CN110332896A - A kind of plasterboard thickness monitor device - Google Patents

Abstract

The embodiment of the invention discloses a kind of plasterboard thickness monitor devices, including pedestal, pedestal top is connected with vertical stand, in vertical stand, lower end is connected separately with upper slide bar and drop shot, upper slide bar and drop shot two sides are provided with sliding slot, monitoring sliding block is provided at the top of upper slide bar bottom and drop shot, monitoring inner side of slider is separately installed with first laser distance measuring sensor mounting base and second laser distance measuring sensor mounting base, upper slide bar top and drop shot bottom end are connected separately with curved bar and lower curved bar, upper curved bar bottom end and lower curved bar top are separately installed with photoelectric sensor launching seat and photoelectric sensor received block, the measurement accuracy of the device is higher, measuring speed is faster, and monitoring range is more comprehensively, it can guarantee the thickness of plasterboard more evenly, can be avoided simultaneously leads to measurement error because of plasterboard bounce in measurement, furthermore, The device can guarantee that the line of plasterboard top and bottom measurement point is vertical with plasterboard always, to avoid measured deviation.

Description

A kind of plasterboard thickness monitor device

Technical field

The present embodiments relate to plasterboard manufacturing technology fields, and in particular to a kind of plasterboard thickness monitor device.

Background technique

Plasterboard is using building gypsum as a kind of material made of primary raw material, it is that one kind is light-weight, intensity is higher, thick The construction material for spending the better performances such as relatively thin, easy to process and sound insulation insulation and fire prevention is the novel light of current development emphatically One of lumber.Plasterboard be widely used in the various buildings such as house, office building, shop, hotel and industrial premises it is interior every Wall, wall cladding boards (instead of floated coat), ceiling, abatvoix, ground layer plate and various decorative panels etc., for interior Be not advantageously mounted at bathroom or kitchen.

Plasterboard mainly has Thistle board, without Thistle board, decorated gypsum board, gypsum hollow lath, fibrous plaster Plate, plaster board, locating-point plasterboard etc..In addition to traditional plasterboard, there are also new products to be continuously increased, such as gypsum sound-absorbing Plate, refractory slab, heat-insulating shield and gypsum composite board etc., the specification of plasterboard also develop to Gao Houdu, large scale direction.In addition, stone The purposes of cream product is also being widened, except make base lining in addition to, also serve as surface decoration material, even serving as floor tile, exterior wall substrate and Wall core material etc..

Gypsum board production line is the relatively high producing line of a set of automation, entire producing line from molding, fixed length cutting, drying, Stacking all realizes automated production.In process of production, the thickness of the measurement plasterboard of right place, existing survey are needed Amount mode is usually manual measurement, but manual measurement has following defect:

(1) manual measurement precision is lower, measuring speed is slower, and monitoring range is not comprehensive, be easy to cause gypsum plate thickness Unevenness be easy to cause bulk article unqualified during plasterboard batch production；

(2) plasterboard during transportation, is often beated due to the vibration of rollgang, so as to cause plasterboard Thickness measure error it is larger, influence measurement accuracy；

(3) when measuring the thickness of plasterboard, need to guarantee that the line of plasterboard top and bottom measurement point is vertical with plasterboard, And in actual measurement, but it is difficult to ensure that this point, so that measurement result will appear deviation.

Summary of the invention

For this purpose, the embodiment of the present invention provides a kind of plasterboard thickness monitor device, the measurement accuracy of the device is higher, measures Faster, and monitoring range is more comprehensively for speed, and the thickness that can guarantee plasterboard more evenly, it is underproof to avoid the occurrence of product batch Phenomenon advantageously ensures that the precision of measurement meanwhile, it is capable to avoid leading to measurement error because of plasterboard bounce in measurement, this Outside, which can guarantee that the line of plasterboard top and bottom measurement point is vertical with plasterboard always, so as to avoid measurement position It sets and deviation occurs, to solve the problems of the prior art.

To achieve the goals above, the embodiment of the present invention provides the following technical solutions: a kind of plasterboard thickness monitor device, Including pedestal, the top of the pedestal is fixedly connected with vertical stand, the upper and lower end of the vertical stand be connected separately with it is parallel and with Vertical stand vertical upper slide bar and drop shot；

The two sides of the upper slide bar and drop shot are provided with sliding slot, and are all provided at the top of the bottom of upper slide bar and drop shot Be equipped with the matched monitoring sliding block of sliding slot, be separately installed with first laser distance measuring sensor mounting base on the inside of the monitoring sliding block With second laser distance measuring sensor mounting base, the top of the upper slide bar and the bottom end of drop shot are connected separately with curved bar under Curved bar, and the bottom end of upper curved bar and the top of lower curved bar are separately installed with corresponding photoelectric sensor launching seat and photoelectric sensor Received block.

The embodiment of the present invention is further characterized in that: the junction of the upper slide bar, drop shot and vertical stand is mounted on One electric pushrod, and the output end of the first electric pushrod is respectively connected with the first telescopic shaft, the end of first telescopic shaft with Corresponding monitoring sliding block connection.

The embodiment of the present invention is further characterized in that: the upper slide bar, drop shot to be fixedly installed with second electronic for end Push rod, and the output end of the second electric pushrod is connected with the second telescopic shaft, the end of second telescopic shaft is respectively connected with and slides The matched position limiting slide block of slot.

The embodiment of the present invention is further characterized in that: the side of the monitoring sliding block is connected with several inserted links, the limit The side of sliding block be provided with the matched slot of inserted link, and the outer cover of inserted link be equipped with limit spring.

The embodiment of the present invention is further characterized in that: the upper slide bar and drop shot are arranged with close to one end of vertical stand and determine Position ring, and the medial surface both ends for positioning ring are provided with and the matched slide protrusion of sliding slot, the outside of the positioning ring Face is provided with perforative fixing threaded hole, and fixing bolt is inserted in fixing threaded hole.

The embodiment of the present invention is further characterized in that: the side of the positioning ring is respectively connected with adjusting screw rod, described vertical The upper and lower end of frame, which is provided with, both passes through roll adjustment screw hole with the matched roll adjustment screw hole of adjusting screw rod, the outer end of the adjusting screw rod, And the outer end of adjusting screw rod is connected with rotating disk.

The embodiment of the present invention is further characterized in that: the vertical stand includes upper hack lever and lower hack lever, and upper hack lever and undercarriage Bar is connect with upper slide bar, drop shot respectively, and the bottom end of the upper hack lever is connected with rotary screw by swivel bearing, and rotates spiral shell Bar is externally connected to rotating handle, and the top surface of the lower hack lever, which is provided with, rotates screw hole with the matched rotation of rotary screw, and rotates Screw rod is plugged in rotation screw hole.

The embodiment of the present invention is further characterized in that: the medial surface both ends of the monitoring sliding block and position limiting slide block are respectively connected with two A opposite L-type plate, and the outer end of L-type plate is stuck in corresponding sliding slot.

The embodiment of the present invention is further characterized in that: the outer end above and below of the L-type plate is provided with strip groove, and bar shaped Several balls are provided in slot, the both ends of the ball are provided with turn trough, and are inserted in turn trough and strip groove side The shaft of wall connection.

The embodiment of the present invention is further characterized in that: the bottom surface quadrangle of the pedestal is mounted on roll wheel assembly, and pedestal Clump weight is provided on the outside of top surface.

The embodiment of the present invention has the advantages that

(1) measurement accuracy of the invention is higher, measuring speed faster, and monitoring range is more comprehensively, can guarantee plasterboard Thickness more evenly, avoid the occurrence of the underproof phenomenon of product batch；

(2) present invention, which can be avoided, leads to measurement error because of plasterboard bounce in measurement, advantageously ensures that measurement Precision；

(3) present invention enough guarantees that the line of plasterboard top and bottom measurement point is vertical with plasterboard always, so as to avoid There is deviation in measurement position.

Detailed description of the invention

It, below will be to embodiment party in order to illustrate more clearly of embodiments of the present invention or technical solution in the prior art Formula or attached drawing needed to be used in the description of the prior art are briefly described.It should be evident that the accompanying drawings in the following description is only It is merely exemplary, it for those of ordinary skill in the art, without creative efforts, can also basis The attached drawing of offer, which is extended, obtains other implementation attached drawings.

Structure depicted in this specification, ratio, size etc., only to cooperate the revealed content of specification, for Those skilled in the art understands and reads, and is not intended to limit the invention enforceable qualifications, therefore does not have technical Essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size are not influencing the function of the invention that can be generated Under effect and the purpose that can reach, should all still it fall in the range of disclosed technology contents obtain and can cover.

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is monitoring sliding block vertical section structural schematic diagram of the invention；

Fig. 3 is positioning ring vertical section structural schematic diagram of the invention.

In figure:

1- pedestal；2- vertical stand；3- upper slide bar；4- drop shot；5- sliding slot；6- monitors sliding block；7- first laser ranging passes Sensor mounting base；8- second laser distance measuring sensor mounting base；The upper curved bar of 9-；Curved bar under 10-；11- photoelectric sensor launching seat； 12- photoelectric sensor received block；The first electric pushrod of 13-；The first telescopic shaft of 14-；The second electric pushrod of 15-；16- second is flexible Axis；17- position limiting slide block；18- inserted link；19- slot；20- limit spring；21- positions ring；22- slide protrusion；23- fixes spiral shell Hole；24- fixing bolt；25- adjusting screw rod；26- adjusts screw hole；27- rotating disk；The upper hack lever of 28-；Hack lever under 29-；30- rotation Bearing；31- rotary screw；32- rotating handle；33- rotates screw hole；34-L template；35- strip groove；36- ball；37- turn trough；38- Shaft；39- roll wheel assembly；40- clump weight.

Specific embodiment

Embodiments of the present invention are illustrated by particular specific embodiment below, those skilled in the art can be by this explanation Content disclosed by book is understood other advantages and efficacy of the present invention easily, it is clear that described embodiment is the present invention one Section Example, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not doing Every other embodiment obtained under the premise of creative work out, shall fall within the protection scope of the present invention.

As shown in Figure 1 to Figure 3, the present invention provides a kind of plasterboard thickness monitor device, including pedestal 1, the bottoms of pedestal 1 Face quadrangle is mounted on roll wheel assembly 39, and is provided with clump weight 40 on the outside of the top surface of pedestal 1, by the way that 39 energy of roll wheel assembly is arranged Enough facilitate the movement of device, so that when needing to be monitored gypsum plate thickness using the device, it can be mobile by the device To plasterboard transfer position, when without using the device, which being removed, avoiding the production for influencing plasterboard, counterweight Block 40 is used to carry out counterweight to device, and avoiding device tilts when in use.

The top of pedestal 1 is fixedly connected with vertical stand 2, and the upper and lower end of vertical stand 2 is connected separately with parallel and and vertical stand The length of 2 vertical upper slide bars 3 and drop shot 4, upper slide bar 3 and drop shot 4 in 1200 ㎜ or so, the thickness to plasterboard into When row monitoring, upper slide bar 3 and drop shot 4 are located above and below plasterboard.

Vertical stand 2 include upper hack lever 28 and lower hack lever 29, and upper hack lever 28 and lower hack lever 29 respectively with upper slide bar 3, glide Bar 4 connects, the bottom end of upper hack lever 28 is connected with rotary screw 31 by swivel bearing 30, and rotary screw 31 is externally connected to Rotating handle 32, the top surface of lower hack lever 29, which is provided with, rotates screw hole 33 with the matched rotation of rotary screw 31, and rotary screw 31 plugs In rotation screw hole 33.

The distance between upper slide bar 3 and drop shot 4 can be adjusted according to the actual situation, by rotating rotating handle 32, energy It enough rotates rotary screw 31, so as to change the length of the insertion rotation screw hole 33 of rotary screw 31, realizes upper slide bar 3 under The adjustment of 4 distance of slide bar enables a device to the plasterboard for being applicable in different-thickness or other plates.

The two sides of upper slide bar 3 and drop shot 4 are provided with sliding slot 5, and the bottom of upper slide bar 3 and the top of drop shot 4 are equal It is provided with the matched monitoring sliding block 6 of sliding slot 5, monitoring sliding block 6 is moved along upper slide bar 3 or drop shot 4, and moving It moves in the process without departing from sliding slot 5.

The inside of monitoring sliding block 6 is separately installed with first laser distance measuring sensor mounting base 7 and second laser ranging sensing Is separately installed in device mounting base 8, first laser distance measuring sensor mounting base 7 and second laser distance measuring sensor mounting base 8 One laser range sensor and second laser distance measuring sensor, laser range sensor are first to be sent out by laser diode alignment target Laser pulse is penetrated, laser is scattered to all directions after target reflects, and some scattered light returns to transducer receivers, by optical system System is imaged on avalanche photodide after receiving, and avalanche photodide is a kind of optical sensing of the inside with enlarging function Device, therefore it can detect extremely faint optical signal is recorded and is handled when being issued to return from light pulse and being received experienced Between, target range can be measured, first laser distance measuring sensor and second laser distance measuring sensor connect with control system, make It obtains under control of the control system, ranging can be carried out respectively.

Before the thickness of monitoring plasterboard, first laser distance measuring sensor and second laser distance measuring sensor can be passed through The distance between two laser range sensors are measured, and monitor sliding block 6 when along upper slide bar 3, the sliding of drop shot 4, two The distance between a laser range sensor, to ensure that upper slide bar 3 or drop shot 4 are horizontal, admissible error range ± Between 0.001mm.

The top of upper slide bar 3 and the bottom end of drop shot 4 are connected separately with curved bar 9 and lower curved bar 10, and the bottom of upper curved bar 9 End and the top of lower curved bar 10 are separately installed with corresponding photoelectric sensor launching seat 11 and photoelectric sensor received block 12, photoelectricity Photoelectric sensor transmitting terminal is separately installed in sensor emission seat 11 and photoelectric sensor received block 12 and photoelectric sensor connects Receiving end.

Photoelectric sensor transmitting terminal and photoelectric sensor receiving end are connect with control system, when initial, photoelectric sensor Receiving end can receive the signal of photoelectric sensor transmitting terminal transmitting always, and when plasterboard is moved to upper slide bar 3 and glides When between bar 4, photoelectric sensor receiving end can not receive the signal of photoelectric sensor transmitting terminal transmitting, at this point, control system Two laser range sensor rangings are controlled, since plasterboard is between upper slide bar 3 and drop shot 4, two laser rangings The distance of sensor measurement is itself to arrive the distance of plasterboard above and below respectively, initial by two laser range sensors When the distance between subtract each laser range sensor to the obverse distance of plasterboard, the as thickness of plasterboard, work as stone The thickness of cream plate exceeds preset threshold range, and system is alarmed, and setting in this way can make gypsum plate thickness Measurement more precisely, measuring speed faster, meanwhile, measurement when, can effectively evade leads to stone because of rollgang jerk value Cream plate shakes bring measurement error, advantageously ensures that the precision of measurement.

The junction of upper slide bar 3, drop shot 4 and vertical stand 2 is mounted on the first electric pushrod 13, and the first electric pushrod 13 output end is respectively connected with the first telescopic shaft 14, and the end of the first telescopic shaft 14 is connected with corresponding monitoring sliding block 6.

Two the first electric pushrods 13 are controlled by control system, and realize synchronous driving by synchronous servo controller, when When photoelectric sensor receiving end can not receive the signal of photoelectric sensor transmitting terminal transmitting, control system controls two first electricity Dynamic push rod 13 is synchronous to be driven, the speed for enabling monitoring sliding block 6 to move back and forth respectively along upper slide bar 3, drop shot 4, and move It spends identical, enables a device to that the thickness of each position of plasterboard can be monitored, so that the range of monitoring is more Extensively, more comprehensively, the thickness that can guarantee plasterboard more evenly, avoids the occurrence of the underproof phenomenon of product batch for monitoring.

Upper slide bar 3, drop shot 4 end be fixedly installed with the second electric pushrod 15, and the second electric pushrod 15 is defeated Outlet is connected with the second telescopic shaft 16, and the end of the second telescopic shaft 16 is respectively connected with and the matched position limiting slide block 17 of sliding slot 5.

The side of monitoring sliding block 6 is connected with several inserted links 18, and the side of position limiting slide block 17 is provided with to be matched with inserted link 18 Slot 19, and the outer cover of inserted link 18 be equipped with limit spring 20, position limiting slide block 17 is with corresponding monitoring sliding block 6 in same level On straight line, it can be slided guaranteeing limit for realizing the limit to monitoring sliding block 6 by setting inserted link 18 and limit spring 20 While 17 limit effect of block, avoids monitoring sliding block 6 and position limiting slide block 17 from colliding, avoid first laser distance measuring sensor and second Laser range sensor deviates under vibration, influences the precision of monitoring.

Two the second electric pushrods 15 are equally controlled by control system, and realize synchronous driving by synchronous servo controller, Meanwhile second electric pushrod 15 when driving, the mobile speed of position limiting slide block 17 is identical as monitoring sliding block 6, but direction it is complete on the contrary, So that device, when monitoring the thickness of plasterboard, position limiting slide block 17 can limit the position of monitoring sliding block 6, to guarantee two prisons The line for surveying sliding block 6 is vertical with plasterboard always, to guarantee that the line of plasterboard top and bottom measurement point hangs down with plasterboard always Directly, there is deviation to avoid measurement position.

The medial surface both ends of monitoring sliding block 6 and position limiting slide block 17 are all connected with there are two opposite L-type plate 34, and L-type plate 34 Outer end be stuck in corresponding sliding slot 5, the outer end above and below of L-type plate 34 is provided with strip groove 35, and in strip groove 35 Several balls 36 are provided with, the both ends of ball 36 are provided with turn trough 37, and are inserted in turn trough 37 and 35 side of strip groove The shaft 38 of wall connection.

By the way that L-type plate 34 is arranged, it can be avoided monitoring sliding block 6 and position limiting slide block 17 be detached from sliding slot 5 when moving, by setting Ball 36 and strip groove 35 are set, the frictional force that monitoring sliding block 6 and position limiting slide block 17 are subject to when moving can be reduced, be conducive to reality Now monitor the high-precision control and sliding of sliding block 6 and position limiting slide block 17.

Upper slide bar 3 and drop shot 4 are arranged with positioning ring 21 close to one end of vertical stand 2, and position the interior of ring 21 Side both ends be provided with the matched slide protrusion 22 of sliding slot 5, enable positioning ring 21 along upper slide bar 3 or drop shot The lateral surface of 4 slidings, positioning ring 21 is provided with perforative fixing threaded hole 23, and is inserted with fixing bolt in fixing threaded hole 23 24, it can be realized the fixation of positioning ring 21 by fixing bolt 24.

The side of positioning ring 21 is respectively connected with adjusting screw rod 25, and the upper and lower end of vertical stand 2 is provided with and adjusting screw rod 25 matched roll adjustment screw holes 26, the outer end of adjusting screw rod 25 both passes through roll adjustment screw hole 26, and the outer end of adjusting screw rod 25 is connected with Rotating disk 27 can be realized the movement of adjusting screw rod 25, to realize the sliding of positioning ring 21 by rotating rotating disk 27.

It is of different size due to plasterboard in the thickness of actual monitoring plasterboard, it is mobile in order to guarantee to monitor sliding block 6 Range is suitable with the width of plasterboard, can be by rotating rotating disk 27, to change the position of positioning ring 21, so that measuring When, it can be limited by the sliding scale of 21 pairs of ring monitoring sliding blocks 6 of positioning, avoid the scope of activities phase of monitoring sliding block 6 It is excessive for the width of plasterboard, influence the actual efficiency of monitoring.

Although above having used general explanation and specific embodiment, the present invention is described in detail, at this On the basis of invention, it can be made some modifications or improvements, this will be apparent to those skilled in the art.Therefore, These modifications or improvements without departing from theon the basis of the spirit of the present invention are fallen within the scope of the claimed invention.

Claims (10)

1. a kind of plasterboard thickness monitor device, including pedestal (1), it is characterised in that: the top of the pedestal (1) is fixedly connected Have vertical stand (2), the upper and lower end of the vertical stand (2) is connected separately with the parallel and upper slide bar (3) vertical with vertical stand (2) With drop shot (4)；

The two sides of the upper slide bar (3) and drop shot (4) are provided with sliding slot (5), and the bottom of upper slide bar (3) and drop shot (4) be provided at the top of with sliding slot (5) matched monitoring sliding block (6), the is separately installed on the inside of the monitoring sliding block (6) One laser range sensor mounting base (7) and second laser distance measuring sensor mounting base (8), the top of the upper slide bar (3) and The bottom end of drop shot (4) is connected separately with curved bar (9) and lower curved bar (10), and the bottom end of upper curved bar (9) and lower curved bar (10) Top be separately installed with corresponding photoelectric sensor launching seat (11) and photoelectric sensor received block (12).

2. a kind of plasterboard thickness monitor device according to claim 1, it is characterised in that: the upper slide bar (3) is glided The junction of bar (4) and vertical stand (2) is mounted on the first electric pushrod (13), and the output end of the first electric pushrod (13) is equal It is connected with the first telescopic shaft (14), the end of first telescopic shaft (14) is connected with corresponding monitoring sliding block (6).

3. a kind of plasterboard thickness monitor device according to claim 1, it is characterised in that: the upper slide bar (3) is glided The end of bar (4) is fixedly installed with the second electric pushrod (15), and the output end of the second electric pushrod (15) is connected with second Telescopic shaft (16), the end of second telescopic shaft (16) are respectively connected with and sliding slot (5) matched position limiting slide block (17).

4. a kind of plasterboard thickness monitor device according to claim 1, it is characterised in that: monitoring sliding block (6) Side is connected with several inserted links (18), and the side of the position limiting slide block (17) is provided with and inserted link (18) matched slot (19), and the outer cover of inserted link (18) is equipped with limit spring (20).

5. a kind of plasterboard thickness monitor device according to claim 1, it is characterised in that: the upper slide bar (3) and under Slide bar (4) is arranged with positioning ring (21) close to the one end of vertical stand (2), and the medial surface both ends for positioning ring (21) are all provided with It is equipped with and is provided with perforative fixed spiral shell with sliding slot (5) matched slide protrusion (22), the lateral surface of positioning ring (21) Hole (23), and fixing bolt (24) are inserted in fixing threaded hole (23).

6. a kind of plasterboard thickness monitor device according to claim 5, it is characterised in that: positioning ring (21) Side is respectively connected with adjusting screw rod (25), and the upper and lower end of the vertical stand (2) is provided with and adjusting screw rod (25) matched tune Away from screw hole (26), the outer end of the adjusting screw rod (25) is both passed through roll adjustment screw hole (26), and the outer end connection of adjusting screw rod (25) There are rotating disk (27).

7. a kind of plasterboard thickness monitor device according to claim 1, it is characterised in that: the vertical stand (2) includes Upper hack lever (28) and lower hack lever (29), and upper hack lever (28) and lower hack lever (29) are connect with upper slide bar (3), drop shot (4) respectively, The bottom end of the upper hack lever (28) is connected with rotary screw (31) by swivel bearing (30), and the outside of rotary screw (31) connects It being connected to rotating handle (32), the top surface of the lower hack lever (29), which is provided with, rotates screw hole (33) with rotary screw (31) matched rotation, And rotary screw (31) is plugged in rotation screw hole (33).

8. a kind of plasterboard thickness monitor device according to claim 1, it is characterised in that: the monitoring sliding block (6) and The medial surface both ends of position limiting slide block (17) are all connected with there are two opposite L-type plate (34), and the outer end of L-type plate (34) is stuck in pair In the sliding slot (5) answered.

9. a kind of plasterboard thickness monitor device according to claim 8, it is characterised in that: outside the L-type plate (34) End above and below is provided with strip groove (35), and is provided with several balls (36), the ball (36) in strip groove (35) Both ends be provided with turn trough (37), and turn trough (37) in be inserted with the shaft (38) connecting with strip groove (35) side wall.

10. a kind of plasterboard thickness monitor device according to claim 1, it is characterised in that: the bottom surface of the pedestal (1) Quadrangle is mounted on roll wheel assembly (39), and is provided with clump weight (40) on the outside of the top surface of pedestal (1).