CN210998914U - Crosscut device of production extruded polystyrene cystosepiment equipment - Google Patents

Abstract

The utility model discloses a crosscut device of production extrusion molding polystyrene cystosepiment equipment, including the bearing board, the bearing board level is fixed in the frame, has seted up the fracture on the bearing board, is provided with the cutting knife in the fracture, cutting knife accessible fracture, and the inside both sides activity of fracture all is connected with the live-rollers, live-rollers centre gripping cutting knife, the top of fracture is provided with the frame plate, and the frame plate spanes the bearing board, and the both ends of frame plate all are through bracing piece fixed connection bearing board, install linear drive device on the frame plate, the up-and-down motion of vertical direction is done to linear drive device drive cutting knife. The heating wire upwards melts polystyrene foam board, and the cutter body behind it can smooth the hot melt face for the cutting terminal surface is level and smooth. The through hole is formed, and under the clamping action of the rotating roller, the heating wire can return into the cutter body in the downward process of the cutting knife, so that the phenomenon that the cutting end face is uneven due to the fact that the heating wire is used for hot melting the cutting end face in the downward process of the cutting knife can be avoided.

Description

Crosscut device of production extruded polystyrene cystosepiment equipment

Technical Field

The utility model relates to a cutting device technical field specifically is a crosscut device of production extruded polystyrene cystosepiment equipment.

Background

The extruded polystyrene foam board, also called XPS extruded board, is a material formed by continuous extrusion foaming through special process, the hard film formed on its surface is uniform and flat, the interior is completely closed and foamed continuously and uniformly, and formed into honeycomb structure, so that it has the characteristics of high compression resistance, light weight, no water absorption, air impermeability, wear resistance and no degradation.

The XPS extruded sheet has the characteristics of high thermal resistance, low linearity and low expansion ratio, the closed porosity of the structure reaches more than 99 percent, a vacuum layer is formed, air flow heat dissipation is avoided, the heat preservation performance is ensured to be lasting and stable, and the advantages are obvious compared with the 80 percent closed porosity of the foamed polyurethane. Practice proves that the XPS extruded insulation board with the thickness of 20mm has the insulation effect equivalent to foamed polystyrene with the thickness of 50mm and cement perlite with the thickness of 120 mm.

XPS extruded sheet has been in traditional equipment production for many years, and its theory of operation is as follows: the raw materials with a certain formula are mixed in a mixer by a feeding worker and then added into production equipment. The production equipment is a double-stage machine consisting of a single screw and a single screw, foaming agent is injected at the same time, the foaming agent is extruded and foamed by the single-screw double-stage machine and then is discharged from a die, the length and the width of the foaming agent are adjusted by a leveling plate and traction, the foaming agent is cooled by a cooling frame, the saw blade is used for longitudinally cutting the edge of the saw blade and transversely cutting the saw blade, finally, the heating wire is used for accurately cutting the length of the foaming agent to obtain a finished product, and.

In the production of the traditional equipment, the following defects exist: when transversely cutting the cystosepiment into two, the blade is difficult to steadily get into, and is difficult to cut level and smooth, and the flue gas flies around during the cutting, and easy sootiness influences cystosepiment appearance quality at the cystosepiment of processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a crosscut device of production extruded polystyrene cystosepiment equipment to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a transverse cutting device of extruded polystyrene foam board production equipment comprises a bearing plate, wherein the bearing plate is horizontally fixed on a rack, a fracture is formed in the bearing plate, a cutting knife is arranged in the fracture and can pass through the fracture, two sides of the interior of the fracture are movably connected with rotating rollers, the rotating rollers clamp the cutting knife, a frame plate is arranged above the fracture and stretches across the bearing plate, two ends of the frame plate are fixedly connected with the bearing plate through supporting rods, a linear driving device is arranged on the frame plate, and the linear driving device drives the cutting knife to move up and down in the vertical direction;

the cutting knife includes the cutter body, the cutter body is the open box-like in top, the inner chamber top of cutter body is provided with the heating wire, and opens on the top of the both ends wall of cutter body and all is equipped with the through-hole, the diameter of through-hole is greater than the diameter of heating wire, set up the mounting bar under the heating wire, the through-hole is all passed through at the both ends of mounting bar, the tip of mounting bar is connected to linear drive device's drive end, and the top of mounting bar passes through connecting rod fixed connection heating wire, cutter body, mounting bar, fracture and heating wire are parallel to each other.

Preferably, the linear driving device is an electric telescopic rod, the linear driving device is provided with a plurality of groups and is divided into two groups, the two groups of linear driving devices are respectively positioned at two ends of the frame plate, and two ends of the linear driving device are respectively and fixedly connected with the end part of the mounting bar and the frame plate.

Preferably, linear drive device includes two threaded rods, and two threaded rods are located the both ends of frame plate respectively, the round hole has all been seted up at the both ends of frame plate, the both ends of mounting bar all seted up with threaded rod complex screw hole, the threaded rod inserts in the screw hole, the top of threaded rod inserts in the round hole, the equal fixedly connected with motor in both ends of frame plate, the motor is located directly over the round hole, and the rotor of motor is on the top of round hole fixed connection screw hole.

Preferably, the bottom end of the threaded rod is sleeved with a bearing, the bearing is fixedly connected with the supporting plate through a fixing rod, and the bearing is located below the mounting bar.

Preferably, the bottom end of the cutter body is fixedly connected with a hose, the hose is communicated with the inner cavity of the cutter body, and the other end of the hose is connected with the air suction end of the air suction pump.

Preferably, the outer wall of the cutter body is uniformly coated with an anti-sticking coating.

Compared with the prior art, the beneficial effects of the utility model are that: the heating wire upwards melts polystyrene foam board, and the cutter body behind it can smooth the hot melt face for the cutting terminal surface is level and smooth.

The through hole is formed, and under the clamping action of the rotating roller, the heating wire can return into the cutter body in the downward process of the cutting knife, so that the phenomenon that the cutting end face is uneven due to the fact that the heating wire is used for hot melting the cutting end face in the downward process of the cutting knife can be avoided.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

fig. 2 is a schematic cross-sectional structure diagram of embodiment 1 of the present invention;

FIG. 3 is an enlarged view of FIG. 1 at A;

FIG. 4 is an enlarged view of FIG. 2 at B;

fig. 5 is a schematic structural diagram of embodiment 2 of the present invention;

fig. 6 is a schematic cross-sectional structure diagram of embodiment 2 of the present invention;

FIG. 7 is an enlarged view at C of FIG. 5;

fig. 8 is an enlarged view of fig. 6 at D.

Reference numbers in the figures: the device comprises a supporting plate 1, a fracture 2, a cutting knife 3, a knife body 31, an electric heating wire 32, a through hole 33, a mounting strip 34, a rotating roller 4, a frame plate 5, a supporting rod 6, a linear driving device 7, a threaded rod 71, a circular hole 72, a threaded hole 73, a motor 74, a bearing 75, a fixing rod 76, a hose 8 and an air pump 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-4, the present invention provides a technical solution: a transverse cutting device of extruded polystyrene foam board production equipment comprises a bearing plate 1, wherein the bearing plate 1 is horizontally fixed on a rack, a fracture 2 is formed in the bearing plate 1, a cutting knife 3 is arranged in the fracture 2, the cutting knife 3 can pass through the fracture 2, two sides of the interior of the fracture 2 are movably connected with rotating rollers 4, the rotating rollers 4 clamp the cutting knife 3, a frame plate 5 is arranged above the fracture 2, the frame plate 5 stretches across the bearing plate 1, two ends of the frame plate 5 are fixedly connected with the bearing plate 1 through support rods 6, a linear driving device 7 is arranged on the frame plate 5, and the linear driving device 7 drives the cutting knife 3 to move up and down in the vertical direction;

the cutting knife 3 includes cutter body 31, cutter body 31 is the open box-like in top, the inner chamber top of cutter body 31 is provided with heating wire 32, and the top of the both ends wall of cutter body 31 is opened and is all equipped with through-hole 33, the diameter of through-hole 33 is greater than the diameter of heating wire 32, set up mounting bar 34 under the heating wire 32, through-hole 33 is all passed through at the both ends of mounting bar 34, the tip of mounting bar 34 is connected to the drive end of sharp drive arrangement 7, sharp drive arrangement 7 is electric telescopic handle, sharp drive arrangement 7 has a plurality of, and divide into two sets ofly, and two sets of sharp drive arrangement 7 are located the both ends of frame plate 5 respectively, and the tip and the frame plate 5 of its sharp drive arrangement 7 both ends difference fixed connection mounting bar 34. And the top of the mounting bar 34 is fixedly connected with the heating wire 32 through a connecting rod, and the cutter body 31, the mounting bar 34, the fracture 2 and the heating wire 32 are parallel to each other. The bottom end of the cutter body 31 is fixedly connected with a hose 8, the hose 8 is communicated with the inner cavity of the cutter body 31, and the other end of the hose 8 is connected with the air suction end of the air suction pump 9. The hose 8 and the air pump 9 can pump out the smoke generated during hot melting, so that smoking is avoided. The outer wall of the cutter body 31 is uniformly coated with an anti-sticking coating. The anti-sticking coating can guarantee that the cutter body 31 can smooth the hot melt face, and hot melt polystyrene foam is prevented from being stuck on the cutter body 31.

The heating wire 32 is upwards to melt the polystyrene foam board, and the cutter body 31 behind the heating wire can smooth the hot melt surface, so that the cut end surface is smooth.

The through hole 33 is arranged, under the clamping action of the rotating roller 4, in the descending process of the cutting knife 3, the heating wire 32 can retreat into the knife body, and the unevenness of the cutting end face caused by the fact that the heating wire 32 is on the hot melting cutting end face in the descending process of the cutting knife 3 can be avoided.

Example 2

Referring to fig. 5-8, the present invention provides a technical solution: a transverse cutting device of extruded polystyrene foam board production equipment comprises a bearing plate 1, wherein the bearing plate 1 is horizontally fixed on a rack, a fracture 2 is formed in the bearing plate 1, a cutting knife 3 is arranged in the fracture 2, the cutting knife 3 can pass through the fracture 2, two sides of the interior of the fracture 2 are movably connected with rotating rollers 4, the rotating rollers 4 clamp the cutting knife 3, a frame plate 5 is arranged above the fracture 2, the frame plate 5 stretches across the bearing plate 1, two ends of the frame plate 5 are fixedly connected with the bearing plate 1 through support rods 6, a linear driving device 7 is arranged on the frame plate 5, and the linear driving device 7 drives the cutting knife 3 to move up and down in the vertical direction;

the cutting knife 3 comprises a knife body 31, the knife body 31 is in a box shape with an open top, the heating wire 32 is arranged at the top of an inner cavity of the knife body 31, through holes 33 are formed in the top ends of two end walls of the knife body 31, the diameter of each through hole 33 is larger than that of each heating wire 32, a mounting bar 34 is arranged right below each heating wire 32, two ends of each mounting bar 34 pass through the through holes 33, the driving end of the linear driving device 7 is connected with the end part of each mounting bar 34, the top of each mounting bar 34 is fixedly connected with the corresponding heating wire 32 through a connecting rod, each linear driving device 7 comprises two threaded rods 71, the two threaded rods 71 are respectively arranged at two ends of the frame plate 5, round holes 72 are formed in two ends of the frame plate 5, threaded holes 73 matched with the threaded rods 71 are formed in two ends of each mounting bar 34, the threaded rods 71 are inserted, both ends of the frame plate 5 are fixedly connected with motors 74, the motors 74 are positioned right above the round holes 72, and rotors of the motors 74 are fixedly connected with the top ends of the threaded holes 73 in the round holes 72. The bottom end of the threaded rod 71 is sleeved with a bearing 75, the bearing 75 is fixedly connected with the supporting plate 1 through a fixing rod 76, and the bearing 75 is located below the mounting bar 34. The cutter body 31, the mounting bar 34, the fracture 2 and the heating wire 32 are parallel to each other. The bottom end of the cutter body 31 is fixedly connected with a hose 8, the hose 8 is communicated with the inner cavity of the cutter body 31, and the other end of the hose 8 is connected with the air suction end of the air suction pump 9. The hose 8 and the air pump 9 can pump out the smoke generated during hot melting, so that smoking is avoided. The outer wall of the cutter body 31 is uniformly coated with an anti-sticking coating. The anti-sticking coating can guarantee that the cutter body 31 can smooth the hot melt face, and hot melt polystyrene foam is prevented from being stuck on the cutter body 31.

Change linear drive device into the threaded rod drive for embodiment 1, and the threaded rod bottom end is fixed, and is more stable for implementing 1 cutting knife 3 up-and-down process, helps cutting out smooth terminal surface.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a crosscut device of production extruded polystyrene cystosepiment equipment, includes bearing board (1), bearing board (1) level is fixed in the frame, its characterized in that: the supporting plate (1) is provided with a fracture (2), a cutting knife (3) is arranged in the fracture (2), the cutting knife (3) can pass through the fracture (2), two sides of the interior of the fracture (2) are movably connected with rotating rollers (4), the rotating rollers (4) clamp the cutting knife (3), a frame plate (5) is arranged above the fracture (2), the frame plate (5) stretches across the supporting plate (1), two ends of the frame plate (5) are fixedly connected with the supporting plate (1) through supporting rods (6), a linear driving device (7) is installed on the frame plate (5), and the linear driving device (7) drives the cutting knife (3) to move up and down in the vertical direction;

the cutting knife (3) comprises a knife body (31), the knife body (31) is in a box shape with an open top, the top of an inner cavity of the knife body (31) is provided with a heating wire (32), a through hole (33) is formed in the top of each end wall of the knife body (31), the diameter of the through hole (33) is larger than that of the heating wire (32), an installation strip (34) is arranged under the heating wire (32), the two ends of the installation strip (34) are all through the through holes (33), the end part of the installation strip (34) is connected with the driving end of the linear driving device (7), the top of the installation strip (34) is connected with the heating wire (32) through a connecting rod, and the knife body (31), the installation strip (34), a fracture (2) and the heating wire (32) are parallel to.

2. A crosscutting apparatus for an apparatus for producing extruded polystyrene foam board according to claim 1, wherein: linear drive device (7) are electric telescopic handle, linear drive device (7) have a plurality of, and divide into two sets ofly, and two sets of linear drive device (7) are located the both ends of frame plate (5) respectively, and the tip and frame plate (5) of its linear drive device (7) both ends difference fixed connection mounting bar (34).

3. A crosscutting apparatus for an apparatus for producing extruded polystyrene foam board according to claim 1, wherein: linear drive device (7) include two threaded rods (71), and two threaded rods (71) are located the both ends of frame plate (5) respectively, round hole (72) have all been seted up at the both ends of frame plate (5), the both ends of mounting bar (34) all seted up with threaded rod (71) complex screw hole (73), threaded rod (71) insert in screw hole (73), the top of threaded rod (71) inserts in round hole (72), the equal fixedly connected with motor (74) in both ends of frame plate (5), motor (74) are located round hole (72) directly over, and the rotor of motor (74) is on the top of round hole (72) fixed connection screw hole (73).

4. A crosscutting apparatus for an apparatus for producing extruded polystyrene foam board according to claim 3, wherein: the bottom of threaded rod (71) has cup jointed bearing (75), bearing (75) are through dead lever (76) fixed connection supporting plate (1), and bearing (75) are located the below of mounting bar (34).

5. A crosscutting apparatus for an apparatus for manufacturing extruded polystyrene foam board according to any one of claims 1-4, wherein: the bottom end of the cutter body (31) is fixedly connected with a hose (8), the hose (8) is communicated with the inner cavity of the cutter body (31), and the other end of the hose (8) is connected with the air suction end of the air suction pump (9).

6. A crosscutting apparatus for an apparatus for manufacturing extruded polystyrene foam board according to any one of claims 1-4, wherein: the outer wall of the knife body (31) is uniformly coated with an anti-sticking coating.

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