CN214924674U - High-efficient side cut device of diversified heat preservation heat insulating board - Google Patents

Abstract

The utility model discloses a high-efficient side cut device of diversified heat preservation heat insulating board. The utility model discloses, comprises a workbench, four apex angle departments in workstation bottom install the supporting leg, control panel is installed to one side of workstation, the installation box of workstation bottom, the internally mounted of installation box has the motor, first bevel gear is installed to the output of motor, the intermediate position of installation box bottom rotates installs first bull stick. The utility model discloses, through rotatable operation panel, the slidable draw-in groove that deuterogamies and set up carries out nimble location to unidimensional heat insulating board, the box of placing and the slide bar that the cooperation slided simultaneously ensure that the process of cutting edge can not the off normal, when need not frequent loading and unloading heat insulating board of workman, good side cut effect has also been ensured, in addition, utilize the cooperation between drive block and the driving groove, can drive the operation panel and rotate, to circular or the figurative heat insulating board of non-rectangular form, also can carry out good side cut work.

Description

High-efficient side cut device of diversified heat preservation heat insulating board

Technical Field

The utility model relates to a heat insulating board technical field specifically is a diversified high-efficient side cut device of heat preservation heat insulating board.

Background

The heat-insulating material is a material or a material composite with obvious resistance to heat flow, and has the common characteristics of light weight, looseness, porosity or fiber, heat insulation by air which does not flow in the heat-insulating material, non-combustibility, wide use temperature, good chemical corrosion resistance and the like.

At present, all need cut edge processing after the shaping processing is accomplished to the heat preservation heat insulating board, however traditional heat preservation heat insulating board side cut device can not make it rotate after fixing the heat preservation heat insulating board again, when people excise one side of heat preservation heat insulating board, when needing to excise the another side again, still need people to take off the heat preservation heat insulating board after fixing, fix again after the adjustment position, thereby working strength has been increased, worker's time and physical power have been wasted, it is inconvenient to have brought when cutting edge to the heat preservation heat insulating board for worker's people.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient side cut device of diversified heat preservation heat insulating board 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 multidirectional efficient trimming device for heat-insulating boards comprises a workbench, supporting legs are mounted at four top corners of the bottom of the workbench, a control panel is mounted at one side of the workbench, a mounting box is mounted at the bottom of the workbench, a motor is mounted inside the mounting box, a first bevel gear is mounted at the output end of the motor, a first rotating rod is rotatably mounted at the middle position of the bottom of the mounting box, a second bevel gear is mounted on the outer surface of the first rotating rod and meshed with the first bevel gear, a driving block is mounted at one end of the first rotating rod extending into the workbench, a second rotating rod is rotatably mounted at the middle position of the bottom end inside the workbench, a driving groove is mounted on the outer surface of the second rotating rod, an operating plate is mounted at the top of the second rotating rod, and a first sliding groove is formed in the operating plate, a clamping groove is slidably arranged in the first sliding groove, a first threaded rod is rotatably arranged at the middle position of the bottom end in the clamping groove, a pressing block is arranged on the outer surface of the first threaded rod in a threaded manner, a first mounting frame is arranged at one end of the top of the workbench, which is far away from one side of the control panel, a second mounting frame is arranged at the other end of the top of the workbench, which is far away from one side of the control panel, a fixing rod is arranged at the middle position of the bottom end in the second mounting frame, a second threaded rod is rotatably arranged at the middle position of the bottom end in the first mounting frame, a second sliding groove is arranged at the outer surface of the second threaded rod in a threaded manner, a sliding rod is arranged in the second sliding groove, a placing box is slidably arranged on the outer surface of the sliding rod, a limiting block is arranged at one end of the second sliding groove, which is far away from the second threaded rod, and limiting rods are arranged at two ends of the bottom of the limiting block, the limiting rod is close to dead lever one end bottom and installs the spring, the stator is installed to the one end that the spring is close to the dead lever, control panel and motor electric connection.

Preferably, the top of the second threaded rod penetrates through the top of the first mounting frame and extends to the outside of the first mounting frame, and a crank is mounted at the top of the second threaded rod.

Preferably, the inside of stopper is seted up with the through-hole of dead lever looks adaptation and through this through-hole and dead lever sliding connection, the surface of dead lever is seted up a plurality of equidistance vertical arrangement and the corresponding recess in stator size looks adaptation position, the through-hole with operation panel size looks adaptation is seted up at the top of workstation.

Preferably, the shape of operation panel is circular, the lug is installed to the bottom at draw-in groove both ends, first spout is the cross and the inner wall set up with the draw-in groove on set up lug assorted recess.

Preferably, the bottom of the pressing plate is provided with a rubber block, the width of the pressing plate is equal to the length of the groove in the clamping groove, and the length of the pressing plate is twice of the width of the clamping groove.

Preferably, the driving block is composed of a disc with a semicircular lug on the side wall, and a plurality of groups of arc-shaped grooves matched with the lugs arranged on the driving block are arranged on the inner wall of the driving groove in an annular array mode.

Compared with the prior art, the beneficial effects of the utility model are that: this diversified heat preservation heat insulating board high efficiency side cut device, through rotatable operation panel, the slidable draw-in groove that the deuterogamies and set up, carry out nimble location to unidimensional heat insulating board, the box of placing and the slide bar that the cooperation slided simultaneously ensure that the process of cutting edge can not the off normal, when need not the workman and frequently loads and unloads the heat insulating board, good side cut effect has also been ensured, in addition, utilize the cooperation between drive block and the driving groove, can drive the operation panel and rotate, to the figurative heat insulating board of circular or non-rectangle form, also can carry out good side cut work.

Drawings

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

FIG. 2 is a sectional view of the structure of the present invention;

FIG. 3 is an enlarged view of the structure of the portion A in FIG. 2;

FIG. 4 is a schematic view of the internal structure of the slot of the present invention;

FIG. 5 is a top view of the operation plate structure of the present invention;

fig. 6 is a bottom view of the driving block and driving groove structure of the present invention.

In the figure: 1 workstation, 2 supporting legs, 3 control panel, 4 mounting boxes, 5 motors, 6 first bevel gears, 7 first bull stick, 8 second bevel gears, 9 driver block, 10 drive grooves, 11 operation panel, 12 first spout, 13 draw-in grooves, 14 first threaded rod, 15 briquetting, 16 first installing frames, 17 second threaded rod, 18 second spout, 19 slide bars, 20 place the box, 21 second installing frames, 22 gag lever post, 23 dead lever, 24 springs, 25 stators, 26 second bull stick, 27 stoppers.

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.

Referring to fig. 1-6, the present invention provides an embodiment: a multidirectional efficient trimming device for heat-insulating boards comprises a workbench 1, supporting legs 2 are mounted at four top corners at the bottom of the workbench 1, a control panel 3 is mounted at one side of the workbench 1, a mounting box 4 is mounted at the bottom of the workbench 1, a motor 5 is mounted inside the mounting box 4, a first bevel gear 6 is mounted at the output end of the motor 5, a first rotating rod 7 is rotatably mounted at the middle position of the bottom of the mounting box 4, a second bevel gear 8 is mounted on the outer surface of the first rotating rod 7, the first bevel gear 6 is meshed with the second bevel gear 8, a driving block 9 is mounted at one end of the first rotating rod 7 extending into the workbench 1, a second rotating rod 26 is rotatably mounted at the middle position of the bottom end inside the workbench 1, a driving groove 10 is mounted on the outer surface of the second rotating rod 26, an operating plate 11 is mounted at the top of the second rotating rod 26, a first chute 12 is arranged inside the operating plate 11, a clamping groove 13 is slidably arranged in the first sliding groove 12, a first threaded rod 14 is rotatably arranged at the middle position of the bottom end in the clamping groove 13, a pressing block 15 is arranged on the outer surface of the first threaded rod 14 in a threaded manner, a first mounting frame 16 is arranged at one end of the top of the workbench 1 far away from one side of the control panel 3, a second mounting frame 21 is arranged at the other end of the top of the workbench 1 far away from one side of the control panel 3, a fixing rod 23 is arranged at the middle position of the bottom end in the second mounting frame 21, a second threaded rod 17 is rotatably arranged at the middle position of the bottom end in the first mounting frame 16, a second sliding groove 18 is arranged on the outer surface of the second threaded rod 17, a sliding rod 19 is arranged in the second sliding groove 18, a placing box 20 is slidably arranged on the outer surface of the sliding rod 19, an edge cutting device is arranged in the placing box 20, the bottom of the placing box 20 is in an open shape, and a limiting block 27 is arranged at one end of the second sliding groove 18 far away from the second threaded rod 17, limiting rods 22 are installed at two ends of the bottoms of the limiting blocks 27, springs 24 are installed at the bottoms of the ends, close to the fixing rods 23, of the limiting rods 22, stators 25 are installed at the ends, close to the fixing rods 23, of the springs 24, one ends, close to the fixing rods 23, of the stators 25 are in a semi-sphere shape, and the control panel 3 is electrically connected with the motor 5.

In this embodiment, the top of the second threaded rod 17 penetrates the top of the first mounting frame 16 and extends to the outside of the first mounting frame 16, a crank is attached to the top of the second threaded rod 17, and the position of the second chute 18 is adjusted by rotating the crank and the second threaded rod 17.

In this implementation, the inside of stopper 27 is seted up with the through-hole of dead lever 23 looks adaptation and through this through-hole and dead lever 23 sliding connection, the surface of dead lever 23 is seted up a plurality of equidistance vertical arrangement and with the corresponding recess in stator 25 size looks adaptation position, the through-hole with operation panel 11 size looks adaptation is seted up at the top of workstation 1. The fixing of the descending position of the second chute 18 can be realized by the groove provided on the fixing rod 23 and the stator 25.

In this implementation, the shape of operation panel 11 is circular, and the lug is installed to the bottom at draw-in groove 13 both ends, and first spout 12 is the cross and the inner wall set up with draw-in groove 13 on set up lug assorted recess, let draw-in groove 13 can slide along first spout 12 on operation panel 11 to can effectually fix the heat insulating board.

In this implementation, the rubber block is installed to the bottom of clamp plate 15, and the width of clamp plate 15 equals with the inside recess length of draw-in groove 13 and the length of clamp plate 15 is the twice of draw-in groove 13 width, makes clamp plate 15 can effectually contact with the heat insulating board to under the centre gripping of draw-in groove 13 lateral wall, make clamp plate 15 can effectual decline.

In this implementation, the driving block 9 is composed of a disc with semicircular lugs mounted on one side wall, the inner wall of the driving groove 10 is provided with a plurality of groups of arc-shaped grooves matched with the lugs arranged on the driving block 9 in an annular array mode, the driving block 9 is matched with the grooves in the driving groove 10, so that the operating plate 11 rotates, and simultaneously, the angle of single rotation of the operating plate 11 can be controlled along with the arrangement of different groove quantities.

The working principle is as follows: when in use, after the heat insulation board needing trimming is placed on the operation board 11, the position of the clamping groove 13 is adjusted according to the cutting position and the size of the heat insulation board, after the adjustment is completed, the first threaded rod 14 is rotated, the pressing block 15 is driven to be close to the heat insulation board through the rotation of the first threaded rod 14 and fixes the heat insulation board, then the crank arranged at the top of the second threaded rod 17 is pressed to drive the second chute 18 to descend, after the second chute 18 descends in place, the descending position of the second chute 18 can be positioned through the matching among the stator 25, the spring 24 and the fixed rod 23, and the cutting device arranged inside the placing box 20 is close to the heat insulation board, when trimming is performed, the cutting device is pushed under the guidance of the sliding rod 19 to move for trimming, after unilateral cutting is completed, the motor 5 is controlled to rotate through the control panel 3, along with the action of the output end of the motor 5, drive the drive block 9 and rotate to through the cooperation between drive block 9 and the drive slot 10, realize the rotation of operation panel 11, realize the operation of changing sides, when cutting edge to discoid or non-rectangular shape's heat insulating board, can utilize operation panel 11 to rotate simultaneously, the position of adjustment heat insulating board cuts edge.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (6)

1. The utility model provides a high-efficient side cut device of diversified heat preservation heat insulating board, includes workstation (1), its characterized in that: the supporting legs (2) are installed at four top corners of the bottom of the workbench (1), a control panel (3) is installed at one side of the workbench (1), a mounting box (4) is installed at the bottom of the workbench (1), a motor (5) is installed inside the mounting box (4), a first bevel gear (6) is installed at the output end of the motor (5), a first rotating rod (7) is installed at the middle position of the bottom of the mounting box (4) in a rotating mode, a second bevel gear (8) is installed on the outer surface of the first rotating rod (7), the first bevel gear (6) is meshed with the second bevel gear (8), a driving block (9) is installed at one end, extending to the inside of the workbench (1), of the first rotating rod (7), a second rotating rod (26) is installed at the middle position of the bottom inside of the workbench (1) in a rotating mode, a driving groove (10) is installed on the outer surface of the second rotating rod (26), the top of second bull stick (26) is installed operation panel (11), the inside of operation panel (11) is provided with first spout (12), the inside slidable mounting of first spout (12) has draw-in groove (13), the intermediate position of the inside bottom of draw-in groove (13) rotates and installs first threaded rod (14), the surface threaded mounting of first threaded rod (14) has briquetting (15), the one end of control panel (3) one side is kept away from at workstation (1) top is installed first installing frame (16), the other end of control panel (3) one side is kept away from at workstation (1) top is installed second installing frame (21), dead lever (23) is installed to the intermediate position of the inside bottom of second installing frame (21), the intermediate position of the inside bottom of first installing frame (16) rotates and installs second threaded rod (17), the surface threaded mounting of second threaded rod (17) has second spout (18), the internally mounted of second spout (18) has slide bar (19), the surface slidable mounting of slide bar (19) has places box (20), second spout (18) are kept away from the one end of second threaded rod (17) and are installed stopper (27), gag lever post (22) are installed at the both ends of stopper (27) bottom, gag lever post (22) are close to dead lever (23) one end bottom and install spring (24), stator (25) are installed to the one end that spring (24) are close to dead lever (23), control panel (3) and motor (5) electric connection.

2. The multi-directional efficient edge cutting device for the heat insulation and heat insulation boards as claimed in claim 1, wherein: the top of the second threaded rod (17) penetrates through the top of the first mounting frame (16) and extends to the outside of the first mounting frame (16), and a crank is mounted at the top of the second threaded rod (17).

3. The multi-directional efficient edge cutting device for the heat insulation and heat insulation boards as claimed in claim 1, wherein: the through-hole with dead lever (23) looks adaptation is seted up to the inside of stopper (27) and through this through-hole and dead lever (23) sliding connection, the surface of dead lever (23) is seted up a plurality of equidistance vertical arrangement and with stator (25) size looks adaptation position corresponding recess, the through-hole with operation panel (11) size looks adaptation is seted up at the top of workstation (1).

4. The multi-directional efficient edge cutting device for the heat insulation and heat insulation boards as claimed in claim 1, wherein: the shape of operation panel (11) is circular, the lug is installed to the bottom at draw-in groove (13) both ends, first spout (12) are the cross and the inner wall set up with draw-in groove (13) on set up lug assorted recess.

5. The multi-directional efficient edge cutting device for the heat insulation and heat insulation boards as claimed in claim 1, wherein: the rubber block is installed to the bottom of briquetting (15), the width of briquetting (15) equals with draw-in groove (13) inside groove length and the length of briquetting (15) is the twice of draw-in groove (13) width.

6. The multi-directional efficient edge cutting device for the heat insulation and heat insulation boards as claimed in claim 1, wherein: the driving block (9) is composed of a disc with a semicircular lug on the side wall, and a plurality of groups of arc-shaped grooves matched with the lug arranged on the driving block (9) are arranged on the inner wall of the driving groove (10) in an annular array mode.

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