CN211516839U - Intermittent stable feeding device for processing ultrathin sheet - Google Patents

Abstract

The utility model discloses a very thin panel processing is with intermittent type nature loading attachment that stabilizes, including mounting bracket, motor, driving belt, rubber roller and accept the roller, the mounting bracket outside is fixed with the motor, and the output of motor is fixed with drive gear to drive gear and driven gear interconnect, driven gear fixes on first horizontal axis, drive gear and work gear interconnect, and work gear fix on the second horizontal axis to the second horizontal axis runs through the regulating plate, all be fixed with the rubber roller on first horizontal axis and the second horizontal axis. This intermittent type nature stabilizes loading attachment for ultrathin sheet processing adopts neotype structural design for this device can carry out intermittent type nature transportation to ultrathin sheet, guarantees that processing equipment has enough time to carry out the fine processing to the panel surface, and transport structure can adjust according to ultrathin sheet thickness, guarantees ultrathin sheet stability at the material loading in-process.

Description

Intermittent stable feeding device for processing ultrathin sheet

Technical Field

The utility model relates to a panel processing technology field specifically is an intermittent type nature is stabilized loading attachment for processing of ultrathin sheet material.

Background

The plate is a flat rectangular building material plate with flat appearance, large width-thickness ratio and large surface area per unit volume, is widely applied to the building industry, is used as a component of a wall, a ceiling or a floor, can be divided into a thin plate, a middle plate, a thick plate and an extra-thick plate according to the thickness, and is mainly made of wood and also made of metal.

With the continuous use of the plate materials, some buildings need to use ultrathin plates, and because the ultrathin plates are thinner, the following problems are found in the process of processing the surfaces of the ultrathin plates:

the surface processing of the ultrathin plate is fine, the traditional feeding device cannot intermittently transport the ultrathin plate, and the processing equipment cannot be guaranteed to have enough time for fine surface processing;

traditional panel thickness is thicker, and weight is great, can directly stably arrange conveyer belt or transmission roller in and transport processing, and the ultrathin sheet material is thinner, and current loading attachment can't adjust, can't stabilize the limit to ultrathin sheet material, so need design an ultrathin sheet material processing with intermittent type nature to above-mentioned problem and stabilize loading attachment.

Disclosure of Invention

An object of the utility model is to provide a very thin panel processing is with intermittent type nature stable feeding device to propose in solving above-mentioned background art and can't carry out intermittent type nature transportation to very thin panel, unable regulation, can't stabilize the problem of limit to very thin panel.

In order to achieve the above object, the utility model provides a following technical scheme: an intermittent stable feeding device for processing ultrathin plates comprises a mounting frame, a motor, a transmission belt, a rubber roller and a receiving roller, wherein the motor is fixed on the outer side of the mounting frame, a driving gear is fixed at the output end of the motor and is mutually connected with a driven gear, the driven gear is fixed on a first horizontal shaft, the first horizontal shaft penetrates through the mounting frame, the transmission belt is installed at the tail end of the first horizontal shaft, the transmission belt is mutually connected with a fixed shaft and a top shaft, the fixed shaft is installed on a movable plate, the movable plate is installed on the outer side of the mounting frame, a positioning bolt is installed on the lateral side of the movable plate and penetrates through a horizontal track groove, the horizontal track groove is formed in the mounting frame, the transmission gear is fixed on the top shaft, the top shaft penetrates through a regulating plate, the regulating plate is mutually connected with a limiting window, and the limiting, the utility model discloses a spacing window, including spacing window avris, drive gear and work gear, spacing window avris is installed with the function bolt, and the function bolt runs through perpendicular orbit groove to perpendicular orbit groove is seted up on the mounting bracket, drive gear and work gear interconnect, and work gear fix on the second horizontal axis, and the second horizontal axis runs through the regulating plate, all be fixed with the rubber roller on first horizontal axis and the second horizontal axis, the roller is accepted to the mounting bracket inboard installation.

Preferably, only 1/3 parts on the driving gear are distributed with tooth-shaped structures, and the driving gear is in meshed connection with the driven gear, and the driven gear has the same diameter with the transmission gear and the working gear.

Preferably, the positioning bolts are symmetrically distributed around the movable plate, the movable plate is in sliding connection with the mounting frame, and the positioning bolts are in sliding connection with the horizontal track groove.

Preferably, adjusting plate avris groove structure and spacing window are sliding connection, and adjusting plate bilateral symmetry distributes and have the function bolt to function bolt and perpendicular orbit groove are sliding connection.

Preferably, the working gear is in meshed connection with the transmission gear, and the centers of the working gear and the driven gear are on the same vertical line.

Compared with the prior art, the beneficial effects of the utility model are that: the intermittent stable feeding device for processing the ultrathin sheet adopts a novel structural design, so that the device can intermittently transport the ultrathin sheet, ensure that processing equipment has enough time to finely process the surface of the sheet, and ensure the stability of the ultrathin sheet in the feeding process, wherein the transport structure can be adjusted according to the thickness of the ultrathin sheet;

1. when the driving gear, the driven gear, the transmission gear, the working gear, the rubber roller and the receiving roller work, intermittent feeding and conveying operations can be carried out on the ultrathin sheet;

2. the distance between the rubber rollers can be adjusted by a structure consisting of the moving belt, the fixed shaft, the top shaft, the movable plate, the positioning bolt, the horizontal track groove, the transmission gear, the adjusting plate, the limiting window, the functional bolt, the vertical track groove and the second horizontal shaft, so that the rubber rollers can be tightly attached to ultrathin plates with different thicknesses.

Drawings

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

FIG. 2 is a schematic view of a side view cross-sectional structure of the adjusting plate of the present invention;

FIG. 3 is a schematic side view of the positioning bolt and the horizontal track groove of the present invention;

fig. 4 is a schematic top view of the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 4 according to the present invention.

In the figure: 1. a mounting frame; 2. a motor; 3. a drive gear; 4. a driven gear; 5. a first horizontal axis; 6. a drive belt; 7. a fixed shaft; 8. a top shaft; 9. a movable plate; 10. positioning the bolt; 11. a horizontal track groove; 12. a transmission gear; 13. an adjusting plate; 14. a limiting window; 15. a functional bolt; 16. a vertical track groove; 17. a second horizontal axis; 18. a working gear; 19. a rubber roller; 20. and a carrying roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an intermittent stable feeding device for processing ultrathin sheets comprises a mounting frame 1, a motor 2, a driving gear 3, a driven gear 4, a first horizontal shaft 5, a transmission belt 6, a fixed shaft 7, a top shaft 8, a movable plate 9, a positioning bolt 10, a horizontal track groove 11, a transmission gear 12, an adjusting plate 13, a limiting window 14, a functional bolt 15, a vertical track groove 16, a second horizontal shaft 17, a working gear 18, a rubber roller 19 and a receiving roller 20, wherein the motor 2 is fixed on the outer side of the mounting frame 1, the driving gear 3 is fixed at the output end of the motor 2, the driving gear 3 is connected with the driven gear 4, the driven gear 4 is fixed on the first horizontal shaft 5, the first horizontal shaft 5 penetrates through the mounting frame 1, the transmission belt 6 is installed at the tail end of the first horizontal shaft 5, the transmission belt 6 is connected with the fixed shaft 7 and the top shaft 8, the fixed shaft 7 is installed, and the movable plate 9 is installed outside the installation frame 1, and a positioning bolt 10 is installed at the side of the movable plate 9, the positioning bolt 10 penetrates through the horizontal track groove 11, the horizontal track groove 11 is formed in the installation frame 1, a transmission gear 12 is fixed on the top shaft 8, the top shaft 8 penetrates through the adjusting plate 13, the side of the adjusting plate 13 is connected with a limiting window 14, the limiting window 14 is formed in the installation frame 1, a functional bolt 15 is installed at the side of the limiting window 14, the functional bolt 15 penetrates through the vertical track groove 16, the vertical track groove 16 is formed in the installation frame 1, the transmission gear 12 is connected with a working gear 18, the working gear 18 is fixed on a second horizontal shaft 17, the second horizontal shaft 17 penetrates through the adjusting plate 13, rubber rollers 19 are fixed on the first horizontal shaft 5 and the second horizontal shaft 17, and a receiving roller 20 is installed inside the installation frame 1.

In the embodiment, only 1/3 parts of the driving gear 3 are distributed with tooth-shaped structures, the driving gear 3 is in meshed connection with the driven gear 4, and the diameters of the driven gear 4, the transmission gear 12 and the working gear 18 are the same, the above structural design enables the driving gear 3 to intermittently drive the driven gear 4 to rotate, and the diameter design enables 2 rubber rollers 19 to rotate at the same speed;

the positioning bolts 10 are symmetrically distributed about the movable plate 9, the movable plate 9 is connected with the mounting frame 1 in a sliding manner, and the positioning bolts 10 are connected with the horizontal track grooves 11 in a sliding manner, so that the movable plate 9 and the structures mounted on the movable plate 9 can slide on the outer side of the mounting frame 1 to perform displacement in the horizontal direction, and the positioning bolts 10 and the horizontal track grooves 11 play a role in stabilizing the displacement of the movable plate 9;

the side groove structure of the adjusting plate 13 is in sliding connection with the limiting window 14, functional bolts 15 are symmetrically distributed on two sides of the adjusting plate 13, the functional bolts 15 are in sliding connection with the vertical track grooves 16, the adjusting plate 13 and the structures installed on the adjusting plate 13 can slide in the limiting window 14 to perform displacement in the vertical direction due to the structural design, and the functional bolts 15 and the vertical track grooves 16 play a role in stabilizing the displacement of the adjusting plate 13;

the working gear 18 and the transmission gear 12 are in meshed connection, the centers of the working gear 18 and the driven gear 4 are on the same vertical line, the structural design enables the transmission gear 12 to stably drive the connection structure of the working gear 18 and the working gear 18 when rotating, and the positions of the working gear 18 and the driven gear 4 are designed to ensure that 2 rubber rollers 19 are on the same vertical line.

The working principle is as follows: when the device is used, firstly, the whole device is close to a plate processing device, the left side of the mounting frame 1 in the figure 1 is aligned to a feeding port of the device, and a plate needing to be fed is aligned to a gap between 2 rubber rollers 19 in the figure 2 and is inserted and placed on a receiving roller 20;

if the upper rubber roller 19 is higher and not in close contact with the plate, the nut mounted on the positioning bolt 10 in fig. 3 and the nut mounted on the functional bolt 15 in fig. 5 can be unscrewed, the positioning bolt 10 and the functional bolt 15 are no longer matched with the nuts respectively mounted, the positions of the movable plate 9 and the adjusting plate 13 are fixed, the movable plate 9 and the adjusting plate 13 can move freely, at this time, the adjusting plate 13 can be shifted downwards in the limiting window 14, the adjusting plate 13 slides downwards in the limiting window 14 and drives the functional bolt 15 to slide downwards in the vertical track groove 16, the upper rubber roller 19 in fig. 2 moves downwards along with the second horizontal shaft 17 and the adjusting plate 13, the bottom end of the upper rubber roller 19 is tightly attached to the plate placed on the lower rubber roller 19, 2 rubber rollers 19 clamp the plate, the nut mounted on the functional bolt 15 is screwed, the nut and the functional bolt 15 clamp the mounting frame 1, thereby fixing the position of the adjusting plate 13 and the structure mounted on the adjusting plate 13;

in the descending process of the adjusting plate 13, the top shaft 8 in fig. 1 descends along with the adjusting plate 13, the transmission belt 6 which is originally tightened by the first horizontal shaft 5, the fixed shaft 7 and the top shaft 8 in a triangular shape is loosened, in order to ensure that the transmission belt 6 can be tightened to normally work, the movable plate 9 is shifted to the direction far away from the first horizontal shaft 5, the movable plate 9 drives the positioning bolt 10 to stably slide leftwards along the horizontal track groove 11 outside the mounting frame 1, the movable plate 9 drives the fixed shaft 7 to be far away from the first horizontal shaft 5, the fixed shaft 7 pulls the loosened transmission belt 6 until the transmission belt 6 is tightened again, a nut mounted on the positioning bolt 10 is tightened, the positions of the movable plate 9 and the fixed shaft 7 are fixed, and the transmission belt 6 can play a normal transmission role;

then the motor 2 in figure 2 is powered by an external power supply circuit, the motor 2 drives the driving gear 3 in figure 1 to rotate clockwise through an output shaft of the motor 2, the driving gear 3 intermittently drives the driven gear 4 to rotate anticlockwise through a gear 1/3 on the driving gear 3, the driven gear 4 drives the rubber roller 19 below in figure 2 to rotate anticlockwise to convey the plate to the left side of the mounting frame 1 in figure 1 through a bearing arranged at the joint of the first horizontal shaft 5 and the first horizontal shaft 5, the driven gear 4 drives the fixed shaft 7 and the top shaft 8 to rotate anticlockwise through the driving belt 6 while the driven gear 4 rotates anticlockwise intermittently, the top shaft 8 drives the second horizontal shaft 17 provided with the working gear 18 to rotate clockwise through the driving gear 12, and the second horizontal shaft 17 drives the rubber roller 19 above through a bearing arranged at the joint of the second horizontal shaft 17 and the adjusting plate 13 in figure 2 to rotate clockwise, with the cooperation of the rubber roller 19 of below, carry out intermittent type nature transport to panel from upper and lower both sides respectively with the same speed, panel is carried to the processing equipment left and is processed for the effect of realization intermittent type nature transport that the device can be stable, and can stabilize spacingly to ultra-thin panel, guarantee the stability of ultra-thin panel in the transportation, this is the theory of operation of this ultra-thin panel processing with intermittent type nature stable feeding device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a very thin panel processing is with intermittent type nature stable feeding device, includes mounting bracket (1), motor (2), driving belt (6), rubber roller (19) and accepts roller (20), its characterized in that: the utility model discloses a motor-driven automatic transmission device, including mounting bracket (1), driven gear (5), driven gear (6), driving belt (6) are installed to first horizontal axis (5) end, and simultaneously driving belt (6) and fixed axle (7) and apical axis (8) interconnect, fixed axle (7) are installed on fly leaf (9), and fly leaf (9) are installed in the mounting bracket (1) outside, and fly leaf (9) avris installs positioning bolt (10), positioning bolt (10) run through horizontal orbit groove (11), and horizontal orbit groove (11) are seted up on mounting bracket (1), be fixed with drive gear (12) on apical axis (8), and apical axis (8) run through regulating plate (13) to regulating plate (13) avris and spacing window (14) interconnect, set up on mounting bracket (1) spacing window (14) simultaneously, function bolt (15) are installed to spacing window (14) avris, and function bolt (15) run through perpendicular orbit groove (16), and set up on mounting bracket (1) perpendicular orbit groove (16), drive gear (12) and work gear (18) interconnect, and work gear (18) fix on second horizontal axis (17), and second horizontal axis (17) run through regulating plate (13), all be fixed with rubber roller (19) on first horizontal axis (5) and second horizontal axis (17), receiving roller (20) are installed to mounting bracket (1) inboard.

2. The intermittent stable feeding device for ultrathin sheet processing as claimed in claim 1, characterized in that: only 1/3 parts on the driving gear (3) are distributed with tooth-shaped structures, the driving gear (3) is in meshed connection with the driven gear (4), and the driven gear (4) is the same as the transmission gear (12) and the working gear (18) in diameter.

3. The intermittent stable feeding device for ultrathin sheet processing as claimed in claim 1, characterized in that: the positioning bolts (10) are symmetrically distributed relative to the movable plate (9), the movable plate (9) is in sliding connection with the mounting frame (1), and the positioning bolts (10) are in sliding connection with the horizontal track groove (11).

4. The intermittent stable feeding device for ultrathin sheet processing as claimed in claim 1, characterized in that: adjusting plate (13) avris groove structure is sliding connection with spacing window (14), and adjusting plate (13) bilateral symmetry distributes has functional bolt (15) to functional bolt (15) are sliding connection with perpendicular orbit groove (16).

5. The intermittent stable feeding device for ultrathin sheet processing as claimed in claim 1, characterized in that: the working gear (18) is in meshed connection with the transmission gear (12), and the centers of the working gear (18) and the driven gear (4) are on the same vertical line.

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