CN207707848U - A kind of spinning workshop dust catcher - Google Patents

Abstract

The application provides a kind of spinning workshop dust catcher, including dust exhaust apparatus, dust collect plant and power plant.Wherein, the cleaning connector of dust exhaust apparatus and shearing mechanism can prevent from the fiber impurity in spinning workshop from entering sweep-up pipe resulting in blockage；Airspeedometer in dust collect plant can detect the wind-force size of dust catcher in real time, and then judge whether overlond running；The fibrous material in sucking sweep-up pipe is filtered by dismountable coarse filtration component, fibrous material is avoided to enter the air inlet of dust collect plant；The operating status of overload protecting circuit control motor of dust collector in power plant, avoids overloading.Spinning workshop dust catcher provided by the present application can reduce larger fiber impurity and be inhaled into dust catcher, reduce blocking probability；Coarse filtration component, overload protection cavity and overload protecting circuit are set to avoid dust catcher from being in overload work state for a long time, prevent motor overheating from burning, solves the problems, such as that conventional cleaners are easy to cause motor damage because of blocking.

Description

A kind of spinning workshop dust catcher

Technical field

This application involves spinning machinery technical field more particularly to a kind of spinning workshop dust catchers.

Background technology

Spinning workshop dust content is higher, these dust have plenty of since cotton mill production environment is dried, and are flowed with air And the sand and dust formed, have plenty of the cotton-wool and impurity carried due to spinning material, drifts the foreign matter formed in workshop condition Dust.The dust of spinning workshop not only so that production environment is severe, but also is easy, with spinning process is mixed into, to make the doping of spinning product Foreign matter influences product quality.

In order to mitigate influence of the dust in spinning workshop to product quality, need frequently to use dust catcher in actual production Workshop condition is dusted.Since spinning material includes tiny fibrous material, these tiny fibrous materials drift It is mixed with dust particles in environment so that existing dust catcher is easy to block in use.When dust catcher blocks, dedusting energy Power substantially reduces, and gradually increasing with tamper, and the load of driving motor is also increasing, holds very much if clearing up not in time The motor of dust collector is easily set to be burnt because being chronically at overload.

Existing dust catcher is in order to mitigate clogging, in design by increasing the air duct diameter of dust catcher, to reduce powder Accumulation of the dirt in air duct, but the increase of air duct diameter will necessarily cause the decline of wind-force, while being also not easy to operate.It can be with The accumulation of dust particles is avoided by increasing the mesh diameter of filter screen, to mitigate clogging, but filter screen mesh is straight The increase of diameter can enter in dust-collecting cavity body when dust catcher sucks larger article, in cavity or motor of dust collector causes to damage Bad, therefore, existing dust catcher uses in spinning workshop, there are problems that being easily damaged.

Invention content

This application provides a kind of spinning workshop dust catchers, are easy to cause dust catcher because of blocking to solve conventional cleaners The problem of motor damage.

Spinning workshop dust catcher provided by the present application, including：Dust exhaust apparatus, dust collect plant and power plant；

The dust exhaust apparatus includes sweep-up pipe and is arranged cleaning connector in described sweep-up pipe one end, the cleaning connector End face edge be uniformly arranged the anti-blocking item of several columns；Shearing mechanism, the shearing mechanism are additionally provided with inside the cleaning connector Cutting blade and the fixed blade hinged with the cutting blade, the fixed blade including connecting cylinder are fixed on the cleaning connector On internal shell；

The dust exhaust apparatus is for providing the cleaning connector for preventing the fibrous material in spinning workshop from blocking, to spin Dust catcher is operated in workshop is dusted work；

The dust collect plant includes dust-collecting cavity and the dust bag that is arranged in the dust-collecting cavity；The dust-collecting cavity is equipped with circle Column air inlet, the air inlet run through the dust-collecting cavity side wall, and the dust-collecting cavity side-wall outer side be equipped with it is described into The coaxial overload protection cavity in air port, the overload protection inside cavity are equipped with airspeedometer；

The dust collect plant further includes cylindric coarse filtration component, and the overload protection cavity passes through the coarse filtration component and institute Sweep-up pipe connection is stated, an end face of the coarse filtration component is equipped with strainer, and the other end of the coarse filtration component is equipped with cyclic annular convex It rises, the annular projection is bolted on the end face of the overload protection cavity；The inner wall of the coarse filtration component is equipped with Screw thread, the sweep-up pipe are connected through a screw thread the coarse filtration component；

The dust collect plant is used to detach the air sucked in dust catcher with impurity, and detects when dust catcher works Wind speed, to judge whether motor of dust collector is in overload；

The power plant includes motor of dust collector, governor and overload protecting circuit, wherein the motor of dust collector The governor and its speed governing panel are connected, the overload protecting circuit connects the airspeedometer；

The power plant generates dust suction effect for providing negative pressure.

Optionally, the fixed blade is double-layer blades structure, and the distance between two blades of the fixed blade are equal to described The thickness of cutting blade.

Optionally, the inner wall of the dust-collecting cavity is additionally provided with anti-blocking component, the anti-blocking component be positioned close to it is described into The rib in air port；

The anti-blocking component for the dust bag and the air inlet to be separated, avoid the dust bag block described in into Air port.

Optionally, the outer diameter of the coarse filtration component is less than or equal to the internal diameter of the overload protection cavity, the coarse filtration portion The internal diameter of part is equal to the outer diameter of the sweep-up pipe.

Optionally, the sweep-up pipe is wired hose, and the position that the sweep-up pipe is connect with the cleaning connector is also set There is handheld component.

By above technical scheme it is found that spinning workshop dust catcher provided by the present application includes dust exhaust apparatus, dust collect plant with And power plant, in actual use, power plant is that entire dust catcher internal cavity generates negative pressure, is generated by dust exhaust apparatus Suction sucks dust in environment, then realizes dust separation and filtering by dust collect plant, completes dust removal process.Wherein, dust suction Cleaning connector and shearing mechanism in device can prevent cotton-wool in spinning workshop or yarn product caused by due to sucking sweep-up pipe It blocks；Airspeedometer in dust collect plant can detect the wind-force size of dust catcher in real time, and then judge whether occur because of blocking The problem of overlond running；Dust collect plant also carried out the fibrous material in sucking sweep-up pipe by dismountable coarse filtration component Filter, avoids fibrous material from entering in the air inlet and dust-collecting cavity body of dust collect plant, results in blockage or influences filter effect；Power Overload protecting circuit in device is connect with the airspeedometer, temperature when being rotated according to the wind speed of measurement and motor of dust collector Degree, controls the operating status of motor of dust collector, avoids overloading.

Spinning workshop dust catcher provided by the present application can reduce larger fiber impurity and be inhaled into dust catcher, reduce stifled Fill in probability；Coarse filtration component, overload protection cavity and overload protecting circuit are set to avoid dust catcher from being in overload work for a long time State prevents motor overheating from burning, and solves the problems, such as that conventional cleaners are easy to cause motor of dust collector to damage because of blocking.

Description of the drawings

In order to illustrate more clearly of the technical solution of the application, letter will be made to attached drawing needed in the embodiment below Singly introduce, it should be apparent that, for those of ordinary skills, without creative efforts, also It can be obtain other attached drawings according to these attached drawings.

Fig. 1 is a kind of spinning workshop structure of dust collector schematic diagram；

Fig. 2 is the structural schematic diagram of shearing mechanism；

Fig. 3 is the structural schematic diagram of spinning workshop dust catcher one embodiment；

Fig. 4 is powerplant configuration schematic diagram；

It illustrates：

Wherein, 1- dust exhaust apparatuses；11- sweep-up pipes；12- cleans connector；The anti-blocking items of 13-；14- shearing mechanisms；141- moving knife Piece；142- fixed blades；15- cylinders；16- handheld components；2- dust collect plants；21- dust-collecting cavities；22- dust bags；23- air inlets； 24- overload protection cavitys；25- airspeedometers；26- coarse filtration components；261- strainers；262- annular projections；The anti-blocking components of 27-；3- is dynamic Power apparatus；31- motor of dust collector；32- governors；33- overload protecting circuits.

Specific implementation mode

It is a kind of structural schematic diagram of spinning workshop dust catcher referring to Fig. 1.

Spinning workshop dust catcher provided by the present application, including：Dust exhaust apparatus 1, dust collect plant 2 and power plant 3；

The dust exhaust apparatus 1 includes sweep-up pipe 11 and cleaning connector 12 in 11 one end of the sweep-up pipe is arranged, described The end face edge for cleaning connector 12 is uniformly arranged the anti-blocking item of several columns 13；It is additionally provided with shearing mechanism inside the cleaning connector 12 14, cutting blade 141 and with the cutting blade 141 hinged fixed blade 142 of the shearing mechanism 14 including connection cylinder 15, The fixed blade 142 is fixed on the shell inside the cleaning connector 12.

The dust exhaust apparatus 1 for providing the cleaning connector 12 for preventing the fibrous material in spinning workshop from blocking, so as to Operation dust catcher is dusted work in spinning workshop.In dust exhaust apparatus 1, cleans connector 12 and pass through sweep-up pipe 11 and dust collect plant 2 connections, form dust absorption passage, and the negative pressure generated using motor of dust collector is sucked dust.It is uniformly arranged on cleaning connector 12 The anti-blocking item of several columns 13 can form smaller adsorption space cleaning between connector 12 and contact surface, avoid area larger Fibrous material enters in sweep-up pipe 11, meanwhile, anti-blocking item 13 also by the feed separation in cleaning connector 12 and generating, avoids spinning Material is polluted and is destroyed by dust catcher suction-operated.

It is hinged on by cutting blade 141 and fixed blade 142 as shown in Fig. 2, cleaning the shearing mechanism 14 that 12 inside of connector is arranged It forms together, two kinds of blades are respectively provided with cutting edge, and fit closely, and cutting blade 141 is connect with cylinder 15, and cylinder 15 can drive dynamic Blade 141 carries out shear action.Shearing mechanism 14 is used to, when dust catcher sucks fibre strip material or filament material, to twine Around or involve portion in the device spinning material cut, avoid spinning material block sweep-up pipe 11.

The dust collect plant 2 includes dust-collecting cavity 21 and the dust bag 22 being arranged in the dust-collecting cavity 21；The dust Chamber 21 is equipped with cylindric air inlet 23, and the air inlet 23 runs through the side wall of the dust-collecting cavity 21, and in 21 side of the dust-collecting cavity The overload protection cavity 24 coaxial with the air inlet 23 is equipped on the outside of wall, the overload protection cavity 24 is internally provided with airspeedometer 25。

As shown in figure 3, the dust collect plant 2 further includes cylindric coarse filtration component 26, the overload protection cavity 24 passes through The coarse filtration component 26 is connect with the sweep-up pipe 11, and an end face of the coarse filtration component 26 is equipped with strainer 261, the coarse filtration The other end of component 26 is equipped with annular projection 262, and the annular projection 262 is bolted on the overload protection cavity On 24 end face；The inner wall of the coarse filtration component 26 is equipped with screw thread, and the sweep-up pipe 11 is connected through a screw thread the coarse filtration component 26。

When the dust collect plant 2 works for being detached the air sucked in dust catcher with impurity, and detecting dust catcher Wind speed, with judge motor of dust collector 31 whether be in overload.In the present embodiment, dust is with air-flow by cleaning connector 12 Enter in overload protection cavity 24 with sweep-up pipe 11, is first isolated by the larger fibrous material of volume in 26 dust of coarse filtration component Come, then entered in dust-collecting cavity 21 by overload protection cavity 24, realizes that dust is detached with air by the effect of dust bag 22, point Pure air from after is discharged by gas vent.The airspeedometer 25 being arranged in overload protection cavity 24 can be tested into dust catcher In speed air flow, judge the size of dust-absorbing strength, to judge motor of dust collector 31 whether be in overlond running state. Obviously, the main reason for 31 overlond running of motor of dust collector is exactly to block, and wind-force can be decreased obviously when blocking, therefore pass through detection Wind speed can directly judge overlond running situation.

As shown in figure 4, the power plant 3 includes motor of dust collector 31, governor 32 and overload protecting circuit 33, In, the motor of dust collector 31 connects the governor 32 and its speed governing panel, and the overload protecting circuit 33 connects the wind Speed meter 25；

The power plant 3 generates dust suction effect for providing negative pressure.In addition, overload protecting circuit 33 passes through airspeedometer 25 measurement result and the operating status of motor of dust collector 31, such as temperature, electric current etc. judge that the motor of dust collector 31 is It is no to be in overlond running；If motor of dust collector 31 is overlond running, protection circuit can power off, and make the motor of dust collector 31 It is stopped, motor overheating is avoided to damage.

In a kind of technical solution, the fixed blade 142 be double-layer blades structure, 142 two blades of the fixed blade it Between distance be equal to the cutting blade 141 thickness.Due to fibrous material soft texture, cannot cut easily, therefore this implementation In example, fixed blade 142 is arranged to biplate, by coordinating with cutting blade 141, convenient for cutting off fibrous material.

In a kind of technical solution, the inner wall of the dust-collecting cavity 21 is additionally provided with anti-blocking component 27, and the anti-blocking component 27 is Be positioned close to the rib of the air inlet 23, the anti-blocking component 27 be used for by the dust bag 22 and the air inlet 23 every It opens, the dust bag 22 is avoided to block the air inlet 23.In actual use, 22 soft texture of dust bag, in dust catcher electricity It is easy to cover the air inlet 23 under the action of machine 31, dust bag 22 is made to block air inlet 23, in turn result in blocking and increase suction The load of dirt device motor 31.Therefore, dust bag 22 and air inlet 23 be separated as possible when dust catcher works.This implementation In example, in order to separate dust bag 22 and air inlet 23, using anti-blocking component 27, anti-blocking component 27 are arranged near air inlet 23 Dust bag 22 and air inlet 23 are separated by rib, make dust by the several ribs being provided on 21 inner wall of the dust-collecting cavity Bag 22 is not readily accessible to air inlet 23.The thickness of rib should be as possible arranged wider under the premise of not influencing dust collecting effect, with Dust bag 22 is set to be spaced at a distance from enough between the air inlet 23.

In a kind of technical solution, the outer diameter of the coarse filtration component 26 is less than or equal to the interior of the overload protection cavity 24 Diameter, the internal diameter of the coarse filtration component 26 are equal to the outer diameter of the sweep-up pipe 11.In the present embodiment, first the coarse filtration component 26 is pacified In the overload protection cavity 24, it is fixed by bolt.The sweep-up pipe 11 is threadedly attached to again described The inner wall of coarse filtration component 26.Therefore, the outer diameter of coarse filtration component 26 is set smaller than or equal to the overload protection cavity 24 Internal diameter, can be in order to the installation and removal in use of coarse filtration component 26, and set the internal diameter of the coarse filtration component 26 to In the outer diameter of the sweep-up pipe 11, it is ensured that be connected through a screw thread between two components, and increase leakproofness, prevent dust It sheds.

In a kind of technical solution, the sweep-up pipe 11 is wired hose, and the sweep-up pipe 11 and the cleaning connector The position of 12 connections is additionally provided with handheld component 16.Wired hose can ensure that dust absorption passage is not folded while bending, real Ensure the unimpeded of dust absorption passage while now flexibly mobile.Handheld component 16 is the larger tubular knot of opposite wired hose hardness Structure can provide holding area for cleaning personnel in use and facilitate cleaning.Further, can be arranged in the handheld component 16 The control of cylinder 15 switchs, to be cut when there is fibrous matter blocking.

By above technical scheme it is found that spinning workshop dust catcher provided by the present application includes dust exhaust apparatus 1, dust collect plant 2 And power plant 3, in actual use, power plant 3 is that entire dust catcher internal cavity generates negative pressure, passes through dust exhaust apparatus 1 The suction of generation sucks dust in environment, then realizes dust separation and filtering by dust collect plant 2, completes dust removal process.Its In, cleaning connector 12 and shearing mechanism 14 in dust exhaust apparatus 1 can prevent cotton-wool in spinning workshop or yarn product from being inhaled because of sucking Dirt pipe 11 and caused by block；Airspeedometer 25 in dust collect plant 2 can detect the wind-force size of dust catcher in real time, and then judge Whether because of blocking there is the problem of overlond running；Dust collect plant 2 is also by dismountable coarse filtration component 26 to sucking sweep-up pipe In fibrous material be filtered, avoid fibrous material from entering in the air inlet 23 and dust-collecting cavity 21 of dust collect plant 2, cause to block up Plug influences filter effect；Overload protecting circuit 33 in power plant 3 is connect with the airspeedometer 25, according to the wind speed of measurement And temperature when motor of dust collector rotation, the operating status of motor of dust collector 31 is controlled, long term overloading is avoided to run.

Spinning workshop dust catcher provided by the present application can reduce larger fiber impurity and be inhaled into dust catcher, reduce stifled Fill in probability；Coarse filtration component 26, overload protection cavity 24 and overload protecting circuit 33 are set to avoid motor of dust collector 31 for a long time It in overload work state, prevents motor overheating from burning, solves conventional cleaners and be easy to cause motor of dust collector because of blocking The problem of damage.

Similar portion cross-reference between embodiment provided by the present application, specific implementation mode provided above is only It is several examples under the total design of the application, does not constitute the restriction of the application protection domain.For those skilled in the art For member, any other embodiment expanded without creative efforts according to application scheme all belongs to In the protection domain of the application.

Claims (5)

1. a kind of spinning workshop dust catcher, which is characterized in that including dust exhaust apparatus (1), dust collect plant (2) and power plant (3)；

The dust exhaust apparatus (1) includes the cleaning connector (12) of sweep-up pipe (11) and setting in the sweep-up pipe (11) one end, The end face edge for cleaning connector (12) is uniformly arranged the anti-blocking item of several columns (13)；It is also set inside the cleaning connector (12) Have a shearing mechanism (14), the shearing mechanism (14) include connection cylinder (15) cutting blade (141) and with the cutting blade (141) hinged fixed blade (142), the fixed blade (142) are fixed on the internal shell of the cleaning connector (12)；

The dust collect plant (2) includes the dust bag (22) of dust-collecting cavity (21) and setting in the dust-collecting cavity (21)；It is described Dust-collecting cavity (21) is equipped with cylindric air inlet (23), and the air inlet (23) runs through the side wall of the dust-collecting cavity (21), and in institute It states dust-collecting cavity (21) side-wall outer side and is equipped with the overload protection cavity (24) coaxial with the air inlet (23), the overload protection chamber Body (24) is internally provided with airspeedometer (25)；

The dust collect plant (2) further includes cylindric coarse filtration component (26), and the overload protection cavity (24) passes through the coarse filtration Component (26) is connect with the sweep-up pipe (11), and an end face of the coarse filtration component (26) is equipped with strainer (261), the coarse filtration The other end of component (26) is equipped with annular projection (262), and the annular projection (262) is bolted on the overload and protects It protects on the end face of cavity (24)；The inner wall of the coarse filtration component (26) is equipped with screw thread, and the sweep-up pipe (11) is connected through a screw thread The coarse filtration component (26)；

The power plant (3) includes motor of dust collector (31), governor (32) and overload protecting circuit (33), wherein institute It states motor of dust collector (31) and connects the governor (32) and its speed governing panel, the overload protecting circuit (33) connects the wind Speed meter (25).

2. dust catcher according to claim 1, which is characterized in that the fixed blade (142) is double-layer blades structure, described The distance between (142) two blades of fixed blade are equal to the thickness of the cutting blade (141).

3. dust catcher according to claim 1, which is characterized in that the inner wall of the dust-collecting cavity (21) is additionally provided with anti-blocking component (27), the anti-blocking component (27) is the rib for being positioned close to the air inlet (23).

4. dust catcher according to claim 1, which is characterized in that the outer diameter of the coarse filtration component (26) is less than or equal to institute The internal diameter of overload protection cavity (24) is stated, the internal diameter of the coarse filtration component (26) is equal to the outer diameter of the sweep-up pipe (11).

5. dust catcher according to claim 1, which is characterized in that the sweep-up pipe (11) is wired hose, and the suction The position that dirt pipe (11) is connect with the cleaning connector (12) is additionally provided with handheld component (16).