CN111056290A - Filter intelligence production and processing is with multidirectional fortune material controlgear - Google Patents

Abstract

The invention discloses multidirectional material conveying control equipment for intelligent production and processing of filters, which comprises a base, material distributing frames, conveying frames and a material conveying device, wherein the base is provided with the material distributing frames and the conveying frames, the number of the conveying frames is 4, the conveying frames are fixedly arranged on different surfaces of the material distributing frames from high to low in sequence, and one end of the conveying frame, which is positioned in the material distributing frames, is rotatably provided with a rotating shaft; the material distributing frame is provided with transport frames in different directions, when the filter is produced, a plurality of production lines in different directions are communicated with water to work, the production lines in different directions are not affected with each other, the whole production line is more intelligent, and the working efficiency is improved; the position of the material conveying pipe can be changed by the driving of the third motor, so that the material conveying of different transport racks is facilitated, and when the material conveying of the resistance card in one transport rack is insufficient, the resistance card can be rapidly moved to the vicinity of the one transport rack for supplement; the transportation frame production lines in different directions avoid the situation that the production line is blocked when workers do not finish processing.

Description

Filter intelligence production and processing is with multidirectional fortune material controlgear

Technical Field

The invention relates to the technical field of filter processing, in particular to multidirectional material conveying control equipment for intelligent production and processing of a filter.

Background

The filter is a filter circuit consisting of a capacitor, an inductor and a resistor. The filter can effectively filter the frequency point of the specific frequency in the power line or the frequency outside the frequency point to obtain a power supply signal of the specific frequency, or eliminate the power supply signal of the specific frequency, the resistor disc is an important structure required by the filter in production, generally, the resistor disc is required to be transported from a storage cabin to a processing workshop, but the traditional transportation channel is single and not intelligent enough, most of the transportation channel is manually completed, the efficiency of manually transferring the resistor disc one by one and welding the resistor disc on the filter is low, and once the resistor disc in front is not processed in the transportation process, the subsequent resistor disc is retained on a transportation frame, the resistor disc is too large in number and falls on the ground, the production of the resistor disc and the filter is greatly influenced, so that the multidirectional transportation control equipment for intelligently producing and processing the filter is provided, to solve the problems set forth in the background art described above.

Disclosure of Invention

The purpose of the invention can be realized by the following technical scheme: a multidirectional conveying control device for intelligent production and processing of filters comprises a base, material distributing frames, conveying frames and a conveying device, wherein the base is provided with the material distributing frames and the conveying frames, the conveying frames are 4 in number and are fixedly mounted on different surfaces of the material distributing frames sequentially from high to low, one end of each conveying frame, which is positioned inside each material distributing frame, is rotatably provided with a rotating shaft, a supporting plate is arranged on each rotating shaft, a backing plate is arranged inside each material distributing frame, a first motor is arranged on each backing plate, the output end of each first motor and one end of each rotating shaft are respectively provided with a rotating roller, a belt is arranged between every two adjacent rotating rollers in a transmission mode, and the supporting plates are driven to rotate;

the material distributing frame is characterized in that a material conveying device is arranged on the material distributing frame and comprises a material conveying pipe, a switching ring, a second motor and a slide rail, the material conveying pipe is inserted into the material distributing frame, a frame plate and a driven gear are arranged at the upper end of the material conveying pipe, the switching ring is rotatably arranged at the lower end of the material conveying pipe, a material discharging frame is welded on the switching ring, a guide rod is vertically arranged on the material discharging frame, the upper end of the guide rod penetrates through the material distributing frame and is vertically connected with the driven gear, the second motor is fixed on the frame plate, the output end of the second motor is provided with a driving gear, and the; the material distributing frame is provided with a mounting frame, a third motor is arranged on the mounting frame, the output end of the third motor rotates to be provided with a threaded screw rod, and one end of the frame plate is sleeved on the threaded screw rod in a threaded mode.

Preferably, the upper surface welding of base has the bracing piece and supports the board, and the upper end of bracing piece is connected with the lower surface of branch work or material rest is perpendicular, supports the board and is connected with the one end of transportation frame, and wherein, its end of the transportation frame of lower extreme is connected with the surface of base.

Preferably, the one end welding of transportation frame has the fixed block, and the pivot rotates and sets up on the fixed block, the one end welding of backup pad has the connecting block, and the end of connecting block is equipped with the connecting plate, and the tip welding of connecting plate sets up in the pivot, works as when the backup pad rotates to the one end with the transportation frame and keeps parallel, goes out the work or material rest and rotates to the backup pad, and its one end export is just to the transportation frame.

Preferably, the outside welding of adapter ring has to support the piece, and the lower extreme of guide arm is connected with supporting the piece perpendicularly, and the upper end and the lower extreme of conveying pipeline all rotate and are equipped with the spacing ring, and the one end of spacing ring is equipped with the stopper, and the guide arm runs through the stopper setting, and the guide arm drive spacing ring rotates.

Preferably, the upper surface of the material distributing frame is vertically provided with a sliding rail, and one end of the frame plate is slidably sleeved on the guide rail.

Preferably, the use method of the multidirectional material conveying control equipment for intelligent filter production and processing comprises the following steps:

adjusting the position of a support plate, starting a first motor, driving a rotating shaft to rotate by the first motor, driving the support plate to rotate by the rotating shaft until the support plate is parallel to one end of a transport frame, and keeping the positions of support plates on other transport frames unchanged;

step two, a second motor is started, the second motor drives a driven gear to rotate, a guide rod connected with the driven gear synchronously rotates to drive a discharging frame to rotate until one end of the discharging frame is opposite to the position of a transport frame needing to be transported, and the second motor is turned off;

step three, starting a third motor, driving a threaded screw rod to rotate by the third motor, moving the conveying pipe downwards until a switching ring rotationally arranged at the bottom of the conveying pipe is contacted with the upper surface of a supporting plate, positioning a discharging frame on a conveying frame, adding resistance cards into the conveying pipe, and finally conveying the resistance cards to the conveying frame along with the discharging frame;

and step four, when the resistor disc is transported on the uppermost transport rack, stopping transporting the resistor disc into the transport pipe, starting the first motor, rotating the support plate to a position vertical to one end of the transport rack, rotating the support plate on the next group of transport racks to one end of the transport rack to be parallel, moving the discharge rack again to enable the discharge rack to carry out work on the transport rack, and repeating the steps.

The invention has the beneficial effects that:

1. the material distributing frame is provided with the transport frames in different directions, when the filter is produced, water can be fed through a plurality of production lines in different directions to work, and the production lines in different directions are not affected with each other, so that the whole production line is more intelligent, and the working efficiency is improved;

2. the position of the material conveying pipe can be changed by the driving of the third motor, so that the material conveying of different transport racks is facilitated, and when the material conveying of the resistance card in one transport rack is insufficient, the resistance card can be rapidly moved to the vicinity of the one transport rack for supplement;

3. compared with the prior art, the invention avoids the situation of production line blockage caused by excessive resistance cards on the transport frame when workers do not finish processing by arranging the transport frame production lines in different directions.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a transport rack of the present invention;

FIG. 3 is a schematic view of a feeding device of the present invention;

FIG. 4 is a schematic view of a support plate of the present invention;

fig. 5 is a schematic cross-sectional view of the material dispenser of the present invention.

In the figure: the automatic feeding device comprises a base 1, a support rod 11, a support plate 12, a material distributing frame 2, a conveying frame 3, a fixing block 31, a rotating shaft 32, a first motor 33, a base plate 331, a rotating roller 332, a belt 333, a support plate 4, a connecting block 41, a material conveying device 5, a material conveying pipe 51, a support plate 511, a driven gear 512, a switching ring 52, a material discharging frame 521, a support block 522, a guide rod 523, a limiting ring 53, a second motor 54, a driving gear 541, a sliding rail 55, a mounting frame 6, a third motor 61 and a threaded screw rod 62.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a multidirectional conveying control device for intelligent production and processing of filters comprises a base 1, a material distributing frame 2, a conveying frame 3 and a conveying device 5, wherein the material distributing frame 2 and the conveying frame 3 are arranged on the base 1, the number of the conveying frames 3 is 4, the conveying frames are sequentially and fixedly arranged on different surfaces of the material distributing frame 2 from high to low, and the conveying frames 3 are arranged on different surfaces of the material distributing frame 2, so that production lines in different directions are not influenced by each other conveniently, the whole production line is more intelligent, and the working efficiency is improved; one end of the conveying frame 3, which is positioned inside the material distributing frame 2, is rotatably provided with a rotating shaft 32, the rotating shaft 32 is provided with a supporting plate 4, a backing plate 331 is arranged inside the material distributing frame 2, the backing plate 331 is provided with a first motor 33, the number of the backing plate 331, the number of the first motors 33 and the number of the conveying frames 3 are consistent, the output end of each first motor 33 and one end of the rotating shaft 32 are respectively provided with a rotating roller 332, a belt 333 is arranged between every two adjacent rotating rollers 332 in a transmission manner, and the supporting plate 4 is driven to rotate;

the material distributing frame 2 is provided with a material conveying device 5, the material conveying device 5 comprises a material conveying pipe 51, an adapter ring 52, a second motor 54 and a slide rail 55, the material conveying pipe 51 is inserted inside the material distributing frame 2, the upper end of the material distributing frame 2 is provided with an insertion hole, one end of the material conveying pipe 51 enters the material distributing frame 2 along the insertion hole, the upper end of the material conveying pipe 51 is provided with a frame plate 511 and a driven gear 512, the lower end of the material conveying pipe 51 is rotatably provided with the adapter ring 52, the adapter ring 52 is welded with a material discharging frame 521, a guide rod 523 is vertically arranged on the material discharging frame 521, the upper end of the guide rod 523 penetrates through the material distributing frame 2 and is vertically connected with the driven gear 512, the frame plate 511 is fixed with the second motor 54, the output end of the second motor 54 is provided with a driving gear 541, the driving gear 541 is meshed with the driven gear 512, the diameter of the, the position of the discharging frame 521 can be conveniently and stably adjusted; the material distributing frame 2 is provided with an installation frame 6, the installation frame 6 is provided with a third motor 61, the output end of the third motor 61 is rotatably provided with a threaded screw rod 62, and one end of the frame plate 511 is sleeved on the threaded screw rod 62 in a threaded manner; the feed delivery pipe 51 can be driven by the threaded screw rod 62 to move up and down.

The upper surface of the base 1 is welded with supporting rods 11 and resisting plates 12, the number of the supporting rods 11 is 4, the upper ends of the supporting rods 11 are vertically connected with the lower surface of the material distributing frame 2, the resisting plates 12 are connected with one end of the transportation frame 3, and the tail end of the transportation frame 3 at the lowest end is connected with the surface of the base 1; one end of the abutting plate 12 is connected with the base 1, and the other end of the abutting plate is vertically connected with the surface of the material distributing frame 2.

The welding of the one end of transportation frame 3 has fixed block 31, and pivot 32 rotates and sets up on fixed block 31, and the welding of the one end of backup pad 4 has connecting block 41, and the end of connecting block 41 is equipped with the connecting plate, and the tip welding of connecting plate sets up on pivot 32, and when backup pad 4 rotated to keep parallel with the one end of transportation frame 3, go out the work or material rest 521 and rotate to backup pad 4, and its one end export just is transporting frame 3.

The outer side of the adapter ring 52 is welded with a resisting block 522, the installing direction of the resisting block 522 is opposite to that of the discharging frame 521, the lower end of the guide rod 523 is vertically connected with the resisting block 522, the upper end and the lower end of the conveying pipeline 51 are both rotatably provided with a limiting ring 53, one end of the limiting ring 53 is provided with a limiting block, the guide rod 523 penetrates through the limiting block, and the guide rod 523 drives the limiting ring 53 to rotate.

The upper surface of the material distributing frame 2 is vertically provided with a slide rail 55, and one end of the frame plate 511 is slidably sleeved on the guide rail.

The use method of the multidirectional material conveying control equipment for intelligent production and processing of the filter comprises the following steps:

step one, adjusting the position of the support plate 4, starting a first motor 33, driving a rotating shaft 32 to rotate by the first motor 33, driving the support plate 4 to rotate by the rotating shaft 32 until the support plate is parallel to one end of the transport frame 3, and keeping the positions of the support plates 4 on other transport frames 3 unchanged;

step two, starting the second motor 54, driving the driven gear 512 to rotate by the second motor 54, synchronously rotating the guide rod 523 connected with the driven gear 512 so as to drive the discharging rack 521 to rotate until one end of the discharging rack is aligned with the position of the transport rack 3 to be transported, and closing the second motor 54;

step three, starting a third motor 61, driving a threaded screw rod 62 to rotate by the third motor 61, moving the conveying pipe 51 downwards until an adapter ring 52 rotatably arranged at the bottom of the conveying pipe contacts with the upper surface of the support plate 4, positioning a discharge frame 521 on the transport frame 3, adding a resistance card into the conveying pipe 51, and finally transporting the resistance card to the transport frame 3 along with the discharge frame 521;

and step four, when the resistor disc is transported on the uppermost transport frame 3, stopping transporting the resistor disc into the transport pipe 51, starting the first motor 33 at the moment, rotating the support plate 4 to a position vertical to one end of the transport frame 3, and moving the discharge frame 521 again to enable the discharge frame to work on the transport frame 3 when the support plate 4 on the next group of transport frames 3 is rotated to one end of the transport frame 3 and is parallel, and so on, so that the production line of a plurality of transport frames 3 can work, and when the resistor disc in one transport frame 3 is not transported enough, the resistor disc can be rapidly moved to the vicinity of the transport frame to be supplemented.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Claims (6)

1. A multi-directional material conveying control device for intelligent production and processing of filters comprises a base (1), a material distributing frame (2), a conveying frame (3) and a material conveying device (5), it is characterized in that the base (1) is provided with a material distributing frame (2) and a transport frame (3), the number of the transport frame (3) is 4, and are fixedly arranged on different surfaces of the material distributing frame (2) from high to low in sequence, a rotating shaft (32) is rotatably arranged at one end of the transportation frame (3) positioned in the material distributing frame (2), a supporting plate (4) is arranged on the rotating shaft (32), a backing plate (331) is arranged inside the material distributing frame (2), a first motor (33) is arranged on the backing plate (331), rotating rollers (332) are arranged at the output end of the first motor (33) and one end of the rotating shaft (32), a belt (333) is arranged between every two adjacent rotating rollers (332) in a transmission mode, and the belt (333) drives the supporting plate (4) to rotate;

a material conveying device (5) is arranged on the material distributing frame (2); the material conveying device (5) comprises a material conveying pipe (51), an adapter ring (52), a second motor (54) and a sliding rail (55), wherein the material conveying pipe (51) is inserted into the material distributing frame (2), a frame plate (511) and a driven gear (512) are arranged at the upper end of the material conveying pipe (51), the adapter ring (52) is arranged at the lower end of the material conveying pipe (51) in a rotating mode, a material discharging frame (521) is welded on the adapter ring (52), a guide rod (523) is vertically arranged on the material discharging frame (521), the upper end of the guide rod (523) penetrates through the material distributing frame (2) and is vertically connected with the driven gear (512), the second motor (54) is fixed on the frame plate (511), a driving gear (541) is arranged at the output end of the second motor (54), and the driving gear (541) is meshed with the driven gear; be equipped with mounting bracket (6) on work or material rest (2), be equipped with third motor (61) on mounting bracket (6), the output of third motor (61) rotates and is equipped with screw lead screw (62), and the one end screw thread cover of frame plate (511) is established on screw lead screw (62).

2. The multidirectional conveying control equipment for intelligent filter production and processing according to claim 1, wherein a support rod (11) and a support plate (12) are welded on the upper surface of the base (1), the upper end of the support rod (11) is vertically connected with the lower surface of the material distributing frame (2), the support plate (12) is connected with one end of the conveying frame (3), and the tail end of the conveying frame (3) at the lowest end is connected with the surface of the base (1).

3. The multidirectional conveying control device for the intelligent production and processing of the filter according to claim 1, wherein a fixing block (31) is welded at one end of the conveying frame (3), a rotating shaft (32) is rotatably arranged on the fixing block (31), a connecting block (41) is welded at one end of the supporting plate (4), a connecting plate is arranged at the tail end of the connecting block (41), the end of the connecting plate is welded on the rotating shaft (32), when the supporting plate (4) rotates to be parallel to one end of the conveying frame (3), the discharging frame (521) rotates to the supporting plate (4), and an outlet at one end of the discharging frame is opposite to the conveying frame (3).

4. The multidirectional conveying control equipment for the intelligent production and processing of the filter as claimed in claim 1, wherein a resisting block (522) is welded to the outer side of the adapter ring (52), the lower end of the guide rod (523) is vertically connected with the resisting block (522), a limiting ring (53) is rotatably arranged at both the upper end and the lower end of the conveying pipe (51), a limiting block is arranged at one end of the limiting ring (53), the guide rod (523) penetrates through the limiting block, and the guide rod (523) drives the limiting ring (53) to rotate.

5. The multidirectional conveying control equipment for intelligent filter production and processing according to claim 1, wherein a sliding rail (55) is vertically arranged on the upper surface of the material distributing frame (2), and one end of the frame plate (511) is slidably sleeved on the sliding rail.

6. The multidirectional conveying control device for intelligent production and processing of the filter as claimed in claim 1, wherein the use method of the multidirectional conveying control device for intelligent production and processing of the filter comprises the following steps:

step one, adjusting the position of a support plate (4), starting a first motor (33), driving a rotating shaft (32) to rotate by the first motor (33), driving the support plate (4) to rotate by the rotating shaft (32) until the support plate is parallel to one end of a transport frame (3), and keeping the positions of the support plates (4) on other transport frames (3) unchanged;

step two, starting a second motor (54), driving a driven gear (512) to rotate by the second motor (54), synchronously rotating a guide rod (523) connected with the driven gear (512) so as to drive a discharging rack (521) to rotate until one end of the discharging rack is aligned with the position of a transport rack (3) needing to be transported, and closing the second motor (54);

step three, starting a third motor (61), driving a threaded screw rod (62) to rotate by the third motor (61), moving the conveying pipe (51) downwards until a switching ring (52) rotatably arranged at the bottom of the conveying pipe contacts with the upper surface of a support plate (4), arranging a discharging frame (521) on the transport frame (3), adding a resistance card into the conveying pipe (51), and finally transporting the resistance card to the transport frame (3) along with the discharging frame (521);

and step four, when the resistor disc is transported on the uppermost transport frame (3), stopping transporting the resistor disc into the transport pipe (51), starting the first motor (33), rotating the support plate (4) to a position vertical to one end of the transport frame (3), rotating the support plate (4) on the next group of transport frame (3) to one end of the transport frame (3) to be parallel, moving the discharge frame (521) again to enable the transport frame (3) to work, and repeating the steps so as to achieve the aim that the production line of the transport frames (3) can work, and when the resistor disc in one transport frame (3) is not transported enough, the resistor disc can be rapidly moved to the position nearby for supplement.

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