CN113211582A - Wooden board leveling equipment for civil construction - Google Patents

Wooden board leveling equipment for civil construction Download PDF

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Publication number
CN113211582A
CN113211582A CN202110556931.XA CN202110556931A CN113211582A CN 113211582 A CN113211582 A CN 113211582A CN 202110556931 A CN202110556931 A CN 202110556931A CN 113211582 A CN113211582 A CN 113211582A
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friction
belt
pressing
plate
block
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CN113211582B (en
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杨清山
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Linyi Longkun Wood Industry Co ltd
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Individual
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27MWORKING OF WOOD NOT PROVIDED FOR IN SUBCLASSES B27B - B27L; MANUFACTURE OF SPECIFIC WOODEN ARTICLES
    • B27M1/00Working of wood not provided for in subclasses B27B - B27L, e.g. by stretching
    • B27M1/02Working of wood not provided for in subclasses B27B - B27L, e.g. by stretching by compressing

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Mechanical Engineering (AREA)
  • Wood Science & Technology (AREA)
  • Forests & Forestry (AREA)
  • Buildings Adapted To Withstand Abnormal External Influences (AREA)
  • Drying Of Solid Materials (AREA)

Abstract

The invention relates to a wood board leveling device, in particular to a wood board leveling device for civil construction, which comprises a pressing mechanism, a linkage water spraying mechanism and a secondary pressing mechanism, wherein the device can flatten a wood board, can inject less water into a position with more water bulges and less water into a position with higher bulges of the board, can heat the wood after water injection is completed to quickly dehydrate the board, can secondarily press the board after water injection is completed to level the board, and is connected with the linkage water spraying mechanism, the linkage water spraying mechanism is connected with the secondary pressing mechanism, and the secondary pressing mechanism is connected with the pressing mechanism.

Description

Wooden board leveling equipment for civil construction
Technical Field
The invention relates to a wood board leveling device, in particular to a wood board leveling device for civil construction.
Background
When the wooden board is used, the board is often uneven due to moisture, conventional leveling equipment is complex to operate and needs more personnel to cooperate, but no better wooden board leveling equipment exists in the market, so that the wooden board leveling equipment for the civil construction is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing wood board leveling equipment for civil construction, the equipment can flatten the wood board, the equipment can inject more water into the position with high bulge of the board and less water into the position with low bulge, the equipment can heat the wood after the water injection is finished so as to quickly dehydrate the board, and the equipment can press the board after the water injection is finished so as to level the board.
The invention relates to a wood board leveling device, in order to solve the technical problems, and particularly relates to a wood board leveling device for civil construction.
The pressing mechanism is connected with the linkage water spraying mechanism, the linkage water spraying mechanism is connected with the secondary pressing mechanism, and the secondary pressing mechanism is connected with the pressing mechanism.
As a further optimization of the technical scheme, the invention relates to a wooden board leveling device for civil construction, the pressing mechanism comprises a motor a, a motor shaft a, a belt a, a connecting shaft a, a friction wheel a, a pressing square column, a conical water outlet hole, a pressing plate, a connecting plate a, a spring, a device connecting box, a connecting plate b and a connecting plate c, the motor a is connected with the motor shaft a, the motor a is connected with the device connecting box, the motor shaft a is connected with the belt a in a friction manner, the belt a is connected with the connecting shaft a in a friction manner, the connecting shaft a is connected with the friction wheel a, the connecting shaft a is connected with a device connecting box bearing, the friction wheel a is connected with the pressing square column in a friction manner, the pressing square column is connected with the pressing plate, the pressing square column is connected with the connecting plate a, the pressing square column is connected with the device connecting box in a sliding manner, the pressing square column is connected with the connecting plate b in a sliding manner, the conical water outlet hole is opened on the pressing square column, the spring housing is on oppression square column and spacing in connecting plate an and connecting plate b, and the equipment connecting box is connected with connecting plate c.
As a further optimization of the technical scheme, the invention relates to a wooden board leveling device for civil construction, wherein the linkage water spraying mechanism comprises a belt b, a friction belt, a connecting shaft I, a belt c, a friction wheel I, a connecting shaft II, a propeller, a friction wheel B, a connecting plate I, a hinged friction heat conducting plate, a reset connecting plate A, a reset shaft, a reset spring, a sliding groove, a supporting block, a heat conducting plate pressing block, a pressing spring, a connecting plate II, a friction heating device and a water guide pipe, wherein one end of the belt b is in friction connection with the connecting shaft I, the other end of the belt b is in friction connection with the connecting shaft A, the belt b is connected with the friction belt, the friction belt is in friction connection with the friction wheel B, the two connecting shafts I are in friction connection with the belt c, the connecting shaft I is connected with a bearing of a device connecting box, the belt c is in friction connection with the friction wheel I, the friction wheel I is connected with the connecting shaft II, and the connecting shaft II is connected with the propeller, the second connecting shaft is connected with a bearing of the equipment connecting box, the friction wheel b is in friction connection with the first connecting plate, the first connecting plate is hinged with a hinged friction heat-conducting plate, the first connecting plate is connected with a reset connecting plate a, the first connecting plate is in sliding connection with a sliding groove, the first connecting plate is in sliding connection with a supporting block, the hinged friction heat-conducting plate is in friction connection with a heat-conducting plate pressing block, the hinged friction heat-conducting plate generates heat when the hinged friction heat-conducting plate rapidly rubs with the friction heat, the reset connecting plate a is in sliding connection with a reset shaft, the reset shaft is in sliding connection with the reset connecting plate a at the upper side and is connected with the reset connecting plate a at the lower side, a reset spring is sleeved on the reset shaft and limited on the two reset connecting plates a, the sliding groove is connected with the supporting block, the sliding groove is connected with a connecting plate c, the supporting block is connected with the connecting plate c, the heat-conducting plate pressing block is connected with the connecting plate c in sliding connection, the compression spring is limited on the connecting plate c and the connecting plate II on one side, the friction heating block is connected with the connecting plate c, the water guide pipe is connected with holes in the two connecting plates c, the water suction pipe is connected with holes in the equipment connecting box, and the water suction pipe is connected with the compression square column.
As a further optimization of the technical scheme, the invention relates to a wooden board leveling device for civil construction, wherein the secondary pressing mechanism comprises a motor b, a motor shaft b, a belt I, a transmission shaft a, a belt II, a belt III, a toggle column, a wave block, a gravity pressing block, a z-direction limiting strip, a supporting block I, a belt IV, a friction block I, a supporting block II, a mounting plate A, a supporting shaft I, a mounting plate B and a supporting spring, wherein the motor b is connected with the motor shaft b, the motor b is connected with a device connecting box, the motor shaft b is connected with the belt I in a friction manner, the belt I is connected with the transmission shaft a in a friction manner, the transmission shaft a is connected with the belt II in a friction manner, the transmission shaft a is connected with the belt III in a friction manner, the transmission shaft a is connected with the belt IV in a friction manner, the transmission shaft a is connected with a device connecting box bearing, the belt III is connected with the toggle column, the wave block is connected with the gravity pressing block, and the wave block is connected with the device connecting box in a sliding manner, the gravity pressing block is connected with the z-direction limiting strip, the gravity pressing block is connected with the first supporting block, the gravity pressing block is connected with the equipment connecting box in a sliding mode, the z-direction limiting strip is connected with the equipment connecting box in a sliding mode, the fourth belt is connected with the first friction block in a friction mode, the first friction block is connected with the second supporting block, the first friction block is connected with the connecting plate c in a sliding mode, the second supporting block is connected with the mounting plate a, the mounting plate a is connected with the first supporting shaft, the first supporting shaft is connected with the mounting plate b in a sliding mode, the mounting plate b is connected with the connecting plate c, and the supporting spring is sleeved on the first supporting shaft and limited on the mounting plate a and the mounting plate b.
The wood board leveling equipment for the civil construction has the beneficial effects that:
according to the leveling equipment for the wood boards for the civil construction, disclosed by the invention, the wood boards can be flattened, less water can be injected into the positions with high bulges and low bulges, the wood can be heated after water injection is finished, so that the boards are quickly dehydrated, and the boards after water injection are secondarily pressed by the equipment, so that the boards are leveled.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a first structural schematic diagram of a wood board leveling device for civil construction of the present invention.
Fig. 2 is a structural schematic diagram of a wood board leveling device for civil construction according to the present invention.
Fig. 3 is a first structural schematic diagram of a pressing mechanism 1 of the wood board leveling device for civil construction of the present invention.
Fig. 4 is a second structural schematic diagram of the pressing mechanism 1 of the wood board leveling device for civil construction of the present invention.
Fig. 5 is a schematic structural diagram of a pressing mechanism 1 of the wood board leveling device for civil construction according to the present invention.
Fig. 6 is a schematic structural view of an apparatus connection box 1-11 of the wood board leveling apparatus for civil construction of the present invention.
Fig. 7 is a first structural schematic diagram of the linkage water spraying mechanism 2 of the wood board leveling device for the civil construction.
Fig. 8 is a second structural schematic diagram of the linkage water spraying mechanism 2 of the wood board leveling device for the civil construction.
Fig. 9 is a third structural schematic diagram of the linkage water spraying mechanism 2 of the wood board leveling device for the civil construction.
Fig. 10 is a fourth schematic structural view of the linkage water spraying mechanism 2 of the wood board leveling device for the civil construction.
Fig. 11 is a fifth structural schematic diagram of the linkage water spraying mechanism 2 of the wood board leveling device for the civil construction.
Fig. 12 is a first structural schematic diagram of the secondary pressing mechanism 3 of the wood board leveling device for civil construction of the present invention.
Fig. 13 is a second schematic structural diagram of the secondary pressing mechanism 3 of the wood board leveling device for civil construction of the present invention.
Fig. 14 is a schematic structural diagram three of the secondary pressing mechanism 3 of the wood board leveling device for civil construction of the present invention.
Fig. 15 is a structural schematic diagram of a secondary pressing mechanism 3 of the wood board leveling device for civil construction according to the present invention.
In the figure: a pressing mechanism 1; motor a 1-1; motor shaft a 1-2; belt a 1-3; connecting shaft a 1-4; friction wheel a 1-5; pressing the square column by 1-6; 1-7 parts of a conical water outlet; 1-8 of a pressboard; connection board a 1-9; 1-10 parts of spring; equipment connecting boxes 1-11; connecting plate b 1-12; connecting plate c 1-13; the linkage water spraying mechanism 2; belt b 2-1; 2-2 of friction belt; connecting shafts I2-3; belt c 2-4; 2-5 parts of a first friction wheel; connecting shafts II 2-6; 2-7 of a propeller; friction wheel b 2-8; 2-9 of a first connecting plate; hinged friction heat conducting plates 2-10; reset connecting plate a 2-11; 2-12 of a reset shaft; 2-13 of a return spring; 2-14 of sliding groove; 2-15 parts of a supporting block; a heat-conducting plate compression block 2-16; pressing springs 2-17; 2-18 of a second connecting plate; 2-19% of friction heating speed; 2-20 parts of water guide pipe; 2-21 parts of a suction pipe; a secondary pressing mechanism 3; motor b 3-1; motor shaft b 3-2; 3-3 parts of a first belt; a transmission shaft a 3-4; 3-5 parts of a second belt; 3-6 parts of a third belt; stirring the column 3-7; 3-8 of a fluctuation block; 3-9 parts of a gravity briquetting; 3-10 parts of a z-direction limiting strip; 3-11 parts of a first supporting block; a fourth belt 3-12; 3-13 parts of a first friction block; 3-14 parts of a second supporting block; mounting plate a 3-15; 3-16 parts of a support shaft I; mounting plate b 3-17; supporting springs 3-18.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, the invention relates to a leveling device for a wooden board, and more specifically, to a leveling device for a wooden board for a civil engineering construction, which includes a pressing mechanism 1, a linkage water spraying mechanism 2, and a secondary pressing mechanism 3, and is capable of flattening a wooden board, and injecting less water into a position where a large amount of water is not high into a position where the height of the board is high, heating the wood after water injection is completed by the leveling device to rapidly dehydrate the board, and secondarily pressing the board after water injection is completed by the leveling device to level the board.
The pressing mechanism 1 is connected with the linkage water spraying mechanism 2, the linkage water spraying mechanism 2 is connected with the secondary pressing mechanism 3, and the secondary pressing mechanism 3 is connected with the pressing mechanism 1.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the embodiment further describes the embodiment, where the pressing mechanism 1 includes a motor a1-1, a motor shaft a1-2, a belt a1-3, a connecting shaft a1-4, a friction wheel a1-5, a pressing square column 1-6, a conical water outlet 1-7, a pressing plate 1-8, a connecting plate a1-9, a spring 1-10, an equipment connecting box 1-11, a connecting plate b1-12, and a connecting plate c1-13, the motor a1-1 is connected with the motor shaft a1-2, the motor a1-1 is connected with the equipment connecting box 1-11, the motor shaft a1-2 is connected with the belt a1-3 by friction, the belt a1-3 is in friction connection with a connecting shaft a1-4, the connecting shaft a1-4 is connected with a friction wheel a1-5, the connecting shaft a1-4 is in bearing connection with an equipment connecting box 1-11, the friction wheel a1-5 is in friction connection with a pressing square column 1-6, the pressing square column 1-6 is connected with a pressing plate 1-8, the pressing square column 1-6 is connected with a connecting plate a1-9, the pressing square column 1-6 is in sliding connection with an equipment connecting box 1-11, the pressing square column 1-6 is in sliding connection with a connecting plate b1-12, a conical water outlet 1-7 is opened on the pressing square column 1-6, a spring 1-10 is sleeved on the pressing square column 1-6 and limited on the connecting plate a1-9 and a connecting plate b1-12, the equipment connecting box 1-11 is connected with a connecting plate b1-12, the equipment connecting box 1-11 is connected with the connecting plate c1-13, the equipment can flatten the wood plate, the equipment can inject less water into the position with more water bulges and less water bulges into the position with the higher bulges of the plate, the equipment can heat the wood to quickly dehydrate the plate after the water injection is finished, the motor a1-1 works, the motor a1-1 works to drive the motor shaft a1-2 to rotate, the motor shaft a1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the friction wheel a1-5 to rotate, the friction wheel a1-5 can drive the pressing plate 1-8 to ascend or descend by pressing the square column 1-6 when rotating, the plate to be flattened is placed at the bottom in the equipment connecting box 1-11, and the pressing square column 1-6 can flatten the plate when falling to be contacted with the plate to be flattened, when pressing the square column 1-6 to descend, water in a space formed by the equipment connecting box 1-11 and the connecting plate b1-12 is injected downwards through the conical water outlet hole 1-7, under the action of the shape characteristic of the conical water outlet hole 1-7, the equipment can inject less water into a position with more water bulges and less water bulges into a position with more water bulges on the plate, the injected water falls down along the pressing square column 1-6, the connecting shaft a1-4 rotates, the connecting shaft a 2-3 is driven to rotate through the belt b2-1, the connecting shaft a 2-3 rotates to drive the connecting shaft a 2-3 to rotate through the belt c2-4, the connecting shaft b 2-6 rotates through the friction wheel a 2-5 when the belt c2-4 moves, the connecting shaft b 2-6 rotates, and the connecting shaft b 2-6 rotates to rotate the propeller 2-7, the propeller 2-7 can adsorb air to the direction of the compression square column 1-6 when rotating, the air is blown to the water guide pipe 2-20, the generated adsorption force acts on the water suction pipe 2-21, the water suction pipe 2-21 absorbs the water falling from the compression square column 1-6 through the four downward water diversion pipes, the water is discharged onto the board to be leveled through the water guide pipe 2-20, the wooden board is soaked, the function of leveling the board is facilitated, the friction wheel b2-8 is driven to rotate intermittently through the friction belt 2-2 when the belt b2-1 moves, the connecting plate one 2-9 moves upwards or downwards when the friction wheel b2-8 rotates, the connecting plate one 2-9 can reset automatically under the action of the reset spring 2-13, the connecting plate one 2-9 moves to drive the hinged friction heat conduction plate 2-10 to slide up and down and back under the limitation of the heat conduction plate compression block 2-16, the heat conducting plate pressing block 2-16 is always hinged with the friction heat conducting plate 2-10 to apply pressure under the action of the pressing spring 2-17, the hinged friction heat conducting plate 2-10 and the friction heating block 2-19 generate friction to generate heat in the process, in the process that the pressing plate 1-8 completely flattens the plate, water discharged from the conical water outlet hole 1-7 moves downwards along with the pressing square column 1-6 is gradually reduced until the water does not flow, the propeller 2-7 drains water in the process, after the water is drained, the hinged friction heat conducting plate 2-10 and the friction heating block 2-19 generate friction to generate heat, and the heat is discharged onto the plate through the water guide pipe 2-20, and the process is finished to heat the wood so as to enable the plate to be quickly dehydrated.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the embodiment further describes the embodiment, and the linkage water spray mechanism 2 includes a belt b2-1, a friction belt 2-2, a first connecting shaft 2-3, a belt c2-4, a first friction wheel 2-5, a second connecting shaft 2-6, a propeller 2-7, a friction wheel b2-8, a first connecting plate 2-9, a hinged friction heat conducting plate 2-10, a reset connecting plate a2-11, a reset shaft 2-12, a reset spring 2-13, a sliding groove 2-14, a support block 2-15, a heat conducting plate press block 2-16, a press spring 2-17, a second connecting plate 2-18, a press block, 2-19 parts of friction heating block, 2-20 parts of water guide pipe, one end of a belt b2-1 is in friction connection with a first connecting shaft 2-3, the other end of the belt b2-1 is in friction connection with a connecting shaft a1-4, a belt b2-1 is in friction connection with a friction belt 2-2, the friction belt 2-2 is in friction connection with a friction wheel b2-8, two connecting shafts I2-3 are in friction connection with a belt c2-4, the connecting shaft I2-3 is in bearing connection with an equipment connecting box 1-11, the belt c2-4 is in friction connection with a friction wheel I2-5, the friction wheel I2-5 is in friction connection with a connecting shaft II 2-6, the connecting shaft II 2-6 is in connection with a propeller 2-7, the connecting shaft II 2-6 is in bearing connection with an equipment connecting box 1-11, and the friction wheel b2-8 is in friction connection with a connecting plate I2-9, the first connecting plate 2-9 is hinged with the hinged friction heat conducting plate 2-10, the first connecting plate 2-9 is connected with a reset connecting plate a2-11, the first connecting plate 2-9 is connected with the sliding groove 2-14 in a sliding way, the first connecting plate 2-9 is connected with the supporting block 2-15 in a sliding way, the hinged friction heat conducting plate 2-10 is connected with the heat conducting plate pressing block 2-16 in a friction way, the hinged friction heat conducting plate 2-10 generates heat when being rubbed with the friction heat generating block 2-19, the reset connecting plate a2-11 is connected with the reset shaft 2-12 in a sliding way, the reset connecting plate a2-11 at the lower side is connected with the sliding groove 2-14, the reset shaft 2-12 is connected with the reset connecting plate a2-11 at the upper side in a sliding way and connected with the reset connecting plate a2-11 at the lower side, the reset spring 2-13 is sleeved on the reset shaft 2-12 and limited on the two reset connecting plates a2-11, the sliding grooves 2-14 are connected with the supporting blocks 2-15, the sliding grooves 2-14 are connected with the connecting plates c1-13, the supporting blocks 2-15 are connected with the connecting plates c1-13, the heat conduction plate pressing blocks 2-16 are connected with the connecting plates two 2-18, the heat conduction plate pressing blocks 2-16 are connected with the connecting plates c1-13 in a sliding mode, the connecting plates c1-13 and the connecting plates two 2-18 are limited on one side by pressing springs 2-17, the friction heating blocks 2-19 are connected with the connecting plates c1-13, the water guide pipes 2-20 are connected with holes in the two connecting plates c1-13, the water suction pipes 2-21 are connected with holes in the equipment connecting box 1-11, and the water suction pipes 2-21 are connected with the pressing square columns 1-6.
The fourth concrete implementation mode:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, the present embodiment is further described, and the present embodiment further describes the present embodiment, where the secondary pressing mechanism 3 includes a motor b3-1, a motor shaft b3-2, a belt one 3-3, a transmission shaft a3-4, a belt two 3-5, a belt three 3-6, a toggle column 3-7, a wave block 3-8, a gravity pressing block 3-9, a z-direction limit bar 3-10, a support block one 3-11, a belt four 3-12, a friction block one 3-13, a support block two 3-14, a mounting plate a3-15, a support shaft one 3-16, a mounting plate b3-17, a support spring 3-18, a motor b3-1 is connected to a motor shaft b3-2, the motor b3-1 is connected with the equipment connecting box 1-11, the motor shaft b3-2 is in friction connection with the belt I3-3, the belt I3-3 is in friction connection with the transmission shaft a3-4, the transmission shaft a3-4 is in friction connection with the belt II 3-5, the transmission shaft a3-4 is in friction connection with the belt III 3-6, the transmission shaft a3-4 is in friction connection with the belt IV 3-12, the transmission shaft a3-4 is in bearing connection with the equipment connecting box 1-11, the belt III 3-6 is connected with the toggle column 3-7, the fluctuation block 3-8 is connected with the gravity pressing block 3-9, the fluctuation block 3-8 is in sliding connection with the equipment connecting box 1-11, the gravity pressing block 3-9 is connected with the z-direction limiting strip 3-10, the gravity pressing block 3-9 is connected with the supporting block I3-11, the gravity pressing block 3-9 is connected with the equipment connecting box 1-11 in a sliding mode, the Z-direction limiting strip 3-10 is connected with the equipment connecting box 1-11 in a sliding mode, the belt four 3-12 is connected with the friction block one 3-13 in a friction mode, the friction block one 3-13 is connected with the supporting block two 3-14, the friction block one 3-13 is connected with the connecting plate c1-13 in a sliding mode, the supporting block two 3-14 is connected with the mounting plate a3-15, the mounting plate a3-15 is connected with the supporting shaft one 3-16, the supporting shaft one 3-16 is connected with the mounting plate b3-17 in a sliding mode, the mounting plate b3-17 is connected with the connecting plate c1-13, the supporting spring 3-18 is sleeved on the supporting shaft one 3-16 and limited on the mounting plate a3-15 and the mounting plate b3-17 in a limiting mode, the equipment presses the plate after water injection for the second time to enable the plate to be leveled, the motor b3-1 works, the motor b3-1 works to drive the motor shaft b3-2 to rotate, the motor shaft b3-2 rotates to drive the transmission shaft a3-4 to rotate through the belt I3-3, the transmission shaft a3-4 rotates to drive the other transmission shaft a3-4 to rotate through the belt II 3-5, the transmission shaft a3-4 rotates to drive the transmission shaft a3-4 at the other end to rotate through the belt IV 3-12, the belt IV 3-12 drives the friction block I3-13 to move in the direction far away from the motor b3-1 when moving, the friction block I3-13 drives the support block II 3-14, the mounting plate a3-15 and the support shaft I3-16 to synchronously move, the support block II 3-14 can automatically reset under the action of the support springs 3-18, when the support block II 3-14 moves to the limit position in the direction far away from the motor b3-1, the supporting block II 3-14 does not limit the supporting block I3-11, when the pressing square column 1-6 moves downwards to start to perform the work of pressing the flat plate, the supporting block I3-11 automatically falls down along with the fluctuation block 3-8, the gravity pressing block 3-9 and the Z-direction limiting strip 3-10, the transmission shaft a3-4 rotates through the second transmission shaft a3-4 at the other end of the belt III 3-6, the belt III 3-6 rotates to stir the column 3-7 to move, the fluctuation block 3-8 is driven to reciprocate up and down when the stirring column 3-7 moves, the fluctuation block 3-8 drives the gravity pressing block 3-9 to move upwards firstly, then the pressing square column 1-6 is knocked, and the process finishes secondary pressing of the plate to enable the plate to be leveled.
The working principle of the device is as follows: the device can flatten wood plates, the device can inject less water into positions with more water bulges and less water bulges into the positions with the higher bulges of the plates, the device can heat the wood after water injection is completed to enable the plates to be quickly dehydrated, the motor a1-1 works, the motor a1-1 works to drive the motor shaft a1-2 to rotate, the motor shaft a1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the friction wheel a1-5 to rotate, the friction wheel a1-5 can drive the pressing plate 1-8 to ascend or descend through the pressing square column 1-6 when rotating, the plates to be flattened are placed at the bottom in the device connecting box 1-11, the plates can be flattened when the pressing square column 1-6 descends to be in contact with the plates to be flattened, and the device connecting box 1-11 and the connecting box 1-11 can be connected through the conical water outlet holes 1-7 when the pressing square column 1-6 descends The water in the space formed by the connecting plate b1-12 is injected downwards, under the action of the shape characteristic of the conical water outlet hole 1-7, the equipment can inject more water with low water protrusion height into the position with high protrusion height of the plate, the injected water falls down along the pressing square column 1-6, the connecting shaft a1-4 is driven to rotate by the belt b2-1, the connecting shaft I2-3 is driven to rotate by the rotating shaft I2-3 which is driven to rotate by the belt c2-4, the connecting shaft II 2-6 is driven to rotate by the friction wheel I2-5 when the belt c2-4 moves, the connecting shaft II 2-6 rotates the screw propeller 2-7 to rotate, the screw propeller 2-7 can absorb air towards the direction of the pressing square column 1-6 and blow air towards the water guide pipe 2-20 when rotating, the generated adsorption force acts on the water suction pipes 2-21, the water suction pipes 2-21 adsorb water which presses the square columns 1-6 to fall through four downward water distribution pipes, the water is discharged onto a plate to be leveled through the water guide pipes 2-20, a wooden plate is soaked, the function of leveling the plate is facilitated, when the belt b2-1 moves, the friction belt 2-2 drives the friction wheel b2-8 to rotate intermittently, when the friction wheel b2-8 rotates, the connecting plate I2-9 moves upwards or downwards, the connecting plate I2-9 can automatically reset under the action of the reset spring 2-13, the connecting plate I2-9 moves to drive the hinged friction heat conduction plate 2-10 to slide up and down under the limitation of the heat conduction plate pressing block 2-16, the heat conduction plate 2-16 is always hinged to friction heat conduction plate 2-10 to apply pressure under the action of the pressing spring 2-17, in the process, the hinged friction heat conduction plate 2-10 and the friction heating block 2-19 generate friction to generate heat, in the process that the pressing plate 1-8 completely presses the plate, water discharged by the conical water outlet hole 1-7 moves downwards along with the pressing square column 1-6 is gradually reduced until no water flows, in the process, the propeller 2-7 firstly discharges water, after the water is discharged, the hinged friction heat conduction plate 2-10 and the friction heating block 2-19 generate friction to generate heat which is discharged onto the plate through the water guide pipe 2-20, in the process, the wood is heated to quickly dehydrate the plate, the plate after the water is injected by equipment is pressed for the second time to be leveled, the motor b3-1 works, the motor b3-1 works to drive the motor shaft b3-2 to rotate, the motor shaft b3-2 rotates to drive the transmission shaft a3-4 to rotate through the belt I3-3, the transmission shaft a3-4 rotates to drive the other transmission shaft a3-4 to rotate through the belt two 3-5, the transmission shaft a3-4 rotates to drive the transmission shaft a3-4 at the other end to rotate through the belt four 3-12, the belt four 3-12 drives the friction block one 3-13 to move in the direction far away from the motor b3-1, the friction block one 3-13 drives the support block two 3-14, the mounting plate a3-15 and the support shaft one 3-16 to move synchronously, the support block two 3-14 can automatically reset under the action of the support spring 3-18, when the support block two 3-14 moves to the limit position in the direction far away from the motor b3-1, the support block two 3-14 does not limit the support block one 3-11, and when the pressing square column 1-6 moves downwards to start to perform the work of pressing the flat plate, the support block one 3-11 follows the support block wave block 3-8, The gravity pressing block 3-9 and the z-direction limiting strip 3-10 automatically fall, the transmission shaft a3-4 rotates through the second transmission shaft a3-4 at the other end of the belt III 3-6 when rotating, the belt III 3-6 rotates to toggle the column 3-7 to move, the toggle column 3-7 drives the fluctuation block 3-8 to reciprocate up and down, the fluctuation block 3-8 moves to drive the gravity pressing block 3-9 to move upwards firstly, then the compression square column 1-6 is knocked, and the process finishes secondary pressing of the plate to enable the plate to be leveled.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a timber board leveling equipment for civil construction, includes hold down mechanism (1), linkage water spray mechanism (2), secondary hold down mechanism (3), its characterized in that: the pressing mechanism (1) is connected with the linkage water spraying mechanism (2), the linkage water spraying mechanism (2) is connected with the secondary pressing mechanism (3), and the secondary pressing mechanism (3) is connected with the pressing mechanism (1).
2. The timber board leveling apparatus for civil construction according to claim 1, wherein: the pressing mechanism (1) comprises a motor a (1-1), a motor shaft a (1-2), a belt a (1-3), a connecting shaft a (1-4), a friction wheel a (1-5), a pressing square column (1-6), a conical water outlet hole (1-7), a pressing plate (1-8), a connecting plate a (1-9), a spring (1-10), an equipment connecting box (1-11), a connecting plate b (1-12) and a connecting plate c (1-13), wherein the motor a (1-1) is connected with the motor shaft a (1-2), the motor a (1-1) is connected with the equipment connecting box (1-11), the motor shaft a (1-2) is connected with the belt a (1-3) in a friction mode, the belt a (1-3) is connected with the connecting shaft a (1-4) in a friction mode, a connecting shaft a (1-4) is connected with a friction wheel a (1-5), the connecting shaft a (1-4) is connected with an equipment connecting box (1-11) through a bearing, the friction wheel a (1-5) is connected with a pressing square column (1-6) through a friction way, the pressing square column (1-6) is connected with a pressing plate (1-8), the pressing square column (1-6) is connected with a connecting plate a (1-9), the pressing square column (1-6) is connected with an equipment connecting box (1-11) through a sliding way, the pressing square column (1-6) is connected with a connecting plate b (1-12) through a sliding way, a conical water outlet hole (1-7) is formed in the pressing square column (1-6), a spring (1-10) is sleeved on the pressing square column (1-6) and limited on the connecting plate a (1-9) and the connecting plate b (1-12), the equipment connecting box (1-11) is connected with the connecting plate b (1-12), and the equipment connecting box (1-11) is connected with the connecting plate c (1-13).
3. The timber board leveling apparatus for civil construction according to claim 1, wherein: the linkage water spraying mechanism (2) comprises a belt b (2-1), a friction belt (2-2), a connecting shaft I (2-3), a belt c (2-4), a friction wheel I (2-5), a connecting shaft II (2-6), a propeller (2-7), a friction wheel b (2-8), a connecting plate I (2-9), a hinged friction heat conducting plate (2-10), a reset connecting plate a (2-11), a reset shaft (2-12), a reset spring (2-13), a sliding groove (2-14), a supporting block (2-15), a pressing heat conducting plate block (2-16), a pressing spring (2-17), a connecting plate II (2-18), a friction heating block (2-19), a water guide pipe (2-20) and a water suction pipe (2-21), one end of a belt b (2-1) is in friction connection with a first connecting shaft (2-3), the other end of the belt b (2-1) is in friction connection with a connecting shaft a (1-4), the belt b (2-1) is connected with a friction belt (2-2), the friction belt (2-2) is in friction connection with a friction wheel b (2-8), two connecting shafts I (2-3) are in friction connection with a belt c (2-4), the connecting shafts I (2-3) are in bearing connection with an equipment connecting box (1-11), the belt c (2-4) is in friction connection with a friction wheel I (2-5), the friction wheel I (2-5) is connected with a connecting shaft II (2-6), the connecting shafts II (2-6) are connected with a propeller (2-7), the connecting shafts II (2-6) are in bearing connection with the equipment connecting box (1-11), the friction wheel b (2-8) is in friction connection with the connecting plate I (2-9), the connecting plate I (2-9) is hinged with the hinged friction heat conducting plate (2-10), the connecting plate I (2-9) is connected with the reset connecting plate a (2-11), the connecting plate I (2-9) is in sliding connection with the sliding groove (2-14), the connecting plate I (2-9) is in sliding connection with the supporting block (2-15), the hinged friction heat conducting plate (2-10) is in friction connection with the heat conducting plate pressing block (2-16), the hinged friction heat conducting plate (2-10) generates heat when being in friction with the friction heat generating block (2-19), the reset connecting plate a (2-11) is in sliding connection with the reset shaft (2-12), the reset connecting plate a (2-11) at the lower side is connected with the sliding groove (2-14), the reset shaft (2-12) is connected with the reset connecting plate a (2-11) on the upper side in a sliding way and connected with the reset connecting plate a (2-11) on the lower side, the reset spring (2-13) is sleeved on the reset shaft (2-12) and limited on the two reset connecting plates a (2-11), the sliding groove (2-14) is connected with the supporting block (2-15), the sliding groove (2-14) is connected with the connecting plate c (1-13), the supporting block (2-15) is connected with the connecting plate c (1-13), the heat conducting plate pressing block (2-16) is connected with the connecting plate II (2-18), the heat conducting plate pressing block (2-16) is connected with the connecting plate c (1-13) in a sliding way, the pressing spring (2-17) is limited on the connecting plate c (1-13) on one side and the connecting plate II (2-18), the friction heating block (2-19) is connected with the connecting plates c (1-13), the aqueducts (2-20) are connected with holes on the two connecting plates c (1-13), the water suction pipes (2-21) are connected with holes on the equipment connecting box (1-11), and the water suction pipes (2-21) are connected with the compression square column (1-6).
4. The timber board leveling apparatus for civil construction according to claim 1, wherein: the secondary pressing mechanism (3) comprises a motor b (3-1), a motor shaft b (3-2), a belt I (3-3), a transmission shaft a (3-4), a belt II (3-5), a belt III (3-6), a toggle column (3-7), a wave block (3-8), a gravity pressing block (3-9), a z-direction limiting strip (3-10), a supporting block I (3-11), a belt IV (3-12), a friction block I (3-13), a supporting block II (3-14), a mounting plate a (3-15), a supporting shaft I (3-16), a mounting plate b (3-17) and a supporting spring (3-18), wherein the motor b (3-1) is connected with the motor shaft b (3-2), the motor b (3-1) is connected with an equipment connecting box (1-11), a motor shaft b (3-2) is in friction connection with a belt I (3-3), the belt I (3-3) is in friction connection with a transmission shaft a (3-4), the transmission shaft a (3-4) is in friction connection with a belt II (3-5), the transmission shaft a (3-4) is in friction connection with a belt III (3-6), the transmission shaft a (3-4) is in friction connection with a belt IV (3-12), the transmission shaft a (3-4) is in bearing connection with an equipment connecting box (1-11), the belt III (3-6) is connected with a toggle column (3-7), a fluctuation block (3-8) is connected with a gravity pressing block (3-9), the fluctuation block (3-8) is in sliding connection with the equipment connecting box (1-11), the gravity pressing block (3-9) is connected with a z-direction limiting strip (3-10), the gravity pressing block (3-9) is connected with the supporting block I (3-11), the gravity pressing block (3-9) is connected with the equipment connecting box (1-11) in a sliding manner, the z-direction limiting strip (3-10) is connected with the equipment connecting box (1-11) in a sliding manner, the belt IV (3-12) is connected with the friction block I (3-13) in a friction manner, the friction block I (3-13) is connected with the supporting block II (3-14), the friction block I (3-13) is connected with the connecting plate c (1-13) in a sliding manner, the supporting block II (3-14) is connected with the mounting plate a (3-15), the mounting plate a (3-15) is connected with the supporting shaft I (3-16), the supporting shaft I (3-16) is connected with the mounting plate b (3-17) in a sliding manner, the mounting plate b (3-17) is connected with the connecting plate c (1-13), the supporting springs (3-18) are sleeved on the first supporting shafts (3-16) and limited on the mounting plates a (3-15) and the mounting plates b (3-17).
CN202110556931.XA 2021-05-21 2021-05-21 Wooden board leveling equipment for civil construction Active CN113211582B (en)

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