliding rail 7, the first sliding rail 7 are equipped with the first sliding block 8, and the left wall of the first sliding block 8 is connected with the right end of the first spring 90, The top of first sliding block 8 is connected with draw back plate 9, and the bottom of draw back plate 9 is in contact with 23 top of monitor station, and draw back plate 9 is passed through and set 10 left and right sidewall bottom of brick frame, 5 top left of frame are connected with mounting plate 15, and first bearing seat 14 is embedded on mounting plate 15, the First rotating shaft 12 is installed, 12 left end of first rotating shaft is equipped with the first rocking handle 16, is installed in first rotating shaft 12 on one bearing block 14 There is reel 13, drawstring 18 is wound on reel 13,15 right wall bottom end of mounting plate is equipped with resting guide 19, and drawstring 18 passes through solid Determine guide plate 19, the bottom end of drawstring 18 is connected with standard detection block 17, and standard detection block 17 is located at 23 top of monitor station.
Embodiment 2
A kind of architectural engineering brick rigidity detection device includes as shown in Figs. 1-5 the first pillar 1, the second pillar 2, driven Wheel 3, frame 5, driving wheel 6, the first sliding rail 7, the first sliding block 8, draw back plate 9, the first spring 90, sets brick frame 10, the at conveyer belt 4 One shaft 12, reel 13, first bearing seat 14, mounting plate 15, the first rocking handle 16, standard detection block 17, drawstring 18, fixation are led Plate 19, first baffle 20, second spring 21, pull rod 22, monitor station 23 and moving stop 25, bottom is equipped with first in frame 5 The number of pillar 1 and the second pillar 2, the first pillar 1 is 4, and the number of the second pillar 2 is 2, and the second pillar 2 is located at first Before and after pillar 1 between side, rotary type is equipped with driven wheel 3 and driving wheel 6, driving wheel 6 respectively on the second pillar 2 of the left and right sides Be wound with conveyer belt 4 on driven wheel 3,1 top of the first pillar is equipped with monitor station 23, and 23 middle part of monitor station is provided with through-hole 24, examines 23 top left side of scaffold tower is equipped with first baffle 20, and 23 top right side of monitor station, which is equipped with, sets brick frame 10,23 inner left wall of monitor station Top is connected with second spring 21, and the right end of second spring 21 is connected with moving stop 25, and the left end of moving stop 25 is connected with Pull rod 22, pull rod 22 are pierced by 23 left wall top of monitor station, and the top of moving stop 25 is contacted with 23 inner top of monitor station, and is moved Dynamic baffle 25 is located in through-hole 24, and 23 right wall of monitor station is equipped with the first spring 90 and the first sliding rail 7, and the first spring 90 is located at first The upside of sliding rail 7, the first sliding rail 7 are equipped with the first sliding block 8, and the left wall of the first sliding block 8 is connected with the right end of the first spring 90, The top of first sliding block 8 is connected with draw back plate 9, and the bottom of draw back plate 9 is in contact with 23 top of monitor station, and draw back plate 9 is passed through and set 10 left and right sidewall bottom of brick frame, 5 top left of frame are connected with mounting plate 15, and first bearing seat 14 is embedded on mounting plate 15, the First rotating shaft 12 is installed, 12 left end of first rotating shaft is equipped with the first rocking handle 16, is installed in first rotating shaft 12 on one bearing block 14 There is reel 13, drawstring 18 is wound on reel 13,15 right wall bottom end of mounting plate is equipped with resting guide 19, and drawstring 18 passes through solid Determine guide plate 19, the bottom end of drawstring 18 is connected with standard detection block 17, and standard detection block 17 is located at 23 top of monitor station.
Further include having connecting rod 26, pouring weight 27, second bearing seat 28, the second shaft 29, cam 30, the second rocking handle 31, One fixed plate 32, contact wheel 33 and the second fixed plate 34, bottom right is equipped with the fixation of the first fixed plate 32 and second in frame 5 Plate 34, the first fixed plate 32 are located at the right side of the second fixed plate 34, and 34 top rotary type of the second fixed plate is equipped with pouring weight 27, weight 27 antetheca top rotary type of block is connected with connecting rod 26, and the left end of connecting rod 26 is connect with the right end rotary type of draw back plate 9, pouring weight Contact wheel 33 is installed, 32 top of the first fixed plate is equipped with second bearing seat 28, pacifies in second bearing seat 28 on the right side of 27 antethecas Equipped with the second shaft 29, cam 30 and the second rocking handle 31 are installed, after cam 30 is located at the second rocking handle 31 in second shaft 29 Side, cam 30 are engaged with contact wheel 33.
Embodiment 3
A kind of architectural engineering brick rigidity detection device includes as shown in Figs. 1-5 the first pillar 1, the second pillar 2, driven Wheel 3, frame 5, driving wheel 6, the first sliding rail 7, the first sliding block 8, draw back plate 9, the first spring 90, sets brick frame 10, the at conveyer belt 4 One shaft 12, reel 13, first bearing seat 14, mounting plate 15, the first rocking handle 16, standard detection block 17, drawstring 18, fixation are led Plate 19, first baffle 20, second spring 21, pull rod 22, monitor station 23 and moving stop 25, bottom is equipped with first in frame 5 The number of pillar 1 and the second pillar 2, the first pillar 1 is 4, and the number of the second pillar 2 is 2, and the second pillar 2 is located at first Before and after pillar 1 between side, rotary type is equipped with driven wheel 3 and driving wheel 6, driving wheel 6 respectively on the second pillar 2 of the left and right sides Be wound with conveyer belt 4 on driven wheel 3,1 top of the first pillar is equipped with monitor station 23, and 23 middle part of monitor station is provided with through-hole 24, examines 23 top left side of scaffold tower is equipped with first baffle 20, and 23 top right side of monitor station, which is equipped with, sets brick frame 10,23 inner left wall of monitor station Top is connected with second spring 21, and the right end of second spring 21 is connected with moving stop 25, and the left end of moving stop 25 is connected with Pull rod 22, pull rod 22 are pierced by 23 left wall top of monitor station, and the top of moving stop 25 is contacted with 23 inner top of monitor station, and is moved Dynamic baffle 25 is located in through-hole 24, and 23 right wall of monitor station is equipped with the first spring 90 and the first sliding rail 7, and the first spring 90 is located at first The upside of sliding rail 7, the first sliding rail 7 are equipped with the first sliding block 8, and the left wall of the first sliding block 8 is connected with the right end of the first spring 90, The top of first sliding block 8 is connected with draw back plate 9, and the bottom of draw back plate 9 is in contact with 23 top of monitor station, and draw back plate 9 is passed through and set 10 left and right sidewall bottom of brick frame, 5 top left of frame are connected with mounting plate 15, and first bearing seat 14 is embedded on mounting plate 15, the First rotating shaft 12 is installed, 12 left end of first rotating shaft is equipped with the first rocking handle 16, is installed in first rotating shaft 12 on one bearing block 14 There is reel 13, drawstring 18 is wound on reel 13,15 right wall bottom end of mounting plate is equipped with resting guide 19, and drawstring 18 passes through solid Determine guide plate 19, the bottom end of drawstring 18 is connected with standard detection block 17, and standard detection block 17 is located at 23 top of monitor station.
Further include having connecting rod 26, pouring weight 27, second bearing seat 28, the second shaft 29, cam 30, the second rocking handle 31, One fixed plate 32, contact wheel 33 and the second fixed plate 34, bottom right is equipped with the fixation of the first fixed plate 32 and second in frame 5 Plate 34, the first fixed plate 32 are located at the right side of the second fixed plate 34, and 34 top rotary type of the second fixed plate is equipped with pouring weight 27, weight 27 antetheca top rotary type of block is connected with connecting rod 26, and the left end of connecting rod 26 is connect with the right end rotary type of draw back plate 9, pouring weight Contact wheel 33 is installed, 32 top of the first fixed plate is equipped with second bearing seat 28, pacifies in second bearing seat 28 on the right side of 27 antethecas Equipped with the second shaft 29, cam 30 and the second rocking handle 31 are installed, after cam 30 is located at the second rocking handle 31 in second shaft 29 Side, cam 30 are engaged with contact wheel 33.
Further include having the first belt pulley 35, flat belt 36 and the second belt pulley 37,6 front side of driving wheel is connected with the first skin Belt wheel 35 is equipped with the second belt pulley 37 in second shaft 29, and the second belt pulley 37 is located between cam 30 and the second rocking handle 31, Flat belt 36 is wound between second belt pulley 37 and the first belt pulley 35, flat belt 36 is located at the front side of pouring weight 27.
Embodiment 4
A kind of architectural engineering brick rigidity detection device includes as shown in Figs. 1-5 the first pillar 1, the second pillar 2, driven Wheel 3, frame 5, driving wheel 6, the first sliding rail 7, the first sliding block 8, draw back plate 9, the first spring 90, sets brick frame 10, the at conveyer belt 4 One shaft 12, reel 13, first bearing seat 14, mounting plate 15, the first rocking handle 16, standard detection block 17, drawstring 18, fixation are led Plate 19, first baffle 20, second spring 21, pull rod 22, monitor station 23 and moving stop 25, bottom is equipped with first in frame 5 The number of pillar 1 and the second pillar 2, the first pillar 1 is 4, and the number of the second pillar 2 is 2, and the second pillar 2 is located at first Before and after pillar 1 between side, rotary type is equipped with driven wheel 3 and driving wheel 6, driving wheel 6 respectively on the second pillar 2 of the left and right sides Be wound with conveyer belt 4 on driven wheel 3,1 top of the first pillar is equipped with monitor station 23, and 23 middle part of monitor station is provided with through-hole 24, examines 23 top left side of scaffold tower is equipped with first baffle 20, and 23 top right side of monitor station, which is equipped with, sets brick frame 10,23 inner left wall of monitor station Top is connected with second spring 21, and the right end of second spring 21 is connected with moving stop 25, and the left end of moving stop 25 is connected with Pull rod 22, pull rod 22 are pierced by 23 left wall top of monitor station, and the top of moving stop 25 is contacted with 23 inner top of monitor station, and is moved Dynamic baffle 25 is located in through-hole 24, and 23 right wall of monitor station is equipped with the first spring 90 and the first sliding rail 7, and the first spring 90 is located at first The upside of sliding rail 7, the first sliding rail 7 are equipped with the first sliding block 8, and the left wall of the first sliding block 8 is connected with the right end of the first spring 90, The top of first sliding block 8 is connected with draw back plate 9, and the bottom of draw back plate 9 is in contact with 23 top of monitor station, and draw back plate 9 is passed through and set 10 left and right sidewall bottom of brick frame, 5 top left of frame are connected with mounting plate 15, and first bearing seat 14 is embedded on mounting plate 15, the First rotating shaft 12 is installed, 12 left end of first rotating shaft is equipped with the first rocking handle 16, is installed in first rotating shaft 12 on one bearing block 14 There is reel 13, drawstring 18 is wound on reel 13,15 right wall bottom end of mounting plate is equipped with resting guide 19, and drawstring 18 passes through solid Determine guide plate 19, the bottom end of drawstring 18 is connected with standard detection block 17, and standard detection block 17 is located at 23 top of monitor station.
Further include having connecting rod 26, pouring weight 27, second bearing seat 28, the second shaft 29, cam 30, the second rocking handle 31, One fixed plate 32, contact wheel 33 and the second fixed plate 34, bottom right is equipped with the fixation of the first fixed plate 32 and second in frame 5 Plate 34, the first fixed plate 32 are located at the right side of the second fixed plate 34, and 34 top rotary type of the second fixed plate is equipped with pouring weight 27, weight 27 antetheca top rotary type of block is connected with connecting rod 26, and the left end of connecting rod 26 is connect with the right end rotary type of draw back plate 9, pouring weight Contact wheel 33 is installed, 32 top of the first fixed plate is equipped with second bearing seat 28, pacifies in second bearing seat 28 on the right side of 27 antethecas Equipped with the second shaft 29, cam 30 and the second rocking handle 31 are installed, after cam 30 is located at the second rocking handle 31 in second shaft 29 Side, cam 30 are engaged with contact wheel 33.
Further include having the first belt pulley 35, flat belt 36 and the second belt pulley 37,6 front side of driving wheel is connected with the first skin Belt wheel 35 is equipped with the second belt pulley 37 in second shaft 29, and the second belt pulley 37 is located between cam 30 and the second rocking handle 31, Flat belt 36 is wound between second belt pulley 37 and the first belt pulley 35, flat belt 36 is located at the front side of pouring weight 27.
Further include having first bevel gear 38, third shaft 39, pinion gear 40, rack 41, connecting rod 42,43 and of second bevel gear 3rd bearing seat 44,9 top of draw back plate are connected with connecting rod 42, and the top of connecting rod 42 is equipped with rack 41,5 inner top of frame middle part 3rd bearing seat 44 is installed, third shaft 39 is installed on 3rd bearing seat 44, pinion gear 40 is installed in third shaft 39 With second bevel gear 43, pinion gear 40 is located at the downside of second bevel gear 43, and pinion gear 40 is located at the front side of rack 41, pinion gear 40 engage with rack 41, and 12 right end of first rotating shaft is equipped with first bevel gear 38, and first bevel gear 38 is nibbled with second bevel gear 43 It closes.
Further include having collection frame 45, the second sliding rail 46, handle 47, the second sliding block 48 and push plate 49,23 rear wall of monitor station is left Side is equipped with collection frame 45, and 23 left wall top of monitor station is equipped with the second sliding rail 46, and the top of the second sliding rail 46 is equipped with second and slides The top of block 48, the second sliding block 48 is connected with push plate 49, and the left end of push plate 49 is connected with handle 47, the rear wall of push plate 49 and first 20 antetheca of baffle is connected, and 20 bottom of first baffle is in contact with 23 top of monitor station.
Operation principle:When needing to carry out hardness determination to brick 11, staff starts driving wheel 6 and starts work first Make, driving wheel 6, which rotates clockwise, drives driven wheel 3 to rotate clockwise, to drive conveyer belt 4 to rotate clockwise, then by brick 11 are deposited in and set in brick frame 10, and the open height for setting 10 left and right sidewall of brick frame is the height of one block of brick 11, then arranges one Staff pushes draw back plate 9 to the left, will set 10 the lowermost of brick frame that block brick 11 and releases, brick 11 connects with moving stop 25 It touches, after brick 11 is blocked by first baffle 20, staff retracts to the right draw back plate 9, arranges another staff at this time The first rocking handle 16 is shaken, reel 13 is driven to pack up drawstring 18, drives standard detection block 17 to move up, when standard detection block 17 When touching resting guide 19, staff unclamps the first rocking handle 16, and standard detection block 17 is moved downward, hit under the effect of gravity Hit brick 11, if brick 11 is excellent, hardness is qualified, and staff pulls pull rod 22 to the left, drive moving stop 25 to It moves left so that brick 11 is fallen to by through-hole 24 on conveyer belt 4, and follow-up work is carried out.If brick 11 is broken or impaired, Hardness is unqualified, and staff is cleared up, and similarly carries out the detection operation of next block of brick 11.
Because further including having connecting rod 26, pouring weight 27, second bearing seat 28, the second shaft 29, cam 30, the second rocking handle 31, the first fixed plate 32, contact wheel 33 and the second fixed plate 34, bottom right is equipped with the first fixed plate 32 and in frame 5 Two fixed plates 34, the first fixed plate 32 are located at the right side of the second fixed plate 34, and 34 top rotary type of the second fixed plate is equipped with weight Block 27,27 antetheca top rotary type of pouring weight are connected with connecting rod 26, and the left end of connecting rod 26 connects with the right end rotary type of draw back plate 9 It connects, contact wheel 33 is installed on the right side of 27 antetheca of pouring weight, 32 top of the first fixed plate is equipped with second bearing seat 28, second bearing seat Second shaft 29 is installed on 28, cam 30 and the second rocking handle 31 are installed in second shaft 29, cam 30 is located at the second rocking handle 31 rear side, cam 30 are engaged with contact wheel 33, so the staff for being responsible for push brick 11 shakes the second rocking handle 31, Band moving cam 30 rotates, and pouring weight 27 is driven to swing, and then draw back plate 9 is driven to move left and right, and brick 11 is released, cam 30 One circle of rotation can be realized the push of draw back plate 9 and retract operation, and the distance pushed is fixed so that the position of push is more It is unified and accurate, and then improve the standard of detection.
Because further including having the first belt pulley 35, flat belt 36 and the second belt pulley 37, the front side of driving wheel 6 is connected with the One belt pulley 35 is equipped with the second belt pulley 37 in second shaft 29, and the second belt pulley 37 is located at cam 30 and the second rocking handle 31 Between, flat belt 36 is wound between the second belt pulley 37 and the first belt pulley 35, flat belt 36 is located at the front side of pouring weight 27, so Driving wheel 6 drives the first belt pulley 35 to rotate while rotation, to drive the second belt pulley 37 and cam 30 to rotate, realizes 11 automatic push of brick, save manpower.
Because further including having first bevel gear 38, third shaft 39, pinion gear 40, rack 41, connecting rod 42, second bevel gear 43 and 3rd bearing seat 44,9 top of draw back plate is connected with connecting rod 42, and the top of connecting rod 42 is equipped with rack 41,5 inner top of frame Middle part is equipped with 3rd bearing seat 44, and third shaft 39 is equipped on 3rd bearing seat 44, small tooth is equipped in third shaft 39 Wheel 40 and second bevel gear 43, pinion gear 40 are located at the downside of second bevel gear 43, and pinion gear 40 is located at the front side of rack 41, small Gear 40 is engaged with rack 41, and 12 right end of first rotating shaft is equipped with first bevel gear 38, first bevel gear 38 and second bevel gear 43 engagements, so when draw back plate 9 moves downward, band carry-over bar 41 moves downward, and pinion gear 40 is driven to rotate forward, and then drives coiling Wheel 13 packs up drawstring 18, and after brick 11 is pushed out completely, i.e., when draw back plate 9 is to by right movement, band carry-over bar 41 moves right, It drives pinion gear 40 to invert, and then reel 13 is driven to release drawstring 18 so that standard detection block 17 hits brick 11, and work people Member judges rapidly its quality, is handled accordingly, and the work of the manual folding and unfolding standard detection block of staff 17 can be so saved Make.
Because further including having collection frame 45, the second sliding rail 46, handle 47, the second sliding block 48 and push plate 49, after monitor station 23 Collection frame 45 is installed, 23 left wall top of monitor station is equipped with the second sliding rail 46, and the top of the second sliding rail 46 is equipped with the on the left of wall Two sliding blocks 48, the top of the second sliding block 48 are connected with push plate 49, and the left end of push plate 49 is connected with handle 47, the rear wall of push plate 49 with 20 antetheca of first baffle is connected, and 20 bottom of first baffle is in contact with 23 top of monitor station, so working as 11 hardness quality of brick When unqualified, staff holds rapidly handle 47, backward driving handle 47 so that brick 11 is pushed into collection frame 45 by push plate 49 It is interior, push plate 49 is then moved back to forward original position rapidly, you can quickly handle the efficiency that underproof brick 11 improves detection.
The preferred embodiment of the present invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Cannot the limitation to the scope of the claims of the present invention therefore be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, several deformations can also be made, improves and substitutes, these belong to this hair Bright protection domain.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (5)

1. a kind of architectural engineering brick rigidity detection device, which is characterized in that include the first pillar(1), the second pillar (2), driven wheel(3), conveyer belt(4), frame(5), driving wheel(6), the first sliding rail(7), the first sliding block(8), draw back plate(9)、 First spring(90), set brick frame(10), first rotating shaft(12), reel(13), first bearing seat(14), mounting plate(15), One rocking handle(16), standard detection block(17), drawstring(18), resting guide(19), first baffle(20), second spring(21), draw Bar(22), monitor station(23)And moving stop(25), frame(5)Interior bottom is equipped with the first pillar(1)With the second pillar(2), First pillar(1)Number be 4, the second pillar(2)Number be 2, the second pillar(2)Positioned at the first pillar(1)It is front and back Between side, the second pillar of the left and right sides(2)Upper rotary type respectively is equipped with driven wheel(3)And driving wheel(6), driving wheel(6) And driven wheel(3)On be wound with conveyer belt(4), the first pillar(1)Top is equipped with monitor station(23), monitor station(23)Middle part is provided with Through-hole(24), monitor station(23)Top left side is equipped with first baffle(20), monitor station(23)Top right side, which is equipped with, sets brick frame (10), monitor station(23)Inner left wall top is connected with second spring(21), second spring(21)Right end be connected with moving stop (25), moving stop(25)Left end be connected with pull rod(22), pull rod(22)It is pierced by monitor station(23)Left wall top, moving stop (25)Top and monitor station(23)Inner top contacts, and moving stop(25)Positioned at through-hole(24)It is interior, monitor station(23)It is right Wall is equipped with the first spring(90)With the first sliding rail(7), the first spring(90)Positioned at the first sliding rail(7)Upside, the first sliding rail(7) It is equipped with the first sliding block(8), the first sliding block(8)Left wall and the first spring(90)Right end be connected, the first sliding block(8)Top Portion is connected with draw back plate(9), draw back plate(9)Bottom and monitor station(23)Top is in contact, draw back plate(9)Across setting brick frame (10)Left and right sidewall bottom, frame(5)Top left is connected with mounting plate(15), mounting plate(15)It is upper to be embedded with first bearing seat (14), first bearing seat(14)On first rotating shaft is installed(12), first rotating shaft(12)Left end is equipped with the first rocking handle(16), the One shaft(12)On reel is installed(13), reel(13)On be wound with drawstring(18), mounting plate(15)It installs right wall bottom end There is resting guide(19), drawstring(18)Across resting guide(19), drawstring(18)Bottom end be connected with standard detection block(17), mark Quasi- detection block(17)Positioned at monitor station(23)Top.
2. a kind of architectural engineering brick rigidity detection device according to claim 1, which is characterized in that further include having company Extension bar(26), pouring weight(27), second bearing seat(28), the second shaft(29), cam(30), the second rocking handle(31), first fix Plate(32), contact wheel(33)With the second fixed plate(34), frame(5)Interior bottom right is equipped with the first fixed plate(32)With second Fixed plate(34), the first fixed plate(32)Positioned at the second fixed plate(34)Right side, the second fixed plate(34)Top rotary type peace Equipped with pouring weight(27), pouring weight(27)Antetheca top rotary type is connected with connecting rod(26), connecting rod(26)Left end and draw back plate (9)Right end rotary type connection, pouring weight(27)Contact wheel is installed on the right side of antetheca(33), the first fixed plate(32)Top is equipped with Second bearing seat(28), second bearing seat(28)On the second shaft is installed(29), the second shaft(29)On cam is installed (30)With the second rocking handle(31), cam(30)Positioned at the second rocking handle(31)Rear side, cam(30)With contact wheel(33)Contact is matched It closes.
3. a kind of architectural engineering brick rigidity detection device according to claim 2, which is characterized in that further include having One belt pulley(35), flat belt(36)With the second belt pulley(37), driving wheel(6)Front side is connected with the first belt pulley(35), Second shaft(29)On the second belt pulley is installed(37), the second belt pulley(37)Positioned at cam(30)With the second rocking handle(31)It Between, the second belt pulley(37)With the first belt pulley(35)Between be wound with flat belt(36), flat belt(36)Positioned at pouring weight(27)'s Front side.
4. a kind of architectural engineering brick rigidity detection device according to claim 3, which is characterized in that further include having One bevel gear(38), third shaft(39), pinion gear(40), rack(41), connecting rod(42), second bevel gear(43)With third axis Bearing(44), draw back plate(9)Top is connected with connecting rod(42), connecting rod(42)Top rack is installed(41), frame(5)Interior top 3rd bearing seat is installed in the middle part of portion(44), 3rd bearing seat(44)On third shaft is installed(39), third shaft(39)On Pinion gear is installed(40)And second bevel gear(43), pinion gear(40)Positioned at second bevel gear(43)Downside, pinion gear (40)Positioned at rack(41)Front side, pinion gear(40)With rack(41)Engagement, first rotating shaft(12)Right end is equipped with the first cone Gear(38), first bevel gear(38)With second bevel gear(43)Engagement.
5. a kind of architectural engineering brick rigidity detection device according to claim 4, which is characterized in that further include having receipts Collect frame(45), the second sliding rail(46), handle(47), the second sliding block(48)And push plate(49), monitor station(23)Installation on the left of rear wall There is collection frame(45), monitor station(23)Left wall top is equipped with the second sliding rail(46), the second sliding rail(46)Top be equipped with second Sliding block(48), the second sliding block(48)Top be connected with push plate(49), push plate(49)Left end be connected with handle(47), push plate (49)Rear wall and first baffle(20)Antetheca is connected, first baffle(20)Bottom and monitor station(23)Top is in contact.
CN201810076383.9A 2018-01-26 2018-01-26 Brick hardness testing device for building engineering Active CN108362589B (en)

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