CN208520359U - Reciprocating ceramic tile flatness scanning means - Google Patents

Abstract

The utility model provides reciprocating ceramic tile flatness scanning means, the first track and the second track is respectively set in its crossbeam two sides, be slidably connected the first sliding block on first track, first sliding block passes through the first fixed plate, first fixed plate connects the first detector, be slidably connected the second sliding block on second track, second sliding block connects the second detector by the second fixed plate, first sliding block and the second slide position mutually stagger, reciprocating mechanism is set on crossbeam, reciprocating mechanism drives the first detector and the second detector alternate reciprocating motion, when use, due to the first detector and the second detector alternate reciprocating motion, when such first sensors work, the reset of second detector is done to be prepared in next step, first detector and the second detector work alternatively, detection is worked alternatively using two detectors, it just can be carried out down without returning to original position One-time detection improves detection efficiency so can be reduced detection time.

Description

Reciprocating ceramic tile flatness scanning means

Technical field

The utility model belongs to ceramic tile scanning means technical field more particularly to a kind of reciprocating ceramic tile flatness scanning dress It sets.

Background technique

The manufacturer of ceramic tile production currently on the market generally uses with Non-contact optical fiber position the detection of ceramic tile flatness error Ceramic tile is placed in ceramic tile detection line by displacement sensor as detector, combined data capture card, PC machine etc., and ceramic tile detection line will Ceramic tile is transported to below detector, and detector under the drive of the drive, is detected along the direction of motion of ceramic tile, and will Digital signal transmission data collecting card is transported to PC machine again, is then shown measurement data by display, to find out The flatness of ceramic tile.

But only one detector of present scanning detection apparatus after detector completes one-time detection, will return to original position It can be carried out and detect next time, the spent time is more, so detection time is longer, influences detection efficiency.

Utility model content

In order to solve the above-mentioned technical problem the utility model, provides a kind of reciprocating ceramic tile flatness scanning means.

In order to achieve the above purpose, the utility model the following technical schemes are provided:

The reciprocating ceramic tile flatness scanning means, including crossbeam, the first detector and the second detector, the crossbeam two The first track and the second track is respectively set in side, and be slidably connected the first sliding block on first track, and first sliding block is mutually remote One side from crossbeam connects the first fixed plate, connects the first detector below first fixed plate；

Be slidably connected the second sliding block on second track, and mutually the one side connection second far from crossbeam is solid for second sliding block Fixed board, the second fixed plate lower section connect the second detector, and first sliding block and the second slide position mutually stagger, described Reciprocating mechanism, the reciprocating mechanism and the first fixed plate and the transmission connection of the second fixed plate are set on crossbeam, thus Drive the first detector and the second detector alternate reciprocating motion.

Preferably, the reciprocating mechanism includes servo motor, driving wheel and driven wheel, and the crossbeam both ends are set respectively Power installation recess and driven installation recess are set, the crossbeam connects servo motor mounting plate on power installation recess, and leads to It crosses servo motor mounting plate to connect with servo motor, and the motor shaft of servo motor is upward, and passes through motor axis connection driving wheel；

The crossbeam connects driven wheel in driven installation recess, and driving wheel and driven wheel are parallel to same axis, and pass through Toothed belt transmission connection；

The synchronous belt is respectively arranged with threaded connector in the position of corresponding first fixed plate and the second fixed plate, described Synchronous belt is connected through a screw thread part and connect respectively with the first fixed plate and the second fixed plate, thus drives and is connected to the first fixed plate With the first detector and the second detector alternate reciprocating motion below the second fixed plate.

Preferably, elastic adjusting block is also set up above the driven wheel, described elastic adjusting block one end is fixed with driven wheel Connection, the other end offers kidney slot, and is connect by setting bolt in kidney slot with crossbeam.

Preferably, the scanning means laterally setting and/or diagonal angularly disposed in ceramic tile detection line.

Preferably, under-chassis is additionally provided with below the crossbeam both ends, scanning means is installed by the screw hole being arranged on under-chassis In ceramic tile detection line.

After structure by adopting the above technical scheme, generated beneficial effect is, due to the first sliding block and the second sliding block position It sets and mutually staggers, so the first detector and the second detector location that are connected with the second fixed plate by the first fixed plate are also same It mutually staggers to sample, when such first sensors work, the reset of the second detector is done to be prepared in next step, the first detector and second Detector works alternatively, and uses two detectors and works alternatively detection, detects next time without returning in situ just can be carried out, institute Can be reduced detection time, detection efficiency is improved, so only one detector of the scanning detection apparatus of the prior art is avoided, After detector completes one-time detection, to return in situ just can be carried out and detect next time, the spent time is more, detection time compared with The problem of growing, influencing detection efficiency.

Since two scanning means of setting may be selected in ceramic tile detection line, one is horizontally installed in ceramic tile detection line, Another diagonal angularly disposed scanning means in ceramic tile detection line, being laterally arranged in this way can detecte ceramic tile flatness, right The angularly disposed scanning means in angle can detecte ceramic tile diagonal line flatness, and realization just completes pair in a ceramic tile detection line Two kinds of detections of ceramic tile, can more save detection time, improve detection efficiency.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the utility model embodiment.

Fig. 2 is the front view of the utility model embodiment.

Fig. 3 is the rearview of the utility model embodiment.

In attached drawing: crossbeam 1, the first detector 2, the second detector 3, servo motor 4, driving wheel 5, driven wheel 6, power peace Fill recess 7, driven installation recess 8, servo motor mounting plate 9, synchronous belt 10, the first track 11, the second track 12, under-chassis 13, Elastic adjusting block 60, threaded connector 100, the first sliding block 110, the first fixed plate 111, the second sliding block 120, the second fixed plate 121, kidney slot 600.

Specific embodiment

For structure, feature and its effect to the utility model, can there are further understanding and understanding, now lift following Preferred embodiment, and be described with reference to the accompanying drawings as follows:

Reciprocating ceramic tile flatness scanning means embodiment as shown in Figure 1 to Figure 3 comprising crossbeam 1, the first detector 2 and second detector 3,1 two sides of crossbeam the first track 11 and the second track 12 is respectively set, the company of sliding on first track 11 The first sliding block 110 is connect, which is connected by screw to the first fixed plate 111 far from crossbeam 1 on one side, this first The first detector 2 is connected by screw to below fixed plate 111；

Be slidably connected the second sliding block 120 on second track 12,120 phase of the second sliding block the passing through on one side far from crossbeam 1 Screw connects the second fixed plate 121, is connected by screw to the second detector 3 below second fixed plate 121, first sliding block 110 and 120 position of the second sliding block mutually stagger, reciprocating mechanism is set on the crossbeam 1, which includes servo Power installation recess 7 and driven installation recess 8, the crossbeam is respectively set in motor 4, driving wheel 5 and driven wheel 6,1 both ends of crossbeam 1 connects servo motor mounting plate 9 on power installation recess 7, and is connect by servo motor mounting plate 9 with servo motor 4, and The motor shaft of servo motor 4 upward, and passes through motor axis connection driving wheel 5；

The crossbeam 1 connects driven wheel 6 in driven installation recess 8, and driving wheel 5 and driven wheel 6 are parallel to same axis, and lead to Cross the transmission connection of synchronous belt 10；

The synchronous belt 10 is respectively arranged with threaded connection in the position of corresponding first fixed plate 111 and the second fixed plate 121 Part 100, the synchronous belt 10 are connected through a screw thread part 100 and connect respectively with the first fixed plate 111 and the second fixed plate 121, thus Drive the first detector 2 for being connected to 121 lower section of the first fixed plate 111 and the second fixed plate and the second detector 3 alternately reciprocal Movement.

Further, elastic adjusting block 60 is also set up above the driven wheel 6, elastic 60 one end of adjusting block and driven wheel 6 are solid Fixed connection, the other end offers kidney slot 600, and is connect by setting bolt in kidney slot 600 with crossbeam 1.

Further, the scanning means laterally setting and/or diagonal angularly disposed in ceramic tile detection line, optional setting two In ceramic tile detection line, which is horizontally installed in ceramic tile detection line a scanning means, another is diagonal The angularly disposed scanning means in ceramic tile detection line, being laterally arranged in this way can detecte ceramic tile flatness, diagonal angularly disposed Scanning means can detecte ceramic tile diagonal line flatness, realize two kinds just completed in a ceramic tile detection line to ceramic tile Detection time is saved in detection.

Further, under-chassis 13 is additionally provided with below 1 both ends of crossbeam, scanning means is pacified by the screw hole being arranged on under-chassis 13 In ceramic tile detection line.

Further, it is provided with track conveyor structure in ceramic tile detection line, for conveying the ceramic tile of detection.

It is arranged in ceramic tile detection line when in use in conjunction with above-mentioned reciprocating ceramic tile flatness scanning means embodiment Two scanning means, two scanning means one are horizontally installed in ceramic tile detection line, another is diagonal angularly disposed in porcelain In brick detection line, then ceramic tile is placed in ceramic tile detection line, ceramic tile is transported to below scanning means by ceramic tile detection line, then Drive the driving wheel 5 and driven wheel 6 that are sequentially connected by synchronous belt 10 by servo motor 4, make to be connected through a screw thread part 100 with The first fixed plate 111 that synchronous belt 10 connects is slided on the first track 11 by the first sliding block 110, due to the first fixed plate 111 Lower section connects the first detector 2, so the first detector 2 just completes the detection to the block ceramic tile；

When next block of ceramic tile is transported to below scanning means, then servo motor 4 continues to drive, and drive passes through synchronous belt The driving wheel 5 and driven wheel 6 of 10 transmission connections, make to be connected through a screw thread the second fixed plate 121 that part 100 is connect with synchronous belt 10 It is slided on the second track 12 by the second sliding block 120, due to connecting the second detector 3 below the second fixed plate 121, so second Detector 3 just completes the detection to the block ceramic tile；

Since the first sliding block 110 and 120 position of the second sliding block mutually stagger, so passing through the first fixed plate 111 and second The first detector 2 and 3 position of the second detector that fixed plate 121 connects similarly mutually stagger, such first detector, 2 work When making, the reset of the second detector 3 is done to be prepared in next step, and the first detector 2 and the second detector 3 work alternatively, and uses two Detector works alternatively detection, detects next time without returning in situ just can be carried out, so can be reduced detection time, improves detection Efficiency after detector completes one-time detection, will return so avoiding only one detector of the scanning detection apparatus of the prior art It is detected next time in situ just can be carried out, the spent time is more, and detection time is longer, the problem of influencing detection efficiency.

Since two scanning means of setting may be selected in ceramic tile detection line, one is horizontally installed in ceramic tile detection line, Another diagonal angularly disposed scanning means in ceramic tile detection line, being laterally arranged in this way can detecte ceramic tile flatness, right The angularly disposed scanning means in angle can detecte ceramic tile diagonal line flatness, and realization just completes pair in a ceramic tile detection line Two kinds of detections of ceramic tile, can more save detection time, improve detection efficiency.

Due to also setting up elastic adjusting block 60 above driven wheel 6, it is possible to adjust 600 inner bolt of kidney slot and crossbeam 1 Link position to synchronous belt 10 is adjusted it is elastic.

Above embodiments are merely to illustrate the technical solution of the utility model, but the embodiments of the present invention not by The limitation of the embodiment, change, the modification, name made under other any spiritual essence and principles without departing from the utility model In generation, simplifies, and is equivalent substitute mode, is included within the protection scope of the utility model.

Claims (5)

1. reciprocating ceramic tile flatness scanning means, which is characterized in that scanning means include crossbeam (1), the first detector (2) and The first track (11) and the second track (12), first track is respectively set in second detector (3), crossbeam (1) two sides (11) be slidably connected the first sliding block (110) on, and mutually the one side connection first far from crossbeam (1) is fixed for first sliding block (110) Plate (111), the first fixed plate (111) lower section connect the first detector (2)；

It is slidably connected on second track (12) the second sliding block (120), second sliding block (120) is mutually far from crossbeam (1) It connects on one side the second fixed plate (121), connects the second detector (3) below second fixed plate (121), first sliding block (110) it is mutually staggered with the second sliding block (120) position, reciprocating mechanism, the reciprocating machine is set on the crossbeam (1) Structure and the first fixed plate (111) and the second fixed plate (121) are sequentially connected, and the first detector (2) and second is thus driven to detect Device (3) alternate reciprocating motion.

2. reciprocating ceramic tile flatness scanning means according to claim 1, which is characterized in that the reciprocating mechanism Including servo motor (4), driving wheel (5) and driven wheel (6), crossbeam (1) both ends be respectively set power installation recess (7) and Driven installation recess (8), the crossbeam (1) connect servo motor mounting plate (9) in power installation recess (7), and by watching It takes motor mounting plate (9) to connect with servo motor (4), and the motor shaft of servo motor (4) is upward, and passes through motor axis connection master Driving wheel (5)；

The crossbeam (1) connects driven wheel (6) in driven installation recess (8), and driving wheel (5) is parallel to same with driven wheel (6) Axis, and be sequentially connected by synchronous belt (10)；

The synchronous belt (10) is respectively arranged with screw thread in the position of corresponding first fixed plate (111) and the second fixed plate (121) Connector (100), it is fixed with the first fixed plate (111) and second respectively that the synchronous belt (10) is connected through a screw thread part (100) Plate (121) connection, thus drives the first detector (2) being connected to below the first fixed plate (111) and the second fixed plate (121) With the second detector (3) alternate reciprocating motion.

3. reciprocating ceramic tile flatness scanning means according to claim 2, which is characterized in that on the driven wheel (6) Side is also set up elastic adjusting block (60), and described elastic adjusting block (60) one end is fixedly connected with driven wheel (6), and the other end offers Kidney slot (600), and connect by setting bolt in kidney slot (600) with crossbeam (1).

4. reciprocating ceramic tile flatness scanning means according to any one of claims 1 to 3, which is characterized in that described to sweep Imaging apparatus laterally setting and/or diagonal angularly disposed in ceramic tile detection line.

5. reciprocating ceramic tile flatness scanning means according to claim 4, which is characterized in that crossbeam (1) both ends Lower section is additionally provided with under-chassis (13), and scanning means is mounted in ceramic tile detection line by the screw hole being arranged on under-chassis (13).