CN112720781A - Ceramic tile making devices of archaize building processing usefulness - Google Patents

Abstract

The invention relates to a floor tile manufacturing device, in particular to a floor tile manufacturing device for archaizing building processing. The invention aims to solve the technical problem of providing a floor tile manufacturing device for archaizing building processing, which can be used for vibrating and tamping a brick material, preventing the brick from generating holes and improving the quality of the brick. In order to solve the technical problem, the invention provides a device for manufacturing a floor tile for processing an antique building, which comprises: the device comprises a base, a first placing plate and a second placing plate, wherein one side of the top of the base is connected with the first placing plate; the two mounting racks are symmetrically connected to the base; the second placing plate is connected to one side, far away from the first placing plate, of the base; and the positioning frame is connected to the top of the second placing plate. According to the invention, the mould can be automatically transmitted to the vibration mechanism through the driving mechanism and the feeding mechanism, and the driving mechanism drives the vibration mechanism to work so as to vibrate the mould, so that the concrete is flatly laid in the mould.

Description

Ceramic tile making devices of archaize building processing usefulness

Technical Field

The invention relates to a floor tile manufacturing device, in particular to a floor tile manufacturing device for archaizing building processing.

Background

Through search, the patent publication numbers are: the patent of CN110103317A discloses a fragment of brick processingequipment for building, including the brickmaking machine, its characterized in that: the brick making machine is characterized in that a power cavity is arranged in the brick making machine, a power device brick making block is arranged in the power cavity, a motor gear is arranged at the lower end of the power cavity, a stirring cavity is arranged at the lower end of the motor gear, a blanking device is arranged in the stirring cavity and used for rotating, an entering cavity communicated with the outside is arranged on the left end wall of the motor gear, a conveying cavity is arranged on the lower end wall of the entering cavity, a feeding device is arranged in the conveying cavity and the stirring cavity and used for controlling rotation and movement through the power device brick making block, a driving groove is arranged at the lower end of the conveying cavity, a driving device is arranged in the driving groove, a brick making cavity is arranged at the lower end of the driving groove, a brick making device is arranged in the brick making cavity, the feeding device can be connected with the power to the brick making device through the driving device, the brick making device cannot be vibrated and tamped during brick making, and holes, the brick has poor hardness, cannot meet the quality requirement, and has a complex manufacturing process and low forming efficiency.

How to design one kind can shake the tamping to the brick material, avoid the fragment of brick to produce the hole, improve the ceramic tile making devices of the archaize building processing usefulness of fragment of brick quality, become the problem that will solve at present.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the brick material cannot be vibrated and tamped during brick making by the conventional brick making equipment, and the manufactured brick is easy to generate holes, poor in hardness and incapable of meeting quality requirements.

(2) Technical scheme

In order to solve the technical problem, the invention provides a device for manufacturing a floor tile for processing an antique building, which comprises: the device comprises a base, a first placing plate and a second placing plate, wherein one side of the top of the base is connected with the first placing plate; the two mounting racks are symmetrically connected to the base; the second placing plate is connected to one side, far away from the first placing plate, of the base; a positioning frame connected to the top of the second placing plate; the lifting mechanism is arranged on the base; a drive mechanism mounted on the base; the vibration mechanism is connected between the driving mechanism and the lifting mechanism; and the feeding mechanism is connected between the mounting frame and the driving mechanism.

Preferably, the lifting mechanism comprises: the number of the pillars is at least two, and the pillars are connected to the top of the base; a lifting column slidably connected to the support column; the vibration plate is arranged at the top of the lifting column; and the return spring is connected between the vibration plate and the strut.

Preferably, the drive mechanism comprises: the servo motor is connected to the base; the two fixing blocks are symmetrically connected to the base; the two first transmission rods are respectively connected to the two fixed blocks in a rotating manner; the rhombic rod is connected between the two first transmission rods; and the belt transmission assembly is connected between the output shaft of the servo motor and the first transmission rod.

Preferably, the vibration mechanism includes: the inner rhombic sleeve is connected to the rhombic rod in a sliding manner; the convex disc is connected with one end of the inner diamond-shaped sleeve; a disc rotatably connected to the inner diamond sleeve; the guide rail is connected to the top of the base; the sliding rod is connected to the guide rail in a sliding manner and is connected with the disc; and the contact ball is connected to the bottom of the vibration plate and is in contact fit with the convex disc.

Preferably, the feed mechanism comprises: the two fixed rails are respectively connected to the mounting frames on the two sides; a slider slidably coupled to the fixed rail; an elastic member connected between the slider and an end of the fixed rail; the rack is connected to the bottom of the sliding block; two fan-shaped gears are arranged and are respectively connected to the first transmission rods on the two sides, and the fan-shaped gears are meshed with the racks; the wedge block is connected to the rack in a sliding manner; and the common spring is connected between the wedge block and the rack.

Preferably, still including blanking mechanism, blanking mechanism is including: the discharging frame is connected between the fixed rails on the two sides, and a discharging port is formed in the right side of the bottom of the discharging frame; the second transmission rod is rotatably connected to the discharging frame; the stirring shaft is rotatably connected in the discharging frame; the transmission belt is connected between the stirring shaft and the second transmission rod; the two bevel gears are respectively connected to the second transmission rod and the first transmission rod and are meshed with each other; the rotating rod is rotatably connected to the outer wall of the discharging frame; the baffle is connected to the bottom of the rotating rod and blocks the blanking port; and the first torsion spring is connected between the rotating rod and the outer wall of the discharging frame.

Preferably, still including blocking the material mechanism, block the material mechanism including: the limiting plate is connected to the top of the vibrating plate; and the second torsion spring is connected between the limiting plate and the vibration plate.

Preferably, the vibration plate is slightly higher than the first placing plate and slightly lower than the second placing plate.

(3) Advantageous effects

1. According to the invention, the mould can be automatically transmitted to the vibration mechanism through the driving mechanism and the feeding mechanism, and the driving mechanism drives the vibration mechanism to work so as to vibrate the mould, so that concrete is flatly laid in the mould, and the manufacturing effect of the floor tile is improved.

2. Can conveniently add the concrete to the mould through blanking mechanism, reduce artificial intensity of labour, improve work efficiency, but also can stir the concrete, avoid concrete long-time parking to lead to the solidification.

3. Can prevent through blocking material mechanism that the vibrations board mould shifts when vibrations, guarantee the vibrations effect of mould, can avoid the mould to shift the back concrete and fall on the vibrations board moreover.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first partial structure according to the present invention.

Fig. 3 is a schematic perspective view of a second partial structure of the present invention.

Fig. 4 is a perspective view of a third partial structure of the present invention.

Fig. 5 is a perspective view of a fourth partial structure of the present invention.

Fig. 6 is a partially enlarged view of the portion a of the present invention.

Fig. 7 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 8 is a partially enlarged view of the portion B of the present invention.

The labels in the figures are: 1-base, 2-first placement plate, 3-mounting frame, 4-second placement plate, 41-positioning frame, 5-lifting mechanism, 51-pillar, 52-lifting column, 53-vibration plate, 54-return spring, 6-driving mechanism, 61-servo motor, 62-fixed block, 63-first transmission rod, 64-diamond rod, 65-belt transmission component, 7-vibration mechanism, 71-convex disk, 72-inner diamond sleeve, 73-disk, 74-guide rail, 75-slide rod, 76-contact ball, 8-feeding mechanism, 81-fixed rail, 82-slide block, 83-elastic component, 84-rack, 85-sector gear, 86-common spring, 87-wedge block, 9-blanking mechanism, 91-blanking frame, 92-second transmission rod, 93-stirring shaft, 94-bevel gear, 95-rotating rod, 96-baffle, 97-first torsion spring, 98-transmission belt, 10-blocking mechanism, 101-limiting plate, 102-second torsion spring.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a ceramic tile making devices that archaize building processing was used, as shown in fig. 1-5, including base 1, first place board 2, mounting bracket 3, the board 4 is placed to the second, locating frame 41, elevating system 5, actuating mechanism 6, vibrator 7 and feed mechanism 8, base 1 top right side is connected with first board 2 of placing, both sides all are connected with mounting bracket 3 around the base 1 middle, base 1 top left side is connected with the second and places board 4, the top that board 4 was placed to the second is connected with locating frame 41, install elevating system 5 in the middle of the base 1 top, actuating mechanism 6 is installed in base 1 top left side, be connected with vibrator 7 between actuating mechanism 6 and the elevating system 5, be connected with feed mechanism 8 between mounting bracket 3 and the actuating mechanism 6.

The lifting mechanism 5 comprises a support column 51, lifting columns 52, a vibration plate 53 and a return spring 54, wherein the middle of the top of the base 1 is connected with four support columns 51, the tops of the four support columns 51 are all connected with the lifting columns 52 in a sliding manner, the vibration plate 53 is connected between the tops of the four lifting columns 52, the return spring 54 is connected between the bottom of the vibration plate 53 and the top of the support column 51, and the return spring 54 is sleeved on the outer side of the lifting column 52.

Actuating mechanism 6 is including servo motor 61, fixed block 62, first transfer line 63, diamond-shaped pole 64 and belt drive assembly 65, servo motor 61 is installed on base 1's top left side, the front and back both sides in the middle part of base 1 all are connected with fixed block 62, all be connected with first transfer line 63 on two fixed blocks 62 with the rotary type, be connected with diamond-shaped pole 64 between two first transfer lines 63, be connected with belt drive assembly 65 between servo motor 61's output shaft and the first transfer line 63.

The vibration mechanism 7 comprises a convex disc 71, an inner diamond-shaped sleeve 72, a disc 73, a guide rail 74, a sliding rod 75 and a contact ball 76, wherein the inner diamond-shaped sleeve 72 is connected on the diamond-shaped rod 64 in a sliding mode, the convex disc 71 is connected on the outer side of the front portion of the inner diamond-shaped sleeve 72, the disc 73 is connected on the rear portion of the outer side of the inner diamond-shaped sleeve 72 in a rotating mode, the guide rail 74 is connected on the top of the base 1, the sliding rod 75 is connected on the guide rail 74 in a sliding mode, the sliding rod 75 is connected with the disc 73, the contact ball 76 is connected at.

Feed mechanism 8 is including fixed rail 81, the slider 82, elastic component 83, rack 84, sector gear 85, ordinary spring 86 and wedge 87, all be connected with fixed rail 81 on the mounting bracket 3 of front and back both sides, fixed rail 81 is connected with slider 82 on the slidingly, be connected with elastic component 83 between slider 82 and the fixed rail 81, slider 82 bottom is connected with rack 84, be connected with sector gear 85 on the first transfer lever 63, sector gear 85 and rack 84 meshing, the left part slidingly of rack 84 is connected with wedge 87, be connected with ordinary spring 86 between wedge 87 and the rack 84.

When the device is needed to be used for manufacturing antique floor tiles, a mold is placed in a positioning frame 41 on a second placing plate 4, a servo motor 61 is started to work, the servo motor 61 works to drive a first transmission rod 63 to rotate through a belt transmission assembly 65, the first transmission rod 63 rotates to drive a sector gear 85 to rotate, the sector gear 85 rotates to drive a rack 84 to move leftwards, a sliding block 82 moves leftwards along with the sector gear, an elastic piece 83 compresses, the mold is blocked by the positioning frame 41 and cannot be pushed leftwards by a wedge block 87, the wedge block 87 moves leftwards and is blocked by the mold, the wedge block 87 moves inwards the rack 84, a common spring 86 compresses, when the wedge block 87 moves to the left side of the mold, the wedge block 87 is ejected under the action of the common spring 86, the sector gear 85 is separated from the rack 84, the sliding block 82 and the rack 84 are driven to reset under the action of the elastic piece 83, the rack 84 resets to drive the mold, at this moment, people can pour concrete into the mold, when the first transmission rod 63 rotates, the diamond rod 64 rotates along with the first transmission rod, the diamond rod 64 rotates to drive the convex disc 71 to rotate, the convex disc 71 rotates to be matched with the contact ball 76 to drive the vibration plate 53 to vibrate up and down in a reciprocating mode, so that the concrete can be flatly laid in the mold, when the mold does not need to be vibrated, the sliding rod 75 is pushed backwards, the disc 73 moves backwards along with the backward movement, the disc 73 moves backwards to drive the inner diamond sleeve 72 and the convex disc 71 to move backwards, the convex disc 71 is separated from the contact ball 76, and therefore, the vibration plate 53 cannot be driven to vibrate when the convex disc 71 rotates. When the vibration plate 53 needs to be driven to vibrate continuously, the sliding rod 75 is pulled forwards to enable the convex disc 71 to be in contact with the contact ball 76, when the antique floor tile needs to be manufactured continuously, another mold is placed in the positioning frame 41, the wedge block 87 drives the mold to move rightwards, the mold on the vibration plate 53 is pushed rightwards by the left mold to the first placing plate 2, and then people can take away the first mold on the placing plate 2.

Example 2

On the basis of the embodiment 1, as shown in fig. 7-8, the blanking mechanism 9 is further included, the blanking mechanism 9 includes a material placing frame 91, a second transmission rod 92, a stirring shaft 93 and a bevel gear 94, the material discharging device comprises a rotating rod 95, a baffle 96, a first torsion spring 97 and a transmission belt 98, wherein a material discharging frame 91 is connected between fixed rails 81 on two sides, a material discharging opening is formed in the right side of the bottom of the material discharging frame 91, a second transmission rod 92 is rotatably connected to the front side of the material discharging frame 91, a stirring shaft 93 is rotatably connected in the material discharging frame 91, the transmission belt 98 is connected between the top of the stirring shaft 93 and the top of the second transmission rod 92, bevel gears 94 are connected to the bottom end of the second transmission rod 92 and the first transmission rod 63 on the front side, the two bevel gears 94 are meshed with each other, the rotating rod 95 is rotatably connected to the outer wall of the material discharging frame 91, the baffle 96 is connected to the bottom of the rotating rod 95, the material discharging opening is blocked by the baffle 96.

Concrete is poured into the discharging frame 91, the first transmission rod 63 drives the second transmission rod 92 to rotate through the bevel gear 94 when rotating, the second transmission rod 92 rotates to drive the stirring shaft 93 to rotate through the transmission belt 98, the stirring shaft 93 rotates to stir the concrete in the discharging frame 91, solidification caused by long-time parking of the concrete is avoided, when the concrete needs to be poured into a mold on the vibrating plate 53, the rotating rod 95 is rotated to drive the baffle 96 to rotate, the baffle 96 does not block a blanking port of the discharging frame 91, the first torsion spring 97 is compressed, the concrete in the discharging frame 91 flows out through the blanking port, after a proper amount of concrete is poured into the mold, the rotating rod 95 is loosened, and the baffle 96 is driven to reset under the action of the first torsion spring 97 to block the blanking port.

Example 3

Based on embodiment 2, as shown in fig. 5 to 6, the vibration plate device further includes a blocking mechanism 10, the blocking mechanism 10 includes a limiting plate 101 and a second torsion spring 102, the two limiting plates 101 are rotatably connected to the right side of the top of the vibration plate 53, the two limiting plates 101 are symmetrically arranged in front and back, and the second torsion spring 102 is connected between the limiting plate 101 and the vibration plate 53.

Limiting plate 101 can prevent that vibrations board 53 from moving the mould right when vibrations, guarantees the vibrations effect to the mould, can avoid the concrete to fall on vibrations board 53 moreover, and when the mould on left mould promotion vibrations board 53 moved right, the mould on right side promoted two limiting plates 101 and rotated, and second torsion spring 102 compresses, then takes away the first mould of placing on board 2, and limiting plate 101 resets under second torsion spring 102's effect.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides a ceramic tile making devices of archaize building processing usefulness which characterized in that, including:

a base (1), one side of the top of which is connected with a first placing plate (2);

the two mounting frames (3) are arranged, and the two mounting frames (3) are symmetrically connected to the base (1);

the second placing plate (4) is connected to one side, far away from the first placing plate (2), of the base (1);

a positioning frame (41) connected to the top of the second placing plate (4);

a lifting mechanism (5) which is installed on the base (1);

a drive mechanism (6) mounted on the base (1);

a vibration mechanism (7) connected between the driving mechanism (6) and the lifting mechanism (5);

and the feeding mechanism (8) is connected between the mounting frame (3) and the driving mechanism (6).

2. The apparatus for making floor tiles for antique building finishing according to claim 1, wherein the lifting mechanism (5) comprises:

at least two support columns (51), wherein the support columns (51) are connected to the top of the base (1);

a lifting column (52) slidably connected to the support column (51);

a vibration plate (53) disposed at the top of the lifting column (52);

and a return spring (54) connected between the vibration plate (53) and the strut (51).

3. The apparatus for making floor tiles for antique building finishing according to claim 2, wherein the driving mechanism (6) comprises:

a servo motor (61) connected to the base (1);

the two fixing blocks (62) are arranged, and the two fixing blocks (62) are symmetrically connected to the base (1);

two first transmission rods (63) are arranged, and the two first transmission rods (63) are respectively connected to the two fixed blocks (62) in a rotating manner;

a diamond-shaped rod (64) connected between the two first transmission rods (63);

and a belt transmission assembly (65) connected between the output shaft of the servo motor (61) and the first transmission rod (63).

4. A tile making device for antique building processing according to claim 3, wherein the vibration mechanism (7) comprises:

an inner diamond-shaped sleeve (72) slidably connected to the diamond-shaped rod (64);

a convex disc (71) connected to one end of the inner diamond-shaped sleeve (72);

a disc (73) rotatably connected to the inner diamond sleeve (72);

a guide rail (74) connected to the top of the base (1);

a slide bar (75) slidably connected to the guide rail (74), the slide bar (75) being connected to the disc (73);

and the contact ball (76) is connected to the bottom of the vibration plate (53), and the contact ball (76) is in contact fit with the convex disc (71).

5. The device for making floor tiles for antique building processing according to claim 4, wherein the feeding mechanism (8) comprises:

two fixed rails (81) are arranged, and the two fixed rails (81) are respectively connected to the mounting frames (3) on the two sides;

a slide block (82) which is connected to the fixed rail (81) in a sliding manner;

an elastic member (83) connected between the slider (82) and an end of the fixed rail (81);

a rack (84) connected to the bottom of the slider (82);

two sector gears (85) are arranged, the two sector gears (85) are respectively connected to the first transmission rods (63) on the two sides, and the sector gears (85) are meshed with the racks (84);

a wedge block (87) slidably connected to the rack (84);

a common spring (86) connected between the wedge block (87) and the rack (84).

6. The device for making floor tiles for antique building processing according to claim 5, further comprising a blanking mechanism (9), wherein the blanking mechanism (9) comprises:

the discharging frame (91) is connected between the fixed rails (81) on the two sides, and a discharging opening is formed in the right side of the bottom of the discharging frame (91);

a second transmission rod (92) which is rotatably connected to the discharging frame (91);

a stirring shaft (93) rotatably connected in the discharge frame (91);

a transmission belt (98) connected between the stirring shaft (93) and the second transmission rod (92);

two bevel gears (94) are arranged, the two bevel gears (94) are respectively connected to the second transmission rod (92) and the first transmission rod (63), and the two bevel gears (94) are meshed;

a rotating rod (95) rotatably connected to the outer wall of the discharge frame (91);

a baffle (96) connected to the bottom of the rotating rod (95), wherein the baffle (96) blocks the blanking port;

and a first torsion spring (97) connected between the rotating bar (95) and an outer wall of the discharge frame (91).

7. The apparatus for making floor tiles for antique building processing according to claim 6, further comprising a material blocking mechanism (10), wherein the material blocking mechanism (10) comprises:

a limiting plate (101) connected to the top of the vibration plate (53);

and a second torsion spring (102) connected between the stopper plate (101) and the vibration plate (53).

8. A tile making device for antique building finishing according to claim 7, characterized in that the vibration plate (53) is slightly higher than the first resting plate (2) and slightly lower than the second resting plate (4).

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