CN210133629U - Calcium silicate board production line - Google Patents

Abstract

The utility model relates to a calcium silicate board production line, which comprises a feeding device, a distributing device corresponding to the discharge port of the feeding device, a forming device corresponding to the discharge port of the distributing device and a shaping device arranged at the rear end of the forming device, wherein the feeding device comprises a hopper, a first feeding conveyer belt, a material cylinder and a second feeding conveyer belt, one end of the first feeding conveyer belt corresponds to the hopper, the other end of the first feeding conveyer belt corresponds to the feed port of the material cylinder, and one end of the second feeding conveyer belt corresponds to the discharge port of the material cylinder, and the other end of the second feeding conveyer belt corresponds to the distributing device; the utility model discloses an indirect pay-off mode at first transports the feed cylinder with the raw materials in, then in the feed divider is carried with the raw materials to the second material loading conveyer belt of recycling, the raise dust that produces when can effectively reduce the material loading, and greatly reduced guarantees that workman's is healthy to the influence degree of environment.

Description

Calcium silicate board production line

Technical Field

The utility model relates to a calcium silicate board production line.

Background

In the present calcium silicate board production line, the form of direct material loading is mostly adopted, so a large amount of dust can be generated during production, the environment can be polluted, meanwhile, the influence on the health of production workers can be generated, the environmental protection supervision in the present country is more and more serious, and the processing mode is difficult to meet the increasingly strict environmental protection supervision.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a calcium silicate board production line that can effectively reduce material loading raise dust is provided.

The utility model adopts the technical proposal that: a calcium silicate board production line comprises a feeding device, a distributing device corresponding to a discharge port of the feeding device, a forming device corresponding to a discharge port of the distributing device and a shaping device arranged at the rear end of the forming device.

Loading attachment includes hopper, first material loading conveyer belt, feed cylinder and second material loading conveyer belt, first material loading conveyer belt one end is corresponding with the feed inlet of the corresponding other end of hopper and feed cylinder, second material loading conveyer belt one end is corresponding with the material distribution device with the corresponding other end of the discharge gate of feed cylinder.

Feed divider is including setting up the central pivot in the frame, setting up at the epaxial last mounting panel of central pivot and lower mounting panel, being the branch hopper that circular array set up on the mounting panel down and corresponding the stirring rod of setting in dividing the hopper, the stirring rod is installed on last mounting panel, the discharge gate that divides the hopper is corresponding with forming device's feed inlet.

Forming device is including last transport template, with last transport template cooperation effect carry the template and be used for the drive to carry the drive arrangement of template motion about, be provided with the mould groove that is used for making the fashioned of calcium silicate board on last, lower transport template.

Drive arrangement carries the last drive roller of template motion and is used for the drive to carry the lower drive roller of template motion down including installing in the frame on being used for the drive.

The upper driving roller or the lower driving roller of the utility model is arranged on the frame through the position adjusting device; the position adjusting device comprises a connecting plate arranged on the rack through a sliding rail and a lead screw connected with the connecting plate, the connecting plate is connected with the upper driving roller or the lower driving roller, and the lead screw is in threaded connection with the rack.

The upper conveying template of the utility model is positioned at the middle position above the lower conveying template, and the frame behind the upper conveying template and above the lower conveying template is provided with the edge scraping device; the edge scraping device comprises a mounting frame arranged on the frame, a scraper obliquely arranged on the mounting frame and a tension spring arranged between the scraper and the mounting frame, the scraper is inclined towards the direction close to the upper conveying template, and the two sides of the scraper respectively arranged on the lower conveying template are used for scraping redundant raw materials.

Shaping device includes the conveyer belt of setting in the frame through the conveying roller and sets up the angle mill that is used for the deburring in conveyer belt both sides, the originated section of conveyer belt is corresponding with the end of carrying the template down.

Conveyer belt adopts conveyer belt, the conveyer belt is more than two and sets up side by side on the conveying roller.

The utility model discloses shaping device's rear is provided with the switching-over device, the switching-over device is including setting up portal frame in the frame, setting up the pressure board on the portal frame, setting up lift rotary device and setting up the layer board on lifting rotary device in the frame.

The shaping device is two sets of both ends that set up respectively at the switching-over device.

The utility model discloses an actively the effect does: the utility model discloses an indirect pay-off mode at first transports the feed cylinder with the raw materials in, then in the feed divider is carried with the raw materials to the second material loading conveyer belt of recycling, the raise dust that produces when can effectively reduce the material loading, and greatly reduced guarantees that workman's is healthy to the influence degree of environment.

Drawings

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

FIG. 2 is a schematic view of the structure of the feeding device of the present invention;

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

FIG. 4 is a view of the edge scraping device of the present invention;

FIG. 5 is a schematic structural view of the reversing device of the present invention;

fig. 6 is a schematic structural view of the position adjustment device of the present invention.

Detailed Description

As shown in the attached drawing 1, the utility model discloses a along the loading attachment 1 that manufacturing procedure set gradually, with the corresponding feed divider 2 of loading attachment 1's discharge gate, with the corresponding forming device 3 of feed divider 2's discharge gate and set up the shaping device in the 3 rear ends of forming device.

As shown in fig. 1 and 2, the feeding device 1 includes a hopper 101, a first feeding conveyer belt 102, a material cylinder 103, and a second feeding conveyer belt 104, one end of the first feeding conveyer belt 102 corresponds to the hopper 101, the other end corresponds to a feeding port of the material cylinder 103, one end of the second feeding conveyer belt 104 corresponds to a discharging port of the material cylinder 103, the other end corresponds to the material dividing device 2, and a dust removing device is communicated above the material cylinder 103. The materials are fed into the material barrel 103 through the first feeding conveyer belt 102, are precipitated in the material barrel 103, flow out of the tapered bottom of the material barrel 103, and are conveyed to the material distributing device through the second feeding conveyer belt 104 to be mixed and distributed.

The material distributing device 2 comprises a central rotating shaft 206 arranged on the frame 8, an upper mounting plate 204 and a lower mounting plate 201 which are arranged on the central rotating shaft 206 in parallel, material distributing hoppers 202 arranged on the lower mounting plate 201 in a circular array and stirring rods 205 correspondingly arranged in the material distributing hoppers 202, wherein the stirring rods 205 are arranged on the upper mounting plate 204, and discharge holes of the material distributing hoppers 202 correspond to the feed holes of the forming device.

As shown in fig. 3, the forming device 3 includes an upper conveying template 301, a lower conveying template 304 cooperating with the upper conveying template 301, and a driving device for driving the upper conveying template 301 and the lower conveying template 304 to move, and mold grooves for forming the calcium silicate plate are provided on the upper conveying template 301 and the lower conveying template 304. The upper conveying template 301 is located in the middle position above the lower conveying template 304, mold grooves in the upper and lower conveying templates correspond after being buckled, a mold for pouring the calcium silicate board is formed after buckling, a feeding space is formed in the front of a buckling position where the upper and lower conveying belts are located in front, materials in the material distributing hopper 202 fall into the mold grooves of the lower conveying belt 304, and then the upper and lower conveying belts are buckled to perform the forming work of the calcium silicate board.

The driving means includes an upper driving roller 302 for driving the upper transporting platen 301 to move and a lower driving roller 303 for driving the lower transporting platen 304 to move, which are installed on the frame 8. The upper driving roller 302 or the lower driving roller 303 is arranged on the frame 8 through a position adjusting device; as shown in fig. 6, the position adjusting device includes a connecting plate 13 disposed on the frame 8 through a sliding rail, and a lead screw 14 connected to the connecting plate 13, the connecting plate 13 is connected to the upper driving roller 302 or the lower driving roller 303, and the lead screw 14 is in threaded connection with the frame 8.

The two sides of the rack 8 are also provided with positioning probes 15, a plurality of detection points are uniformly arranged on the two sides of the upper conveying template 301, the detection points are simultaneously detected by the positioning probes 15, when the detection points are detected by the positioning probes 15 at different times, the deviation of the upper conveying template 301 is shown, and the upper conveying template 301 can be adjusted by using a position adjusting device.

As shown in fig. 4, an edge scraping device is arranged on the frame 8 behind the upper conveying template 301 and above the lower conveying template 304; the edge scraping device comprises an installation frame 9 arranged on the frame 8, a scraper 11 obliquely installed on the installation frame 9 and a tension spring 12 arranged between the scraper 11 and the installation frame 9, wherein the scraper 11 inclines towards the direction close to the upper conveying template 301, and the scraper 11 is respectively arranged at two sides of the lower conveying template 304 and used for scraping redundant raw materials.

As shown in fig. 5, the shaping device 5 includes a conveyor belt 501 provided on the frame 8 by conveyor rollers 502, and an angle grinder 503 provided on both sides of the conveyor belt 501 for removing burrs, the beginning of the conveyor belt 501 corresponding to the end of the lower conveyor template 304.

The conveying belt 501 is a conveying belt, and more than two conveying belts 501 are arranged on the conveying roller 502 side by side.

The front side and the rear side of the shaping device 5 are both provided with a reversing device 6, and the reversing device 6 comprises a portal frame 606 arranged on the rack 8, a pressing plate 603 arranged on the portal frame 606, a lifting rotating device 605 arranged on the rack 8 and a supporting plate 604 arranged on the lifting rotating device 605. A second conveyor belt 601, which is also arranged on the machine frame 8 below the gantry 606 via a second conveyor roller 602, conveys the formed calcium silicate board on a different conveyor belt, and may also convey the formed calcium silicate board using one conveyor belt.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. A calcium silicate board production line is characterized by comprising a feeding device (1), a distributing device (2) corresponding to a discharge hole of the feeding device (1), a forming device (3) corresponding to a discharge hole of the distributing device (2) and a shaping device arranged at the rear end of the forming device (3);

the feeding device (1) comprises a hopper (101), a first feeding conveying belt (102), a charging barrel (103) and a second feeding conveying belt (104), one end of the first feeding conveying belt (102) corresponds to the hopper (101), the other end of the first feeding conveying belt corresponds to a feeding hole of the charging barrel (103), one end of the second feeding conveying belt (104) corresponds to a discharging hole of the charging barrel (103), and the other end of the second feeding conveying belt corresponds to the distributing device (2).

2. The calcium silicate board production line according to claim 1, wherein the material distributor (2) comprises a central rotating shaft (206) arranged on the frame (8), an upper mounting plate (204) and a lower mounting plate (201) arranged on the central rotating shaft (206), material distributing hoppers (202) arranged on the lower mounting plate (201) in a circular array, and stirring rods (205) correspondingly arranged in the material distributing hoppers (202), wherein the stirring rods (205) are arranged on the upper mounting plate (204), and the material outlet of the material distributing hoppers (202) corresponds to the material inlet of the forming device.

3. The calcium silicate board production line according to claim 1, wherein the forming device (3) comprises an upper conveying template (301), a lower conveying template (304) cooperating with the upper conveying template (301), and a driving device for driving the upper and lower conveying templates (301, 304) to move, and mold grooves for forming the calcium silicate board are arranged on the upper and lower conveying templates (301, 304).

4. A calcium silicate board production line according to claim 3, wherein the driving means comprises an upper driving roller (302) mounted on the frame (8) for driving the upper transporting template (301) to move and a lower driving roller (303) for driving the lower transporting template (304) to move.

5. A calcium silicate board production line according to claim 4, wherein the upper driving roller (302) or the lower driving roller (303) is mounted on the frame (8) by means of a position adjusting device;

the position adjusting device comprises a connecting plate (13) arranged on the rack (8) through a sliding rail and a lead screw (14) connected with the connecting plate (13), the connecting plate (13) is connected with an upper driving roller (302) or a lower driving roller (303), and the lead screw (14) is in threaded connection with the rack (8).

6. The calcium silicate board production line according to claim 3, wherein the upper conveying template (301) is positioned at the middle position above the lower conveying template (304), and the frame (8) behind the upper conveying template (301) and above the lower conveying template (304) is provided with an edge scraping device; the edge scraping device comprises a mounting frame (9) arranged on the frame (8), a scraper (11) obliquely arranged on the mounting frame (9) and a tension spring (12) arranged between the scraper (11) and the mounting frame (9), wherein the scraper (11) inclines towards the direction close to the upper conveying template (301), and the scraper (11) is respectively arranged at two sides of the lower conveying template (304) and used for scraping redundant raw materials.

7. The calcium silicate board production line according to claim 1, wherein the shaping device comprises a conveyor belt (501) disposed on the frame (8) by means of conveyor rollers (502) and an angle grinder (503) disposed on both sides of the conveyor belt (501) for removing burrs, the beginning of the conveyor belt (501) corresponding to the end of the lower conveyor platen (304).

8. The production line of calcium silicate boards as claimed in claim 7, wherein the conveying belt (501) is a conveyor belt, and the conveying belts (501) are arranged on the conveying rollers (502) in more than two rows.

9. The calcium silicate board production line according to claim 7 or 8, wherein a reversing device (6) is arranged behind the shaping device, and the reversing device (6) comprises a portal frame (606) arranged on the frame (8), a pressing plate (603) arranged on the portal frame (606), a lifting rotating device (605) arranged on the frame (8), and a supporting plate (604) arranged on the lifting rotating device (605).

10. The production line of calcium silicate boards as claimed in claim 9, wherein the two shaping devices are respectively arranged at two ends of the reversing device (6).

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