CN114993012A - Drying device is used in production of rock wool heated board - Google Patents

Abstract

The invention discloses a drying device for producing rock wool insulation boards, which relates to the technical field of rock wool insulation board drying, and comprises a drying mechanism, a ventilation mechanism and a transverse movement mechanism, wherein the ventilation mechanism and the transverse movement mechanism are connected with the drying mechanism, the ventilation mechanism comprises air supply assemblies, the air supply assemblies are symmetrically arranged on two sides of the drying mechanism, the ventilation mechanism also comprises a ventilation belt which is driven by a belt and a drying belt wheel belt, the ventilation belt is connected with a transverse movement transmission shaft in a coaxial manner, a ventilation bevel gear I and a transverse movement bevel gear I are fixedly arranged on the transverse movement transmission shaft I, and the transverse movement bevel gear I are mutually meshed with each other. Avoid the heated board secondary to wet.

Description

Drying device is used in production of rock wool heated board

Technical Field

The invention relates to the technical field of rock wool insulation board drying, in particular to a drying device for rock wool insulation board production.

Background

The rock wool heat insulation board is prepared by melting basalt and other natural ores as main raw materials, adopting an international advanced four-roller centrifugal cotton manufacturing process to spin and draw a high-temperature solution of the basalt into discontinuous fibers with the diameter of 4-7 mu m, adding a certain amount of binder, dustproof oil and water repellent into the rock wool fibers, settling, curing, cutting and the like, and preparing series products with different densities according to different purposes. The rock wool heat-insulating board product is suitable for heat insulation, sound insulation and the like of industrial equipment, buildings and ships. In order to guarantee that the heated board can satisfy the user demand, need get rid of the moisture that contains in the panel to off-the-shelf rock wool heated board through drying process, avoid using and deposit the inside moldy and the whitening scheduling problem of back.

In order to solve the problem, chinese patent publication No. CN112833649A discloses a drying device for rock wool insulation board production, which includes a frame, a drying box, and a conveying part, wherein the drying box is disposed on the frame, the conveying part is also disposed on the frame, the conveying part is disposed at the lower part of the drying box and penetrates through the drying box, a plurality of cushion blocks are disposed on the conveying part, a feeding end and a discharging end are disposed at two ends of the drying box, the drying box is vertically disposed, a drying mechanism and a guiding mechanism are disposed in the drying box, the drying mechanism is disposed at two sides of the conveying part, the guiding mechanism includes vertically disposed guiding rollers and rotating shafts, the rotating shafts are symmetrically disposed at two sides of the conveying part, and the guiding rollers are rotatably connected with the rotating shafts. In the rock wool heated board got into the drying cabinet with vertical state, avoided the rock wool heated board when keeping flat, the face that contacts with the conveyer belt was difficult to directly receive the effect of stoving mechanism and the stoving that leads to is not enough complete, the circumstances such as moisture remains, though improved efficiency like this, but the effect of stoving is not good, the quality of rock wool heated board after the stoving is not high, the remaining moisture inside panel can't be got rid of completely to short time and disposable stoving, and can't carry out the circulation of air, will cause the secondary of heated board to wet, so the invention provides a drying device is used in the production of rock wool heated board.

Disclosure of Invention

The invention provides a drying device for producing rock wool insulation boards, aiming at overcoming the defects in the prior art that the drying effect and the drying quality are not high, residual moisture in the boards cannot be completely removed by short-time and one-time drying, and air circulation cannot be performed, so that the insulation boards are affected with damp for the second time.

The drying device for producing the rock wool insulation board comprises a drying mechanism, a ventilation mechanism and a transverse movement mechanism, wherein the ventilation mechanism and the transverse movement mechanism are connected with the drying mechanism, the ventilation mechanism comprises an air supply assembly, the air supply assembly is symmetrically arranged on two sides of the drying mechanism, the ventilation mechanism further comprises a ventilation belt which is driven by a belt and a drying belt wheel belt, the ventilation belt is connected with a transverse movement transmission shaft in a coaxial mode, a first ventilation bevel gear and a first transverse movement bevel gear are fixedly mounted on the first transverse movement transmission shaft, the first transverse movement bevel gear is mutually meshed with the second transverse movement bevel gear, the second transverse movement bevel gear is fixedly connected with a first transverse movement connecting rod through a second transverse movement transmission shaft, the first transverse movement connecting rod is rotatably connected with one end of a second transverse movement connecting rod, the other end of the second transverse movement connecting rod is rotatably connected with a gear shaft of the transverse movement connecting rod, two ends of the gear shaft of the transverse movement gear are respectively slidably mounted in a transverse movement guide groove, and the transverse movement gear and a fixed rack, The sliding racks are meshed with each other, the fixed racks and the sliding racks are arranged oppositely, the sliding racks are slidably mounted on the supporting sliding frame, and the reversing assembly enabling the heat insulation plate to be heated in all directions is mounted on the supporting sliding frame.

Further, stoving mechanism includes the stoving band pulley with motor output shaft fixed connection, stoving band pulley and the coaxial fixed connection of stoving fluted disc, is equipped with on the stoving fluted disc and dials the post, dials the post and takes the tooth structure cooperation drive on the tooth slide rail and take the tooth slide rail to slide, takes tooth slide rail slidable mounting on the stoving guide slot, takes and fixedly mounted on the tooth slide rail to have the stoving pipe.

Furthermore, the ventilation mechanism further comprises a second ventilation bevel gear meshed with the first ventilation bevel gear, the second ventilation bevel gear is coaxially and fixedly connected with a ventilation transmission shaft, and a third ventilation bevel gear is fixedly mounted on the ventilation transmission shaft.

Furthermore, the air supply assembly comprises an air supply bent rod, two ends of the air supply bent rod are respectively rotatably installed with an air supply support, the air supply bent rod is rotatably connected with two air supply connecting rods, the two air supply connecting rods are respectively rotatably installed with one air supply connecting rod, the first air supply connecting rod is fixedly connected with an air supply transmission shaft, the air supply transmission shaft is rotatably installed on an air supply supporting plate, and a fan is fixedly installed on the air supply transmission shaft.

Furthermore, the air supply transmission shafts, the fan, the first air supply connecting rod, the second air supply connecting rod, the air supply supporting plate and the air supply supporting seat are symmetrically arranged in two, one of the air supply transmission shafts is fixedly provided with a first air supply bevel gear, and the first air supply bevel gear and the ventilation bevel gear are mutually meshed in three phases.

Furthermore, the reversing assembly comprises a reversing guide frame fixedly mounted on the supporting sliding frame, an oblique section is arranged on the reversing guide frame, two ends of the oblique section on the reversing guide frame are fixedly connected with a horizontal section respectively, and two parallel sections and oblique sections on the reversing guide frame are provided with communicated sliding grooves.

Furthermore, one end of a reversing crank is slidably mounted in a sliding groove of the reversing guide frame, the other end of the reversing crank is fixedly mounted with a reversing shaft, the reversing shaft is rotatably mounted in a reversing seat, the reversing seat is fixedly mounted on a sliding rack, and the reversing shaft is fixedly connected with the slotted clamp plate.

Furthermore, the axis of the reversing shaft and the center of the chute of the inclined section of the reversing guide frame are positioned on the same horizontal plane; the slotted clamp plate is arranged below the drying mechanism.

Compared with the prior art, the invention has the beneficial effects that: (1) according to the invention, the one-hundred-eighty-degree turnover of the insulation board is completed through the reversing mechanism, so that two sides of the insulation board can be fully dried, and the drying effect is good; (2) according to the invention, the drying guide groove is used for carrying out linear guide on the drying pipe, and heat is transferred to the whole box body through reciprocating movement, so that the temperature in the box body is rapidly raised; (3) the ventilation mechanism is arranged to exchange air in the relatively closed box body with the outside, so that air with moisture is timely discharged, secondary moisture of the insulation board is avoided, and the insulation board is dried more thoroughly.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of a partial structure of the drying mechanism of the present invention.

FIG. 3 is a schematic view of another angle of the drying mechanism according to the present invention.

Fig. 4 is a partial structural schematic view of the ventilation mechanism of the present invention.

Fig. 5 is another angle partial structure diagram of the ventilation mechanism of the invention.

Fig. 6 is a partial structure schematic diagram of the ventilation mechanism and the transverse moving mechanism of the invention.

Fig. 7 is a partial structural schematic view of the traversing mechanism of the present invention.

FIG. 8 is a schematic view of the enlarged view of FIG. 7A according to the present invention.

Reference numerals: 1-a drying mechanism; 2-a ventilation mechanism; 3-a traversing mechanism; 101-drying belt wheel; 102-drying a fluted disc; 103-toothed sliding rail; 104-a drying pipe; 105-a drying guide groove; 106-drying the bracket; 201-a belt; 202-a ventilation belt; 203-a first ventilation bevel gear; 204-a ventilation bevel gear II; 205-ventilating transmission shaft; 206-ventilation bevel gear three; 207-a first air supply bevel gear; 208-an air supply transmission shaft; 209-a fan; 210-a first air supply connecting rod; 211-air supply connecting rod two; 212-air supply bent rod; 213-an air supply support plate; 214-a supply air support; 301-traversing the transmission shaft I; 302-traversing the bevel gear I; 303-traversing a bevel gear II; 304-transversely moving the transmission shaft II; 305-a transverse moving connecting rod I; 306-traversing the connecting rod II; 307-traversing guide groove; 308-fixed rack bar; 309-a traverse gear; 310-sliding rack; 311-a support carriage; 312-a reversing guide frame; 313-slotted clamp plate; 314-a reversing shaft; 315-a reversing seat; 316-reversing crank.

Detailed Description

In the following description of the present invention, it is to be noted that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the connection may be direct or indirect via an intermediate medium, and the connection may be internal to the two components. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention will be further described with reference to the drawings and illustrative embodiments, which are provided herein to illustrate and not to limit the invention. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

Example (b): referring to fig. 1-8, a drying device is used in rock wool heated board production, includes ventilation mechanism 2, sideslip mechanism 3 who is connected with drying mechanism 1.

The drying mechanism 1 comprises a drying belt wheel 101 fixedly connected with an output shaft of a motor, the drying belt wheel 101 is in belt transmission with a ventilation belt 202 through a belt 201, a shifting column is arranged on a drying toothed disc 102 and is matched with a tooth-shaped structure on a toothed sliding rail 103 to drive the toothed sliding rail 103 to slide, a drying pipe 104 is fixedly arranged on the toothed sliding rail 103, the toothed sliding rail 103 is slidably arranged on a drying guide groove 105, the drying guide groove 105 is fixedly arranged on a drying support 106, and the drying support 106 is fixedly arranged on a bottom plate.

The ventilation mechanism 2 comprises a belt 201 and a ventilation belt 202, the ventilation belt 202 is fixedly connected with a first traverse transmission shaft 301, a first ventilation bevel gear 203 is fixedly mounted on the first traverse transmission shaft 301, the first ventilation bevel gear 203 is meshed with a second ventilation bevel gear 204, the second ventilation bevel gear 204 is fixedly connected with a third ventilation bevel gear 206 through a ventilation transmission shaft 205, the ventilation transmission shaft 205 is rotatably mounted on a ventilation support, the ventilation support is fixedly mounted on a bottom plate, and the third ventilation bevel gear 206 is meshed with a first air supply bevel gear 207; the ventilation mechanism 2 further comprises two air supply transmission shafts 208, a fan 209, a first air supply connecting rod 210, a second air supply connecting rod 211, an air supply supporting plate 213 and an air supply supporting seat 214, wherein a first air supply bevel gear 207 is fixedly installed on one air supply transmission shaft 208, a fan 209 is fixedly installed on each of the two air supply transmission shafts 208, the two air supply transmission shafts 208 are respectively and rotatably installed on the one air supply supporting plate 213, the air supply supporting plate 213 is fixedly installed on the bottom plate, the two air supply transmission shafts 208 are respectively and fixedly connected with one end of the first air supply connecting rod 210, the other ends of the two air supply connecting rods 210 are respectively and rotatably connected with the second air supply connecting rod 211, the two air supply connecting rods 211 are both rotatably installed on an air supply bent rod 212, the two ends of the air supply bent rod 212 are respectively and rotatably installed on the air supply supporting seat 214, and the air supply supporting seat 214 is fixedly installed on the bottom plate.

The transverse moving mechanism 3 comprises a transverse moving bevel gear I302 fixedly arranged on a transverse moving transmission shaft I301, the transverse moving transmission shaft I301 is rotatably arranged on a transverse moving support I, the transverse moving support I is fixedly arranged on a bottom plate, the transverse moving bevel gear I302 is mutually meshed with a transverse moving bevel gear II 303, the transverse moving bevel gear II 303 is fixedly connected with one end of a transverse moving connecting rod I305 through a transverse moving transmission shaft II 304, the transverse moving transmission shaft II 304 is rotatably arranged on a transverse moving support II, the other end of the transverse moving connecting rod I305 is rotatably connected with a transverse moving connecting rod II 306, the transverse moving connecting rod II 306 is rotatably connected with one end of a transverse moving gear 309 shaft, two ends of the transverse moving gear 309 shaft are respectively and slidably arranged in a transverse moving guide groove 307, the transverse moving guide groove 307 is fixedly arranged on the bottom plate, the transverse moving gear 309 is mutually meshed with a fixed rack 308 and a sliding rack 310, the fixed rack 308 is fixedly arranged on the bottom plate, the sliding rack 310 is slidably arranged on a supporting carriage 311, the support carriage 311 is fixedly mounted on the base plate; a reversing guide frame 312 is fixedly installed on the supporting sliding frame 311, an oblique section is arranged on the reversing guide frame 312, two ends of the oblique section on the reversing guide frame 312 are respectively and fixedly connected with a horizontal section, two parallel sections and oblique sections on the reversing guide frame 312 are provided with communicated sliding grooves, one end of a reversing crank 316 is installed in the sliding groove of the reversing guide frame 312 in a sliding manner, the other end of the reversing crank 316 is fixedly installed with a reversing shaft 314, the reversing shaft 314 is rotatably installed in a reversing seat 315, the reversing seat 315 is fixedly installed on a sliding rack 310, the reversing shaft 314 is fixedly connected with a slotted clamp plate 313, the axis of the reversing shaft 314 and the center of the oblique section of the reversing guide frame 312 are positioned on the same horizontal plane, and the slotted clamp plate 313 is arranged below the drying mechanism 1.

The drying device is arranged in a box body provided with vent holes, the bottom of the box body is provided with a bottom plate, a heat insulation plate to be dried is clamped into a slotted clamp plate 313 when the drying device is used, a motor is started, and three ways of power transmission are provided for respectively driving a drying mechanism 1, a ventilation mechanism 2 and a transverse movement mechanism 3 to operate.

The motor drive stoving band pulley 101 rotates, drives stoving fluted disc 102 and rotates, comes periodic drive to take tooth slide rail 103 to carry out reciprocal linear motion along the stoving guide slot 105 of both sides through stoving fluted disc 102 to drive stoving pipe 104 and carry out reciprocal linear motion, make the heat of stoving pipe 104 fully transmit the downside space of stoving mechanism 1, make rapid heating up in the box.

Meanwhile, the drying belt wheel 101 rotates to drive the ventilation belt 202 to rotate through the belt 201, the transverse movement transmission shaft I301 is driven to rotate, the ventilation bevel gear I203 is driven to rotate, the ventilation bevel gear II 204 and the ventilation transmission shaft 205 are driven to rotate, the ventilation bevel gear III 206 is driven to rotate, the air supply bevel gear I207 is driven to rotate, the air supply transmission shaft 208 and the fan 209 on one side of the air supply bevel gear I207 are driven, the air supply connection rod I210 rotates to drive the air supply connection rod II 211 to swing, the air supply bent rod 212 is driven to swing, the air supply connection rod II 211 on the other side is driven to swing, the air supply connection rod I210, the fan 209 and the air supply transmission shaft 208 on the other side are driven to rotate, air in the box body is exchanged through rotation of the fan 209, moisture in the box body is discharged in time, and secondary moisture of the heat insulation board is avoided.

Meanwhile, the first traverse transmission shaft 301 rotates to drive the first traverse bevel gear 302 to rotate, the second traverse bevel gear 303 and the second traverse transmission shaft 304 are driven to rotate, the first traverse connecting rod 305 is driven to rotate, the second traverse connecting rod 306 is driven to swing, the traverse gear 309 is driven to be meshed with the fixed rack 308 and the sliding rack 310, the gear shafts of the traverse gear 309 and the traverse gear 309 are driven to perform reciprocating linear rolling in the traverse guide groove 307, and the sliding rack 310 is driven to perform reciprocating linear motion along the support sliding frame 311; meanwhile, the sliding rack 310 drives the reversing seat 315 to move synchronously, when the reversing seat 315 drives the reversing shaft 314 to do reciprocating linear motion, one end of the reversing crank 316 is driven to rotate while sliding in the sliding groove of the reversing guide frame 312, when the reversing crank 316 slides from a horizontal section to an oblique section and then to the horizontal section, the reversing crank 316 drives the reversing shaft 314 to rotate for one hundred eighty degrees in the reversing seat 315, and simultaneously drives the slotted clamp plate 313 and the heat-insulating plate to turn for one hundred eighty degrees, so that the purpose of reversing and heating is achieved, and two sides of the heat-insulating plate can be uniformly heated.

It should be understood that the above embodiments are only for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and alterations are intended to fall within the scope of the appended claims.

Claims (8)

1. The utility model provides a drying device is used in production of rock wool heated board, includes stoving mechanism (1), its characterized in that: the drying device is characterized by further comprising a ventilation mechanism (2) and a transverse movement mechanism (3) which are connected with the drying mechanism (1), wherein the ventilation mechanism (2) comprises an air supply assembly, the air supply assembly is symmetrically arranged on two sides of the drying mechanism (1), the ventilation mechanism (2) further comprises a ventilation belt (202) which is in belt transmission with a drying belt wheel (101) through a belt (201), the ventilation belt (202) is coaxially connected with a transverse movement transmission shaft I (301), a ventilation bevel gear I (203) and a transverse movement bevel gear I (302) are fixedly arranged on the transverse movement transmission shaft I (301), the transverse movement bevel gear I (302) is meshed with a transverse movement bevel gear II (303), the transverse movement bevel gear II (303) is fixedly connected with a transverse movement connecting rod I (305) through a transverse movement transmission shaft II (304), the transverse movement connecting rod I (305) is rotatably connected with one end of the transverse movement connecting rod II (306), the other end of the transverse movement connecting rod II (306) is rotatably connected with a gear shaft of the transverse movement gear (309), two ends of a gear shaft of a transverse gear (309) are respectively and slidably mounted in a transverse guide groove (307), the transverse gear (309) is meshed with a fixed rack (308) and a sliding rack (310), the fixed rack (308) and the sliding rack (310) are oppositely arranged, the sliding rack (310) is slidably mounted on a supporting sliding frame (311), and a reversing assembly enabling the heat insulation plate to be heated in all directions is mounted on the supporting sliding frame (311).

2. The drying device is used in production of rock wool heated board of claim 1, its characterized in that: drying mechanism (1) including with motor output shaft fixed connection's stoving band pulley (101), stoving band pulley (101) and the coaxial fixed connection of stoving fluted disc (102), be equipped with on stoving fluted disc (102) and dial the post, dial the post and take the tooth profile of tooth structure cooperation drive on tooth slide rail (103) and take tooth slide rail (103) to slide, take tooth slide rail (103) slidable mounting on stoving guide slot (105), take tooth slide rail (103) to go up fixed mounting and have stoving pipe (104).

3. The drying device is used in production of rock wool heated board of claim 1, its characterized in that: the ventilation mechanism (2) further comprises a ventilation bevel gear II (204) which is meshed with the ventilation bevel gear I (203), the ventilation bevel gear II (204) is coaxially and fixedly connected with a ventilation transmission shaft (205), and a ventilation bevel gear III (206) is fixedly mounted on the ventilation transmission shaft (205).

4. The drying device is used in rock wool heated board production of claim 1, its characterized in that: the air supply assembly comprises an air supply bent rod (212), the two ends of the air supply bent rod (212) are rotatably installed with an air supply support (214) respectively, the air supply bent rod (212) is rotatably connected with two air supply connecting rods (211), the two air supply connecting rods (211) are rotatably installed with one air supply connecting rod (210) respectively, the air supply connecting rod (210) is fixedly connected with an air supply transmission shaft (208), the air supply transmission shaft (208) is rotatably installed on an air supply support plate (213), and a fan (209) is fixedly installed on the air supply transmission shaft (208).

5. The drying device is used in production of rock wool heated board of claim 4, its characterized in that: the air supply device is characterized in that the number of the air supply transmission shafts (208), the number of the fans (209), the number of the air supply connecting rods I (210), the number of the air supply connecting rods II (211), the number of the air supply supporting plates (213) and the number of the air supply supporting seats (214) are two, one of the air supply transmission shafts (208) is fixedly provided with the number of the air supply bevel gears I (207), and the number of the air supply bevel gears I (207) is meshed with the number of the ventilation bevel gears III (206).

6. The drying device is used in rock wool heated board production of claim 1, its characterized in that: the reversing assembly comprises a reversing guide frame (312) fixedly mounted on a supporting sliding frame (311), an oblique section is arranged on the reversing guide frame (312), two ends of the oblique section on the reversing guide frame (312) are fixedly connected with a horizontal section respectively, and two parallel sections and oblique sections on the reversing guide frame (312) are provided with communicated sliding grooves.

7. The drying device is used in production of rock wool heated board of claim 6, its characterized in that: one end of a reversing crank (316) is arranged in a sliding groove of the reversing guide frame (312) in a sliding mode, the other end of the reversing crank (316) is fixedly arranged with a reversing shaft (314), the reversing shaft (314) is rotatably arranged in a reversing seat (315), the reversing seat (315) is fixedly arranged on a sliding rack (310), and the reversing shaft (314) is fixedly connected with a slotted clamp plate (313).

8. The drying device is used in production of rock wool heated board of claim 7, its characterized in that: the axis of the reversing shaft (314) and the center of the chute of the inclined section of the reversing guide frame (312) are positioned on the same horizontal plane; the slotted clamp plate (313) is arranged below the drying mechanism (1).

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