CN209582799U - Feed system - Google Patents

Abstract

The utility model relates to a kind of feed systems, comprising: silica sand library, the rake sand machine being arranged in silica sand library, the conveying mechanism being correspondingly arranged with silica sand library, the material placing machine structure connecting with conveying mechanism and the signal detection module being mounted on conveying mechanism and material placing machine structure；Harrowing sand machine includes driving unit, the adjustment module connecting with driving unit and the processor connecting with adjustment module；Adjustment module includes interlock unit and interrupt location；Signal detection module is electrically connected with processor.Above-mentioned feed system, by being detected in conveying mechanism and setting signal detection module on material placing machine structure to working condition, simultaneously by the way that processor is arranged on rake sand machine, realizing can the corresponding working condition for controlling rake sand machine when conveying mechanism breaks down with material placing machine structure；Simultaneously by interlock unit and interrupt location, the connection status of control processor and driving unit can be corresponded to, and then realizes that, when conveying mechanism and material placing machine structure stop working, rake sand machine still can work normally.

Description

Feed system

Technical field

The utility model relates to glass working arts fields, more particularly to a kind of feed system.

Background technique

In Improving Glass Manufacturing Processes, in order to guarantee going on smoothly for production technology, need to carry out glass raw material silica sand equal Change library processing, so-called homogenizing storehouse processing is exactly to need to be arranged multiple feed bins to store silica sand, and reserves are also bigger.In Need to use rake sand machine during being homogenized library processing, rake sand machine, which unloads silica sand, falls on belt, then pass through belt etc. it Silica sand is sent into each feed bin conveying mechanism by he.

In the prior art, due to rake sand machine and the relatively independent operation of conveying mechanism, so when belt or conveying mechanism go out When existing failure can not normally convey silica sand into feed bin, rake sand machine still will continue to rake sand work, at this time if surrounding does not work Personnel nearby stop rake sand machine manually, will result in putty, and falling to silica sand outside equipment, increase production rises this in turn, even Due to putty preponderance, causes machine loading excessive and damage.

Utility model content

Based on this, it is necessary to aiming at the problem that operation relatively independent with conveying mechanism of rake sand machine, provide a kind of feed system.

A kind of feed system, comprising:

Silica sand library；

Sand machine is harrowed, the rake sand machine is arranged in the silica sand library；The rake sand machine includes driving unit and the driving The adjustment module of unit connection and the processor being connect with the adjustment module；The adjustment module include interlock unit and in Disconnected unit；The interlock unit and interrupt location same time have and only one connects with the driving unit and processor simultaneously It connects；

Conveying mechanism, the conveying mechanism are correspondingly arranged with the silica sand library；

Material placing machine structure, the material placing machine structure are connect with the conveying mechanism；And

Signal detection module, the signal detection module is corresponding to be mounted on the conveying mechanism and material placing machine structure, described Signal detection module is electrically connected with the processor.

Above-mentioned feed system, by being carried out with setting signal detection module on material placing machine structure to working condition in conveying mechanism Detection, while by the way that the processor being electrically connected with signal detection module is arranged on rake sand machine, it realizes when conveying mechanism and sets material Mechanism can correspond to the working condition of control rake sand machine when breaking down；Simultaneously by interlock unit and interrupt location, control can be corresponded to The connection status of processor and driving unit processed, and then realize that, when conveying mechanism and material placing machine structure stop working, rake sand machine is still It can work normally.

The conveying mechanism includes that the first conveyer belt and the first conveyer belt are correspondingly arranged in one of the embodiments, Second conveyer belt and the lifting member for transmitting band connection with described second.

Opening is provided on the silica sand library in one of the embodiments,；First conveyer belt is correspondingly arranged at institute State the lower section of opening.

The signal detection module includes putty sensor and fault sensor in one of the embodiments,；It is described stifled Material sensor is mounted in the lifting member, and the fault sensor is separately mounted to first conveyer belt and the second conveyer belt On.

In one of the embodiments, the lifting member include feeder, the lift bucket portion being connect with the feeder and with The feeding portion of the lift bucket portion connection.

The feeder is correspondingly arranged with second conveyer belt in one of the embodiments, the putty sensor It is correspondingly arranged at the feeder.

The material placing machine structure includes the cloth material strip connecting with the conveying mechanism and difference in one of the embodiments, With the first feed bin and the second feed bin of the cloth band connection.

The signal detection module includes level sensor and putty sensor in one of the embodiments,；It is described stifled Material sensor is mounted on the cloth band, and the level sensor is separately mounted on first feed bin and the second feed bin.

The cloth material strip is in Y shape structure setting in one of the embodiments,.

The signal detection module includes that level sensor, putty sensor and failure pass in one of the embodiments, Sensor；It is electrically coupled in series with the processor after the level sensor, putty sensor and fault sensor are in parallel；The chain list Member is arranged in parallel with interrupt location.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the feed system of one embodiment of the utility model；

Fig. 2 is the schematic side view of feed system described in Fig. 1；

Fig. 3 is the functional block diagram of processor described in Fig. 1.

The meaning of numbering in the drawing are as follows:

100- feed system；

10- silica sand library, 15- opening；

20- harrows sand machine, 30- driving unit, 40- adjustment module, 41- interlock unit, 45- interrupt location, 50- processor；

60- conveying mechanism, the first conveyer belt of 61-, the second conveyer belt of 62-, 63- lifting member, 65- feeder, 66- lift bucket Portion, 67- feeding portion；

70- material placing machine structure, 71- cloth material strip, the first feed bin of 72-, the second feed bin of 73-；

80- signal detection module, 81- level sensor, 82- putty sensor, 83- fault sensor.

Specific embodiment

The utility model will be described more fully below for the ease of understanding the utility model,.But this is practical It is novel to realize in many different forms, however it is not limited to embodiment described herein.On the contrary, providing these implementations The purpose of example is to make the understanding of the disclosure of the utility model more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.

It please refers to Fig.1 to Fig.3, is the feed system 100 of one embodiment of the utility model, comprising: silica sand library 10, setting Rake sand machine 20 in silica sand library 10, the conveying mechanism 60 being correspondingly arranged with silica sand library 10, connect with conveying mechanism 60 set material Mechanism 70 and the signal detection module 80 being mounted on conveying mechanism 60 and material placing machine structure 70；The feed system 100 is used for original Material (not shown) is homogenized library processing, and then guarantees that the suitable power of subsequent producing process carries out.

The silica sand library 10 is horizontally disposed in hollow form mechanism, which is used to accommodate extraneous raw material, Library processing is homogenized to the raw material in silica sand library 10 by feed system 100.In the present embodiment, it is set on the silica sand library 10 It is equipped with opening 15；The opening 15 is correspondingly arranged at the bottom in silica sand library 10, and opening 15 is corresponding to be connected to inside and outside silica sand library 10.

Rake sand machine 20 is correspondingly arranged in the silica sand library 10, and rake sand machine 20 is correspondingly arranged at the upper of raw material in silica sand library 10 Side, rake sand machine 20 is used to carry out raw material rake sand operation, and then can control in silica sand library 10 by control rake sand machine 20 The rate that raw material are fallen from opening 15.The adjusting mould that the rake sand machine 20 includes driving unit 30, connect with driving unit 30 Block 40 and the processor 50 being connect with adjustment module 40；The top of rake sand machine 20, the driving unit is arranged in the driving unit 30 30 can correspond to the work of control rake sand machine 20 for driving the normal work of rake sand machine 20, and then by controlling the driving unit 30 Make state, the driving unit 30 is corresponding to be connect with rake sand part (not shown), and the rake sand part with raw material for abutting and then completing Harrow sand work.

The adjustment module 40 correspondence is connect with driving unit 30, and adjustment module 40 is arranged in driving unit 30 and processor Between 50；The adjustment module 40 includes interlock unit 41 and interrupt location 45.The interlock unit 41 is electrically connected with driving unit 30 It connects, the interrupt location 45 correspondence is electrically connected with driving unit 30, and interlock unit 41 is in parallel with interrupt location 45, interlock unit 41 Have with the same time of interrupt location 45 and only one connect with the driving unit 30 and processor 50 simultaneously, the interlock unit 41 for driving unit 30 to be connected to processor 50, so realization processor 50 can by outer signals to driving unit 30 into The synchronous chain control of row, the interrupt location 45 realize driving for disconnecting driving unit 30 and processor 50 Unit 30 is relatively independent not to be controlled by 50 synchronous locking of processor, after being stopped working due to conveying mechanism 60 with material placing machine structure 70, Rake sand machine 20, which will work on, rakes the raw material in silica sand library 10, prevents from adding former material into silica sand library 10 when follow-up work Causing the raw material gradient to cross drag sand machine 20 when material can not work normally, or even cause rake sand machine 20 to damage the rake covering of sand machine 20 It is bad, so the adjustment module 40 can be effectively ensured processor 50 when needing chain control and can correspond to control driving unit 30, when Driving unit 30 when chain control is not needed not controlled by processor 50.

The processor 50 correspondence is mounted on driving unit 30, and processor 50 can be single with interlock unit 41 or interruption respectively Member 45 is electrically connected, which is used to receive the extraneous electric signal sent, exports corresponding control signal by analysis； The adjusting interlock unit 41 of module 40 or the access processor 50 of interrupt location 45 and driving are controlled to adjust since staff can correspond to Between unit 30, when interlock unit 41 accesses, processor 50, which transmits driving unit 30 according to the outer signals received, to be controlled Signal processed, and then realize the control to rake 20 working condition of sand machine；When interrupt location 45 accesses, driving unit 30 is no longer received The control signal that processor 50 is sent guarantees to harrow sand machine 20 still after processor 50 receives extraneous suspension working signal It can work normally.

The conveying mechanism 60 include the first conveyer belt 61, the second conveyer belt 62 being correspondingly arranged with the first conveyer belt 61 and The lifting member 63 being connect with the second conveyer belt 62；First conveyer belt 61 is correspondingly arranged at the lower section of opening 15, first transmission The horizontally extending setting of band 61, first conveyer belt 61 is for accepting the raw material fallen from silica sand library 10；Second biography The lower section for sending band 62 to be correspondingly arranged at the first conveyer belt 61, the horizontally extending setting of the second conveyer belt 62, the second conveyer belt 62 one end is correspondingly arranged with the first conveyer belt 61, and the other end is correspondingly arranged with lifting member 63, and the second conveyer belt 62 is for accepting The raw material sent from the first conveyer belt 61.

The lifting member 63 is correspondingly arranged at the second conveyer belt 62 backwards to one end of the first conveyer belt 61, and lifting member 63 is used for The raw material that the conveying of second conveyer belt 62 comes are subjected to promotion operation, and then subsequent homogenizing storehouse is facilitated to operate；The lifting member 63 include feeder 65, the lift bucket portion 66 connecting with feeder 65 and the feeding portion 67 connecting with lift bucket portion 66.The feeder 65 Setting position it is corresponding with the second conveyer belt 62, feeder 65 is correspondingly arranged at the lower section of the second conveyer belt 62, feeder 65 Self-carry pan 66 is obliquely arranged to 62 direction of the second conveyer belt upwards, and then guarantees that preferably the second conveyer belt 62 of undertaking is defeated The raw material brought；The bottom end in the lift bucket portion 66 is connect with feeder 65, and lift bucket portion 66 is extended along the vertical direction, lift bucket It is provided with motor in portion 66, by motor driven chain drive, several lift buckets, lift bucket and chain pivot are arranged at intervals on chain It connects, the feeder 65 is corresponding to convey raw material into the lift bucket in lift bucket portion 66, and then by motor driven chain in vertical direction Rotation, and then realize and promote operation；The feeding portion 67 is correspondingly arranged at the top in lift bucket portion 66, which is used for lift bucket Raw material in portion 66 are conveyed to material placing machine structure 70, and it is oblique to 70 direction of material placing machine structure downwards that feeding portion 67 picks up by oneself pan 66 Setting, for guarantee raw material can it is easier enter material placing machine structure 70 in, prevent material due to be detached from feed system 100 and It wastes.

The setting position of the material placing machine structure 70 is corresponding with the setting position of feeding portion 67, and material placing machine structure 70 is used for conveying The raw material that mechanism 60 transmits；Material placing machine structure 70 include the cloth material strip 71 being connect with conveying mechanism 60 and respectively with cloth material strip 71 The first feed bin 72 and the second feed bin 73 of connection.The cloth material strip 71 is correspondingly arranged at the lower section of feeding portion 67, and the one of cloth material strip 71 End correspondence is connect with feeding portion 67, which is in Y shape structure setting, and the top of cloth material strip 71 is corresponding with feeding portion 67 to be set It sets, the bottom of cloth material strip 71 is connect with the first feed bin 72 and the second feed bin 73 respectively, and cloth material strip 71 is oblique from up to down to be tied Structure setting, cloth material strip 71, which is used to conveying mechanism 60 being driven the raw material to come, is transported to the first feed bin 72 and the second feed bin 73 It is interior, and then realize and the homogenizing storehouse of raw material is operated.First feed bin 72 is in hollow form structure setting, the top of the first feed bin 72 It is connect with cloth material strip 71, guarantees that the first feed bin 72 can receive the raw material that cloth material strip 71 is sent；Second feed bin 73 and The planform of one feed bin 72 is identical, and the second feed bin 73 and the first feed bin 72 are arranged in simultaneously column-shaped interval.It is to be appreciated that setting material The feed bin quantity that mechanism 70 includes not concrete restriction, it is only necessary to guarantee that cloth material strip 71 can be corresponded to and conveys raw material into each feed bin, And then complete homogenizing storehouse work.

Signal detection module 80, which respectively corresponds, to be mounted on conveying mechanism 60 and material placing machine structure 70, the signal detection module 80 It is electrically connected with processor 50, signal detection module 80 respectively examines conveying mechanism 60 and the working condition of material placing machine structure 70 It surveys, while the data that will test are conveyed to processor 50 as electronic signals；The signal detection module 80 is passed including material position Sensor 81, putty sensor 82 and fault sensor 83.In the present embodiment, which, which respectively corresponds, is mounted on On one feed bin 72 and the second feed bin 73, the top of the first feed bin 72 and the second feed bin 73, the material position is arranged in level sensor 81 Sensor 81 is for detecting the volume of the first feed bin 72 and raw material in the second feed bin 73, when the first feed bin 72 or the second When raw material height reaches 81 position of level sensor in feed bin 73, level sensor 81 can send detection letter to processor 50 Number；The setting quantity of the putty sensor 82 is two, and two putty sensors 82 are separately mounted to lifting member 63 and cloth material strip On 71, one of putty sensor 82 is arranged at the feeder 65 of lifting member 63, the putty sensor 82 and the second transmission Band 62 is correspondingly arranged, and the corresponding cloth material strip 71 of another putty sensor 82 is arranged, and when there is putty, putty sensor 82 can be to Processor 50 sends detection signal；The fault sensor 83 is separately mounted on the first conveyer belt 61 and the second conveyer belt 62, therefore Barrier sensor 83 is used to detect the working condition of the first conveyer belt 61 and the second conveyer belt 62, when the first conveyer belt 61 or second passes When band 62 being sent to can not operate normally, fault sensor 83 can detect signal to processor 50, referring to Fig. 3, the level sensor 81, electrically coupled in series with processor 50 after 83 parallel connection of putty sensor 82 and fault sensor.

The working principle of feed system 100 in the present embodiment are as follows: when work, staff can correspond to control and regulation mould The connection status of block 40, i.e. interlock unit 41 or interrupt location 45 access between driving unit 30 and processor 50；When chain list Rake sand machine 20 is in chain state when member 41 accesses, at this time if when the raw material in the first feed bin 72 or the second feed bin 73 are filled Level sensor 81 sends detection signal, the second conveyer belt 62 at such as feeder 65 or cloth material strip 71 to processor 50 and blocks up Putty sensor 82 can not be normal to processor 50 transmission detection signal, such as the first conveyer belt 61 or the second conveyer belt 62 when material Fault sensor 83 sends detection signal to processor 50 when operating, conveys when processor 50 receives signal detection module 80 Control signal can be sent to driving unit 30 by interlock unit 41 after the detection signal to come over, and then control rake sand machine 20 and stop Work, to realize chain control；When interrupt location 45 accesses, rake sand machine 20 is in interrupt status, and processor 50 can not lead at this time It crosses interrupt location 45 and conveys control signal to driving unit 30, and then guarantee normally to stop when conveying mechanism 60 or material placing machine structure 70 After work, rake sand machine 20 can still run well so that the raw material in silica sand library 10 to be raked.

Above-mentioned feed system, by being carried out with setting signal detection module on material placing machine structure to working condition in conveying mechanism Detection, while by the way that the processor being electrically connected with signal detection module is arranged on rake sand machine, it realizes when conveying mechanism and sets material Mechanism can correspond to the working condition of control rake sand machine when breaking down；Simultaneously by interlock unit and interrupt location, control can be corresponded to The connection status of processor and driving unit processed, and then realize that, when conveying mechanism and material placing machine structure stop working, rake sand machine is still It can work normally.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of feed system characterized by comprising

Silica sand library；

Sand machine is harrowed, the rake sand machine is arranged in the silica sand library；The rake sand machine includes driving unit and the driving unit The adjustment module of connection and the processor being connect with the adjustment module；The adjustment module includes interlock unit and interrupts single Member；The interlock unit has with the interrupt location same time and only one connect with the driving unit and processor simultaneously；

Conveying mechanism, the conveying mechanism are correspondingly arranged with the silica sand library；

Material placing machine structure, the material placing machine structure are connect with the conveying mechanism；And

Signal detection module, the signal detection module is corresponding to be mounted on the conveying mechanism and material placing machine structure, the signal Detection module is electrically connected with the processor.

2. feed system according to claim 1, which is characterized in that the conveying mechanism includes the first conveyer belt, with the The second conveyer belt that one conveyer belt is correspondingly arranged and the lifting member with the second transmission band connection.

3. feed system according to claim 2, which is characterized in that be provided with opening on the silica sand library；Described first Conveyer belt is correspondingly arranged at the lower section of the opening.

4. feed system according to claim 2, which is characterized in that the signal detection module include putty sensor and Fault sensor；The putty sensor is mounted in the lifting member, and the fault sensor is separately mounted to described first On conveyer belt and the second conveyer belt.

5. feed system according to claim 4, which is characterized in that the lifting member includes feeder and the charging The lift bucket portion of portion's connection and the feeding portion being connect with the lift bucket portion.

6. feed system according to claim 5, which is characterized in that the feeder is corresponding with second conveyer belt to be set It sets, the putty sensor is correspondingly arranged at the feeder.

7. feed system according to claim 1, which is characterized in that the material placing machine structure includes connecting with the conveying mechanism The cloth material strip that connects and respectively with the first feed bin and the second feed bin of the cloth band connection.

8. feed system according to claim 7, which is characterized in that the signal detection module include level sensor and Putty sensor；The putty sensor is mounted on the cloth band, and the level sensor is separately mounted to described first On feed bin and the second feed bin.

9. feed system according to claim 7, which is characterized in that the cloth material strip is in Y shape structure setting.

10. feed system according to claim 1, which is characterized in that the signal detection module include level sensor, Putty sensor and fault sensor；After the level sensor, putty sensor and fault sensor are in parallel with the processing Device is electrically coupled in series；The interlock unit is arranged in parallel with interrupt location.