CN112092171B - Automatic demoulding device for gypsum line - Google Patents

Abstract

The invention relates to the technical field of gypsum line production equipment, in particular to an automatic demoulding device for a gypsum line. The automatic gypsum line demoulding device comprises a fixing mechanism, a mould separating mechanism, a scraping mechanism, a lifting and traversing mechanism and a finished product moving-out mechanism, and aims at solving the problem that small and medium-sized gypsum line manufacturers adopt manual demoulding when demoulding the gypsum line, so that the automatic gypsum line demoulding device effectively solves the problems of more workers required by manual demoulding and high production cost of the manufacturers on the one hand; on the other hand, the problems of low processing speed and low production efficiency in manual operation are solved.

Description

Automatic demoulding device for gypsum line

Technical Field

The invention relates to the technical field of gypsum line production equipment, in particular to an automatic demoulding device for a gypsum line.

Background

The plaster line is a house decoration material, and is mainly used for indoor decoration. Can be provided with various patterns, is practical and beautiful. Has the functions of fire prevention, moisture prevention, heat preservation, sound insulation and heat insulation, and can play a luxurious decorative effect. The steps of the method for producing the gypsum line are as follows: 1. selecting, cleaning and finishing a gypsum line mold; 2. fixing the gypsum mold; 3. mixing gypsum powder; 4. filling gypsum slurry; 5. demoulding the gypsum line; 6. and (7) airing.

Wherein, the step of demoulding the gypsum line means that the gypsum line is manually taken out of the mould after the gypsum slurry is basically solidified on the mould. At present, small and medium-sized gypsum line manufacturers mostly adopt the traditional manual production of gypsum lines due to the reasons of small occupied area of factory buildings, limited purchasing capacity and the like, and even if the small and medium-sized gypsum line manufacturers utilize machines for production, more labor is needed. In particular, when the plaster line is demoulded, most of the demoulds are manually demoulded. Manual demoulding is adopted, on one hand, a large number of workers are needed, and the production cost of manufacturers is increased; on the other hand, the manual operation and processing speed is low, so that the production efficiency is low.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: at present, medium and small-sized gypsum line manufacturers adopt manual demoulding when demoulding gypsum lines, on one hand, more workers are needed, and the production cost of the manufacturers is increased; on the other hand, the manual operation and processing speed is low, so that the production efficiency is low.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

the invention relates to an automatic demoulding device for a gypsum line, which comprises a fixing mechanism, a mould separating mechanism, a scraping mechanism, a lifting and traversing mechanism and a finished product moving-out mechanism.

The fixing mechanism is arranged below the mold splitting mechanism, the scraping mechanism is arranged above the mold splitting mechanism, the lifting and traversing mechanism is arranged above the scraping mechanism, and the finished product shifting-out mechanism is arranged below the lifting and traversing mechanism and is parallel to the mold splitting mechanism.

The fixing mechanism consists of a rotating roller and a gypsum line fixing mould which is arranged above the rotating roller in parallel, and the rotating roller is arranged on the production line rack through a bearing seat;

preferably, the rotating roller drives the fixed die to move under the action of the power of the rotating roller;

further, at least one of the fixed moulds is used for solidifying the gypsum slurry into gypsum lines, and the quantity of the fixed moulds can be added according to actual production needs.

The fixing mechanism is used for solidifying the gypsum slurry into gypsum lines and conveying the gypsum lines to the die parting mechanism.

The die parting mechanism is composed of two first beams and a die parting device connected between the two first beams, and the two ends of each first beam are fixedly connected with the upright posts through screws;

preferably, the die separating device is fixedly connected with the first cross beam through angle steel; at least one mold splitting device can be added according to actual production needs.

One end of the mold separating device inserted into the fixing mechanism is in a sharp-cornered shape, so that the mold separating device can be conveniently inserted into the fixing mechanism and can separate molds in the fixing mechanism, and the scraping mechanism can scrape gypsum lines conveniently.

The scraping mechanism consists of a scraping device and a driving device.

The scraping device is used for taking the set gypsum line out of the fixed mould; the beam comprises two second cross beams and a middle beam arranged between the two second cross beams;

preferably, the two sides of the middle beam are uniformly provided with scrapers, the scrapers are provided with cutting edges, the scrapers can be conveniently inserted into the fixed die, and at least one middle beam can be added according to actual needs;

the driving device is used for jacking the scraping device, so that the scraping device can conveniently move the gypsum line out of the scraping mechanism; the scraping device is arranged below the scraping device and comprises a first motor, a lead screw and a lead screw nut; the number of the lead screw nuts is three, the three lead screw nuts are distributed in an isosceles triangle position relationship, and the first motor is arranged below the lead screw nuts at the vertex angle position;

preferably, a lifting platform is further arranged between the scraping device and the driving device, the lifting platform is provided with an upper limiting beam and a lower limiting beam, the upper limiting beam limits the lowest position of the lifting platform when the lifting platform falls, and the lower limiting beam limits the highest position of the lifting platform when the lifting platform rises;

preferably, three lead screw nuts are respectively arranged on the three lead screws, the bottoms of the lead screws are fixedly connected to synchronous belt pulleys, the tops of the lead screws are fixedly connected to the lifting support, and the three synchronous belt pulleys are driven by a synchronous belt;

further, first motor drives synchronous pulley and rotates, and synchronous pulley drives the lead screw and rotates to drive lead screw nut and reciprocate, thereby drive the lifting support and reciprocate, realize the jacking of scraping the device or descend.

The lifting and traversing mechanism consists of a gypsum line lifting device and a gypsum line traversing device which are connected through two guide rails.

The gypsum line lifting device is used for lifting the gypsum line on the scraping device and lifting the gypsum line away from the scraping device; the device consists of two guide rails and a wire lifting frame arranged between the two guide rails;

preferably, at least one wire lifting frame can be added according to actual needs;

further, the bottom of the wire lifting frame is connected with a hinge fixing plate through a bolt, hinges are uniformly and fixedly connected to the hinge fixing plate, a steel rope is connected to the hinges, and the other end of the steel rope is wound on the wire lifting frame;

furthermore, connecting strips are arranged among the wire lifting frames, each wire lifting frame is connected with the connecting strips through bolts, and when the gypsum line lifting device is lifted, all the wire lifting frames can be lifted at one time;

furthermore, a sliding groove is formed in the guide rail;

furthermore, the line lifting frames are connected in series through the screws, the line lifting frames can slide left and right on the sliding grooves, the distance between every two line lifting frames can be adjusted, the distance is adjusted, and then the line lifting frames are screwed and fixed through the nuts, and the gypsum line strip adjusting device can adapt to gypsum lines with different widths in actual production.

The gypsum line transverse moving device is used for transporting the upwards moving wire lifting frame to the finished product moving-out mechanism; the device consists of a second motor, a transverse moving conveyor belt wheel and a transverse moving conveyor belt;

preferably, a third cross beam and a fourth cross beam are arranged between the two guide rails, transverse synchronous belt shafts are arranged beside the two cross beams, transverse conveying belt wheels are arranged at two ends of the two synchronous belt shafts, and a second motor is further arranged on the third cross beam;

furthermore, the transverse moving conveyor belt is connected with a connecting strip connected with the wire lifting frame, and the wire lifting frame moving upwards can be driven to slide on the guide rail sliding groove when the transverse moving conveyor belt works;

when the two gypsum line lifting devices work, pistons of the first cylinders lift to drive the line lifting frame to move upwards, so that the hinges on the line lifting frame are driven to lift gypsum lines on the scraping device upwards.

The guide rail of the gypsum line lifting device is provided with three second cylinders close to the two ends of the third beam and the middle position of the fourth beam, the position relation of the three second cylinders is in an isosceles triangle shape, and the second cylinders and the finished product moving-out mechanism are positioned on the same horizontal line height when not in work;

when the lifting and traversing mechanism works, firstly, a piston of the first air cylinder is lifted to drive the wire lifting frame to move upwards, so that the steel rope is driven to be pulled upwards to enable the parallel hinges to be in a vertical state to hook the gypsum line on the scraping device, and the gypsum line is lifted upwards; secondly, jacking a piston of a second cylinder, and further jacking the upwards moving wire lifting frame; then, the second motor drives the synchronous belt shaft to rotate, so that the transverse moving conveyor belt wheel on the synchronous belt shaft drives the transverse moving conveyor belt to work, and the upward moving wire lifting frame is transversely moved to the position above the finished product moving-out mechanism; then, the piston of the second cylinder falls back, so that the gypsum line on the line lifting frame falls on the finished product moving-out mechanism; and finally, the gypsum line lifting device is moved back to the original position by the transverse moving conveyor belt wheel, the first cylinder piston falls back again, and the hinge on the wire lifting frame is restored to the parallel state from the vertical state. Thus, the lifting and traversing mechanism completes a working cycle.

After the wire lifting frame moves to the position above the finished product shifting-out mechanism in a transverse mode, a certain height difference exists between the wire lifting frame and the finished product shifting-out mechanism, if the piston of the first air cylinder directly falls back, a gypsum line on the wire lifting frame can directly fall onto the finished product shifting-out mechanism, loss of the gypsum line can exist, and therefore after the wire lifting frame needs to be further jacked by the second air cylinder, the piston of the second air cylinder falls back again, and the gypsum line strip of the wire lifting frame is arranged on the finished product shifting-out mechanism.

The finished product moving-out mechanism is similar to a common machine tool in appearance and is used for moving the finished product gypsum line out of the production line; it is connected with four stand columns through stand connecting rods;

further, mounting frames for mounting a second air cylinder are fixedly connected to two sides of the finished product moving-out mechanism;

further, a third motor is also arranged on the connecting rod;

furthermore, the top parts of the four stand columns of the rack are respectively provided with a first support frame, a second support frame, a third support frame and a fourth support frame; moving-out synchronous belt shafts are respectively arranged between the first support and the second support frame and between the third support frame and the fourth support frame, moving-out belt wheels are arranged on the two moving-out synchronous belt shafts, and moving-out conveying belts are arranged on the moving-out belt wheels;

furthermore, still install the limiting plate on shifting out the conveyer belt, the restriction shifts out the conveyer belt and transports the distance forward and backward, prevents that finished product gypsum lines from dropping.

The invention has the beneficial effects that: the invention provides an automatic demoulding device for gypsum lines, which aims at solving the problem that small and medium-sized gypsum line manufacturers adopt manual demoulding when demoulding the gypsum lines, and effectively solves the problems that manual demoulding requires more workers and the manufacturers have high production cost; on the other hand, the problems of low processing speed and low production efficiency in manual operation are solved.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Fig. 2 is a schematic view of the securing mechanism of the present invention.

Fig. 3 is a schematic view of the die-separating mechanism of the present invention.

Fig. 4 is a schematic view of the scraping mechanism of the present invention.

Fig. 5 is a partial schematic view of the top corner of the scraping mechanism of the present invention.

Fig. 6 is a partial schematic view of the bottom corner of the scraping mechanism of the present invention.

Fig. 7 is a schematic view of the lifting and traversing mechanism of the present invention.

Fig. 8 is a schematic view of the product removal mechanism of the present invention.

Description of reference numerals: 1. fixing the mold; 2. rotating the roller; 3. a mold splitting device; 4. a first cross member; 5. a scraper; 6. a center sill; 7. a second cross member; 8. a lifting table; 9. lifting the support; 10. a lead screw; 11. a first motor; 12. a synchronous belt; 13. an upper limit beam; 14. a lower limit beam; 15. a lead screw nut; 16. a connecting strip; 17. a first cylinder; 18. a guide rail; 19 traversing the conveyor belt; 20. a second cylinder; 21. transversely moving the synchronous belt shaft; 22. a third cross member; 23. a second motor; 24. a wire lifting frame; 25. a hinge; 26. a fourth cross member; 27. a third motor; 28. a first support frame; 29. a frame connecting rod; 30. a frame column; 31. a second support frame; 32. a limiting plate; 33. a mounting frame; 34. a third support frame; 35. and a fourth support frame.

Detailed Description

The invention is described in detail below with reference to the drawings and the detailed description.

The invention relates to an automatic demoulding device for a gypsum line, which comprises a fixing mechanism, a mould separating mechanism, a scraping mechanism, a lifting and traversing mechanism and a finished product moving-out mechanism.

The fixing mechanism is arranged below the mold splitting mechanism, the scraping mechanism is arranged above the mold splitting mechanism, the lifting and traversing mechanism is arranged above the scraping mechanism, and the finished product shifting-out mechanism is arranged below the lifting and traversing mechanism and is parallel to the mold splitting mechanism;

the fixing mechanism is composed of a rotating roller 2 and a gypsum line fixing mould 1 which is arranged above the rotating roller 2 in parallel, and the rotating roller 2 is arranged on a production line rack through a bearing seat;

the die parting mechanism is composed of two first beams 4 and a die parting device 3 connected between the two first beams 4, and two ends of each first beam 4 are fixedly connected with the upright posts through screws;

the scraping mechanism consists of a scraping device and a driving device.

The scraping device consists of two second cross beams 7 and a middle beam 6 arranged between the two second cross beams 7;

furthermore, scrapers 5 are uniformly arranged on two sides of the middle beam 6;

the driving device is arranged below the scraping device and comprises a first motor 11, a lead screw 10 and a lead screw nut 15 arranged on the lead screw 10;

preferably, a lifting platform 8 is further arranged between the scraping device and the driving device, and the lifting platform 8 is provided with an upper limiting beam 13 and a lower limiting beam 14;

furthermore, three screw nuts 15 are distributed in an isosceles triangle position relationship, the three screw nuts 15 are respectively installed on the three screws 10, the bottoms of the screws 10 are fixedly connected to synchronous belt wheels, the tops of the screws 10 are fixedly connected to the lifting support 9, and the three synchronous belt wheels are driven by a synchronous belt 12;

further, first motor 11 is still installed to apex angle screw nut 15 below, and first motor 11 drives synchronous pulley and rotates, and synchronous pulley drives lead screw 10 and rotates to drive screw nut 15 and reciprocate, thereby drive lift table 8 and remove down, realize scraping and get the jacking of device or descend.

The lifting and traversing mechanism consists of a gypsum line lifting device and a gypsum line traversing device which are connected through two guide rails.

The gypsum line lifting device consists of two guide rails 18 and a line lifting frame 24 arranged between the two guide rails 18;

wherein, the bottom of the wire lifting frame 24 is connected with a hinge fixing plate through a bolt, hinges 25 are uniformly and fixedly connected on the hinge fixing plate, a steel rope is also connected on the hinges 25, and the other end of the steel rope is wound and connected on the wire lifting frame 24;

furthermore, connecting strips 16 are arranged between the wire lifting frames 24, and each wire lifting frame 24 is connected with the connecting strip 16 through a bolt;

further, a sliding groove is formed on the guide rail 18;

further, the wire lifting frame 24 and the wire lifting frame 24 are connected in series through a screw, and the wire lifting frame 24 can slide left and right on the sliding chute;

the gypsum line transverse moving device consists of a second motor 23, a transverse moving conveyor belt wheel and a transverse moving conveyor belt 19;

preferably, a third beam 22 and a fourth beam 26 are arranged between the two guide rails 18, transverse synchronous belt shafts 21 are arranged beside the two beams, transverse conveying belt wheels are arranged at two ends of each transverse synchronous belt shaft 21, and a second motor 23 is arranged on the third beam 22;

furthermore, the transverse moving conveyor belt 19 is connected with the connecting strip 16, and the transverse moving conveyor belt 19 can drive the wire lifting frame 24 which moves upwards to slide on the sliding groove of the guide rail 18 when working;

the end points of the wire lifting frames at the two ends of the gypsum line lifting device are respectively provided with a first air cylinder 17, the guide rails of the gypsum line lifting device are provided with a second air cylinder 20 at the positions close to the two ends of the third beam 22 and the middle position of the fourth beam 26, the number of the second air cylinders is three, the position relation of the three second air cylinders 20 is in an isosceles triangle shape, and the second air cylinders 20 and the finished product moving-out mechanism are positioned on the same horizontal line height when not in operation;

the finished product moving-out mechanism is used for moving the finished product gypsum line out of the production line; it is connected with four frame columns 30 through frame connecting rods 29;

further, mounting frames 33 for mounting the second air cylinder 20 are fixedly connected to two sides of the finished product moving-out mechanism;

further, a third motor 27 is also mounted on the frame connecting rod 29;

further, the tops of the four stand columns 30 are respectively provided with a first support frame 28, a second support frame 31, a third support frame 34 and a fourth support frame 35; moving-out synchronous belt shafts are respectively arranged between the first support 28 and the second support frame 31 and between the third support frame 34 and the fourth support frame 35, moving-out belt wheels are arranged on the two moving-out synchronous belt shafts, and moving-out conveyor belts are arranged on the moving-out belt wheels;

further, a limit plate 32 is mounted on the moving-out conveyor belt.

The invention relates to a gypsum line automatic demoulding device, which comprises the following working steps:

firstly, selecting a gypsum line fixing mold 2, and installing the gypsum line fixing mold 1 on a rotating roller 2 in parallel;

secondly, mixing gypsum powder, and filling the mixed gypsum slurry into a gypsum line fixing mold 1;

thirdly, the rotating roller 1 drives the gypsum line fixing mould 1 to move to a mould separating mechanism;

fourthly, the parallel fixed dies 1 are separated by the die separating mechanism;

fifthly, a scraper 5 of a scraping device of the scraping mechanism is inserted into the fixed die 1, and a driving device of the scraping mechanism jacks up the scraping device which scrapes off the gypsum lines;

sixthly, a gypsum line lifting device of the lifting and traversing mechanism lifts a gypsum line on the scraping device through a line lifting frame, and the gypsum line traversing device of the lifting and traversing mechanism drives the line lifting frame to traverse to the position above the finished product moving-out mechanism;

and seventhly, the gypsum line lifting device moves the gypsum line moved above the finished product moving-out mechanism to the finished product moving-out mechanism, and workers can directly take off the finished product gypsum line from the finished product moving-out mechanism.

Claims (10)

1. The utility model provides a gypsum line automatic demoulding device, includes fixed establishment, divides the mould mechanism, scrapes gets the mechanism, rises to rise and sideslip mechanism and finished product shift out mechanism, its characterized in that: the fixing mechanism is composed of a rotating roller (2) and a gypsum line fixing mold (1) which is arranged above the rotating roller (2) in parallel, and the rotating roller (2) is arranged on a production line rack through a bearing seat;

the die parting mechanism is composed of two first cross beams (4) and a die parting device (3) connected between the two first cross beams (4), and two ends of each first cross beam (4) are fixedly connected with the upright posts through screws;

the scraping mechanism consists of a scraping device and a driving device, wherein the driving device comprises a first motor (11), a lead screw (10) and a lead screw nut (15) arranged on the lead screw (10); the scraping device consists of two second cross beams (7) and a middle beam (6) arranged between the two second cross beams (7), and scrapers (5) are uniformly arranged on two sides of the middle beam (6);

the lifting and transverse moving mechanism consists of a gypsum line lifting device and a gypsum line transverse moving device which are connected through two guide rails (18);

the gypsum line lifting device consists of two guide rails (18) and a line lifting frame (24) arranged between the two guide rails (18);

the bottom of the wire lifting frame (24) is connected with a hinge fixing plate, hinges (25) are uniformly and fixedly connected to the hinge fixing plate, a steel rope is further connected to the hinges (25), and the other end of the steel rope is wound on the wire lifting frame (24);

the gypsum line transverse moving device consists of a second motor (23), a transverse moving conveyor belt wheel and a transverse moving conveyor belt (19); a third cross beam (22) and a fourth cross beam (26) are arranged between the two guide rails (18), transverse synchronous belt shafts (21) are arranged beside the two cross beams, transverse conveying belt wheels are arranged at two ends of each transverse synchronous belt shaft (21), and a second motor (23) is further arranged on the third cross beam (22);

the end points of the wire lifting frames at the two ends of the gypsum line lifting device are respectively provided with a first air cylinder (17), the guide rail (18) of the gypsum line lifting device is provided with a second air cylinder (20) at the position close to the two ends of the third cross beam (22) and the middle position of the fourth cross beam (26), the number of the second air cylinders is three, and the position relation of the three second air cylinders (20) is in an isosceles triangle shape;

the finished product moving-out mechanism is connected with four stand columns (30) through stand connecting rods (29), and a third motor (27) is further mounted on the stand connecting rods (29);

the tops of the four stand columns (30) are respectively provided with a first support frame (28), a second support frame (31), a third support frame (34) and a fourth support frame (35); moving-out synchronous belt shafts are respectively arranged between the first support frame (28) and the second support frame (31) and between the third support frame (34) and the fourth support frame (35), moving-out belt wheels are arranged on the two moving-out synchronous belt shafts, and moving-out conveying belts are arranged on the moving-out belt wheels.

2. The automatic gypsum line demolding device as claimed in claim 1, wherein: the number of the lead screw nuts (15) is three, the lead screw nuts are distributed in an isosceles triangle position relationship, the three lead screw nuts (15) are respectively arranged on the three lead screws (10), the bottoms of the lead screws (10) are fixedly connected to the synchronous belt wheel, and the tops of the lead screws (10) are fixedly connected to the lifting support (9); and a first motor (11) is also arranged below the screw nut (15) at the vertex angle position.

3. The automatic gypsum line demolding device as claimed in claim 1, wherein: a lifting platform (8) is further arranged between the scraping device and the driving device, and an upper limiting beam (13) and a lower limiting beam (14) are mounted on the lifting platform (8).

4. The automatic gypsum line demolding device as claimed in claim 1, wherein: connecting strips (16) are further arranged between the wire lifting frames (24), and each wire lifting frame (24) is connected with the connecting strip (16) through a bolt.

5. The automatic gypsum line demolding device as claimed in claim 1, wherein: the guide rail (18) is provided with a sliding groove.

6. The automatic gypsum line demolding device as claimed in claim 1, wherein: the transverse moving conveyor belt (19) is connected with the connecting strip (16).

7. The automatic gypsum line demolding device as claimed in claim 1, wherein: and mounting frames (33) for mounting a second air cylinder (20) are further fixedly connected to two sides of the finished product moving-out mechanism.

8. The automatic gypsum line demolding device as claimed in claim 1, wherein: at least one fixed die (1), at least one intermediate beam (6) and at least one die splitting device (3).

9. The automatic gypsum line demolding device as claimed in claim 1, wherein: one end of the mold splitting device (3) inserted into the fixing mechanism is pointed.

10. The automatic gypsum line demolding device as claimed in claim 1, wherein: a limit plate (32) is also arranged on the moving-out conveyor belt.

Images