CN215623028U - Automatic material collecting device for air conditioner wall hanging plate - Google Patents

Abstract

The application relates to an automatic material collecting device of air conditioner wall link plate. The device includes: k guide mechanisms, receiving agencies and control module, wherein, K is positive integer. One material guide mechanism comprises a material guide channel, a flow distribution plate, N channel partition plates and a mechanical transmission element, wherein N is a positive integer. The material guide channel is provided with a splitter plate and N channel partition plates which are movably connected with the material guide channel, a plurality of material guide channels can be formed through the matching of the splitter plate and the channel partition plates, the positions of the splitter plates are controlled through a mechanical transmission element, only one material guide channel in the plurality of material guide channels can be enabled not to be blocked by the splitter plate, the wall hanging plate is limited to move on the specific material guide channel, the wall hanging plate of the output is enabled to move to a material collecting box aligned with the material guide channel, and the automatic collection of the air conditioner wall hanging plate is achieved.

Description

Automatic material collecting device for air conditioner wall hanging plate

Technical Field

The application relates to the technical field of air conditioners, in particular to an automatic material collecting device for air conditioner wall hanging plates.

Background

At present, the coil stock is directly pushed away by the horizontal bullet of punching machine after the hanging plate is become to the punching press of punching machine, then freely scatters on a sheet metal passageway of receiving the material, and the indiscriminate landing of material is scattered, needs to carry out collecting, arrangement and vanning of hanging plate by the manual work.

The manual collection, arrangement and boxing of the wall hanging plates not only consume manpower and material resources, but also easily cause the mutual extrusion deformation of the wall hanging plates when the materials are piled up in a scattered manner on a sheet channel for receiving the materials. Meanwhile, the wall hanging plates are packed manually, and the problem of inaccurate counting of the quantity of materials is easily caused.

SUMMERY OF THE UTILITY MODEL

For the problem that exists among the prior art of overcoming, this application provides an automatic material collecting device of air conditioner wall link plate can realize that the automatic material of receiving of air conditioner wall link plate is put in order, is vanned and counts the wall link plate automatically through the device, has improved the efficiency of receiving the material.

The application provides an automatic material collecting device of air conditioner wall link plate, include:

k material guide mechanisms 10, material receiving mechanisms 20 and control modules, wherein K is a positive integer;

a material guiding mechanism 10 comprising: the device comprises a material guide channel 11, a flow distribution plate 12, N channel partition plates 13 and a mechanical transmission element; n is a positive integer;

the flow distribution plate 12 is movably arranged on the plane of the material guide channel 11, and forms N +1 material guide channels through the cooperation with the N channel partition plates 13;

the mechanical transmission element is connected with the splitter plate 12 and receives the instruction transmitted by the control module to control the movement of the splitter plate 12;

the receiving mechanism 20 includes: a material receiving box 21; the material receiving box 21 contains M rows of K x (N +1) material grids 22 for collecting the wall hanging plates 30, wherein M is a positive integer.

In one embodiment, the diverter plate 12 includes at least: a first splitter plate 121 and a second splitter plate 122;

a splitter plate through hole is formed in the material guide channel 11, and the splitter plate 12 can be lifted from the lower part of the plane of the material guide channel 11 through the splitter plate through hole, or the splitter plate 12 is lowered to the lower part of the plane of the material guide channel 11 through the splitter plate through hole;

when the first splitter plate descends, the splitter plates except the first splitter plate are all lifted, so that only one guide channel 14 in the guide channel can be used for the wall hanging plate 30 to pass through.

In one embodiment, the diverter plate 12 includes: a first splitter plate 121 and a second splitter plate 122;

the first splitter plate 121 and the second splitter plate 122 are connected to two side walls of the material guiding channel 11 by a revolute pair connection manner, so that the first splitter plate 121 and the second splitter plate 122 can rotate on the plane of the material guiding channel 11 around a connection point;

the material guide channel 11 is provided with N +2 rotating fixed points; of the N +2 rotation fixed points, two rotation fixed points are respectively located on two side walls of the material guide channel 11, and the other N rotation fixed points are respectively located at the separation end points of the N channel partition plates 13; the separation end point is one end of the channel partition plate far away from the material receiving box 21;

the rotation fixed points on the side walls of the first flow dividing plate 121 and the second flow dividing plate 122 are respectively used as a first rotation fixed point and an N +2 rotation fixed point, when the first flow dividing plate 121 rotates to the ith rotation fixed point, the second flow dividing plate 122 rotates to the (i +1) th rotation fixed point, so that only one material guide channel 14 in the material guide channel 11 can be used for the wall hanging plate to pass through, and i is a positive integer with the value range of 1 to N + 1.

In one embodiment, the material guiding mechanism 10 further includes: a steering mechanism 15;

the steering mechanism 15 is arranged on the side wall of the material guide channel 11, and when the wall hanging plate 30 enters the material guide channel 11, the steering mechanism 15 touches one end of the wall hanging plate 30, so that the wall hanging plate 30 rotates by an angle W by taking the touch point as a center;

the difference between the width of the material guide channel 11 and the width of the steering mechanism is smaller than the length of the wall hanging plate 30 and larger than the width of the wall hanging plate 30.

In one embodiment, the material guiding mechanism 10 further includes: a tool holder 16;

the tool support 16 is connected with the material guide channel 11 and used for elevating one end, which receives the wall hanging plate 30, of the material guide channel 11, so that the wall hanging plate can pass through the material guide channel 11 under the action of gravity.

In one embodiment, the material guiding mechanism further includes: a liftable bracket;

the lifting support is arranged at one end, connected with the material receiving box 21, of the material guide channel 11, and the lifting support can change the horizontal displacement of the wall hanging plate 30 in a falling mode through rising, so that the wall hanging plate 30 falls into the material grids 22 in different rows.

In one embodiment, the receiving mechanism further comprises: a transport mechanism;

the conveying mechanism is used for moving the material receiving box along the column direction of the material grids.

In one embodiment, the transfer mechanism comprises: a conveyor belt;

the conveyer belt is horizontally arranged below the material receiving box along the length direction of the material guide channel, so that the material receiving box can move along the column direction of the material grids.

The technical scheme provided by the application can comprise the following beneficial effects:

the scheme provides an automatic material receiving device, wherein a material guide channel is provided with a splitter plate and a plurality of channel partition plates which are movably connected with the material guide channel, a plurality of material guide channels can be formed by matching the splitter plate with the channel partition plates, and the position of the splitter plate is controlled by a mechanical transmission element, so that one or more material guide channels in the plurality of material guide channels are not blocked by the splitter plate, and the wall hanging plate is limited to move on a specific material guide channel, so that the produced wall hanging plate can move to a material receiving box aligned with the material guide channel, and the automatic collection of the air conditioner wall hanging plate is realized; meanwhile, the storage positions of the wall hanging plates are limited by the material grids in the material receiving box, so that the wall hanging plates are orderly stacked in the material receiving box, and the wall hanging plates are prevented from being deformed due to mutual extrusion; because the quantity of guide passageway is unanimous with the row number of receiving the material check in the material case, and guide passway mouth aligns with the material check one by one, consequently, after a material check is full of material, changes the guide passageway that supplies the wall link plate to remove through changing the flow distribution plate position to make the wall link plate remove to another empty material check, need not to remove about and receive the material case and can realize receiving the change of material position.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular descriptions of exemplary embodiments of the application, as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout the exemplary embodiments of the application.

Fig. 1 is a schematic structural view of an automatic receiving device for an air conditioner wall hanging plate shown in the embodiment of the application;

fig. 2 is another schematic structural diagram of the automatic material collecting device for the air conditioner wall hanging plate shown in the embodiment of the application.

Detailed Description

Preferred embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It should be understood that although the terms "first," "second," "third," etc. may be used herein to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

After punching machine output hanging plate, need the manual work to carry out collecting, arrangement and the vanning of hanging plate, not only consume manpower and materials, the material is in disorder piled up and still leads to the problem of hanging plate extrusion deformation each other on receiving the sheet metal passageway of material easily.

Example one

To the above problem, this application embodiment provides an automatic material collecting device of air conditioner wall link plate, can realize the automatic receipts material of wall link plate.

The technical solutions of the embodiments of the present application are described in detail below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an automatic material collecting device of an air conditioner wall hanging plate shown in the embodiment of the application.

Referring to fig. 1, automatic material collecting device of air conditioner wall link plate includes:

k material guide mechanisms 10, material receiving mechanisms 20 and control modules, wherein K is a positive integer;

a material guiding mechanism 10 comprising: the device comprises a material guide channel 11, a flow distribution plate 12, N channel partition plates 13 and a mechanical transmission element; n is a positive integer;

the flow distribution plate 12 is movably arranged on the plane of the material guide channel 11, and forms N +1 material guide channels 14 through the cooperation with the N channel partition plates 13;

the mechanical transmission element is connected with the splitter plate 12 and receives the instruction transmitted by the control module to control the movement of the splitter plate 12;

the receiving mechanism 20 includes: a material receiving box 21; the material receiving box 21 contains M rows of K x (N +1) material grids 22 for collecting the wall hanging plates 30, wherein M is a positive integer.

Above-mentioned automatic material collecting device of air conditioner hanging plate can be as shown in fig. 1, include: a material guiding mechanism 10, a material receiving mechanism 20 and a control module. This guide mechanism 10 includes: a material guide channel 11, a flow distribution plate 12, a channel partition plate 13 and a mechanical transmission element; the flow distribution plate 12 and the channel partition plate 13 are both arranged on the plane of the material guide channel 11 and are matched to form two material guide channels 14; the receiving mechanism 20 includes: a material receiving box 21; the material receiving box 21 contains five rows and two columns of material grids which are respectively aligned with the two material guide channels. In the practical application process, the automatic material collecting device for the air conditioner wall hanging plate can also be formed by two material guide mechanisms, material collecting mechanisms and control modules; wherein, a guide mechanism includes: the device comprises a material guide channel, a flow distribution plate, two channel partition plates and a mechanical transmission element; the flow distribution plate is matched with the two channel clapboards to form three material guide channels. Correspondingly, the material receiving box is internally provided with five rows and six columns of material grids which are respectively aligned with six material guide channels in the automatic material receiving device for the air-conditioning wall hanging plate and used for collecting the wall hanging plate.

It should be noted that, the value of the number K of the material guiding mechanisms, the value of the number N of the channel partition plates, and the value of the number M of the material receiving grid rows in the automatic material receiving device for the air conditioner wall hanging plate are all examples provided in the embodiment of the present application, and may be adjusted according to actual requirements, and should not be taken as a limitation to the present invention.

In the embodiment of the application, the material guide channel is a groove-shaped channel comprising two side walls and a plane, and the material guide channel is connected with the discharge port of the punching machine. After the punching machine punches the coil stock into the wall hanging plate, the wall hanging plate is pushed out from a discharge port of the punching machine, the wall hanging plate moves to the material guide channel due to the inertia effect, and the wall hanging plate moves to the flow distribution plate area along the material guide channel under the limitation of the side wall; through the cooperation of flow distribution plate and passageway baffle, the guide channel can be separated for a plurality of guide channels, and through the position that changes the flow distribution plate, can make a plurality of guide channel block by the flow distribution plate, only leaves the guide channel that can supply the wall link plate to pass through, and the wall link plate moves to the material check that corresponds in the material collecting box along this guide channel in, accomplishes the automatic receipts material of this wall link plate.

In the embodiment of the present application, the moving manner of the flow distribution plate includes: lifting or rotating; in the practical application process, the flow distribution plates can be respectively arranged on each material guide channel, the specific material guide channel openings are opened by controlling the lifting of the flow distribution plates, and the rest material guide channel openings are blocked; or one end of each of the two flow distribution plates is arranged on the side wall, and the two flow distribution plates are controlled to rotate to a specific position to block a plurality of material guide channels, so that only one material guide channel in the material guide mechanism is not blocked.

In the embodiment of the present application, the mechanical transmission element may include, but is not limited to, a cylinder, and it is understood that the present invention is not limited to the mechanical transmission element.

Further, the material guiding mechanism 10 in the embodiment of the present application further includes: a steering mechanism 15;

the steering mechanism 15 is arranged on the side wall of the material guide channel 11, and when the wall hanging plate 30 enters the material guide channel 11, the steering mechanism 15 touches one end of the wall hanging plate 30 so that the wall hanging plate 30 rotates by an angle W by taking the touch point as a center.

The difference between the width of the material guide channel 11 and the width of the steering mechanism is smaller than the length of the wall hanging plate 30 and larger than the width of the wall hanging plate 30.

Further, in practical applications, the steering mechanism 15 may be a baffle, a stop or a pulley disposed on a side wall of the material guiding channel.

It should be noted that in the embodiment of the present application, the implementation form of the steering mechanism is not limited to the above-mentioned baffle, stop block or pulley, that is, the implementation form of the steering mechanism given above should not be taken as a limitation to the present invention.

In the embodiment of the present application, the angle W ranges from 75 ° to 105 °.

Preferably, in the embodiment of the present application, the value of the angle W is 90 °.

Further, the material guiding mechanism 10 in the embodiment of the present application further includes: a tool holder 16;

the tool support 16 is connected with the material guide channel 11 and used for elevating one end, which receives the wall hanging plate 30, of the material guide channel 11, so that the wall hanging plate 30 can pass through the material guide channel 11 under the action of gravity.

In the practical application process, the tool support can be a height-fixed support or a height-adjustable support, and the inclination angle of the material guide channel in the horizontal direction can be changed by setting different support heights, so that the moving speed of the wall hanging plate on the material guide channel is changed.

The embodiment of the application provides an automatic material receiving device, wherein a material guide channel is provided with a splitter plate and a plurality of channel partition plates which are movably connected with the material guide channel, the splitter plate is matched with the channel partition plates to form a plurality of material guide channels, and the positions of the splitter plates are controlled by a mechanical transmission element, so that one or more material guide channels in the plurality of material guide channels are not blocked by the splitter plate, the wall hanging plate is limited to move on the specific material guide channel, the produced wall hanging plate is moved to a material receiving box aligned with the material guide channel, and the automatic collection of the air conditioner wall hanging plate is realized; meanwhile, the storage positions of the wall hanging plates are limited by the material grids in the material receiving box, so that the wall hanging plates are orderly stacked in the material receiving box, and the wall hanging plates are prevented from being deformed due to mutual extrusion; because the quantity of guide passageway is unanimous with the row number of receiving the material check in the material case, and guide passway mouth aligns with the material check one by one, consequently, after a material check is full of material, changes the guide passageway that supplies the wall link plate to remove through changing the flow distribution plate position to make the wall link plate remove to another empty material check, need not to remove about and receive the material case and can realize receiving the change of material position.

Example two

In correspondence with the device shown in the first embodiment, the embodiment of the present application will describe an implementation manner of the flow distribution plate in the device.

In the present embodiment, the flow distribution plate 12 includes at least: a first current splitting plate 121 and a second current splitting plate 122.

A splitter plate through hole is formed in the material guide channel 11, and the splitter plate 12 can be lifted from the bottom of the plane of the material guide channel 11 through the splitter plate through hole, or the splitter plate 12 is lowered below the plane of the material guide channel 11 through the splitter plate through hole;

when the first splitter plate 121 descends, the splitter plates except the first splitter plate all rise, so that only one guide channel in the guide channel can be used for the wall-hanging plate to pass through.

And defining the separation end point of the channel partition plate as one end of the channel partition plate far away from the material receiving box.

The case where the number of the flow distribution plates is 2 is taken as an example for explanation:

referring to fig. 1, the diverter plate 12 includes: a first splitter plate and a second splitter plate.

Correspondingly, the material guiding mechanism 10 has only one channel partition plate 13, and the channel partition plate 13 divides the material guiding channel into two material guiding channels 14.

One end of each of the first and second flow dividing plates is connected with two side walls of the material guide channel 11, and the other end is connected with a separation end point of the channel partition plate 14; when the first splitter plate rises and is positioned above the plane of the material guide channel, the second splitter plate descends to the position below the plane of the material guide channel, so that the material guide channel on one side of the first splitter plate is blocked by the first splitter plate, and the wall hanging plate passes through the material guide channel on one side of the second splitter plate and falls into the material grid aligned with the material guide channel; when the material grids are full of materials, the first flow dividing plate can be controlled to descend and raise the second flow dividing plate, so that the wall hanging plate can pass through the material guide channel on one side of the first flow dividing plate and fall into another empty material grid.

The case where the number of the flow distribution plates is 3 is taken as an example for explanation:

the flow distribution plate includes: the first splitter plate, the second splitter plate and the third splitter plate; the guide mechanism includes: a first channel separator and a second channel separator; the guide channel is divided into three parallel guide channels by the first channel partition plate, the second channel partition plate and two side walls of the guide channel.

Two ends of the first splitter plate are respectively connected with one side wall of the material guide channel and the separation end point of the first channel partition plate; two ends of the second flow dividing plate are respectively connected with the separation end points of the first channel partition plate and the second channel partition plate; two ends of the third splitter plate are respectively connected with the other side wall of the material guide channel and the separation end point of the second channel clapboard.

When the second flow distribution plate descends, the first flow distribution plate and the third flow distribution plate are lifted, so that three material guide channels are formed, only the middle material guide channel is not shielded by the flow distribution plate, and the wall hanging plate falls into the corresponding material grid along the middle material guide channel; after the material grids are full of materials, the second flow dividing plate is lifted, and the first flow dividing plate is lowered, so that the wall hanging plate can only fall into another empty material grid along the material guide channel on one side of the first flow dividing plate.

The flow distribution plate structure that this application embodiment shows makes a plurality of flow distribution plate have and only have a flow distribution plate to descend to the planar below of guide way at the same moment through controlling the flow distribution plate, all the other flow distribution plates all are in the planar top of guide way, keep off the guide passageway of corresponding position, thereby realize that the restriction hanging plate passes through specific guide passageway, fall into specific material check, thereby reach and not remove under the prerequisite of receiving the workbin along material check row direction, can switch the effect of material check promptly. The device need not the manual work and goes to adjust the relative position of material check and guide passageway, has saved the cost of labor of production process, has also improved the work efficiency that the wall cladding board was produced and is boxed.

EXAMPLE III

In correspondence with the device shown in the first embodiment, the embodiment of the present application will describe another implementation manner of the splitter plate in the device.

Fig. 2 is another schematic structural diagram of the automatic material collecting device for the air conditioner wall hanging plate shown in the embodiment of the application.

Referring to fig. 2, in the embodiment of the present application, the flow distribution plate 12 includes: a first current splitting plate 121 and a second current splitting plate 122.

The first splitter plate 121 and the second splitter plate 122 are connected to two sidewalls of the material guiding channel 11 by a rotating pair connection manner, so that the first splitter plate 121 and the second splitter plate 122 can rotate around the connection point on the plane of the material guiding channel 11.

The material guide channel 11 is provided with N +2 rotating fixed points; of the N +2 rotation fixed points, two rotation fixed points are respectively located on two side walls of the material guide channel 11, and the other N rotation fixed points are respectively located at the separation end points of the N channel partition plates 13; the separation end point is one end of the channel partition plate 13 far away from the material receiving box 21.

The rotation fixed points on the side walls of the first flow dividing plate 121 and the second flow dividing plate 122 are respectively used as a first rotation fixed point and an N +2 rotation fixed point, when the first flow dividing plate rotates to the ith rotation fixed point, the second flow dividing plate rotates to the (i +1) th rotation fixed point, so that only one material guide channel 14 in the material guide channel 11 can be passed by the wall hanging plate 30, and i is a positive integer with a value range of 1 to N + 1.

The case where the number of channel separators is 3 will be described as an example:

when the material guide mechanism comprises 3 channel clapboards, the material guide channel is divided into 4 material guide channels; taking the direction of the first flow dividing plate pointing to the second flow dividing plate as the positive direction, 4 material guiding channels can be defined as a first material guiding channel, a second material guiding channel, a third material guiding channel and a fourth material guiding channel in sequence along the positive direction, and 3 channel partition plates are defined as a first channel partition plate, a second channel partition plate and a third channel partition plate in sequence along the positive direction.

The process of controlling the direction of motion of the wall-hanging plate by the movement of the splitter plate is as follows:

when the first flow dividing plate is attached to the side wall of one side of the material guide channel, the second flow dividing plate rotates around the connecting point along the plane of the material guide channel until the movable end of the second flow dividing plate is connected with the separation end point of the first channel partition plate, at the moment, the second material guide channel, the third material guide channel and the fourth material guide channel are all shielded by the second flow dividing plate, and the wall hanging plate can only fall into the corresponding material grid A through the first material guide channel;

when the material grids A are full of materials, the first flow dividing plate and the second flow dividing plate rotate in the same direction by the same angle, so that the movable end of the first flow dividing plate is connected with the separation end point of the first channel partition plate and the movable end of the second flow dividing plate is connected with the separation end point of the second channel partition plate, the first material guide channel is shielded by the first flow dividing plate, the third material guide channel and the fourth material guide channel are shielded by the second flow dividing plate, and the wall hanging plate can only fall into the corresponding material grids B through the second material guide channel;

when the material grids B are full of materials, the first flow dividing plate and the second flow dividing plate rotate in the same direction by the same angle, so that the movable end of the first flow dividing plate is connected with the separation end point of the second channel partition plate and the movable end of the second flow dividing plate is connected with the separation end point of the third channel partition plate, the first material guide channel and the second material guide channel are both shielded by the first flow dividing plate, the fourth material guide channel is both shielded by the second flow dividing plate, and the wall hanging plate can only fall into the corresponding material grids C through the second material guide channel;

after the material grids C are full of materials, the first flow dividing plate and the second flow dividing plate rotate in the same direction for the movable end of the first flow dividing plate is connected with the separation end point of the third channel partition plate, the other side wall of the guide channel at the movable end of the second flow dividing plate is attached, the first guide channel, the second guide channel and the third guide channel are all shielded by the first flow dividing plate, and the wall hanging plate can only fall into the corresponding material grids D through the fourth guide channel.

Because the material grids A to D are positioned in different columns of the same row in the material receiving box, the rotation of the splitter plate can realize the switching of the columns of the current material receiving grids on the premise that the material receiving box does not move along the row direction.

The utility model provides a reposition of redundant personnel plate structure that shows, rotate through the control flow distribution plate and make two flow distribution plates at same moment, its expansion end meets with the both sides of same guide passageway respectively, all the other guide passageways are all sheltered from by two flow distribution plates, thereby realize that the restriction wall link plate passes through specific guide passageway, fall into specific material check, thereby reach and not remove under the prerequisite of collecting the workbin along material check capable direction, the effect of changeable material check promptly, the device need not the manual work and goes the relative position of adjusting material check and guide passageway, the cost of labor of production process has been saved, the work efficiency of wall link plate production vanning has also been improved.

Example four

Corresponding to the device shown in the first embodiment, the embodiment of the present application designs the implementation form of the material receiving function of the device.

A receiving mechanism 20, comprising: a material receiving box 21 and a conveying mechanism;

the conveying mechanism is used for moving the material receiving box along the column direction of the material grids.

The following are exemplary:

the transfer mechanism includes: and (4) a conveyor belt.

The conveyer belt is horizontally arranged below the material receiving box along the length direction of the material guide channel, so that the material receiving box can move along the column direction of the material grids.

In the embodiment of the application, after one row of the material grids in the material receiving box is filled, the conveyor belt drives the material receiving box to move one or more times of row spacing of the material grids along the column direction of the material grids, so that the empty material grids in the other row are aligned with the material guide channel at the moment.

It should be noted that the above description of the conveying mechanism is only an example of the embodiment of the present application, and in practical applications, other transmission devices may be adopted to enable the material receiving box to move along the direction of the material grid, for example, a mechanical gripper or an air cylinder pushing device.

It will be appreciated that the above description of the transfer mechanism should not be taken as limiting the utility model.

The material receiving mechanism shown in the embodiment of the application can drive the material receiving box to move through the conveying mechanism, so that after the material grids are full of materials, the material grids connected with the material guide channel are automatically switched, and the wall hanging plates can orderly fall into the material grids in the material receiving box; in addition, enough material collecting boxes can be placed on the conveying mechanism in advance, the material collecting boxes are driven to move horizontally through the movement of the transmission mechanism, the wall hanging plates are collected, and manual adjustment or replacement of the material collecting boxes is not needed; meanwhile, the material receiving box can be conveyed to the stacking station through the conveying mechanism, so that the production and transmission automation of a production line is completed, and the production efficiency is improved.

EXAMPLE five

Corresponding to the first embodiment, the embodiment of the present application shows another implementation form of the receiving function.

In the embodiment of the present application, the receiving mechanism 20 includes: a material receiving box 21; the material guiding mechanism 10 further includes: the support can be lifted.

The lifting support is arranged at one end, connected with the material receiving box 21, of the material guide channel 11, and the lifting support can change the horizontal displacement of the wall hanging plate in the falling process, so that the wall hanging plate 30 falls into material grids in different rows.

In this application embodiment, liftable support risees behind the take the altitude, and the horizontal direction displacement that the wall link plate produced in the material check along the guide passageway falls into will increase certain numerical value, and this numerical value equals the row spacing of a line of material check in the material receiving box, and at this moment, the guide passageway will be alignd with the empty material check of another line to reach the effect that the material check that the control wall link plate falls into was walked.

The embodiment of the application shows a liftable support, through the height of controlling this liftable support, can change the horizontal displacement of wall link plate whereabouts for the material check that the wall link plate finally falls into is in line and is taken place to change, thereby after the material check is full of material, switches over the material check of full material into empty material check automatically, carries out the collection of wall link plate, need not manual adjustment and receives the workbin, accomplishes the automation of receiving the material on the wall link plate production line, improves production efficiency.

The aspects of the present application have been described in detail hereinabove with reference to the accompanying drawings. In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments. Those skilled in the art should also appreciate that the acts and modules referred to in the specification are not necessarily required in the present application. It can be understood that the modules in the device according to the embodiment of the present application may be combined, divided, and deleted according to actual needs.

Having described embodiments of the present application, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (8)

1. The utility model provides an automatic material collecting device of air conditioner wall link plate which characterized in that includes:

k material guide mechanisms (10), material receiving mechanisms (20) and control modules, wherein K is a positive integer;

a material guiding mechanism (10) comprising: the material guiding device comprises a material guiding channel (11), a flow distribution plate (12), N channel partition plates (13) and a mechanical transmission element; n is a positive integer;

the flow distribution plate (12) is movably arranged on the plane of the material guide channel (11), and forms N +1 material guide channels through the matching with the N channel partition plates (13);

the mechanical transmission element is connected with the splitter plate (12) and receives the instruction transmitted by the control module to control the movement of the splitter plate (12);

the receiving mechanism (20) comprises: a material receiving box (21); the material receiving box (21) is internally provided with M rows of K x (N +1) material grids (22) for collecting the wall hanging plates (30), and M is a positive integer.

2. The automatic material collecting device for the air-conditioning wall hanging plate according to claim 1, wherein,

the diverter plate (12) comprises at least: a first flow dividing plate (121) and a second flow dividing plate (122);

a splitter plate through hole is formed in the material guide channel (11), and the splitter plate (12) can be lifted from the lower portion of the plane where the material guide channel (11) is located through the splitter plate through hole, or the splitter plate (12) is lowered to the lower portion of the plane where the material guide channel (11) is located through the splitter plate through hole;

when the first splitter plate descends, the splitter plates except the first splitter plate are all lifted, so that only one guide channel (14) in the guide channel can be used for the wall hanging plate (30) to pass through.

3. The automatic material collecting device for the air-conditioning wall hanging plate according to claim 1, wherein,

the diverter plate (12) includes: a first flow dividing plate (121) and a second flow dividing plate (122);

the first flow dividing plate (121) and the second flow dividing plate (122) are connected to two side walls of the material guiding channel (11) through a revolute pair connection mode respectively, so that the first flow dividing plate (121) and the second flow dividing plate (122) can rotate on the plane of the material guiding channel (11) around connection points respectively;

the material guide channel (11) is provided with N +2 rotating fixed points; of the N +2 rotating fixed points, two rotating fixed points are respectively positioned on two side walls of the material guide channel (11), and the other N rotating fixed points are respectively positioned at the separation end points of the N channel partition plates (13); the separation end point is one end of the channel partition plate, which is far away from the material receiving box (21);

the rotating fixed points on the side walls of the first flow dividing plate (121) and the second flow dividing plate (122) are respectively used as a first rotating fixed point and an N +2 rotating fixed point, when the first flow dividing plate (121) rotates to the ith rotating fixed point, the second flow dividing plate (122) rotates to the (i +1) th rotating fixed point, so that only one material guide channel (14) in the material guide channel (11) can be passed by the wall hanging plate, and i is a positive integer with the value range of 1-N + 1.

4. The automatic material collecting device of air conditioner hanging plate of claim 1, characterized in that, the material guiding mechanism (10) further comprises: a steering mechanism (15);

the steering mechanism (15) is arranged on the side wall of the material guide channel (11), and when the wall hanging plate (30) enters the material guide channel (11), the steering mechanism (15) touches one end of the wall hanging plate (30) so that the wall hanging plate (30) rotates by an angle W by taking a touch contact point as a center;

the difference between the width of the material guide channel (11) and the width of the steering mechanism is smaller than the length of the wall hanging plate (30) and larger than the width of the wall hanging plate (30).

5. The automatic material collecting device of air conditioner hanging plate of claim 1, characterized in that, the material guiding mechanism (10) further comprises: a tool holder (16);

the tool support (16) is connected with the material guide channel (11) and used for enabling one end, which receives the wall hanging plate (30), of the material guide channel (11) to be elevated, so that the wall hanging plate can pass through the material guide channel (11) under the action of gravity.

6. The automatic material collecting device of air conditioner wall cladding of claim 5, characterized in that, guide mechanism still includes: a liftable bracket;

the lifting support is arranged at one end of the material guide channel (11) connected with the material receiving box (21), and the lifting support can change the horizontal displacement of the wall hanging plate (30) in a falling mode through rising, so that the wall hanging plate (30) falls into material grids (22) in different rows.

7. The automatic material collecting device of air conditioner wall link plate of claim 1, characterized in that, receiving agencies still includes: a transport mechanism;

the conveying mechanism is used for moving the material receiving box along the column direction of the material grids.

8. The automatic material collecting device of air conditioner wall cladding board of claim 7, characterized in that, transport mechanism includes: a conveyor belt;

the conveyer belt is horizontally arranged below the material receiving box along the length direction of the material guide channel, so that the material receiving box can move along the column direction of the material grids.

Images