CN209902838U - Sanding machine for manufacturing decorative plate - Google Patents

Abstract

The sanding machine for manufacturing the decorative plate comprises a machine case, wherein a feeding hole and a discharging hole are formed in two side faces of the machine case respectively, a static removing brush is arranged at the discharging hole, a brush face of the static removing brush is used for being in contact with the surface of a plate, and a power connection wire of the static removing brush is used for conducting the ground. This sanding machine not only can carry out two-sided polishing to the burr on panel surface, can eliminate the static on the panel moreover.

Description

Sanding machine for manufacturing decorative plate

Technical Field

The utility model belongs to the sanding machine field, in particular to sanding machine for manufacturing decorative boards.

Background

In the production process of the decorative plate, burrs are generated on the surface of the plate, and a sanding machine is needed for eliminating the burrs on the surface of the plate; the existing sanding machine has the advantages that mutual friction is generated between the sanding roller and the plate in the using process, so that the plate is easy to generate static electricity, if a person contacts the plate, the static electricity on the plate can discharge to the human body, and although the static electricity can not cause life danger to the human body, the pain can be brought to the person. In addition, the existing sanding machine can only polish the burrs on the upper surface of the plate, if the plate needs to be subjected to double-sided deburring, the plate needs to be turned over manually, and the operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

In view of the technical problem that the background art exists, the utility model provides a make sanding machine of decorative board can not only carry out two-sided polishing to the burr on panel surface, can eliminate the static on the panel moreover.

In order to solve the technical problem, the utility model discloses following technical scheme has been taken and has been realized:

the sanding machine for manufacturing the decorative plate comprises a machine case, wherein a feeding hole and a discharging hole are formed in two side faces of the machine case respectively, a static removing brush is arranged at the discharging hole, a brush face of the static removing brush is used for being in contact with the surface of a plate, and a power connection wire of the static removing brush is used for conducting the ground.

In the preferred scheme, fixing rods are arranged at two ends of the static removing brush and connected with the fixing plates, and the fixing plates are arranged on the outer wall of the case.

In the preferred scheme, the fixed plate on cut and to have the spout, the dead lever runs through the spout setting, and the dead lever both ends are equipped with the external screw thread, the dead lever passes through the nut and is fixed with the fixed plate.

In the preferred scheme, a lower sanding roller is arranged in the case, an upper sanding roller is arranged above the lower sanding roller, a gap for allowing a plate to pass through is reserved between the lower sanding roller and the upper sanding roller, and the lower sanding roller and the upper sanding roller are driven to rotate by a first driving device;

a plurality of lower transmission rotating rollers are arranged in the case, the lower transmission rotating rollers and the lower grinding rotating rollers are positioned at the same horizontal height, and the rotating directions of the lower transmission rotating rollers and the lower grinding rotating rollers are opposite;

a plurality of upper transmission rotary rollers are arranged above the lower transmission rotary roller, and the upper transmission rotary rollers are matched with the lower transmission rotary rollers for transmitting the plates; the upper transmission roller and the lower transmission roller are driven to rotate by a second driving device.

In a preferred scheme, two lower transmission rotating rollers are respectively arranged on two sides of each lower grinding rotating roller, rotating shafts of the lower transmission rotating rollers are fixed on the side wall of a case through bearings, one ends of the rotating shafts of the four lower transmission rotating rollers are respectively provided with a first rotating wheel, a second rotating wheel, a third rotating wheel and a fourth rotating wheel, and the first rotating wheel, the second rotating wheel, the third rotating wheel and the fourth rotating wheel are all positioned on the same outer side of the case; the first rotating wheel and the second rotating wheel are in belt transmission, and the third rotating wheel and the fourth rotating wheel are in belt transmission;

the second driving device comprises a second motor, and a second driving rotating wheel is arranged at the front shaft end of the second motor; the first rotating wheel and the second driving rotating wheel are in belt transmission, and the fourth rotating wheel and the second driving rotating wheel are in belt transmission;

the upper transmission rotary rollers are respectively arranged above the lower transmission rotary rollers positioned on the outer side of the four lower transmission rotary rollers, the rotating shafts of the lower transmission rotary rollers and the upper transmission rotary rollers are respectively provided with lower gears and upper gears, the lower gears and the upper gears are positioned on the outer side of the case, and the lower gears and the upper gears are meshed.

In a preferable scheme, the first driving device comprises a first motor, and a front shaft of the first motor is provided with a first driving rotating wheel; the rotating shafts of the lower sanding roller and the upper sanding roller are fixed on the side wall of the case through bearings, one ends of the rotating shafts of the lower sanding roller and the upper sanding roller are respectively provided with a lower gear and an upper gear, the lower gear and the upper gear are positioned on the outer side of the case, and the lower gear and the upper gear are in meshing transmission; the rotating shaft of the lower sanding roller is connected with a fifth rotating wheel, and the fifth rotating wheel and the first driving rotating wheel are in transmission through a belt.

In the preferred scheme, the bottom of the case is provided with supporting legs, the supporting legs are horizontally provided with a bottom plate, and the first driving device and the second driving device are fixed on the bottom plate.

In a preferable scheme, friction layers are embedded on the surfaces of the lower transmission rotary roller and the upper transmission rotary roller.

In a preferred embodiment, the friction layer is rubber.

This patent can reach following beneficial effect:

1. the static electricity removing brush is arranged at the discharge port of the machine box, so that static electricity generated by friction of the plate is removed, operators are effectively prevented from being shocked by the static electricity, and meanwhile, the probability of fire caused by the static electricity is reduced;

2. the static removing brush is easy to wear and consume in use, the static removing brush is fixed on the sliding chute, when the static removing brush is seriously worn, the position of the static removing brush can be downwards adjusted, the installation height of the static removing brush can be adjusted, the static removing brush can be adjusted at any time according to the use condition, and the use is convenient;

3. the lower sanding roller and the upper sanding roller polish the upper surface and the lower surface of the plate of the decorative plate simultaneously, so that the polishing quality is improved, the traditional sanding machine can only polish burrs on the upper part of the plate, and the lower part of the plate is transported by adopting a belt transportation mode;

4. the lower sanding rotary roller and the upper sanding rotary roller are in meshing transmission through the lower gear and the upper gear, so that the lower sanding rotary roller and the upper sanding rotary roller can synchronously move in opposite directions, namely the upper sanding rotary roller synchronously rotates anticlockwise when the lower sanding rotary roller rotates clockwise;

5. the friction force between the lower transmission rotating roller and the plate and between the upper transmission rotating roller and the plate can be increased, the plate is favorably transported, and the plate is prevented from slipping;

6. rubber is selected for use as the friction layer because the friction force of rubber is bigger, and has elasticity, and it needs to be changed to take place to damage when rubber, can adopt microscler sheet rubber to change, and rethread glue bonding, convenient operation.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a structural diagram of the appearance of the present invention, which shows a side of the second driving device;

FIG. 2 is a partially enlarged view of the mounting position of the static removing brush of the present invention;

fig. 3 is a structural diagram of the appearance of the present invention, which shows a side of the first driving device;

FIG. 4 is a side view of the internal structure of the present invention;

FIG. 5 is a structural view of the lower driving roller of the present invention;

fig. 6 is the structure of the lower transmission roller of the present invention, and the friction layer is not installed at this time.

In the figure: the grinding machine comprises a machine box 1, a lower grinding roller 201, an upper grinding roller 202, a static removing brush 3, a fixing rod 301, a fixing plate 302, a sliding groove 303, a first driving device 4, a first driving rotating wheel 401, a lower transmission rotating roller 501, an upper transmission rotating roller 502, a second driving device 6, a second driving rotating wheel 601, a first rotating wheel 701, a second rotating wheel 702, a third rotating wheel 703, a fourth rotating wheel 704, a fifth rotating wheel 705, a lower gear 801, an upper gear 802, a bottom plate 9 and a friction layer 10.

Detailed Description

Example 1:

a preferred scheme is as shown in fig. 1 to 4, a sanding machine for manufacturing decorative plates comprises a machine case 1, wherein a feeding hole and a discharging hole are respectively formed in two side surfaces of the machine case 1; belt conveyors are arranged at the feed inlet and the discharge outlet of the case 1 and used for conveying plates, and brackets of the belt conveyors in FIG. 4 are omitted and not shown;

the discharge port is provided with an antistatic brush 3, the brush surface of the antistatic brush 3 is used for contacting the surface of the plate, and the connecting wire of the antistatic brush 3 is used for conducting the ground; in the technical scheme, the power connection wire of the static removing brush 3 can be connected with a grounding main line nearby;

the static removing brush 3 is generally made of carbon fiber and is applied to the printing field at present, and static electricity is easy to generate due to paper friction in the printing process to generate attraction; according to the technical scheme, the static electricity removing brush 3 is applied to the sanding machine equipment, so that static electricity can be effectively removed, an operator is prevented from being shocked by the static electricity, and meanwhile, the probability of fire disasters can be reduced by removing the static electricity on the sanding machine; the model of the static removing brush 3 can adopt Ellida 3850 SC.

Furthermore, fixing rods 301 are arranged at two ends of the static removing brush 3, the fixing rods 301 are connected with fixing plates 302, and the fixing plates 302 are installed on the outer wall of the case 1.

Furthermore, a sliding groove 303 is drilled in the fixing plate 302, the fixing rod 301 penetrates through the sliding groove 303, external threads are arranged at two ends of the fixing rod 301, and the fixing rod 301 is fixed with the fixing plate 302 through a nut; since the static removing brush 3 is easily worn and consumed in use, the static removing brush 3 is fixed on the sliding groove 303, and when the static removing brush 3 is seriously worn, the position of the static removing brush 3 can be adjusted downwards.

Further, a lower sanding roller 201 is arranged in the case 1, an upper sanding roller 202 is arranged above the lower sanding roller 201, a gap for allowing a plate to pass through is reserved between the lower sanding roller 201 and the upper sanding roller 202, and the lower sanding roller 201 and the upper sanding roller 202 are driven to rotate by a first driving device 4; fine grains for polishing are arranged on the surfaces of the lower polishing rotary roller 201 and the upper polishing rotary roller 202, and the lower polishing rotary roller 201 and the upper polishing rotary roller 202 move oppositely to remove burrs on the surface of the decorative plate;

a plurality of lower transmission rotating rollers 501 are arranged in the case 1, the lower transmission rotating rollers 501 and the lower grinding rotating rollers 201 are positioned at the same horizontal height, and the rotating directions of the lower transmission rotating rollers 501 and the lower grinding rotating rollers 201 are opposite; the lower transmission rotary roller 501 rotates to transmit the plate, namely, the rotating direction of the lower transmission rotary roller 501 is the same as the moving direction of the plate, and the rotating direction of the lower grinding rotary roller 201 is opposite to the moving direction of the plate;

a plurality of upper transmission rollers 502 are arranged above the lower transmission rollers 501, and the upper transmission rollers 502 are matched with the lower transmission rollers 501 for transmitting the plates; the upper driving roller 502 and the lower driving roller 501 are driven to rotate by the second driving device 6.

Furthermore, two sides of the lower sanding roller 201 are respectively provided with two lower transmission rollers 501, rotating shafts of the lower transmission rollers 501 are fixed on the side wall of the chassis 1 through bearings, one ends of the rotating shafts of the four lower transmission rollers 501 are respectively provided with a first rotating wheel 701, a second rotating wheel 702, a third rotating wheel 703 and a fourth rotating wheel 704, and the first rotating wheel 701, the second rotating wheel 702, the third rotating wheel 703 and the fourth rotating wheel 704 are all positioned on the same outer side of the chassis 1; the first rotating wheel 701 and the second rotating wheel 702 are in belt transmission, and the third rotating wheel 703 and the fourth rotating wheel 704 are in belt transmission;

the first rotating wheel 701, the second rotating wheel 702, the third rotating wheel 703 and the fourth rotating wheel 704 are identical in structure and are provided with two annular belt grooves;

the second driving device 6 comprises a second motor, and a second driving rotating wheel 601 is arranged at the front shaft end of the second motor; the first rotating wheel 701 and the second driving rotating wheel 601 are in belt transmission, and the fourth rotating wheel 704 and the second driving rotating wheel 601 are in belt transmission; the first rotating wheel 701 and the fourth rotating wheel 704 are connected with the second driving rotating wheel 601 in a manner as shown in fig. 1, when the second driving rotating wheel 601 rotates counterclockwise, both the first rotating wheel 701 and the fourth rotating wheel 704 rotate counterclockwise;

an upper transmission roller 502 is respectively arranged above the lower transmission roller 501 positioned at the outer side of the four lower transmission rollers 501, the rotating shafts of the lower transmission roller 501 and the upper transmission roller 502 are respectively provided with a lower gear 801 and an upper gear 802, the lower gear 801 and the upper gear 802 are positioned at the outer side of the case 1, and the lower gear 801 and the upper gear 802 are meshed; in the technical scheme, only two upper transmission rotating rollers 502 are designed, and four upper transmission rotating rollers 502 can be designed, so that the effect difference is small, and the investment cost of the device can be saved by two upper transmission rotating rollers 502.

Further, the first driving device 4 comprises a first motor, and a front shaft of the first motor is provided with a first driving rotating wheel 401; the rotating shafts of the lower sanding roller 201 and the upper sanding roller 202 are fixed on the side wall of the case 1 through bearings, one ends of the rotating shafts of the lower sanding roller 201 and the upper sanding roller 202 are respectively provided with a lower gear 801 and an upper gear 802, the lower gear 801 and the upper gear 802 are positioned on the outer side of the case 1, and the lower gear 801 and the upper gear 802 are in meshing transmission; a rotating shaft of the lower grinding roller 201 is connected with a fifth rotating wheel 705, and the fifth rotating wheel 705 and the first driving rotating wheel 401 are in transmission through a belt;

the side wall of the chassis where the lower gear 801, the upper gear 802 and the fifth rotating wheel 705 are located is provided with a plurality of bolt holes, the bolt holes are used for installing a gear box, the gear box is used for covering the lower gear 801, the upper gear 802 and the fifth rotating wheel 705, the bottom of the gear box is provided with holes, and the holes are used for penetrating a belt.

Furthermore, the bottom of the case 1 is provided with a support leg, a bottom plate 9 is horizontally arranged on the support leg, and the first driving device 4 and the second driving device 6 are both fixed on the bottom plate 9; the fixing bottom plate 9 is welded on the supporting legs.

Example 2:

on the basis of the embodiment 1, the following technical scheme is introduced:

preferably, as shown in fig. 5 and 6, the friction layer 10 is embedded on the surface of the lower driving roller 501 and the upper driving roller 502, so as to increase the friction between the lower driving roller 501 and the upper driving roller 502 and the sheet material and prevent the sheet material from slipping.

Further, the friction layer 10 is made of rubber, and the friction force of the rubber is relatively large, which is a preferable material in the present technical solution.

The working principle of the whole device is as follows:

the lower transmission roller 501 and the upper transmission roller 502 are used for clamping the plate to be conveyed forwards;

the lower sanding roller 201 and the upper sanding roller 202 are in meshed transmission through a lower gear 801 and an upper gear 802, and the lower gear 801 is driven by a first driving device 4 for polishing burrs on the upper surface and the lower surface of a plate;

the first rotating wheel 701, the second rotating wheel 702, the third rotating wheel 703 and the fourth rotating wheel 704 synchronously rotate, two pairs of lower transmission rotating rollers 501 and upper transmission rotating rollers 502 are also in meshing transmission through a lower gear 801 and an upper gear 802, and the sizes of the lower gear 801 and the upper gear 802 are consistent, so that the synchronism of the lower transmission rotating rollers 501 and the upper transmission rotating rollers 502 is ensured;

the friction layers 10 are embedded on the surfaces of the lower transmission rotary roller 501 and the upper transmission rotary roller 502, and the plates are clamped by the friction layers 10, so that the plates can be effectively prevented from slipping;

static electricity is generated due to friction in the plate polishing process, and the static electricity on the plate is eliminated by the static electricity eliminating brush 3, so that the static electricity on the plate can be effectively released; the carbon fiber of the static removing brush 3 has good conductivity, the brush surface of the static removing brush 3 contacts the surface of the plate, and static electricity is introduced into a grounding body through a grounding wire, so that the static electricity is released to the ground.

Claims (9)

1. The utility model provides a make sand hair machine of decorative board, includes quick-witted case (1), and two sides of quick-witted case (1) are equipped with feed inlet and discharge gate, its characterized in that respectively: the discharge port is provided with a static removing brush (3), the brush surface of the static removing brush (3) is used for being in contact with the surface of the plate, and the connecting wire of the static removing brush (3) is used for conducting the ground.

2. A sanding machine for the manufacture of decorative panels according to claim 1, characterised in that: the two ends of the static removing brush (3) are provided with fixing rods (301), the fixing rods (301) are connected with the fixing plates (302), and the fixing plates (302) are installed on the outer wall of the case (1).

3. A sanding machine for the manufacture of decorative panels according to claim 2, characterised in that: the fixing plate (302) is provided with a sliding groove (303), the fixing rod (301) penetrates through the sliding groove (303), external threads are arranged at two ends of the fixing rod (301), and the fixing rod (301) is fixed with the fixing plate (302) through a nut.

4. A sanding machine for the manufacture of decorative panels according to claim 1, characterised in that: a lower sanding roller (201) is arranged in the case (1), an upper sanding roller (202) is arranged above the lower sanding roller (201), a gap for allowing a plate to pass through is reserved between the lower sanding roller (201) and the upper sanding roller (202), and the lower sanding roller (201) and the upper sanding roller (202) are driven to rotate by a first driving device (4);

a plurality of lower transmission rotating rollers (501) are arranged in the case (1), the lower transmission rotating rollers (501) and the lower grinding rotating rollers (201) are positioned at the same horizontal height, and the rotating directions of the lower transmission rotating rollers (501) and the lower grinding rotating rollers (201) are opposite;

a plurality of upper transmission rollers (502) are arranged above the lower transmission rollers (501), and the upper transmission rollers (502) are matched with the lower transmission rollers (501) for transmitting the plates; the upper transmission roller (502) and the lower transmission roller (501) are driven to rotate by a second driving device (6).

5. A sanding machine for manufacturing decorative panels according to claim 4, characterised in that: two lower transmission rotary rollers (501) are respectively arranged on two sides of each lower grinding rotary roller (201), rotating shafts of the lower transmission rotary rollers (501) are fixed on the side wall of the case (1) through bearings, one ends of the rotating shafts of the four lower transmission rotary rollers (501) are respectively provided with a first rotating wheel (701), a second rotating wheel (702), a third rotating wheel (703) and a fourth rotating wheel (704), and the first rotating wheel (701), the second rotating wheel (702), the third rotating wheel (703) and the fourth rotating wheel (704) are all located on the same outer side of the case (1); the first rotating wheel (701) and the second rotating wheel (702) are in belt transmission, and the third rotating wheel (703) and the fourth rotating wheel (704) are in belt transmission;

the second driving device (6) comprises a second motor, and a second driving rotating wheel (601) is arranged at the front shaft end of the second motor; the first rotating wheel (701) and the second driving rotating wheel (601) are in belt transmission, and the fourth rotating wheel (704) and the second driving rotating wheel (601) are in belt transmission;

an upper transmission rotary roller (502) is arranged above a lower transmission rotary roller (501) positioned on the outer side in the four lower transmission rotary rollers (501), a lower gear (801) and an upper gear (802) are arranged on rotating shafts of the lower transmission rotary roller (501) and the upper transmission rotary roller (502) respectively, the lower gear (801) and the upper gear (802) are positioned on the outer side of the case (1), and the lower gear (801) and the upper gear (802) are meshed with each other.

6. A sanding machine for manufacturing decorative panels according to claim 4, characterised in that: the first driving device (4) comprises a first motor, and a front shaft of the first motor is provided with a first driving rotating wheel (401); rotating shafts of the lower sanding rotary roller (201) and the upper sanding rotary roller (202) are fixed on the side wall of the case (1) through bearings, one ends of the rotating shafts of the lower sanding rotary roller (201) and the upper sanding rotary roller (202) are respectively provided with a lower gear (801) and an upper gear (802), the lower gear (801) and the upper gear (802) are positioned on the outer side of the case (1), and the lower gear (801) and the upper gear (802) are in meshing transmission; the rotating shaft of the lower grinding rotating roller (201) is connected with a fifth rotating wheel (705), and the fifth rotating wheel (705) and the first driving rotating wheel (401) are in transmission through a belt.

7. A sanding machine for the manufacture of decorative panels according to claim 1 or 4 or 5 or 6, characterised in that: the bottom of the case (1) is provided with supporting legs, the supporting legs are horizontally provided with a bottom plate (9), and the first driving device (4) and the second driving device (6) are fixed on the bottom plate (9).

8. A sanding machine for manufacturing decorative panels according to claim 4 or 5, characterised in that: friction layers (10) are embedded on the surfaces of the lower transmission rotary roller (501) and the upper transmission rotary roller (502).

9. The sanding machine for manufacturing decorative panels according to claim 8, characterized in that: the friction layer (10) is rubber.

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