CN203173445U - Wall tile line feeding system - Google Patents

Abstract

The utility model discloses a wall tile line feeding system which comprises a machine frame, and the machine frame is arranged on the end portion of a tile feeding conveying line and is in transition connection with an operation production line. The machine frame is provided with a fixed tile receiving frame which corresponds to the width of the tile feeding conveying line and a variable-speed conveying belt which has parallel union set with the fixed tile receiving frame and the conveying belt on the operation production line respectively. The bottom of the variable-speed conveying belt is supported and positioned by a swinging rod mechanism which is in driving connection with an eccentric gear motor, and the variable-speed conveying belt is in driving connection with a variable-frequency motor. The eccentric gear motor and the variable-frequency motor are respectively in electric connection with a position sensor on the end portion of the tile feeding conveying line. According to the width ratio of the width of the tile feeding conveying line and the width of a wall tile, a plurality of wall tiles can be conveyed to the line in a one-time mode and can be continuously conveyed to the production line. The wall tile line feeding system can work continuously for 24 hours, and the work effect is improved.

Description

Wire system on the walltile

Technical field

The utility model belongs to ceramic tile manufacturing machine technical field, is specifically related to wire system on a kind of walltile.

Background technology

China is a Production of Ceramics big country, and Production of Ceramics history has development culture in several thousand.Present furring tile generally will experience production and reach the standard grade a series of such as working procedures such as glaze spraying, aerographs; because building ceramics factory production was not shut down in 24 hours; so the walltile of producing needs to arrange on line continuously, so that follow-up continuous pipelining.

Present wire system imperfection also on the domestic walltile, can only control in 1～3 for the quantity of once reaching the standard grade, and can not accelerate, because easily cause the operation of reaching the standard grade not catch up with after accelerating, make by the walltile of the producing continuous feeding of wire system that makes progress, pile up with original walltile on last wire system, finally cause the collapse of wire system, and it is pile up collision mutually between the walltile, can make the walltile of producing wound, even damaged and waste.

Based on this, be necessary to redesign that wire system solves the problems referred to above on a walltile.

Summary of the invention

At above-mentioned weak point of the prior art, the utility model aims to provide wire system on a kind of walltile, can realize the operation of reaching the standard grade continuously, the efficient height, and can not pile up phenomenon.

To achieve these goals, the technical solution of the utility model: wire system on a kind of walltile, comprise and be located at frame brick travel line end and that be connected with the operating line transition, described frame is provided with corresponding with the last brick travel line wide cut brick frame that fixedly connects, fixedly connect the speed change load-transfer device that conveying on brick frame and the operating line has parallel union with this respectively, wherein, described speed change load-transfer device bottom adopts swing-bar mechanism to support the location, and this swing-bar mechanism connects by an eccentric wheel motor-driven; Described speed change load-transfer device drives by a variable-frequency motor and connects, and described eccentric wheel motor, variable-frequency motor electrically connect with the position transduser that is arranged on brick travel line end respectively.

Further, the described brick travel line of going up is by a control motor control linkage at intermittence.

When described swing-bar mechanism was at the highest notch, the upper end level height of described speed change load-transfer device was higher than the described upper end level height that fixedly connects brick frame and load-transfer device; When described swing-bar mechanism was in low spot, the upper end level height of described speed change load-transfer device was lower than the described upper end level height that fixedly connects brick frame and load-transfer device.

As preferably, described speed change load-transfer device is chain; Described swing-bar mechanism is positioned on the rotor wheel of described speed change load-transfer device; Again or as, described swing-bar mechanism is positioned on the stay bearing plate bottom of chain lower end, top of described speed change load-transfer device, is provided with auxiliary sprocket wheel for the location chain at this stay bearing plate.

The length of described speed change load-transfer device is greater than the wide cut of brick travel line on the twice

The beneficial effects of the utility model: by the interval feeding of the walltile on the last brick travel line, carry out sensing by position transduser and form signal, the height of controlling the speed change load-transfer device more respectively supports location and delivery speed, control the speed change load-transfer device by the quick conveying that fixedly connects brick frame regional location with variable-frequency motor, normal speed transition to load-transfer device, the problem of having avoided piling up of walltile and having produced is with the purpose of the synchronous continuous working that realizes walltile.

This system can carry out the disposable of polylith walltile and reach the standard grade according to the wide cut of last brick travel line and the width ratio of walltile, and can continuously carry walltile on conveyor line, can carry out work incessantly in 24 hours, has improved the work effect.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is birds-eye view of the present utility model;

Fig. 2 is the swing-bar mechanism scheme drawing of speed change load-transfer device among Fig. 1;

Fig. 3 is the utility model control block diagram.

The specific embodiment

Further describe the utility model below in conjunction with specific embodiment and accompanying drawing.

Wire system comprises and is located at frame 11 brick travel line 10 ends and that be connected with the operating line transition on a kind of walltile as shown in Figure 1 to Figure 3, described frame 11 is provided with corresponding with the last brick travel line 10 wide cuts brick frame 13 that fixedly connects, fixedly connect the speed change load-transfer device 14 that load-transfer device 15 on brick frame 13 and the operating line has parallel union with this respectively, wherein, described speed change load-transfer device 14 bottoms adopt swing-bar mechanism 17 to support the location, and this swing-bar mechanism 17 drives by an eccentric wheel motor 18 and connects; Described speed change load-transfer device 14 drives by a variable-frequency motor 20 and connects, and described eccentric wheel motor 18, variable-frequency motor 20 electrically connect with the position transduser 12 that is arranged on brick travel line 10 ends respectively.

Carrying at a slow speed soon of focusing on that speed change load-transfer device 14 carries out under the drive of variable-frequency motor 20 of the present utility model, make and also shifted by the brick that connects fast that fixedly connects brick frame 13 zones, in order to carry out next time the brick that send by last brick travel line 10, transport to load-transfer device 15 with normal speed again by fixedly connecing the walltile that brick frame 13 transports out fast, synchronous with the speed of conveyor line, so that the load-transfer device of conveyor line 15 shifts this batch walltile.Except variable-frequency motor 20 soon at a slow speed the traction, again in conjunction with the lift adjustment of the upper surface of 18 pairs of speed change load-transfer devices 14 of eccentric wheel motor, so that walltile is transferred on the speed change load-transfer device 14 from fixedly connecing brick frame 13, and be transferred on the load-transfer device 15 of conveyor line by speed change load-transfer device 14.

By the work that repeats continuously of this step, can realize the work of reaching the standard grade continuously of walltile, improved work efficiency, the phenomenon that a plurality of walltiles pile up can not take place, and an operational throughput only depends on the wide cut of brick travel line 10, and one time operational throughput is big, can carry out work in continuous 24 hours.

Control for last brick travel line 10, mainly be by control motor control linkage at 19 intermittence, namely be by calculating concrete pitch time, make that going up brick travel line 10 fails brick to fixedly connecing brick frame 13 at interval, shift the walltile surge time that fixedly connects on the brick frame 13 to leave speed change load-transfer device 14 for.

For swing-bar mechanism 17, as shown in Figure 2, drive by eccentric wheel motor 18, because the amplitude of speed change load-transfer device 14 liftings is little, so be provided with a plurality of spacingly at swing-bar mechanism 17, make the swing by a small margin that is transformed small swinging rod mechanism 17 by the torque of output on the eccentric wheel motor 18.Swing-bar mechanism 17 required satisfied conditions are: when described swing-bar mechanism 17 is at the highest notch, the upper end level height of described speed change load-transfer device 14 is higher than the described upper end level height that fixedly connects brick frame 13 and load-transfer device 15, to realize the conveying displacement of 14 pairs of walltiles of speed change load-transfer device; When described swing-bar mechanism 17 is in low spot, the upper end level height of described speed change load-transfer device 14 is lower than the described upper end level height that fixedly connects brick frame 13 and load-transfer device 15, to realize that walltile is fixedly connecing between brick frame 13 and the speed change load-transfer device 14 transfer between speed change load-transfer device 14 and the load-transfer device 15.

Preferably, described speed change load-transfer device 14 is chain.Described swing-bar mechanism 17 can directly be positioned to come the level height of lifting speed change load-transfer device 14 by the rotor wheel of lifting speed change load-transfer device 14 on the rotor wheel of described speed change load-transfer device 14.All right, on the stay bearing plate bottom of the chain lower end, top by described swing-bar mechanism 17 being positioned described speed change load-transfer device 14, be provided with for the auxiliary sprocket wheel of locating chain at this stay bearing plate, this kind mode can guarantee the normal conveying of walltile so that chain does not have position that rotor wheel supports can not produced because of the weight of walltile and subside in the centre.

In order to guarantee that all walltiles that 14 pairs of speed change load-transfer devices fixedly connect on the brick frame 13 shift, and speed change load-transfer device 14 is transferred to all walltiles on it on load-transfer device 15, with the length of described speed change load-transfer device 14 wide cut greater than brick travel line 10 on the twice.

In the native system, need the synchronous coordination running between variable-frequency motor 20, eccentric wheel motor 18, the control motor 19, specifically coordinate as follows:

At first, 19 controls of control motor are gone up brick travel line 10 to fixedly connecing brick on the brick frame 13, eccentric wheel motor 18 control speed change load-transfer devices 14 are lower than the described highest level face that fixedly connects brick frame 13 and load-transfer device 15, after treating that walltile extremely fixedly connects brick frame 13,19 controls of control motor are gone up brick travel line 10 and are decommissioned, be higher than the described highest level height that fixedly connects brick frame 13 and load-transfer device 15 by eccentric wheel motor 18 control speed change load-transfer devices 14, variable-frequency motor 20 control speed change load-transfer devices 14 high speed rotating, the walltile that fixedly connects brick frame 13 zones is shifted, after treating that walltile shifts out the zone that fixedly connects brick frame 13, frequency conversion reduces, make the speed of speed change load-transfer device 14 consistent with the speed of load-transfer device 15, walltile is transported to the top, zone of load-transfer device 15 when speed change load-transfer device 14, be lower than the described highest level face that fixedly connects brick frame 13 and load-transfer device 15 by eccentric wheel motor 18 control speed change load-transfer devices 14, walltile on the speed change load-transfer device 14 is transferred on the load-transfer device 15, carry out the normal conveying of conveyor line, namely finish reaching the standard grade continuously of walltile with this continuous working.

More than technical scheme that the utility model embodiment is provided be described in detail, used specific case herein principle and the embodiment of the utility model embodiment are set forth, the explanation of above embodiment only is applicable to the principle that helps to understand the utility model embodiment; Simultaneously, for one of ordinary skill in the art, according to the utility model embodiment, the part that on the specific embodiment and field of application, all can change, in sum, this description should not be construed as restriction of the present utility model.

Claims (7)

1. wire system on the walltile, it is characterized in that: comprise and be located at frame (11) brick travel line (10) end and that be connected with the operating line transition, described frame (11) is provided with corresponding with last brick travel line (10) the wide cut brick frame (13) that fixedly connects, fixedly connect the speed change load-transfer device (14) that load-transfer device (15) on brick frame (13) and the operating line has parallel union with this respectively, wherein, described speed change load-transfer device (14) bottom adopts swing-bar mechanism (17) to support the location, and this swing-bar mechanism (17) drives by an eccentric wheel motor (18) and connects; Described speed change load-transfer device (14) drives by a variable-frequency motor (20) and connects, and described eccentric wheel motor (18), variable-frequency motor (20) electrically connect with the position transduser (12) that is arranged on brick travel line (10) end respectively.

2. wire system on the walltile according to claim 1 is characterized in that: the described brick travel line (10) of going up is by a control motor (19) control linkage intermittently.

3. wire system on the walltile according to claim 1, it is characterized in that: described swing-bar mechanism (17) is when being at the highest notch, and the upper end level height of described speed change load-transfer device (14) is higher than the described upper end level height that fixedly connects brick frame (13) and load-transfer device (15); Described swing-bar mechanism (17) is when being in low spot, and the upper end level height of described speed change load-transfer device (14) is lower than the described upper end level height that fixedly connects brick frame (13) and load-transfer device (15).

4. wire system on the walltile according to claim 1, it is characterized in that: described speed change load-transfer device (14) is chain.

5. wire system on the walltile according to claim 4, it is characterized in that: described swing-bar mechanism (17) is positioned on the rotor wheel of described speed change load-transfer device (14).

6. wire system on the walltile according to claim 4, it is characterized in that: described swing-bar mechanism (17) is positioned on the stay bearing plate bottom of chain lower end, top of described speed change load-transfer device (14), is provided with auxiliary sprocket wheel for the location chain at this stay bearing plate.

7. wire system on the walltile according to claim 1, it is characterized in that: the length of described speed change load-transfer device (14) is greater than the wide cut of brick travel line (10) on the twice.

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