CN213386389U - Large-scale conveying buffer tower - Google Patents

Large-scale conveying buffer tower Download PDF

Info

Publication number
CN213386389U
CN213386389U CN202021864910.1U CN202021864910U CN213386389U CN 213386389 U CN213386389 U CN 213386389U CN 202021864910 U CN202021864910 U CN 202021864910U CN 213386389 U CN213386389 U CN 213386389U
Authority
CN
China
Prior art keywords
conveying
assembly
tower
driving
motor
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202021864910.1U
Other languages
Chinese (zh)
Inventor
郑小兰
梁华林
黄先明
周晓冬
李作堂
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Guangzhou Kechuang Industrial Intelligent Equipment Co ltd
Original Assignee
Guangzhou Kechuang Industrial Intelligent Equipment Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Guangzhou Kechuang Industrial Intelligent Equipment Co ltd filed Critical Guangzhou Kechuang Industrial Intelligent Equipment Co ltd
Priority to CN202021864910.1U priority Critical patent/CN213386389U/en
Application granted granted Critical
Publication of CN213386389U publication Critical patent/CN213386389U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model relates to a large-scale buffer memory tower of carrying, its technical scheme main points are: the method comprises the following steps: the automatic material buffer device comprises a feeding channel for feeding, a first conveying tower for buffering and conveying materials, a transition conveying assembly, a second conveying tower for buffering and conveying materials and a discharging channel for butting with an automatic conveying line; the feeding channel is connected with the input end of a first conveying tower, the output end of the first conveying tower is connected with the input end of a transition conveying assembly, the output end of the transition conveying assembly is connected with the input end of a second conveying tower, and the output end of the second conveying tower is connected with the discharging channel; this application has the effect of carrying fast again to automation equipment after concentrating the material of artifical material loading.

Description

Large-scale conveying buffer tower
Technical Field
The utility model relates to a buffer memory tower technical field, more specifically say, it relates to a large-scale buffer memory tower of carrying.
Background
At present, with the rapid development of economic level, automation equipment is used in a plurality of industries to form a set of automatic production line. In the shoe manufacturing industry, although many processes are automated, many processes are still not automated.
In the process of processing materials by using automatic equipment, manual feeding is usually needed, the materials are put into a production line, and the speed of the whole production flow is slowed down due to the slow speed of the manual feeding, so that the problems of long starting time and large energy consumption of the automatic equipment exist. Therefore, it is necessary to research a large-sized conveying buffer tower which collects materials loaded manually and then quickly conveys the materials to automation equipment.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art exists, the utility model aims to provide a large-scale buffer memory tower of carrying has the function of carrying fast again to automation equipment after concentrating the material of artifical material loading.
The above technical purpose of the present invention can be achieved by the following technical solutions:
a large transport buffer tower comprising: the automatic material buffer device comprises a feeding channel for feeding, a first conveying tower for buffering and conveying materials, a transition conveying assembly, a second conveying tower for buffering and conveying materials and a discharging channel for butting with an automatic conveying line; the feeding channel is connected with the input end of a first conveying tower, the output end of the first conveying tower is connected with the input end of a transition conveying assembly, the output end of the transition conveying assembly is connected with the input end of a second conveying tower, and the output end of the second conveying tower is connected with the discharging channel.
Optionally, the first transfer tower comprises: the device comprises a plurality of first conveying mechanisms, a first driving device for driving the plurality of first conveying mechanisms to transmit, a first support and a second support; the first conveying mechanisms are sequentially connected to form a first spiral track; the input end of the first spiral track is connected with the feeding channel; the output end of the first spiral track is connected with the input end of the transition conveying assembly; the first conveying mechanisms are fixedly connected with the first support; the first conveying mechanisms are fixedly connected with the second support; the first driving device is fixedly connected with the first support and the second support.
Optionally, the first conveying mechanism includes: a first conveying assembly and a second conveying assembly; the first conveying assembly comprises a first conveying part, a first turning conveying part and a second conveying part, wherein the first conveying part, the first turning conveying part and the second conveying part are used for being connected with an output end of a feeding channel or an adjacent first conveying mechanism; the second conveyor assembly comprises: the third conveying part, the second turning conveying part and the fourth conveying part are used for being connected with the input end of the transition conveying assembly or the adjacent first conveying mechanism; the first conveying part, the first turning conveying part, the second conveying part, the third conveying part, the second turning conveying part and the fourth conveying part are sequentially connected; the first conveying part and the fourth conveying part are fixedly connected with the first support; the second conveying part and the third conveying part are fixedly connected with the second support; the first driving device includes: the first driving mechanism is used for driving the first conveying assembly to transmit and the second driving mechanism is used for driving the second conveying assembly to transmit; the first driving mechanism is in transmission connection with the second conveying part; and the second driving mechanism is in transmission connection with the fourth conveying part.
Optionally, the second transfer tower comprises: the second conveying mechanisms, a second driving device for driving the second conveying mechanisms to transmit, a third support and a fourth support are arranged; the plurality of second conveying mechanisms are sequentially connected to form a second spiral track; the input end of the second spiral track is connected with the output end of the transition conveying assembly; the output end of the second spiral track is connected with the discharging channel; the second conveying mechanisms are fixedly connected with a third support; the second conveying mechanisms are fixedly connected with a fourth support; and the second driving devices are fixedly connected with the third support and the fourth support.
Optionally, the second conveying mechanism includes: a third conveying assembly and a fourth conveying assembly; the third conveying assembly comprises a fifth conveying part, a third turning conveying part and a sixth conveying part which are used for being connected with the output end of the transition conveying assembly or the adjacent second conveying mechanism; the fourth conveyor assembly comprises: the seventh conveying part, the fourth turning conveying part and the eighth conveying part are used for being connected with the discharging channel or the input end of the adjacent second conveying mechanism; the fifth conveying part, the third turning conveying part, the sixth conveying part, the seventh conveying part, the fourth turning conveying part and the eighth conveying part are sequentially connected; the sixth conveying part and the seventh conveying part are fixedly connected with the third support; the fifth conveying part and the eighth conveying part are both fixedly connected with the fourth support; the second driving device includes: a third driving mechanism for driving the third conveying assembly to transmit and a fourth driving mechanism for driving the fourth conveying assembly to transmit; a fifth driving mechanism for driving the transition conveying assembly to transmit is arranged on the fourth support; the third driving mechanism is in transmission connection with the sixth conveying part; and the fourth driving mechanism is in transmission connection with the eighth conveying part.
Optionally, the conveying device further comprises a fifth support for supporting the first turning conveying part and the fourth turning conveying part, and a sixth support for supporting the second turning conveying part and the third turning conveying part; the first turning conveying part and the fourth turning conveying part are both connected with a fifth bracket; and the second turning conveying part and the third turning conveying part are both connected with a sixth support.
Optionally, a first photoelectric detection device and a second photoelectric detection device for detecting the product transportation condition are respectively arranged on the first spiral track corresponding to two ends of each first conveying assembly; a third photoelectric detection device and a fourth detection device for detecting the product transportation condition are respectively arranged on the first spiral track corresponding to the two ends of each second conveying assembly; a fifth photoelectric detection device and a sixth photoelectric detection device for detecting the product transportation condition are respectively arranged at two ends of the transition conveying assembly; a seventh photoelectric detection device and an eighth photoelectric detection device for detecting the product transportation condition are respectively arranged on the second spiral track corresponding to the two ends of each third conveying assembly; and a ninth photoelectric detection device and a tenth detection device for detecting the product transportation condition are respectively arranged at two ends of the second spiral track corresponding to the fourth conveying assemblies.
Optionally, the first driving mechanism comprises: the first motor and the first variable-frequency speed regulator; the first motor and the first variable-frequency speed regulator are both arranged on the second bracket; the first variable-frequency speed regulator is connected with a first motor; the first motor is in transmission connection with the first conveying assembly; the second drive mechanism includes: a second motor and a second variable-frequency speed regulator; the second motor and the second variable-frequency speed regulator are both arranged on the first bracket; the second variable-frequency speed regulator is connected with a second motor; the second motor is in transmission connection with the second conveying assembly; the third drive mechanism includes: a third motor and a third variable-frequency speed regulator; the third motor and the third variable-frequency speed regulator are both arranged on the third bracket; the third variable-frequency speed regulator is connected with a third motor; the third motor is in transmission connection with the third conveying assembly; the fourth drive mechanism includes: a fourth motor and a fourth variable-frequency speed regulator; the fourth motor and the fourth variable-frequency speed regulator are both arranged on the fourth bracket; the fourth variable-frequency speed regulator is connected with a fourth motor; the fourth motor is in transmission connection with the fourth conveying assembly; the fifth drive mechanism includes: a fifth motor and a fifth variable-frequency speed regulator; the fifth motor and the fifth variable-frequency speed regulator are both arranged on the fourth bracket; the fifth variable frequency speed regulator is connected with a fifth motor; and the fifth motor is in transmission connection with the transition conveying assembly.
Optionally, a feeding bracket adapted to the manual feeding height is arranged on the feeding channel; and the discharging channel is provided with a discharging support matched with the automatic conveying line in height.
To sum up, the utility model discloses following beneficial effect has:
1. the first conveying tower is connected with the second conveying tower, so that the maximum value of materials contained in the cache tower is increased, the cache tower can transport more materials to the automatic equipment at one time, and the starting consumption of the automatic equipment is reduced;
2. the conveying speed of the materials is conveniently adjusted according to the detected material conveying condition, so that the materials are uniformly conveyed on the cache tower;
3. the transfer rate of buffer tower is adjustable, is convenient for the buffer tower to match with the transfer rate of automatic transfer chain for the speed that the material got into automation equipment from the buffer tower is quick even.
Drawings
FIG. 1 is an overall structure of the present invention;
fig. 2 is a top view of the present invention;
fig. 3 is a front view of the present invention.
In the figure: 1. a first transfer tower; 11. a first conveying section; 12. a first turn conveying section; 13. A second conveying section; 14. a third conveying section; 15. a second turning conveying section; 16. a fourth conveying section; 17. a first bracket; 171. a first drive mechanism; 18. a second bracket; 181. a second drive mechanism; 2. a second transfer tower; 21. a fifth conveying section; 22. a third turning conveying section; 23. a sixth conveying section; 24. a seventh conveying section; 25. a fourth turning conveying part; 26. an eighth transport section; 27. a third support; 271. a third drive mechanism; 28. a fourth bracket; 281. A fourth drive mechanism; 3. a feed channel; 4. a discharge channel; 5. a transition conveying assembly; 6. a fifth drive mechanism; 7. a fifth support; 8. and a sixth bracket.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings and examples.
The utility model provides a large-scale transportation buffer tower, as shown in figure 1, comprising a feeding channel 3 for feeding, a first transportation tower 1 for buffering and transporting materials, a transition transportation component 5, a second transportation tower 2 for buffering and transporting materials, and a discharging channel 4 for butting with an automatic transportation line; the feeding channel 3 is connected with the input end of the first conveying tower 1, the output end of the first conveying tower 1 is connected with the input end of the transition conveying assembly 5, the output end of the transition conveying assembly 5 is connected with the input end of the second conveying tower 2, the output end of the second conveying tower 2 is connected with the discharging channel 4, materials firstly enter the first conveying tower 1 from the feeding channel 3, then enter the transition conveying assembly 5 from the first conveying tower 1, then enter the second conveying tower 2 from the transition conveying assembly 5, then enter the discharging channel 4 from the second conveying tower 2, and finally the discharging channel 4 conveys the materials to an automatic conveying line; through first transport tower 1 and 2 connections of second transport tower, increased the maximum value that the buffer memory tower can hold the material for the buffer memory tower can realize once only transporting more materials to automation equipment, reduces automation equipment's start consumption.
Further, as shown in fig. 2 and 3, the first transfer tower 1 includes: a plurality of first conveying mechanisms, a first driving device for driving the plurality of first conveying mechanisms to transmit, a first bracket 17 and a second bracket 18; the first conveying mechanisms are sequentially connected to form a first spiral track; the input end of the first spiral track is connected with the feeding channel 3; the output end of the first spiral track is connected with the input end of the transition conveying assembly 5.
The number of the first conveying mechanisms is four, and the number of the first conveying mechanisms can be adjusted to be two, three, five or six according to specific conditions in practical application; the input end of the first conveying mechanism is connected with the feeding channel 3, the output end of the first conveying mechanism is connected with the input end of the second first conveying mechanism, the output end of the second first conveying mechanism is connected with the input end of the third first conveying mechanism, the output end of the third first conveying mechanism is connected with the input end of the fourth first conveying mechanism, and the output end of the fourth first conveying mechanism is connected with the input end of the transition conveying assembly 5; in the application, the conveying direction of the first spiral track is in a spiral ascending type; through the arrangement of the first spiral track, the first conveying tower 1 can save the occupied area and increase the material caching amount of the first conveying tower 1.
The plurality of first conveying mechanisms are fixedly connected with the first support 17; the plurality of first conveying mechanisms are fixedly connected with the second support 18; the first driving device is fixedly connected with the first bracket 17 and the second bracket 18.
Further, the first conveying mechanism includes: a first conveying assembly and a second conveying assembly; the first conveying assembly comprises a first conveying part 11, a first turning conveying part 12 and a second conveying part 13; the second conveying assembly comprises: a third conveying section 14, a second turn conveying section 15, and a fourth conveying section 16; the first conveying part 11, the first turning conveying part 12, the second conveying part 13, the third conveying part 14, the second turning conveying part 15 and the fourth conveying part 16 are connected in sequence; the first turn conveying section 12 and the second turn conveying section 15 are both 180 ° turn conveying sections.
In the present application, an input end of the first conveying portion 11 of the first conveying mechanism is connected to the feeding channel 3, an output end of the fourth conveying portion 16 of the first conveying mechanism is connected to an input end of the first conveying portion 11 of the second first conveying mechanism, an output end of the fourth conveying portion 16 of the second first conveying mechanism is connected to an input end of the first conveying portion 11 of the third first conveying mechanism, an output end of the fourth conveying portion 16 of the third first conveying mechanism is connected to an input end of the first conveying portion 11 of the fourth first conveying mechanism, and an output end of the fourth conveying portion 16 of the fourth first conveying mechanism is connected to an input end of the transition conveying assembly 5.
The first conveying part 11 and the fourth conveying part 16 are fixedly connected with a first bracket 17; the second conveying part 13 and the third conveying part 14 are both connected with a second bracket 18; the first and second supports 17 and 18 provide a supporting function for the first transfer tower 1, and the first and second supports 17 and 18 make the connection between the first and second transfer assemblies more stable.
The first driving device includes: a first driving mechanism 171 for driving the first conveying assembly to transmit and a second driving mechanism 181 for driving the second conveying assembly to transmit; the first drive mechanism 171 is provided at the second bracket 18; the second driving mechanism 181 is provided on the first carriage 17.
The first driving mechanism 171 is in transmission connection with the second conveying part 13; the first conveying part 11, the first turning conveying part 12 and the second conveying part 13 are driven by a first chain; the first chains are arranged on the first conveying part 11, the first turn conveying part 12 and the second conveying part 13; the second driving mechanism 181 is in transmission connection with the fourth conveying part 16; the third conveying part 14, the second turning conveying part 15 and the fourth conveying part 16 are driven by a second chain; the second chains are provided on the third conveying section 14, the second turn conveying section 15, and the fourth conveying section 16.
The first conveying assembly is driven to transmit through the first driving mechanism 171 so as to drive materials on the first conveying assembly to move, the second driving mechanism 181 drives the second conveying assembly to transmit so as to drive materials on the second conveying assembly to move, and the plurality of first conveying mechanisms are sequentially connected to form a first spiral track, so that the materials are conveyed in multiple sections; under the condition of transporting materials, the materials firstly enter the first conveying part 11 of the first conveying component from the feeding channel 3, then enter the first turning conveying part 12 of the first conveying component, then enter the second conveying part 13 of the first conveying component, then enter the third conveying part 14 of the first second conveying component, then enter the second turning conveying part 15 of the second conveying component, then enter the fourth conveying part 16 of the second conveying component, then enter the first conveying part 11 of the second first conveying component, and circulate in this way until the materials enter the transition conveying component 5, so that the capacity of buffering the materials by the first conveying tower 1 is greatly increased.
Further, as shown in fig. 2 and 3, the second transfer tower 2 includes: a plurality of second conveying mechanisms, a second driving device for driving the plurality of second conveying mechanisms to transmit, a third bracket 27 and a fourth bracket 28; the plurality of second conveying mechanisms are sequentially connected to form a second spiral track; the conveying direction of the second spiral track is in a spiral descending type in the application; through the setting of second spiral track for second conveying tower 2 can practice thrift area and increase second conveying tower 2's buffer memory material volume simultaneously.
The number of the second conveying mechanisms is four, and the number of the second conveying mechanisms can be adjusted to be two, three, five or six according to specific conditions in practical application; the input end of the first second conveying mechanism is connected with the output end of the over-conveying assembly 5, the output end of the first second conveying mechanism is connected with the input end of the second conveying mechanism, the output end of the second conveying mechanism is connected with the input end of the third second conveying mechanism, the output end of the third second conveying mechanism is connected with the input end of the fourth second conveying mechanism, and the output end of the fourth second conveying mechanism is connected with the discharging channel 4; in the application, the conveying direction of the first spiral track is in a spiral ascending type; through the setting of second spiral track for second conveying tower 2 can practice thrift area and increase second conveying tower 2's buffer memory material volume simultaneously.
The structure of first conveying tower 1 is the same with second conveying tower 2, and first spiral orbit's direction of delivery is spiral ascending, and second spiral orbit's direction of delivery is spiral descending for feedstock channel 3 and discharging channel 4 are located first spiral channel's below, and the material loading of feedstock channel 3 and discharging channel 4 and the butt joint of automatic transfer chain of being convenient for.
The plurality of second conveying mechanisms are fixedly connected with the third bracket 27; the plurality of second conveying mechanisms are fixedly connected with the fourth bracket 28; the second conveying mechanism is supported by the third support 27 and the fourth support 28, so that the stability of the second conveying tower 2 is better.
Further, as shown in fig. 1 and 2, the second conveying mechanism includes: a third conveying assembly and a fourth conveying assembly; the third conveying component comprises a fifth conveying part 21, a third turning conveying part 22 and a sixth conveying part 23; the fourth conveyor assembly includes: a seventh conveying section 24, a fourth turning conveying section 25, and an eighth conveying section 26; the fifth conveying unit 21, the third turn conveying unit 22, the sixth conveying unit 23, the seventh conveying unit 24, the fourth turn conveying unit 25, and the eighth conveying unit 26 are connected in sequence; the third turning conveyor 22 and the fourth turning conveyor 25 are both 180 ° turning conveyors.
In this application, the input end of the fifth conveying part 21 of the first second conveying mechanism is connected to the output end of the transition conveying assembly 5, the output end of the eighth conveying part 26 of the first second conveying mechanism is connected to the input end of the fifth conveying part 21 of the second conveying mechanism, the output end of the eighth conveying part 26 of the second conveying mechanism is connected to the input end of the fifth conveying part 21 of the third second conveying mechanism, the output end of the eighth conveying part 26 of the third second conveying mechanism is connected to the input end of the fifth conveying part 21 of the fourth second conveying mechanism, and the output end of the eighth conveying part 26 of the fourth second conveying mechanism is connected to the input end of the discharge channel 4.
The fifth conveying part 21 and the eighth conveying part 26 are both fixedly connected with a fourth bracket 28; the sixth conveying part 23 and the seventh conveying part 24 are both connected with a third bracket 27; the third and fourth supports 27, 28 provide a supporting function for the second transfer tower 2, and the third and fourth supports 27, 28 make the connection between the third and fourth transfer assemblies more stable.
The second driving device includes: a third driving mechanism 271 for driving the third conveying assembly and a fourth driving mechanism 281 for driving the fourth conveying assembly; the third driving mechanism 271 is provided on the third carriage 27; the fourth drive mechanism 281 is provided on the fourth carriage 28; a fifth driving mechanism 6 for driving the transition conveying assembly 5 to transmit is arranged on the fourth bracket 28; the fifth driving mechanism 6 is in transmission connection with the transition conveying assembly 5.
The third driving mechanism 271 is in transmission connection with the sixth conveying part 23; the fifth conveying part 21, the third turning conveying part 22 and the sixth conveying part 23 are driven by a third chain; the third chains are provided on the fifth conveying section 21, the third turn conveying section 22, and the sixth conveying section 23; the fourth driving mechanism 281 is in transmission connection with the eighth conveying part 26; the seventh conveying section 24, the fourth turning conveying section 25, and the eighth conveying section 26 are driven by a fourth chain; the fourth chain is provided on the seventh conveying section 24, the fourth turn conveying section 25, and the eighth conveying section 26.
Optionally, the transition conveying assembly 5 includes a first transition portion, a transition turning portion and a second transition portion; the first transition part, the transition turning part and the second transition part are sequentially connected; the fifth driving mechanism 6 is in transmission connection with the second transition part; the first transition part, the transition turning part and the second transition part are driven by a transition chain, and the transition chain is arranged on the first transition part, the transition turning part and the second transition part; the transition turning part is a 90-degree turning part in the application; the input end of the first transition part is connected with the output end of a fourth conveying part 16 of a fourth first conveying mechanism; the output end of the second transition part is connected with the input end of a fifth conveying part 21 of the first second conveying mechanism; the material on the first conveying tower 1 firstly passes through the fourth conveying part 16 of the fourth first conveying mechanism, then enters the first transition part, then enters the transition turning part, then enters the second transition part, and then enters the second conveying tower 2.
Further, as shown in fig. 1 and 2, a fifth rack 7 for supporting the first turn conveyor 12 and the fourth turn conveyor 25, and a sixth rack 8 for supporting the second turn conveyor 15 and the third turn conveyor 22; the first turning conveying part 12 and the fourth turning conveying part 25 are both connected with the fifth bracket 7; the second turning conveying part 15 and the third turning conveying part 22 are both connected with the sixth bracket 8; through the arrangement of the fifth support 7 and the sixth support 8, support is provided for the first turning conveying part 12 and the fourth turning conveying part 25, the second turning conveying part 15 and the third turning conveying part 22, so that the stability of the first conveying tower 1 and the second conveying tower 2 is better.
Furthermore, a first photoelectric detection device and a second photoelectric detection device for detecting the material transportation condition are respectively arranged on the first spiral track corresponding to the two ends of the first conveying assembly; the first photoelectric detection device is positioned at the starting end of the first conveying assembly in the conveying direction, and the second photoelectric detection device is positioned at the tail end of the first conveying assembly in the conveying direction; under the condition that first photoelectric detection device detected the material, first actuating mechanism 171 opens, drives first conveying component transportation material, and under the condition that first photoelectric detection device and second photoelectric detection device all did not detect the material in a certain time, first actuating mechanism 171 closed, and first conveying component stops the transmission.
A third photoelectric detection device and a fourth detection device for detecting the material transportation condition are respectively arranged on the second spiral track corresponding to the two ends of the second conveying assembly; the third photoelectric detection device is positioned at the starting end of the second conveying assembly in the conveying direction, and the fourth photoelectric detection device is positioned at the tail end of the second conveying assembly in the conveying direction; under the condition that the third photoelectric detection device detects the material, the second driving mechanism 181 is started to drive the second conveying assembly to convey the material, and under the condition that the third photoelectric detection device and the fourth photoelectric detection device do not detect the material within a certain time, the second driving mechanism 181 is closed, and the second conveying assembly stops transmission.
A fifth photoelectric detection device and a sixth photoelectric detection device for detecting the material transportation condition are respectively arranged at two ends of the transition conveying assembly 5; the fifth photoelectric detection device is positioned at the beginning of the transport direction of the transition conveying assembly 5, and the sixth photoelectric detection device is positioned at the tail end of the transport direction of the transition conveying assembly 5; under the condition that the fifth photoelectric detection device detects the materials, the fifth driving mechanism 6 is started to drive the transition conveying assembly 5 to transport the materials, and under the condition that the third photoelectric detection device and the fourth photoelectric detection device do not detect the materials within a certain time, the fifth driving mechanism 6 is closed, and the transition conveying assembly 5 stops transmission.
A seventh photoelectric detection device and an eighth photoelectric detection device for detecting the material transportation condition are respectively arranged at two ends of the second spiral track corresponding to the third conveying assembly; the seventh photoelectric detection device is positioned at the starting end of the third conveying assembly in the conveying direction, and the eighth photoelectric detection device is positioned at the tail end of the third conveying assembly in the conveying direction; under the condition that the seventh photoelectric detection device detects the materials, the third driving mechanism 271 is started to drive the third conveying assembly to convey the materials, and under the condition that the seventh photoelectric detection device and the eighth photoelectric detection device do not detect the materials within a certain time, the third driving mechanism 271 is closed, and the third conveying assembly stops transmission.
A ninth photoelectric detection device and a tenth detection device for detecting the material transportation condition are respectively arranged at two ends of the second spiral track corresponding to the fourth conveying assembly; the ninth photoelectric detection device is positioned at the beginning end of the fourth conveying assembly in the conveying direction, and the tenth photoelectric detection device is positioned at the tail end of the fourth conveying assembly in the conveying direction; under the condition that the ninth photoelectric detection device detects the materials, the fourth driving mechanism 281 is started to drive the fourth conveying assembly to convey the materials, and under the condition that the ninth photoelectric detection device and the tenth photoelectric detection device do not detect the materials within a certain time, the fourth driving mechanism 281 is closed, and the fourth conveying assembly stops transmission. Wherein the first to tenth photodetecting means are not shown in the figure.
The first drive mechanism 171 includes: the first motor and the first variable-frequency speed regulator; the first motor and the first variable-frequency speed regulator are both arranged on the second bracket 18; the first variable-frequency speed regulator is connected with the first motor; the first motor is in transmission connection with the second conveying part 13; through the setting of first variable frequency speed regulator, the first actuating mechanism 171 of being convenient for detects the transportation condition adjustment rotational speed of material according to first photoelectric detection device and second photoelectric detection device, and then realizes the adjustment to first conveyor assembly transmission speed.
The second drive mechanism 181 includes: a second motor and a second variable-frequency speed regulator; the second motor and the second variable-frequency speed regulator are both arranged on the first bracket 17; the second variable-frequency speed regulator is connected with a second motor; the second motor is in transmission connection with the fourth conveying part 16; through the setting of second variable frequency speed regulator, the second actuating mechanism 181 of being convenient for detects the transportation condition adjustment rotational speed of material according to third photoelectric detection device and fourth photoelectric detection device, and then realizes the adjustment to second conveyor components transmission speed to the transmission speed phase-match of second conveyor components and first conveyor components realizes the even transmission of material on first transport tower 1.
The third driving mechanism 271 includes: a third motor and a third variable-frequency speed regulator; the third motor and the third variable-frequency speed regulator are both arranged on the third bracket 27; the third variable frequency speed regulator is connected with a third motor; the third motor is in transmission connection with the sixth conveying part 23; through the setting of the third variable frequency speed regulator, the third driving mechanism 271 can adjust the rotating speed according to the transportation condition that the seventh photoelectric detection device and the eighth photoelectric detection device detect the material, and further the transmission speed of the third conveying assembly can be adjusted.
The fourth driving mechanism 281 includes: a fourth motor and a fourth variable-frequency speed regulator; the fourth motor and the fourth variable-frequency speed regulator are both arranged on the fourth bracket 28; the fourth variable frequency speed regulator is connected with a fourth motor; the fourth motor is in transmission connection with the eighth conveying part 26; through the setting of fourth variable frequency speed regulator, the fourth actuating mechanism 281 of being convenient for detects the transportation condition adjustment rotational speed of material according to ninth photoelectric detection device and tenth photoelectric detection device, and then realizes the adjustment to fourth conveyor components transmission speed to the transmission speed phase-match of fourth conveyor components and third conveyor components realizes the even transmission of material on second transport tower 2.
The fifth drive mechanism 6 includes: a fifth motor and a fifth variable-frequency speed regulator; the fifth motor and the fifth variable-frequency speed regulator are both arranged on the fourth bracket 28; the fifth variable frequency speed regulator is connected with a fifth motor; the fifth motor is connected with the transition conveying assembly 5; through the setting of fifth variable frequency speed regulator, be convenient for fifth actuating mechanism 6 detects the transportation condition adjustment rotational speed of material according to fifth photoelectric detection device and sixth photoelectric detection device, and then realize the adjustment to 5 transmission speed of transition conveyor assembly to the transmission speed phase-match of transition conveyor assembly 5 and first transport tower 1, the transmission speed phase-match of second transport tower 2 and the transmission speed phase-match of transition conveyor assembly 5 realizes the even transmission of material on large-scale transport buffer tower.
Under the condition of conveying materials, the material is manually placed on a feeding channel 3, the material enters a first conveying tower 1 from the feeding channel 3, until the conveying line of the first conveying tower 1 is fully covered with the material, the material is conveyed to a second conveying tower 2 through a transition conveying assembly 5, until the conveying line of the second conveying tower 2 and the first conveying tower 1 is fully covered with the material, the automation equipment is started, the conveying speed of the second conveying tower 2 and the first conveying tower 1 is adjusted so that the conveying speed of a cache tower is matched with the conveying speed of an automation conveying line, the material uniformly and quickly enters the automation equipment, the periodical start and stop work of the automation equipment is realized, and the start loss of the automation equipment is reduced.
In the application, the first motor, the second motor, the third motor, the fourth motor and the fifth motor are all speed reducing motors; the first photoelectric detection device, the second photoelectric detection device, the third photoelectric detection device, the fourth photoelectric detection device, the fifth photoelectric detection device, the sixth photoelectric detection device, the seventh photoelectric detection device, the eighth photoelectric detection device, the ninth photoelectric detection device and the tenth photoelectric detection device all adopt photoelectric sensors.
Further, as shown in fig. 1, a feeding bracket adapted to the manual feeding height is arranged on the feeding channel 3; a discharging bracket which is matched with the automatic conveying line in height is arranged on the discharging channel 4; through the setting of feeding support and discharging support for the height of the artifical material loading of adaptation that feedstock channel 3 can be better, discharging channel 4 better with the butt joint of automatic transfer chain, so that the material gets into automation equipment.
The utility model discloses a large-scale transport buffer memory tower not only has and concentrates on the buffer memory tower with artificial material in, opens the automation equipment again after being full of the material in the buffer memory tower, has both guaranteed the continuity that buffer memory tower and automation equipment carried, has avoided the waste of artifical secondary material loading, has also reduced the start consumption of automation equipment, has reached energy-conserving effect, and the practicality is stronger.
Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A large transport buffer tower, comprising: the automatic material buffer device comprises a feeding channel for feeding, a first conveying tower for buffering and conveying materials, a transition conveying assembly, a second conveying tower for buffering and conveying materials and a discharging channel for butting with an automatic conveying line; the feeding channel is connected with the input end of a first conveying tower, the output end of the first conveying tower is connected with the input end of a transition conveying assembly, the output end of the transition conveying assembly is connected with the input end of a second conveying tower, and the output end of the second conveying tower is connected with the discharging channel.
2. The large transport buffer tower according to claim 1, wherein said first transport tower comprises: the device comprises a plurality of first conveying mechanisms, a first driving device for driving the plurality of first conveying mechanisms to transmit, a first support and a second support; the first conveying mechanisms are sequentially connected to form a first spiral track; the input end of the first spiral track is connected with the feeding channel; the output end of the first spiral track is connected with the input end of the transition conveying assembly; the first conveying mechanisms are fixedly connected with the first support; the first conveying mechanisms are fixedly connected with the second support; the first driving device is fixedly connected with the first support and the second support.
3. The large transport buffer tower according to claim 2, wherein said first transport mechanism comprises: a first conveying assembly and a second conveying assembly; the first conveying assembly comprises a first conveying part, a first turning conveying part and a second conveying part, wherein the first conveying part, the first turning conveying part and the second conveying part are used for being connected with an output end of a feeding channel or an adjacent first conveying mechanism; the second conveyor assembly comprises: the third conveying part, the second turning conveying part and the fourth conveying part are used for being connected with the input end of the transition conveying assembly or the adjacent first conveying mechanism; the first conveying part, the first turning conveying part, the second conveying part, the third conveying part, the second turning conveying part and the fourth conveying part are sequentially connected; the first conveying part and the fourth conveying part are fixedly connected with the first support; the second conveying part and the third conveying part are fixedly connected with the second support; the first driving device includes: the first driving mechanism is used for driving the first conveying assembly to transmit and the second driving mechanism is used for driving the second conveying assembly to transmit; the first driving mechanism is in transmission connection with the second conveying part; and the second driving mechanism is in transmission connection with the fourth conveying part.
4. A large transport buffer tower according to claim 3, wherein said second transport tower comprises: the second conveying mechanisms, a second driving device for driving the second conveying mechanisms to transmit, a third support and a fourth support are arranged; the plurality of second conveying mechanisms are sequentially connected to form a second spiral track; the input end of the second spiral track is connected with the output end of the transition conveying assembly; the output end of the second spiral track is connected with the discharging channel; the second conveying mechanisms are fixedly connected with a third support; the second conveying mechanisms are fixedly connected with a fourth support; and the second driving devices are fixedly connected with the third support and the fourth support.
5. The large transport buffer tower according to claim 4, wherein said second transport mechanism comprises: a third conveying assembly and a fourth conveying assembly; the third conveying assembly comprises a fifth conveying part, a third turning conveying part and a sixth conveying part which are used for being connected with the output end of the transition conveying assembly or the adjacent second conveying mechanism; the fourth conveyor assembly comprises: the seventh conveying part, the fourth turning conveying part and the eighth conveying part are used for being connected with the discharging channel or the input end of the adjacent second conveying mechanism; the fifth conveying part, the third turning conveying part, the sixth conveying part, the seventh conveying part, the fourth turning conveying part and the eighth conveying part are sequentially connected; the sixth conveying part and the seventh conveying part are fixedly connected with the third support; the fifth conveying part and the eighth conveying part are both fixedly connected with the fourth support; the second driving device includes: a third driving mechanism for driving the third conveying assembly to transmit and a fourth driving mechanism for driving the fourth conveying assembly to transmit; a fifth driving mechanism for driving the transition conveying assembly to transmit is arranged on the fourth support; the third driving mechanism is in transmission connection with the sixth conveying part; and the fourth driving mechanism is in transmission connection with the eighth conveying part.
6. The large transport buffer tower according to claim 5, further comprising a fifth rack for supporting the first and fourth turn conveyors and a sixth rack for supporting the second and third turn conveyors; the first turning conveying part and the fourth turning conveying part are both connected with a fifth bracket; and the second turning conveying part and the third turning conveying part are both connected with a sixth support.
7. The large-scale conveying cache tower according to claim 5, wherein a first photoelectric detection device and a second photoelectric detection device for detecting the product transportation condition are respectively arranged on the first spiral track corresponding to two ends of each first conveying assembly; a third photoelectric detection device and a fourth detection device for detecting the product transportation condition are respectively arranged on the first spiral track corresponding to the two ends of each second conveying assembly; a fifth photoelectric detection device and a sixth photoelectric detection device for detecting the product transportation condition are respectively arranged at two ends of the transition conveying assembly; a seventh photoelectric detection device and an eighth photoelectric detection device for detecting the product transportation condition are respectively arranged on the second spiral track corresponding to the two ends of each third conveying assembly; and a ninth photoelectric detection device and a tenth detection device for detecting the product transportation condition are respectively arranged at two ends of the second spiral track corresponding to the fourth conveying assemblies.
8. The large transport buffer tower according to claim 7, wherein said first drive mechanism comprises: the first motor and the first variable-frequency speed regulator; the first motor and the first variable-frequency speed regulator are both arranged on the second bracket; the first variable-frequency speed regulator is connected with a first motor; the first motor is in transmission connection with the first conveying assembly; the second drive mechanism includes: a second motor and a second variable-frequency speed regulator; the second motor and the second variable-frequency speed regulator are both arranged on the first bracket; the second variable-frequency speed regulator is connected with a second motor; the second motor is in transmission connection with the second conveying assembly; the third drive mechanism includes: a third motor and a third variable-frequency speed regulator; the third motor and the third variable-frequency speed regulator are both arranged on the third bracket; the third variable-frequency speed regulator is connected with a third motor; the third motor is in transmission connection with the third conveying assembly; the fourth drive mechanism includes: a fourth motor and a fourth variable-frequency speed regulator; the fourth motor and the fourth variable-frequency speed regulator are both arranged on the fourth bracket; the fourth variable-frequency speed regulator is connected with a fourth motor; the fourth motor is in transmission connection with the fourth conveying assembly; the fifth drive mechanism includes: a fifth motor and a fifth variable-frequency speed regulator; the fifth motor and the fifth variable-frequency speed regulator are both arranged on the fourth bracket; the fifth variable frequency speed regulator is connected with a fifth motor; and the fifth motor is in transmission connection with the transition conveying assembly.
9. The large-scale conveying cache tower according to claim 1, wherein a feeding bracket adapted to the height of manual feeding is arranged on the feeding channel; and the discharging channel is provided with a discharging support matched with the automatic conveying line in height.
CN202021864910.1U 2020-08-31 2020-08-31 Large-scale conveying buffer tower Active CN213386389U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021864910.1U CN213386389U (en) 2020-08-31 2020-08-31 Large-scale conveying buffer tower

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021864910.1U CN213386389U (en) 2020-08-31 2020-08-31 Large-scale conveying buffer tower

Publications (1)

Publication Number Publication Date
CN213386389U true CN213386389U (en) 2021-06-08

Family

ID=76212512

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021864910.1U Active CN213386389U (en) 2020-08-31 2020-08-31 Large-scale conveying buffer tower

Country Status (1)

Country Link
CN (1) CN213386389U (en)

Similar Documents

Publication Publication Date Title
CN207142072U (en) A kind of high inclination-angle elevator
CN213386389U (en) Large-scale conveying buffer tower
CN205892047U (en) Hierarchical conveyor
CN106531673A (en) Automatic lead frame loader
CN109326547A (en) Gaily decorated basket internal circulation apparatus
CN209455504U (en) A kind of heating in medium frequency Shaftless screw conveyor
CN209374418U (en) Gaily decorated basket internal circulation apparatus
CN104418112A (en) Automatic loading and dismounting type pig carrying frame
CN208086750U (en) Full-automatic fold send plate all-in-one machine
CN205526530U (en) Single -row storage bottle conveying equipment
CN200995901Y (en) Zipper-typed pipeline conveyor
CN108313651A (en) A kind of weaving spray-painting drying conveys intensive storage device automatically
CN108313726A (en) A kind of PVC plastic floor blanking device
CN206457016U (en) Convey feed coaxial two-direction blanking device
CN210557669U (en) Pipe fitting upset transport mechanism
KR930005024B1 (en) Apparatus for arraying and conveying web-like material
CN107934584A (en) A kind of cell piece gaily decorated basket automatic material taking feeding machanism
CN206194722U (en) Automatic trigger of going up of lead frame
CN211168738U (en) Automatic loading and unloading device with positioning function
CN203921952U (en) A kind of compound type feedway
CN210393670U (en) A canning device for piece formula resistance silver thick liquid
CN213055120U (en) Conveyor after continuous type MPP tubular product cutting
CN212100703U (en) Gypsum board back sealing system
CN207482920U (en) A kind of cell piece gaily decorated basket automatic material taking feeding machanism
CN211139709U (en) Intelligent coiling line for traditional Chinese medicine decoction pieces

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant