CN111893694A - Raising needling machine with net inlet having dust absorption function - Google Patents

Abstract

A teasing needle machine with a dust absorption function at a net inlet belongs to the technical field of non-woven machinery. Including the frame, the gigging mechanism, acupuncture mechanism, shell the otter board, shell otter board lift guiding mechanism, needle beam actuating mechanism and traction mechanism, there is the net mouth in the left side of frame, there is the net mouth on the right side, needle beam actuating mechanism establishes the top in the frame, acupuncture mechanism is connected with needle beam actuating mechanism, gigging mechanism establishes in the frame and is located the below of acupuncture mechanism, gigging mechanism has the brush curtain, shell the otter board and shell otter board lift guiding mechanism and be connected, shell otter board lift guiding mechanism and establish in the frame in the middle cross beam towards one side of gigging mechanism, characteristics: the dust collector also comprises a brush curtain dust collection mechanism, and the position of the brush curtain dust collection mechanism corresponding to the net inlet is arranged on the frame and corresponds to the width direction of the brush curtain. The fiber dust entering between the brush wires is absorbed in time, so that the accumulation and the formation of scaling are avoided; the working efficiency is guaranteed; the cleaning effect ensures that the cohesive force and the releasing force of the hairbrush filaments cannot decline due to the lapse of time.

Description

Raising needling machine with net inlet having dust absorption function

Technical Field

The invention belongs to the technical field of non-woven machinery, and particularly relates to a raising needling machine with a dust collection function at a net inlet.

Background

The aforementioned teasing needle machines are also called jacquard teasing needle machines, teasing jacquard needle machines or needle jacquard needle machines. Needle machines are well known in the art and are not described in the published chinese patent literature, to name but a few, CN101492861B (automated multi-function needle machine), CN102373579B (endless needle machine), CN102677397B (structurally modified double-shaft needle machine), CN102677398A (double-shaft needle machine), CN102808290B (drum-type needle machine), CN106087258B (double-sided counter-needling machine), CN105734836A (a low-noise needle machine), CN106087259A (a high-speed double-shaft guiding counter-needling machine), and CN106988023A (a small-diameter blanket-in-blanket needle machine), etc. But not limited to, none of the aforementioned exemplified patents have a napping function.

The pile needle machine is developed or evolved based on the above needle machine, because for some nonwoven products, such as carpet, one of its faces needs to be brushed, otherwise the elasticity or softness of the carpet cannot be reflected, so that it is common to have an endless brush curtain, which is called a "ring curtain", moving in a cycle under working condition in the structural system of the pile needle machine (see "brush driving mechanism of pile needle machine" provided in CN2617795Y and CN 2637520Y). The brush curtain has a plurality of brushes organically combined, and the function of which can be fully understood by reading the patent documents not limited to the following examples, such as CN202181428U (brush cleaning device of a teasing needle machine), CN108625044B (a textile double-shaft needle machine), CN108179552A (jacquard teasing needle machine), and CN108085875A (structurally modified jacquard teasing needle machine), and so on.

From a reading of the above-mentioned patent documents relating to napping needle machines, in combination with the general knowledge in the art, it is known that during the needling process, the following problems are often encountered, which are both undesirable and objectively unavoidable: firstly, the short fiber can be accumulated between the hairbrush filaments of the hairbrush forming the hairbrush curtain; secondly, the short fibers can wind the brush filaments. The former will have a certain influence on the cohesion and release of the brush filaments, and the latter will, in severe cases, entangle the brush filaments and seriously affect the release. Both of the aforementioned conditions adversely affect the quality of the raised nonwoven product and also impair the useful life of the brush to some extent. The CN202181428U recommended cleaning device for brush curtain of raising needle machine and CN105256467B high frequency raising needle machine can remove impurities from brush curtain by impurity removing roller, which can be referred to paragraph 0015 and paragraph 0018 and paragraph 0064 of the specifications of these two patents. Both of these patent solutions are undoubtedly effective in removing the impurities from the fibers having a certain length, since they are capable of combing the bristles in a comb-like effect, removing the short fibers entangled in the brush filaments and accumulated between the brush filaments. However, since a certain gap is required to be maintained between the steel needle on the impurity removing roller and the brush plate, otherwise, the steel needle may damage the brush plate, so that fiber dust or fiber dust generated in the needling process is often difficult to remove or even impossible to remove by the steel needle after being attached to the brush plate, and stubborn scale deposits may be formed on the surface of the brush plate with the passage of time, and the cohesion and release elasticity of the brush filaments on the brush gradually decline. At present, the method for solving the problems mainly adopts an industrial dust collector or similar dust collection equipment to carry out manual operation cleaning regularly or irregularly, one of the defects of the mode is that the workload of online operators or professional equipment maintainers is increased without any reason; secondly, because the cleaning is carried out in a stop state, the working efficiency of the raising needling machine can be influenced; thirdly, the scale formed by the daily accumulation and the monthly accumulation is relatively stubborn, so that the effect of regular or irregular cleaning cannot meet the expected requirement; fourthly, because of the manual cleaning, the degree of the cleaning is different from person to person and cannot be considered by reasonable indexes. In view of the foregoing, there is a need for improvement, and for the applicant to make a long-lasting and useful search and repeat design, the technical solutions described below have been made in this context.

Disclosure of Invention

The invention aims to provide a raising needling machine which is beneficial to removing fiber dust entering between brush wires in an automatic mode in time during needling so as to avoid accumulating to a brush plate and forming scale, is beneficial to avoiding stopping machine and cleaning so as to ensure the working efficiency of equipment, is beneficial to embodying an ideal cleaning effect so as to effectively protect the brush wires and avoid the brush wires from losing holding force or reducing release force, and has a net inlet with a dust collection function, so that manual operation is convenient to abandon and the consistency of cleaning quality is ensured.

The invention aims to accomplish the task, and the invention provides a raising needle machine with a dust absorption function at a net inlet, which comprises a frame, a raising mechanism, a needling mechanism, a net stripping plate lifting adjusting mechanism, a needle beam driving mechanism and a drawing mechanism, wherein the left side of the frame is provided with the net inlet at a position corresponding to the raising mechanism, the right side of the frame is provided with the net outlet at a position corresponding to the drawing mechanism, the needle beam driving mechanism is arranged at the top of the height direction of the frame, the needling mechanism is arranged between the raising mechanism and the needle beam driving mechanism and is connected with the needle beam driving mechanism, the raising mechanism is arranged on the frame at a position corresponding to the position between the net inlet and the net outlet and is positioned below the needling mechanism, the raising mechanism is provided with a brush curtain, the net stripping plate is connected with the net stripping plate lifting adjusting mechanism at a position corresponding to the position between the brush curtain and the needling mechanism and is in a grid type structure, the net stripping plate lifting adjusting mechanism is arranged on one side, facing the raising mechanism, of a middle cross beam of the rack and is characterized by further comprising a brush curtain dust collection mechanism, wherein the brush curtain dust collection mechanism is arranged on the rack at a position corresponding to the net inlet and corresponds to the width direction of the brush curtain.

In a specific embodiment of the present invention, a brush curtain dust suction pipe support hole is formed in each of the facing wall bodies of the screen inlet portion of the frame, and the brush curtain dust suction mechanism is supported on the brush curtain dust suction pipe support hole in a state corresponding to the left side in the width direction of the brush curtain.

In another specific embodiment of the present invention, the brush curtain dust suction mechanism includes a dust suction pipe, a dust suction pipe cavity air duct plate, and a dust suction nozzle, wherein a dust outlet extends from one end and the other end of the dust suction pipe, the dust outlet is supported on the brush curtain dust suction pipe support hole and is connected to the negative pressure dust suction device through a pipeline in a use state, the dust suction pipe cavity air duct plate is disposed in the dust suction pipe cavity of the dust suction pipe, and a distance between the dust suction pipe cavity air duct plate and the dust suction nozzle is gradually increased from a middle portion of the dust suction pipe cavity air duct plate in a length direction toward the dust outlet in a symmetrical state, the dust suction nozzle is formed on a side of the suction pipe facing the brush curtain, and the dust suction nozzle is communicated with the dust suction pipe cavity and corresponds to a left side of the brush curtain in the width direction.

In another embodiment of the present invention, a dust suction pipe reinforcing and fixing frame is fixed to each of the facing wall bodies of the frame at the position corresponding to the lower side of the brush curtain dust suction pipe supporting hole, a pair of dust suction pipe reinforcing and fixing screws are provided to the dust suction pipe reinforcing and fixing frame, and one end and the other end of the dust suction pipe are fixed to the pair of dust suction pipe reinforcing and fixing screws.

In another specific embodiment of the present invention, a pair of dust suction pipe screw holes are respectively formed at one end and the other end of the dust suction pipe and at positions corresponding to the pair of dust suction pipe reinforcing and fixing screws, and the pair of dust suction pipe screw holes are fixed to the pair of dust suction pipe reinforcing and fixing screws.

In yet another embodiment of the present invention, the cross-sectional shape of the dust suction pipe is rectangular, and the shape of the dust outlet is a truncated cone.

In a more specific embodiment of the present invention, the duct plate of the suction duct has a V-shape.

In a further particular embodiment of the invention, the suction nozzle is flat in shape.

In yet a more specific embodiment of the present invention, the vacuum suction device is a vacuum blower or a vacuum pump.

In yet another specific embodiment of the present invention, the large diameter end of the truncated cone shape faces the dust suction pipe and is welded to the dust suction pipe, and the small diameter end of the truncated cone shape extends out of the brush curtain dust suction pipe support hole.

One of the technical effects of the technical scheme provided by the invention is that when the brush curtain is in a moving state, the brush curtain is subjected to dust collection in an automatic mode by a brush curtain dust collection mechanism which is positioned at the screen inlet part of the rack and corresponds to the width direction of the brush curtain, so that fiber dust entering between brush wires of brushes forming the brush curtain is timely absorbed and removed, and accumulation and scaling formation can be avoided; secondly, because the brush curtain dust absorption mechanism and the brush curtain work simultaneously, the working efficiency of the equipment can be ensured without stopping for cleaning; because the brush curtain dust absorption mechanism absorbs dust by using negative pressure, the brush curtain dust absorption mechanism has ideal cleaning effect on the brush curtain, so that the cohesion force and the release force of the brush wires can be ensured not to decline due to the lapse of time; thirdly, because the dust collection process of the brush curtain does not need human participation, the expected cleaning quality can be ensured without the difference of the cleaning degree.

Drawings

FIG. 1 is a block diagram of an embodiment of the present invention.

Fig. 2 is a detailed structural view of the brush curtain dust suction mechanism shown in fig. 1.

Fig. 3 is a schematic view of the brush curtain dust suction mechanism shown in fig. 1 and 2 fixed to a wall body facing to the screen inlet of the frame at a position corresponding to the screen inlet.

Detailed Description

In order to clearly understand the technical spirit and the advantages of the present invention, the applicant below describes in detail by way of example, but the description of the example is not intended to limit the technical scope of the present invention, and any equivalent changes made according to the present inventive concept, which are merely in form and not in material, should be considered as the technical scope of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state of fig. 1, and thus, it should not be understood as a particular limitation to the technical solution provided by the present invention.

Referring to fig. 1, there are shown a frame 1, a raising mechanism 2, a needling mechanism 3, a screen peeling plate 4, a screen peeling plate lift adjusting mechanism 5, a needle beam driving mechanism 6 and a drawing mechanism 7, a left side of the frame 1 and a position corresponding to the raising mechanism 2 being formed with a screen inlet 11, a right side of the frame 1 and a position corresponding to the drawing mechanism 7 being formed with a screen outlet 12, the needle beam driving mechanism 6 being provided at a top portion in a height direction of the frame 1, the needling mechanism 3 corresponding to a position between the raising mechanism 2 and the needle beam driving mechanism 6 and being connected to the needle beam driving mechanism 6, the raising mechanism 2 being provided on the frame 1 and below the needling mechanism 3 at a position corresponding to a position between the screen inlet 11 and the screen outlet 12, the raising mechanism 2 having a brush curtain 21, the screen peeling plate 4 being connected to the screen peeling plate lift adjusting mechanism 5 at a position corresponding to a position between the brush curtain 21 and the needling mechanism 3 and the screen peeling plate 4 being in a grid type configuration, the stripping plate lifting adjusting mechanism 5 is arranged on one side of a frame middle beam 13 of the frame 1 facing the raising mechanism 2.

The above mentioned brush curtain 21 can be essentially referred to as a ring curtain, and the specific structure and function thereof can be referred to the patent documents mentioned in the above background art column by the applicant, that is, the structure and operation principle of the raising mechanism 2 and the brush curtain 21 thereof belong to the prior art, so that the applicant does not describe the structure and operation principle. The above-mentioned needling mechanism 3, the mesh stripping plate 4, the mesh stripping plate lifting and lowering adjusting mechanism 5, the needle beam of the structural system of the needling mechanism 3, the needle beam driving mechanism 6 for moving the needle bed up and down, and the drawing mechanism 7 are also in the prior art, and for example, reference may be made to the above-mentioned CN108085875A, CN108179552A, CN202181428U, and CN105256467B, so that the applicant does not need to describe any further.

The technical key points of the technical scheme provided by the invention are as follows: the structural system of the raising needle machine with the dust suction function at the air inlet also comprises a brush curtain dust suction mechanism 8, and the brush curtain dust suction mechanism 8 is arranged on the frame 1 at a position corresponding to the net inlet 11 and corresponds to the width direction of the brush curtain 21.

Referring to fig. 3, a circular brush curtain dust suction pipe support hole 14 is formed in each of the facing wall bodies of the frame 1 at the screen inlet 11, and the brush curtain dust suction mechanism 8 is supported by the brush curtain dust suction pipe support hole 14 in a state corresponding to the left side in the width direction of the brush curtain 21.

Referring to fig. 2, the brush curtain dust suction mechanism 8 includes a dust suction pipe 81, a dust suction pipe chamber air duct plate 82 and a dust suction nozzle 83, a dust outlet 811 extends from one end and the other end of the dust suction pipe 81, the dust outlet 811 is supported on the brush curtain dust suction pipe support hole 14, and the dust outlet 811 is connected to a negative pressure dust suction device as a peripheral auxiliary device through a pipe line in a use state, the dust suction pipe chamber air duct plate 82 is disposed in the dust suction pipe chamber 812 of the dust suction pipe 81, and a distance between the dust suction pipe chamber air duct plate 82 and the dust suction nozzle 83 is increased from a middle portion of the length direction of the dust suction pipe chamber air duct plate 82 toward the dust outlet 811 in a symmetrical state, which has a small and large trumpet effect to enhance a turbulent effect of suction air flow and satisfy excellent dust suction requirements, the dust suction nozzle 83 is formed on a side of the dust suction pipe 81 toward the brush curtain 21, the suction nozzle 83 communicates with the suction chamber 812 and at the same time corresponds to the left side in the width direction of the brush curtain 21.

As is apparent from the schematic view of fig. 2, the suction port 831 of the suction nozzle 83 facing the longitudinal direction from one side of the brush curtain 21 shown in fig. 1 is relatively narrow, i.e., in the form of a slit, so that dust and dirt between the brush filaments of the brushes constituting the brush curtain 21 can be effectively sucked out.

As shown in fig. 3, a suction pipe reinforcing and fixing frame 15 is preferably fixed by welding to each of the facing wall bodies of the frame 1 at the position corresponding to the lower side of the brush curtain suction pipe support hole 14, a pair of suction pipe reinforcing and fixing screws 151 are disposed on the suction pipe reinforcing and fixing frame 15, and one end and the other end of the suction pipe 81 are fixed to the pair of suction pipe reinforcing and fixing screws 151, respectively.

As shown in fig. 2, a pair of suction pipe screw holes 813 are formed at one end and the other end of the suction pipe 81 and at positions corresponding to the pair of suction pipe reinforcing and fixing screws 151, respectively, the pair of suction pipe screw holes 813 are fixed to the pair of suction pipe reinforcing and fixing screws 151, the cross-sectional shape of the suction pipe 81 is rectangular, and the shape of the dust outlet 811 is a truncated cone; the air duct plate 82 of the dust collection pipe cavity is V-shaped; the dust suction nozzle 83 is flat. The negative pressure dust suction device is a negative pressure fan, but a vacuum pump can also be used.

Still referring to fig. 2, the larger diameter end of the truncated cone faces the suction pipe 81 and is welded to the suction pipe 81, while the smaller diameter end of the truncated cone extends out of the brush curtain suction pipe support hole 14 and is connected to the vacuum cleaner through a pipe.

When the teasing needle machine is in a working state, i.e. the needle beam driving mechanism 6 (also called a link mechanism) drives the needle beam of the needling mechanism 3 to move up and down, the needle beam drives the needle bed fixed on the downward side to correspondingly move up and down, and the teasing fabric between the screen peeling plate 4 and the brush curtain 21 is teased by the needles arranged on the needle bed. Since fiber dust (dirt) in the fibers constituting the pile fabric enters between the brush wires of the brushes constituting the brush curtain 21, when the brush curtain 21 is in a working state, the suction ports 811 at both ends of the suction pipe 81 of the structural system of the brush curtain dust suction mechanism 8 are connected to the negative pressure suction device pipeline, so that the negative pressure suction device in the working state generates negative pressure to the suction pipe 81, and at the same time, the fiber dirt entering between the brush wires is sucked out by the suction nozzle 83, enters the suction pipe chamber 812, and is led out through the dust outlet 811. When the raising needle loom stops working, the negative pressure dust suction device also stops working, and the dust suction pipe 81 stops sucking dust.

In conclusion, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the invention task and truly realizes the technical effects of the applicant in the technical effect column.

Claims (10)

1. A fleece needling machine with a net inlet having a dust absorption function comprises a frame (1), a fleece mechanism (2), a needling mechanism (3), a net peeling plate (4), a net peeling plate lifting adjusting mechanism (5), a needle beam driving mechanism (6) and a drawing mechanism (7), wherein the left side of the frame (1) is provided with a net inlet (11) at a position corresponding to the fleece mechanism (2), the right side of the frame (1) is provided with a net outlet (12) at a position corresponding to the drawing mechanism (7), the needle beam driving mechanism (6) is arranged at the top of the height direction of the frame (1), the needling mechanism (3) is arranged between the fleece mechanism (2) and the needle beam driving mechanism (6) and is connected with the needle beam driving mechanism (6), the fleece mechanism (2) is arranged on the frame (1) at a position corresponding to the position between the net inlet (11) and the net outlet (12) and is arranged below the needle beam driving mechanism (3), this raising mechanism (2) has a brush curtain (21), shells otter board (4) and shells otter board lifting adjusting mechanism (5) and be connected and should shell otter board (4) and be the grid type structure corresponding to the position between brush curtain (21) and acupuncture mechanism (3), shells otter board lifting adjusting mechanism (5) and sets up in frame intermediate transverse beam (13) orientation of frame (1) one side of raising mechanism (2), its characterized in that still including a brush curtain dust absorption mechanism (8), this brush curtain dust absorption mechanism (8) is corresponding to the position setting of advancing net mouth (11) is in frame (1) and with the width direction of brush curtain (21) is corresponding.

2. The teasing needle loom with dust suction function at the net inlet according to claim 1, wherein a brush curtain dust suction pipe support hole (14) is formed in each of the facing wall bodies of the frame (1) at the net inlet (11), and the brush curtain dust suction mechanism (8) is supported on the brush curtain dust suction pipe support hole (14) in a state corresponding to the left side in the width direction of the brush curtain (21).

3. The pile needle loom having a dust suction function at a web inlet according to claim 2, wherein said brush curtain dust suction mechanism (8) comprises a dust suction pipe (81), a dust suction lumen airway plate (82) and a dust suction nozzle (83), a dust outlet (811) extends from one end and the other end of the dust suction pipe (81), the dust outlet (811) is supported on said brush curtain dust suction pipe support hole (14) and the dust outlet (811) is connected to the negative pressure dust suction device through a pipe line in a use state, the dust suction lumen airway plate (82) is disposed in the dust suction lumen (812) of the dust suction pipe (81), and a distance between the dust suction lumen plate (82) and the dust suction nozzle (83) is increased gradually toward said dust outlet (811) in a symmetrical state from a middle portion in a length direction of the dust suction airway plate (82), the dust suction nozzle (83) is formed at a side of the dust suction pipe (81) toward said brush curtain (21), the dust suction nozzle (83) communicates with the dust suction lumen (812) and at the same time corresponds to the left side in the width direction of the brush curtain (21).

4. The needle loom with a dust suction function at the net inlet according to claim 3, characterized in that a dust suction pipe reinforcing fixing frame (15) is fixed on each of the facing wall bodies at the net inlet (11) of the frame (1) at a position corresponding to the lower part of the brush curtain dust suction pipe supporting hole (14), a pair of dust suction pipe reinforcing fixing screws (151) is arranged on the dust suction pipe reinforcing fixing frame (15), and one end and the other end of the dust suction pipe (81) are fixed with the pair of dust suction pipe reinforcing fixing screws (151).

5. The teasing needle machine with the net inlet having the dust absorption function according to claim 4, characterized in that a pair of dust absorption pipe screw holes (813) are respectively formed at one end and the other end of the dust absorption pipe (81) and at positions corresponding to the pair of dust absorption pipe reinforcing and fixing screws (151), and the pair of dust absorption pipe screw holes (813) are fixed with the pair of dust absorption pipe reinforcing and fixing screws (151).

6. The raising needle loom with dust suction function at the net inlet according to claim 3, characterized in that the cross section of the dust suction pipe (81) is rectangular, and the dust outlet (811) is truncated cone.

7. The raising needle machine with the net inlet having the dust suction function according to claim 3, characterized in that the dust suction pipe cavity air channel plate (82) is V-shaped.

8. A teasing needle machine with dust suction function at the inlet of the net according to claim 3, characterized in that the shape of the dust suction nozzle (83) is flat.

9. The raising needle machine with the net inlet having the dust suction function according to claim 3, characterized in that the negative pressure dust suction device is a negative pressure fan or a vacuum pump.

10. The raising needle machine with the net inlet having the dust suction function according to claim 6, characterized in that the large diameter end of the cone frustum shape faces the dust suction pipe (81) and is welded with the dust suction pipe (81), and the small diameter end of the cone frustum shape extends out of the brush curtain dust suction pipe supporting hole (14).

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