Not up to standard timber of building monitoring is picked up accurately and is utilized equipment
Technical Field
The invention relates to the technical field of building decoration treatment, in particular to fine wood picking and utilizing equipment for building monitoring unqualified.
Background
In the construction process, the timber has the characteristics of concise material acquisition, convenient repair, strong adaptability and high construction speed, so the timber is popular in the construction process, but some timber square stocks can be abandoned because cracks do not reach the use standard.
At present, square materials with cracks can be directly crushed and recycled, but the degree of cracks of some wood square materials is small, the appearance of wood is cut completely, and if the square materials are directly crushed and recycled, parts without cracks cannot be cut and utilized.
Disclosure of Invention
The invention mainly aims to overcome the defects of the prior art and provide the fine wood picking and utilizing equipment for the unqualified building monitoring.
The invention is realized by adopting the following technical scheme: the utility model provides a building monitoring is not smart to be picked up and is utilized equipment up of timber up, its structure includes layering cutting device, alarm indicator, control panel, front shroud, thermovent, supporting legs, organism, layering cutting device installs inside the organism, organism right-hand member top is connected perpendicularly with alarm indicator bottom, control panel back and organism top front side fixed connection, the front shroud is installed in the organism front side, the thermovent from the top down interval is the same arranges in proper order inside the front shroud, the supporting legs connects gradually into the rectangle structure and arranges in the bottom of the body.
The layered cutting device is optimized to be composed of a multilayer cutting device, a feeding fixing port, an inclined block, a bottom support frame, a separating frame, a top plate and a front fixing plate, wherein the side face of the front end of the multilayer cutting device is fixedly connected with the inner portion of the middle end of the front fixing plate, the bottom of the inclined block is vertically connected with the top of the bottom support frame, the left side of the inclined block is fixedly connected with the right side of the bottom end of the feeding fixing port, the right end of the bottom support frame is provided with the separating frame, the left end of the top plate is welded with the right side of the top end of the feeding fixing port, and the top of the middle end.
As the optimization, multilayer cutting device comprises motor, first cutting dish, branching mount, middle cutting dish, equidistance connecting rod, drive belt, connecting rod, second cutting dish, the equidistance connecting rod middle-end is connected with the inside perpendicular of middle cutting dish, motor bottom and the inside fixed connection of first cutting dish, motor bottom side carries out the transmission through drive belt and equidistance connecting rod top and is connected, equidistance connecting rod bottom side is connected with the transmission of connecting rod top through the drive belt, the connecting rod bottom is connected with the inside perpendicular of second cutting dish, both sides and the inside fixed connection of branching mount bottom around first cutting dish, middle cutting dish and the second cutting dish.
As an optimization, the middle cutting disc is composed of a fixed disc, arc-shaped cutting lines, through holes and a convex disc, the through holes are sequentially arranged in the middle ring of the fixed disc according to the same interval angle, the arc-shaped cutting lines are sequentially arranged on two sides of the outer ring of the fixed disc, and the back of the convex disc is vertically connected with the front side of the middle end of the fixed disc.
As optimizing, the fixed mouth of feeding comprises triangle gasbag, triangle breach, spring, rocking arm, spring coil, outer tube, the inside triangle breach that is equipped with in first end of outer tube, the inside triangle gasbag that is equipped with of triangle breach, the spring both ends and the inside fixed connection of triangle gasbag, the rocking arm is installed inside the outer tube bottom right half end, spring coil top and rocking arm left end bottom fixed connection.
Preferably, the separation frame is composed of rollers, trapezoidal grooves and fixing blocks, the trapezoidal grooves are sequentially arranged inside the fixing blocks from top to bottom, and the rollers are arranged at the bottoms of the trapezoidal grooves.
Preferably, the cross section of the trapezoidal groove is of a trapezoidal structure, and the bottom of the trapezoidal groove is a slope.
Preferably, the whole structure of the triangular air bag is a triangular body.
Preferably, the arc cutting lines are arc-shaped and have small fluctuation degree.
Preferably, the number of the through holes is 5, and the through holes surround the middle ring of the fixed disc.
Preferably, the first cutting disc, the middle cutting disc and the second cutting disc are identical in structure and spacing.
Advantageous effects
The invention relates to a fine wood picking and utilizing device for building monitoring which does not reach the standard, when in use, square wood is required to be pushed into a machine body through a feeding fixing port, when the wood is pushed inwards through the fixing port, the wood is firstly contacted with a second cutting disc, then contacted with an intermediate cutting disc and finally contacted with a first cutting disc, because the second cutting disc, the intermediate cutting disc and the first cutting disc are gradually pushed backwards from left to right, the wood can be cut layer by layer, when the wood is cut simultaneously, the middle plate is prevented from being damaged due to too strong vibration, a motor can generate driving torque to drive the first cutting disc to rotate, the motor pulls equidistant connecting rods through a driving belt, the equidistant connecting rods pull the connecting rods to rotate through the driving belt, the intermediate cutting disc is fixed at the central positions of the equidistant connecting rods, so that the plates cut by the wood through the cutting discs have the same thickness, the specification is unified, the fixed disk is when rotating the cutting, the effect of cutting can be played clockwise to the arc cutting line, it can be drawn timber inwards to have slight friction simultaneously, the area of the well circle of fixed disk can be reduced to the through-hole, prevent that fixed disk and plank area of contact are too big and reduce the rotational speed, when timber cuts the left end tip, the spring coil passes through the rocking arm with timber left end jack-up, the timber left end up sticks up and compresses triangle gasbag, timber whole slope at this time, the timber that has cut like this can be along the sloping inside of landing partition shelf, the dovetail groove plays fixed effect, the gyro wheel can rotate, the roll-off that the timber that has cut just can be faster, can be convenient for the staff follow-up put like this.
Compared with the prior art, the invention has the beneficial effects that: the device can carry out the layering cutting at the inside timber square stock that the crack appears in building monitoring, and first cutting dish, middle cutting dish, second cutting dish can cut into the plank that thickness is the same with the square stock simultaneously, then choose out the plank that does not have the crack among them and assemble into new object, and it is broken to leave unqualified, can drop to minimumly with ligneous loss like this.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of the fine wood picking and utilizing equipment for building monitoring which does not reach the standard.
Fig. 2 is a schematic structural diagram of the layered cutting apparatus of the present invention.
FIG. 3 is a top view of the multi-layer cutting apparatus of the present invention.
FIG. 4 is a schematic structural diagram of a multilayer cutting apparatus according to the present invention.
Fig. 5 is a detailed structural diagram of the intermediate cutting disk of the invention.
FIG. 6 is a schematic structural view of a feeding fixing port of the present invention.
Fig. 7 is a schematic structural view of the partition frame of the present invention.
In the figure: the device comprises a layered cutting device 1, an alarm indicator lamp 2, a control panel 3, a front cover plate 4, a heat dissipation opening 5, supporting legs 6, a machine body 7, a multilayer cutting device 11, a feeding fixing opening 12, an inclined block 13, a bottom supporting frame 14, a separating frame 15, a top plate 16, a front fixing plate 17, a motor 111, a first cutting disc 112, a forked fixing frame 113, a middle cutting disc 114, an equidistant connecting rod 115, a transmission belt 116, a connecting rod 117, a second cutting disc 118, a fixing disc 1141, an arc-shaped cutting line 1142, a through hole 1143, a convex disc 1144, a triangular air bag 121, a triangular notch 122, a spring 123, a rotating arm 124, a spring ring 125, an outer tube 126, a roller 151, a trapezoidal groove 152 and a.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-7, the present invention provides a technical solution of an unqualified wood fine-picking and utilizing apparatus for building monitoring: its structure includes layering cutting device 1, alarm indicator 2, control panel 3, front shroud 4, thermovent 5, supporting legs 6, organism 7, layering cutting device 1 is installed inside organism 7, 7 right-hand members tops of organism are connected perpendicularly with 2 bottoms of alarm indicator, 3 backs of control panel and 7 top front side fixed connection of organism, front shroud 4 is installed in 7 front sides of organism, thermovent 5 from the top down interval is the same arranges in proper order inside front shroud 4, supporting legs 6 connect gradually into the rectangle structure and arrange in 7 bottoms of organism.
The layered cutting device 1 comprises a multilayer cutting device 11, a feeding fixing port 12, an inclined block 13, a bottom support frame 14, a separation frame 15, a top plate 16 and a front fixing plate 17, wherein the side face of the front end of the multilayer cutting device 11 is fixedly connected with the inner part of the middle end of the front fixing plate 17, the bottom of the inclined block 13 is vertically connected with the top of the bottom support frame 14, the left side of the inclined block 13 is fixedly connected with the right side of the bottom end of the feeding fixing port 12, the right end of the bottom support frame 14 is provided with the separation frame 15, the left end of the top plate 16 is welded with the right side of the top end of the feeding fixing port 12, and the top of the middle end of the top.
Multilayer cutting device 11 comprises motor 111, first cutting dish 112, forked mount 113, middle cutting dish 114, equidistance connecting rod 115, drive belt 116, connecting rod 117, second cutting dish 118, equidistance connecting rod 115 middle-end is connected with the inside perpendicular of middle cutting dish 114, motor 111 bottom and the inside fixed connection of first cutting dish 112, motor 111 bottom side carries out the transmission through drive belt 116 and equidistance connecting rod 115 top and is connected, equidistance connecting rod 115 bottom side is connected with connecting rod 117 top transmission through drive belt 116, connecting rod 117 bottom and the inside perpendicular connection of second cutting dish 118, both sides and forked mount 113 bottom inside fixed connection around first cutting dish 112, middle cutting dish 114 and second cutting dish 118.
The middle cutting disc 114 is composed of a fixed disc 1141, arc-shaped cutting lines 1142, through holes 1143 and a convex disc 1144, the through holes 1143 are arranged in the middle ring of the fixed disc 1141 in sequence according to the same interval angle, the arc-shaped cutting lines 1142 are arranged on two sides of the outer ring of the fixed disc 1141 in sequence, and the back of the convex disc 1144 is vertically connected with the front side of the middle end of the fixed disc 1141.
Fixed mouthful 12 of feeding comprises triangle gasbag 121, triangle breach 122, spring 123, rocking arm 124, spring ring 125, outer tube 126, the inside triangle breach 122 that is equipped with of outer tube 126 first end, triangle breach 122 is inside to be equipped with triangle gasbag 121, the inside fixed connection in spring 123 both ends and triangle gasbag 121, rocking arm 124 is installed inside outer tube 126 bottom right half end, spring ring 125 top and rocking arm 124 left end bottom fixed connection.
The separating frame 15 is composed of rollers 151, trapezoidal grooves 152 and fixing blocks 153, the trapezoidal grooves 152 are sequentially arranged inside the fixing blocks 153 from top to bottom, and the rollers 151 are arranged at the bottoms of the trapezoidal grooves 152.
The cross section of dovetail groove 152 is the trapezium structure, and the bottom of dovetail groove 152 is the slope, and when timber will drop inside dovetail groove 152, dovetail groove 152 top is wide, and the bottom is narrow, just so can not fall peripherally, and the bottom of dovetail groove 152 is equipped with gyro wheel 151 for slope and bottom simultaneously, and timber just can slide down automatically.
The triangular air bag 121 has a triangular structure, and when the head of the left end of the wood is cut, the left end of the wood has a space capable of tilting upwards and then slides downwards along the range.
Arc cutting lines 1142 are arc-shaped and have small fluctuation degree, so that when cutting is carried out, the arc cutting lines 1142 can drive wood to pull inwards, and the thrust needed by the worker is reduced.
The number of the through holes 1143 is 5, and the through holes 1143 surround the middle ring of the fixed disk 1141, so that the contact area of the fixed disk 1141 and wood can be reduced, and friction force is reduced.
The first cutting disc 112, the middle cutting disc 114 and the second cutting disc 118 have the same structure and the same interval, so that the sizes of boards cut from square wood can be uniform.
When the wood cutting machine is used, square timber needs to be pushed into the machine body through the feeding fixing port 12, when the timber is pushed inwards through the fixing port 12, the timber is firstly contacted with the second cutting disc 118, then contacted with the middle cutting disc 114 and finally contacted with the first cutting disc 112, because the second cutting disc 118, the middle cutting disc 114 and the first cutting disc 112 are gradually pushed backwards from left to right, the timber can be cut layer by layer, when the timber is cut simultaneously, the middle plate is damaged due to too strong vibration, the motor 111 can generate driving torque to drive the first cutting disc 112 to rotate, the motor 111 pulls the equidistant connecting rods 115 through the driving belts 116, the equidistant connecting rods 115 pull the connecting rods 117 to rotate through the driving belts 116, the middle cutting disc 114 is fixed at the central position of the equidistant connecting rods 115, so that the plate cut by the timber through the cutting discs has the same thickness, the specification is unified, fixed disk 1141 is when rotating the cutting, arc cutting line 1142 can play the effect of cutting clockwise, it can draw timber inwards to have slight friction simultaneously, through-hole 1143 can reduce the area of the well circle of fixed disk 1141, prevent that fixed disk 1141 and plank area of contact are too big and reduce the rotational speed, when timber cuts the left end tip, spring coil 125 passes through rocking arm 124 and jacks up the timber left end, the timber left end upwards sticks up and compresses triangle gasbag 121, timber whole slope at this time, the timber that has cut like this can slide down inside the separate shelf 15 along sloping block 13, trapezoidal groove 152 plays fixed effect, gyro wheel 151 can rotate, the roll-off that the timber that has cut just can be faster, the staff follow-up of being convenient for is put like this.
Compared with the prior art, the invention has the technical progress that: the device can carry out the layering cutting at the inside timber square stock that cracks appears of building monitoring, and first cutting dish 112, middle cutting dish 114, second cutting dish 118 can cut the square stock into the plank that the thickness is the same simultaneously, then from wherein choosing out the plank that does not have the crack and assemble into new object, and the remaining unqualified is carrying out the breakage, can reduce ligneous loss to minimum like this.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.