CN203497681U - Device for conducting spin control on Spanish tiles on production line - Google Patents

Abstract

A device for conducting spin control on Spanish tiles on a production line comprises a first machine frame, Spanish tile conveying strips and a spin control assembly, wherein a front cross bar of the first machine frame and a rear cross bar of the first machine frame are respectively paved with one Spanish tile conveying strip, and the spin control assembly is arranged below the Spanish tile conveying strips. The spin control assembly comprises sprocket drive mechanisms and lifting spin mechanisms, each lifting spin mechanism comprises a barrel, a rotary table and a gear disc, wherein a connecting rod is inserted into the barrel, and the two ends of the connecting rod are provided with the rotary table and the gear disc respectively. A rack is arranged at the position, corresponding to the gear discs, of the first machine frame, grooves which are longitudinally formed are formed in the side walls of the barrels, lifting of the connecting rods is controlled by protrusions which can slide on the grooves, and a guide rail which touches the protrusions to slide on the grooves is arranged at the position, corresponding to the protrusions, of the first machine frame. Spin U-turn is conducted on Spanish tiles, the Spanish tiles can be conveyed on the conveying strips in a staggered arrangement mode, the situation that the smooth outer side faces of the Spanish tiles are scratched is avoided in the conveying process, and therefore the defective rate is reduced.

Description

On a kind of manufacturing line, west watt is rotated the device of control

Technical field

The utility model relates to the composition member of a kind of west watt manufacturing line, refers in particular to the device that on a kind of manufacturing line, west watt is rotated control.

Background technology

Xi Wayoucheng Spain watt, belong to the sintering encaustic tile in tiling, it not only has the function of keeping out wind and rain of common tiling, and decorative effect allusion is simple and elegant, graceful bearing is unique, thereby is widely used as the finial use watt of the buildings such as villa, little Western style building, booth platform.

Along with developing rapidly of machinery industry, utilize mechanical equipment not only can save a large amount of human resources to carrying out west watt automated production, and improving production efficiency significantly.As shown in Figure 8, after coming out of the stove, west watt 5a and Xi Wa 5b are that west watt by being layed on frame cross bar 10 carries a bar 30 to transmit, but because the external form of western watt is all similar to English alphabet " S ", its two ends are one high and one low distribution, what end was higher is high end face 51, what end was lower is low end face 52, west after coming out of the stove watt is to carry on conveying bar with consistent arrangement mode, like this in adjacent two west watt, the lateral surface of low end face 52 Smooths of west watt 5a can be close to coarse medial surface on the high end face 51 of west watt 5b, in the process of west watt conveying, the lateral surface of above-mentioned low end face 52 Smooths can be by coarse medial surface scratch on above-mentioned high end face 51, thereby cause substandard products more, therefore the west after coming out of the stove watt should be carried with staggered pattern on conveying bar, but to west watt, do not select rotation to make it with staggered pattern, carry the device of carrying on bar on watt manufacturing line of existing west.

Utility model content

The utility model provides on a kind of manufacturing line the device that west watt is rotated to control, and its main purpose is to overcome on manufacturing line the process Chinese and Western watt smooth lateral surface of west watt conveying easily by the defect of scratch.

For solving the problems of the technologies described above, the utility model adopts following technical scheme:

On a kind of manufacturing line, west watt is rotated the device of control, comprise the first frame and be layed in respectively before this first frame, bar is carried in west on rear transverse rod watt, also comprise that being located at described west watt carries the rotation control assembly of bar below, this rotation control assembly comprises chain wheel driving mechanism and lifting rotation mechanism, in comprising, described lifting rotation mechanism is inserted with the cylindrical shell of connecting rod, be connected in described connecting rod top and for described west watt being carried to the rotating disk of west watt jack-up on bar rotation and being connected in described connecting rod bottom and for controlling the toothed disc of this turntable rotation, described the first frame is equiped with one section of tooth bar on the corresponding engage position with this toothed disc, one sidewall of described cylindrical shell is fixed on described chain wheel driving mechanism, on another sidewall, have one section of groove of longitudinally arranging, the lifting of described connecting rod is controlled by the projection that can slide on this groove, described the first frame with this projection correspondence position on be equiped with touch its guide rail sliding on groove.

Further, described chain wheel driving mechanism comprises drive sprocket, driven sprocket, is set around the ring chain on these two sprocket wheels and the motor that drives described drive sprocket work, described cylindrical shell is connected in the outer peripheral face of described ring chain, described ring chain comprises forward and backward two sections of working positions, and wherein leading portion working position is between the forward and backward cross bar of described the first frame.

Further, described guide rail is comprised of ascent stage, steady section and descent stage, described tooth bar be positioned at this steady section under and the length of its this steady section of length consistent.

Further, be all equiped with two described lifting rotation mechanisms on described forward and backward two sections of working positions, four above-mentioned lifting rotation mechanisms are along uniformly-spaced arranging in described ring chain winding direction, wherein between every two described rotating disks, are divided into mutually the width in a west watt.

Further, between described cylindrical shell and connecting rod, be folded with sleeve, described projection is connected in the lateral surface of this sleeve.

Further, the madial wall of described sleeve has annular groove one, and position corresponding with it on described connecting rod is provided with annular protrusion.

Further, the end face of described toothed disc is along being connected with protruding dish in the direction in its axle center, the sidewall of this protruding dish offers cannelure, in this cannelure, be arranged with friction rib, described lifting rotation mechanism is provided with fixed mount on the position corresponding with described protruding dish, described friction rib one end is connected in this fixed mount, and the other end is connected in this fixed mount by an extension spring.

Further, on above-mentioned a kind of manufacturing line, western watt of device that is rotated control also comprised the second frame that west watt throughput direction is contrary with described the first frame and be layed in respectively the west watt conveying bar on the forward and backward cross bar of this second frame, described back segment working position is between the forward and backward cross bar of described the second frame, and the correspondence position of this second frame is provided with described tooth bar and described guide rail.

Further, described chain wheel driving mechanism is provided with two groups, and these two groups of chain wheel driving mechanisms are upper and lower interval and arrange.

Further, described cylindrical shell is provided with guide wheel, this guide wheel be positioned at described groove directly over, described the first frame with this guide wheel correspondence position on be equiped with the guide rod for its slip.

Compared to the prior art, the beneficial effect that the utility model produces is:

1, in the utility model, when described lifting rotation mechanism carries out circulatory motion along with chain wheel driving mechanism, described projection just can be slided along described guide rail, and can rise and fall described rotating disk is carried out to lifting according to the track of this guide rail, and then carry the west watt on bar to mention selectively in west watt, now described toothed disc just in time meshes with described tooth bar and rotated by its effect, due to rotating disk, connecting rod and toothed disc are mutually permanently connected, therefore when toothed disc rotates, rotating disk also rotates together with the west on it watt, track fluctuating along with guide rail afterwards declines to described rotating disk, again west watt is positioned on load-transfer device, by above-mentioned, west watt is rotated to tune, west watt realization is carried on conveying bar with staggered pattern, adjacent west watt just with high-end in the face of high end face, low side is faced the mode of low end face and is arranged, avoid occurring that the process Chinese and Western watt smooth lateral surface of carrying is by the situation of scratch, thereby reduced fraction defect.

2, in the utility model, the speed of described ring chain transmission is consistent with the transfer rate of conveying bar, and the length of described steady section is consistent with the length of described tooth bar, can guarantee that like this rotary course of western watt is more steady, reduces the error stacking.

3, the utility model synchronous be upper and lower spaced apart chain wheel driving mechanism and drive described lifting rotation mechanism to do circulatory motion by arranging two groups, not only improve the stability that mass motion coordinates with guide rail, and can guarantee that the utility model carries out the rotation of 180 degree to west watt separately incessantly in watt course of conveying of west, equipment package is increasingly automated.

4, the utility model is by the friction of winding in described annular groove rib, the tightness degree of this friction rib and described annular groove can be controlled by described extension spring, when the direction of rotating when toothed disc is consistent with the direction of extension spring elongation, described extension spring applied elongation, and then friction rib and described annular groove wrap more loose, friction force is each other very little, and therefore described toothed disc is easy to just rotate; When the direction of toothed disc rotation and the opposite direction of extension spring elongation, described extension spring cannot extend, and then friction rib and described annular groove wrap tighter, friction force is each other very large, therefore described toothed disc just can not rotate, thereby can guarantee that described rotating disk can only unidirectional rotation and be the situation that is in toothed disc and tooth bar effect, improve so widely west watt and under high-speed motion, carried out the accuracy rate of 180 degree rotations, reduced the possibility that occurs part deflection because of high-speed motion.

5, in the utility model, because annular sprocket wheel comprises forward and backward two ends working position, therefore can on the basis that the first frame is set, again set up the second frame, the structure of two frames is unanimous on the whole, difference is that the transmission direction of western watt is contrary, by utilizing two frames to share a rotation control assembly, can be cost-saving, realize productivity effect and maximize.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment mono-in the utility model.

Fig. 2 is the structural representation of embodiment mono-in the utility model, and wherein said the first frame is omitted.

Fig. 3 is the birds-eye view of Fig. 2.

Fig. 4 is the structural representation of embodiment mono-in the utility model, and its Chinese and Western is watt by described rotating disk jack-up.

Fig. 5 is the enlarged diagram at A place in Fig. 4.

Fig. 6 is the schematic diagram that coordinates of rib and described annular groove of rubbing described in the utility model embodiment mono-.

Fig. 7 is the structural representation of embodiment bis-in the utility model.

Fig. 8 is the structural representation of existing west watt feedway.

The specific embodiment

The specific embodiment of the present utility model is described with reference to the accompanying drawings.

With reference to Fig. 1, Fig. 2 and Fig. 3.On a kind of manufacturing line, west watt is rotated the device of control, comprise the first frame 1, be layed in that bar 30 is carried in west on this first frame 1 front rail 10 watt, the west watt that is layed in this first frame 1 rear transverse rod (not shown) is carried bar 31 and is located at described west watt and carries bar 30 and Xi Wa to carry the rotation control assembly of bar 31 belows respectively, this rotation control assembly comprises and is fixed on the first frame 1 upper sprocket wheel transmission device 20 and lifting rotation mechanism 21, and this lifting rotation mechanism 21 is fixed on described chain wheel driving mechanism 2 and does circulatory motion with it.

With reference to Fig. 1, Fig. 2 and Fig. 3.Described chain wheel driving mechanism 20 is provided with two groups, these two groups of chain wheel driving mechanisms 20 are upper and lower interval and arrange, every group of motor 204 that chain wheel driving mechanism 20 includes drive sprocket 201, driven sprocket 202, is set around the ring chain 203 on above-mentioned drive sprocket 201 and driven sprocket 202 and drives described drive sprocket 201 work, for saving equipment, the present embodiment can adopt a motor 204 to drive 201 work of two groups of drive sprockets simultaneously, and can make it synchronously rotate.Described ring chain 203 comprises leading portion working position 205 and back segment working position 206, wherein leading portion working position 205 is between described the first frame 1 front rail 10 and rear transverse rod, in other words, above-mentioned leading portion working position 205 is to carry between bar 30 and west watt conveying bar 31 in west watt, western watt 5 is to be carried on bar 30 and west watt conveying bar 31 and transmit in west watt by frame, on the leading portion working position 205 of above-mentioned ring chain 203 and back segment working position 206, be all equiped with two described lifting rotation mechanisms 21, four above-mentioned lifting rotation mechanisms 21 are along uniformly-spaced arranging in described ring chain 203 winding directions.

With reference to Fig. 1, Fig. 2 and Fig. 3.In each lifting rotation mechanism 21 includes, be inserted with the cylindrical shell 210 of connecting rod 211, the toothed disc 213 that is connected in the rotating disk 212 on described connecting rod 211 tops and is connected in described connecting rod 211 bottoms and rotates for controlling this rotating disk 212, described the first frame 1 is equiped with one section of tooth bar 13 on the correspondence position with this toothed disc 213.Each lifting rotation mechanism 21 is all connected in the outer peripheral face of described ring chain 203 by the cylindrical shell 210 on it, wherein between every two rotating disks 212, standoff distance H is the width in a west watt.One sidewall of described cylindrical shell 210 is fixedly welded on ring chain 203, on its another sidewall, have one section of groove 214 of longitudinally arranging, the lifting of described connecting rod 211 is controlled by the projection that can slide on this groove 214 215, described the first frame 1 with these projection 215 correspondence positions on be equiped with touch its guide rail 14 sliding on groove 214, this guide rail 14 is comprised of ascent stage 141, steady section 142 and descent stage 143, above-mentioned tooth bar 13 be positioned at this steady section 142 under and the length of this steady section 142 of its length consistent.Between described cylindrical shell 210 and connecting rod 211, be folded with sleeve (not shown), described protruding 215 are connected in the lateral surface of this sleeve, the madial wall of described sleeve has annular groove one, on described connecting rod 211, the position corresponding with it is provided with annular protrusion, and this annular protrusion can be rotated in annular groove.On described cylindrical shell 210, be also provided with guide wheel 216, this guide wheel 216 be positioned at described groove 214 directly over, described the first frame 1 with these guide wheel 216 correspondence positions on be equiped with the guide rod 15 for its slip.

With reference to Fig. 4, Fig. 5 and Fig. 6.The end face of described toothed disc 213 is along being connected with protruding dish 217 in the direction in its axle center, the sidewall of this protruding dish 217 offers cannelure 218, in this cannelure 218, be arranged with friction rib 219, described lifting rotation mechanism 21 is provided with fixed mount 220 on the position corresponding with described protruding dish 217, the upper end of this fixed mount 220 is connected with described connecting rod 211 by a cross bar 221, described friction rib 219 one end are connected in this fixed mount 220, the other end is connected in this fixed mount 220 by an extension spring 222, by the rib 219 that rubs in the interior winding of described annular groove 218, this friction rib 219 can be controlled by described extension spring 222 with the tightness degree of described annular groove 218, when the direction of rotating when toothed disc 213 is consistent with the direction of extension spring 222 elongations, described extension spring 222 applied elongation, and then friction rib 219 wraps more loose with described annular groove 218, friction force is each other very little, therefore described toothed disc 213 is easy to just rotate, when the direction of toothed disc 213 rotations and the opposite direction of extension spring 222 elongations, described extension spring 222 cannot extend, and then friction rib 219 wraps tighter with described annular groove 218, friction force is each other very large, therefore described toothed disc 213 just can not rotate, thereby the rotating disk 212 that can guarantee upper end can only unidirectional rotation and is the situation that is in toothed disc 213 and tooth bar 13 effects, improve so widely western watt 5 and under high-speed motion, carried out the accuracy rate of 180 degree rotations, reduced the possibility that occurs part deflection because of high-speed motion.

With reference to Fig. 1-Fig. 6.Working process following steps of the present utility model: the speed setting of described ring chain 203 transmissions is consistent with the transfer rate of conveying bar 30 and conveying bar 31, when described lifting rotation mechanism 21 carries out circulatory motion along with chain wheel driving mechanism 20, described protruding 215 just can slide along the ascent stage 141 of described guide rail 14, and then touch described sleeve and upwards promote, described connecting rod 211 rises along with the rising of this sleeve, so just, by described rotating disk 212 jack-up, because west watts 5 is watt to carry bar 30 and west watt to carry on bar 31 by frame in west to transmit, therefore the jack-up of rotating disk 212 and then carry west on bar watts 5 to mention selectively in west watt, as shown in Figure 4, when described protruding 215 move to the steady section 142 of described guide rail 14 along with ring chain 203, now described toothed disc 213 just in time also can be rotated by its effect with one end engagement of described tooth bar 13, because rotating disk 212, connecting rod 211 and toothed disc 213 are mutually permanently connected, therefore when toothed disc 213 rotates, rotating disk 212 also rotates together with the west on it watts 5, by the correspondence of tooth bar 13 length and toothed disc 213 diameters is arranged, the rotational angle of western watt 5 can be made as to 180 degree, afterwards when described protruding 215 move to the descent stage 143 of described guide rail 14 along with ring chain 203, now toothed disc 213 just in time departs from described tooth bar 13, complete the rotation work to western watt 5, described protruding 215 descent stage 143 down slidings along guide rail 14, rotating disk 212 also declines thereupon, thereby again western watt 5 is positioned over and carries bar 30 and carry on bar 31.Because standoff distance H between every two rotating disks 212 is the width in a west watt, therefore the utility model can be realized 180 degree rotations are carried out to and the non-rotary operation of another piece in watt one, adjacent west, and adjacent west watts 5 is just arranged by the mode of low side by high-end, low side with high-end.By above-mentioned, rotation is selected in west watts 5, west watts 5 is realized with staggered pattern and is being carried bar 30 and carrying on bar 31 and carry, and avoids occurring that the smooth lateral surface in process Chinese and Western watts 5 of conveying is by the situation of scratch, thereby has reduced fraction defect.

Embodiment bis-

With reference to Fig. 3 and Fig. 7.The embodiment of the present embodiment is substantially identical with embodiment mono-, its difference is: on the basis that described the first frame is set, again set up the second frame, the structure of two frames is unanimous on the whole, on forward and backward cross bar in described the second frame, be equipped with respectively too west watt and carry bar 60, west watt to carry bar 61, but carry bar 30, west watt to carry the throughput direction of bar 31 contrary with west watt.Described back segment working position is carried between bar and west watt conveying bar in west watt, is provided with equally described tooth bar 63 and described guide rail on the correspondence position of this second frame.By utilizing two frames to share a rotation control assembly, can be cost-saving, realize productivity effect and maximize.

Above are only the specific embodiment of the present utility model, but design concept of the present utility model is not limited to this, allly utilizes this design to carry out the change of unsubstantiality to the utility model, all should belong to the behavior of invading the utility model protection domain.

Claims (10)

1. on a manufacturing line, west watt is rotated the device of control, comprise the first frame and be layed in respectively before this first frame, bar is carried in west on rear transverse rod watt, it is characterized in that: also comprise that being located at described west watt carries the rotation control assembly of bar below, this rotation control assembly comprises chain wheel driving mechanism and lifting rotation mechanism, in comprising, described lifting rotation mechanism is inserted with the cylindrical shell of connecting rod, be connected in described connecting rod top and for described west watt being carried to the rotating disk of west watt jack-up on bar rotation and being connected in described connecting rod bottom and for controlling the toothed disc of this turntable rotation, described the first frame is equiped with one section of tooth bar on the corresponding engage position with this toothed disc, one sidewall of described cylindrical shell is fixed on described chain wheel driving mechanism, on another sidewall, have one section of groove of longitudinally arranging, the lifting of described connecting rod is controlled by the projection that can slide on this groove, described the first frame with this projection correspondence position on be equiped with touch its guide rail sliding on groove.

2. west watt is rotated on a kind of manufacturing line as claimed in claim 1 the device of control, it is characterized in that: described chain wheel driving mechanism comprises drive sprocket, driven sprocket, is set around the ring chain on these two sprocket wheels and the motor that drives described drive sprocket work, described cylindrical shell is connected in the outer peripheral face of described ring chain, described ring chain comprises forward and backward two sections of working positions, and wherein leading portion working position is between the forward and backward cross bar of described the first frame.

3. west watt is rotated on a kind of manufacturing line as claimed in claim 2 the device of control, it is characterized in that: described guide rail is comprised of ascent stage, steady section and descent stage, described tooth bar be positioned at this steady section under and the length of its this steady section of length consistent.

4. as described in claim 2 or 3, on a kind of manufacturing line, west watt is rotated the device of control, it is characterized in that: on described forward and backward two sections of working positions, be all equiped with two described lifting rotation mechanisms, four above-mentioned lifting rotation mechanisms are along uniformly-spaced arranging in described ring chain winding direction, the width in the west watt of being wherein separated by between every two described rotating disks.

5. west watt is rotated on a kind of manufacturing line as claimed in claim 1 the device of control, it is characterized in that: between described cylindrical shell and connecting rod, be folded with sleeve, described projection is connected in the lateral surface of this sleeve.

6. west watt is rotated on a kind of manufacturing line as claimed in claim 5 the device of control, it is characterized in that: the madial wall of described sleeve has annular groove one, position corresponding with it on described connecting rod is provided with annular protrusion.

7. west watt is rotated on a kind of manufacturing line as claimed in claim 1 the device of control, it is characterized in that: the end face of described toothed disc is along being connected with protruding dish in the direction in its axle center, the sidewall of this protruding dish offers cannelure, in this cannelure, be arranged with friction rib, described lifting rotation mechanism is provided with fixed mount on the position corresponding with described protruding dish, described friction rib one end is connected in this fixed mount, and the other end is connected in this fixed mount by an extension spring.

8. as described in claim 2 or 3, on a kind of manufacturing line, west watt is rotated the device of control, it is characterized in that: also comprise the second frame that west watt throughput direction is contrary with described the first frame and be layed in respectively the west watt conveying bar on the forward and backward cross bar of this second frame, described back segment working position is between the forward and backward cross bar of described the second frame, and the correspondence position of this second frame is provided with described tooth bar and described guide rail.

9. west watt is rotated on a kind of manufacturing line as claimed in claim 1 the device of control, it is characterized in that: described chain wheel driving mechanism is provided with two groups, these two groups of chain wheel driving mechanisms are upper and lower interval and arrange.

10. west watt is rotated on a kind of manufacturing line as claimed in claim 1 the device of control, it is characterized in that: described cylindrical shell is provided with guide wheel, this guide wheel be positioned at described groove directly over, described the first frame with this guide wheel correspondence position on be equiped with the guide rod for its slip.

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