CN113334510B - Wood treatment clamping feeding equipment for constructional engineering - Google Patents

Abstract

For solving above-mentioned technical problem, a tight feeding equipment of timber processing clamp for building engineering, including mounting plate, transmission controlling means, timber clamping device, timber advancing device, through other devices of mounting plate installation, transmission controlling means receives timber then control timber clamping device's operating condition presss from both sides tightly timber, timber clamping device presss from both sides tightly or loosens reverse removal according to the state of other devices to timber, timber advancing device presss from both sides tight timber after pressing from both sides tightly then advances the function such as its characterized in that forward: the transmission control device is fixedly installed on the installation bottom plate, the wood clamping device is fixedly installed on the installation bottom plate, and the wood propelling device is fixedly installed on the installation bottom plate.

Description

Wood treatment clamping feeding equipment for constructional engineering

Technical Field

The invention relates to a wood processing clamping and feeding device, in particular to a wood processing clamping and feeding device for constructional engineering.

Background

The timber is an essential material in civil engineering nowadays, plays a vital role, but the timber needs to be treated before being used, the timber needs to be fixedly pushed for facilitating the treatment of the timber, but the existing timber clamping and feeding mechanism (CN 201217233) does not automatically clamp the timber, so the timber treatment clamping and feeding device for building engineering is invented.

Disclosure of Invention

The invention relates to a wood processing, clamping and feeding device for constructional engineering, in particular to a wood processing, clamping and feeding device for constructional engineering.

For solving above-mentioned technical problem, a tight feeding equipment of timber processing clamp for building engineering, including mounting plate, transmission controlling means, timber clamping device, timber advancing device, through other devices of mounting plate installation, transmission controlling means receives timber then control timber clamping device's operating condition presss from both sides tightly timber, timber clamping device presss from both sides tightly or loosens reverse removal according to the state of other devices to timber, timber advancing device presss from both sides tight timber after pressing from both sides tightly then advances the function such as its characterized in that forward: the transmission control device is fixedly installed on the installation bottom plate, the wood clamping device is fixedly installed on the installation bottom plate, and the wood propelling device is fixedly installed on the installation bottom plate.

As a further optimization of the technical scheme, the invention relates to wood processing clamping and feeding equipment for constructional engineering, wherein a transmission control device comprises a mounting and fixing frame, a connecting bolt, a first spring, a wood receiving inclined plane plate, a sliding connecting column, a pushing connecting frame, a fixing rail, a sliding cylinder, a sliding plate, a second spring, a sliding mounting groove, a driving shaft, an output bevel gear, a pulling and pushing plate, a fixing mounting plate, a fixing slideway, a pulling and pushing inclined plane plate, a connecting and pushing bent plate and a sixth spring, the mounting and fixing frame is mounted and fixed on a mounting bottom plate, the connecting bolt is slidably mounted on the mounting and fixing frame, the springs are sleeved on the connecting bolt, the wood receiving inclined plane plate is mounted and fixed on the connecting bolt, the sliding connecting column is slidably mounted on the mounting and fixing frame, the sliding connecting frame is mounted and fixed on the sliding connecting column, the fixed rail is fixedly installed on the installation bottom plate, the sliding barrel is slidably installed on the fixed rail, the sliding plate is slidably installed inside the sliding barrel, the sliding plate is fixedly installed on the pushing connecting frame, the spring is sleeved on the pushing connecting frame, the sliding installation groove is formed in the sliding barrel, the driving shaft is rotatably installed on the sliding barrel, the output bevel gear is fixedly installed on the driving shaft, the pulling pushing plate is fixedly installed on the sliding barrel, the fixed installation plate is fixedly installed on the installation bottom plate, the fixed slideway is fixedly installed on the fixed installation plate, the pulling pushing inclined plate is slidably installed on the fixed slideway, the connection pushing bent plate is fixedly installed on the pulling pushing inclined plate, and the spring six-installation fixing device is fixedly installed on the connection pushing bent plate and the fixed slideway.

As a further optimization of the technical scheme, the invention relates to wood processing, clamping and feeding equipment for building engineering, which comprises a mounting fixed column, a fixed square barrel, a clamping control shaft, a bevel gear I, a bevel gear II, a belt wheel I, a transmission gear, a transmission belt, a transmission shaft I, a receiving belt wheel, a mounting seat, a pushing gear, a transmission shaft II, a receiving gear, an output belt wheel, a transmission belt II, a position limiting fixed barrel, an auxiliary matching ring, a position limiting inclined plane bolt, a spring III, a pulling-up mounting frame, a sliding mounting limiting column, a control limiting barrel, a screw thread I, a rotating column, a screw thread II, a transmission belt wheel II, a moving pushing column, a connecting sliding frame, a spring IV, a pushing rack, a position limiting column, a clamping sliding column, a connecting sliding plate, a spring V, a contraction limiting groove, a clamping inclined plane plate and a matching ball, wherein the mounting fixed column is mounted and fixed on a mounting bottom plate, the fixed square cylinder is fixedly arranged on the mounting fixing column, the clamping control shaft is rotatably arranged on the fixed square cylinder, the bevel gear I is fixedly arranged on the clamping control shaft, the bevel gear II is fixedly arranged on the clamping control shaft, the belt wheel I is fixedly arranged on the clamping control shaft, the transmission gear is fixedly arranged on the clamping control shaft, the transmission belt is arranged on the belt wheel I and the receiving belt wheel, the transmission shaft I is rotatably arranged on the mounting seat, the receiving belt wheel is fixedly arranged on the transmission shaft I, the mounting seat is fixedly arranged on the fixed square cylinder, the pushing gear is fixedly arranged on the transmission shaft I, the pushing gear is fixedly arranged on the transmission shaft II, the transmission shaft II is rotatably arranged on the mounting seat, the receiving gear is fixedly arranged on the transmission shaft II, the receiving gear is meshed with the transmission gear, the output belt wheel is fixedly arranged on the transmission shaft II, the transmission belt II is arranged on the output belt wheel, the auxiliary matching ring and the transmission belt wheel II, a position limiting fixed cylinder is fixedly arranged on a fixed square cylinder, an auxiliary matching ring is rotatably arranged on the position limiting fixed cylinder, a position limiting inclined plane bolt is slidably arranged in the position limiting fixed cylinder, a spring III is sleeved on the position limiting inclined plane bolt, a pulling mounting frame is fixedly arranged on the position limiting inclined plane bolt, a sliding mounting limiting column is slidably arranged on the pulling mounting frame, a control limiting cylinder is fixedly arranged on a sliding mounting limiting column, a first thread is arranged in the control limiting cylinder, a rotating column is arranged in the control limiting cylinder, the rotating column is rotatably arranged on the fixed square cylinder, a second thread is arranged on the rotating column, a second driving belt wheel is fixedly arranged on the rotating column, a movable pushing column is slidably arranged in the fixed square cylinder, a connecting sliding frame is slidably arranged in the movable pushing column, a fourth spring is fixedly arranged on the connecting sliding frame, and a pushing rack is fixedly arranged on the connecting sliding frame, the position limiting column is fixedly installed on the pushing rack, the position limiting column is slidably installed inside the movable pushing column, the clamping sliding column is slidably installed inside the movable pushing column, the connecting sliding plate is fixedly installed on the clamping sliding column, the connecting sliding plate is slidably installed inside the movable pushing column, the spring five is fixedly installed on the connecting sliding plate, the shrinkage limiting groove is formed in the connecting sliding plate, the clamping inclined plane plate is fixedly installed on the connecting sliding plate, and the matching ball is rotatably installed on the clamping inclined plane plate.

As a further optimization of the technical scheme, the wood processing clamping feeding device for the building engineering comprises a third installation fixing plate, a fixed clamping plate, a control moving device, a pushing box, a wood pushing strip and a reset connecting frame, wherein the wood pushing device is matched with a ball to be rotatably installed on the third installation fixing plate, the third installation fixing plate is installed and fixed on an installation bottom plate, the fixed clamping plate is installed and fixed on the third installation fixing plate, the control moving device is installed and fixed on the installation bottom plate, the pushing box is installed and fixed on the control moving device, the wood pushing strip is slidably installed on the fixed clamping plate and the pushing box, and the reset connecting frame is installed and fixed on the pushing box.

As a further optimization of the technical scheme, the wood processing clamping feeding device for the building engineering is characterized in that the number of the connecting bolts and the number of the springs I of the transmission control device are two, and the driving shaft is provided with a matched motor.

As a further optimization of the technical scheme, the wood processing clamping and feeding device for the building engineering is provided with two mounting seats, two pushing gears, two position limiting fixing cylinders, two position limiting inclined plane bolts and two springs, eight connecting sliding frames and eight springs, two pushing racks and four position limiting columns.

The wood processing clamping and feeding equipment for the constructional engineering has the beneficial effects that:

the invention relates to a wood processing clamping and feeding device for constructional engineering, in particular to a wood processing clamping and feeding device for constructional engineering, which realizes the functions of installing other devices through an installation bottom plate, receiving wood by a transmission control device, then controlling the working state of a wood clamping device to clamp the wood, clamping or loosening the wood by the wood clamping device to move reversely according to the state of other devices, clamping and then forwards pushing the clamped wood by a wood pushing device and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

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

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural schematic diagram of the transmission control device of the present invention.

Fig. 5 is a schematic structural diagram of a transmission control device according to the present invention.

Fig. 6 is a first structural schematic diagram of the wood clamping device of the present invention.

Fig. 7 is a schematic structural diagram of a wood clamping device according to the present invention.

Fig. 8 is a third schematic structural view of the wood clamping device of the present invention.

Fig. 9 is a fourth schematic structural view of the wood clamping device of the present invention.

Fig. 10 is a schematic structural view five of the wood clamping device of the present invention.

Fig. 11 is a sixth schematic structural view of the wood clamping device of the present invention.

Fig. 12 is a seventh structural schematic view of the wood clamping device of the present invention.

Fig. 13 is a first schematic structural view of the wood-propelling device of the present invention.

Fig. 14 is a schematic structural view of a wood propelling device according to the present invention.

In the figure: mounting a bottom plate 1; a transmission control device 2; mounting a fixed frame 2-1; 2-2 of a connecting bolt; 2-3 of a first spring; wood receiving inclined plane plates 2-4; 2-5 of a sliding connecting column; pushing the connecting frame 2-6; 2-7 of a fixed track; 2-8 of a sliding cylinder; a sliding plate 2-9; 2-10 parts of a second spring; 2-11 of a sliding installation groove; 2-12 parts of a driving shaft; output bevel gears 2-13; pulling up the push plates 2-14; fixing the mounting plate 2-15; fixed slideways 2-16; pulling up and pushing the inclined plane plates 2-17; connecting and pushing the bent plates 2-18; six springs 2-19; a wood clamping device 3; mounting a fixing column 3-1; 3-2 of a fixed square barrel; clamping the control shaft 3-3; 3-4 parts of a first bevel gear; 3-5 parts of a second bevel gear; 3-6 of a belt wheel I; transmission gears 3-7; 3-8 parts of a transmission belt; 3-9 parts of a first transmission shaft; receiving belt wheels 3-10; 3-11 of a mounting seat; pushing gears 3-12; a second transmission shaft 3-13; receiving gears 3-14; an output pulley 3-15; 3-16 parts of a second transmission belt; position limiting fixed cylinders 3-17; 3-18 parts of auxiliary matching ring; position limiting bevel bolts 3-19; 3-20 parts of a spring; pulling up the mounting rack 3-21; slidably mounting the restraint posts 3-22; controlling the limiting cylinders 3-23; 3-24 of a first thread; rotating the column 3-25; a second thread 3-26; a second transmission belt wheel 3-27; moving the pushing columns 3-28; connecting the sliding frames 3-29; a fourth spring is 3-30; pushing the racks 3-31; position restricting columns 3 to 32; clamping the sliding columns 3-33; connecting the sliding plates 3-34; 3-35 parts of a spring; contraction limiting grooves 3-36; clamping the bevel boards 3-37; 3-38 of matching balls; a wood-propelling device 4; mounting a fixed plate III 4-1; fixing a clamping plate 4-2; controlling the mobile device 4-3; 4-4 of a push box; 4-5 of wood pushing strips; and the connecting frame 4-6 is reset.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the present embodiment further describes an embodiment, and in order to solve the above technical problems, a wood processing clamping and feeding apparatus for building engineering includes a mounting base plate 1, a transmission control device 2, a wood clamping device 3, and a wood pushing device 4, wherein other devices are mounted through the mounting base plate, the transmission control device receives wood and then controls the working state of the wood clamping device to clamp the wood, the wood clamping device clamps the wood or releases the wood to move reversely according to the state of the other devices, and the wood pushing device clamps the clamped wood and then pushes the wood forward, and the present embodiment is characterized in that: the transmission control device 2 is fixedly arranged on the mounting bottom plate 1, the wood clamping device 3 is fixedly arranged on the mounting bottom plate 1, and the wood propelling device 4 is fixedly arranged on the mounting bottom plate 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14, and the embodiment is further described, wherein the transmission control device 2 comprises a mounting and fixing frame 2-1, a connecting bolt 2-2, a spring I2-3, a wood receiving inclined plane plate 2-4, a sliding connecting column 2-5, a pushing connecting frame 2-6, a fixing rail 2-7, a sliding cylinder 2-8, a sliding plate 2-9, a spring II 2-10, a sliding mounting groove 2-11, a driving shaft 2-12, an output bevel gear 2-13, a pulling and pushing plate 2-14, a fixing mounting plate 2-15, a fixing slide way 2-16, a pulling and pushing inclined plane plate 2-17, a connecting and pushing bent plate 2-18, a connecting and pushing inclined plane 2-13, The springs six 2-19 are that firstly the wood to be treated is placed on the clamping inclined plane plates 3-37 of the wood clamping device 3, then the wood rolls down on the wood receiving inclined plane plates 2-4 of the transmission control device 2 along with the slope surfaces of the clamping inclined plane plates 3-37 and pushes the wood receiving inclined plane plates 2-4 to move downwards to compress the springs one 2-3 and move the sliding connecting columns 2-5, the sliding connecting columns 2-5 drive the pushing connecting frames 2-6 to move and drive the sliding plates 2-9 to move to compress the springs two 2-10 for a certain length and then push the sliding cylinders 2-8 to move downwards on the fixed tracks 2-7, the sliding cylinders 2-8 drive the output bevel gears 2-13 to move through the driving shafts 2-12 so that the output bevel gears 2-13 are meshed with the bevel gears one 3-4 of the wood clamping device 3, then a driving shaft 2-12 drives a bevel gear I3-4 to rotate through an output bevel gear 2-13, a connecting pushing bent plate 2-18 drives a pulling pushing bevel plate 2-17 to move, the pulling pushing bevel plate 2-17 pushes a pulling pushing plate 2-14 upwards, the pulling pushing plate 2-14 drives a sliding cylinder 2-8 to move, the sliding cylinder 2-8 drives an output bevel gear 2-13 to move through a driving shaft 2-12 so that the output bevel gear 2-13 is meshed with a bevel gear II 3-5, a mounting and fixing frame 2-1 is fixedly arranged on a mounting base plate 1, a connecting bolt 2-2 is slidably arranged on the mounting and fixing frame 2-1, a spring I2-3 is sleeved on the connecting bolt 2-2, and a wood receiving bevel plate 2-4 is fixedly arranged on the connecting bolt 2-2, a sliding connecting post 2-5 is arranged on a mounting and fixing frame 2-1 in a sliding way, the sliding connecting post 2-5 is arranged and fixed on a wood receiving inclined plane plate 2-4, a pushing connecting frame 2-6 is arranged and fixed on the sliding connecting post 2-5, a fixed rail 2-7 is arranged and fixed on a mounting base plate 1, a sliding cylinder 2-8 is arranged on a fixed rail 2-7 in a sliding way, a sliding plate 2-9 is arranged and fixed in the sliding cylinder 2-8 in a sliding way, the sliding plate 2-9 is arranged and fixed on the pushing connecting frame 2-6, a spring II 2-10 is sleeved on the pushing connecting frame 2-6, a sliding mounting groove 2-11 is arranged on the sliding cylinder 2-8, a driving shaft 2-12 is arranged on the sliding cylinder 2-8 in a rotating way, an output bevel gear 2-13 is arranged and fixed on the driving shaft 2-12, the pulling pushing plate 2-14 is fixedly arranged on the sliding cylinder 2-8, the fixed mounting plate 2-15 is fixedly arranged on the mounting bottom plate 1, the fixed slideway 2-16 is fixedly arranged on the fixed mounting plate 2-15, the pulling pushing inclined plane plate 2-17 is slidably arranged on the fixed slideway 2-16, the connecting pushing bent plate 2-18 is fixedly arranged on the pulling pushing inclined plane plate 2-17, and the spring six 2-19 is fixedly arranged on the connecting pushing bent plate 2-18 and the fixed slideway 2-16.

The third concrete implementation mode:

the present embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the present embodiment further describes the present embodiment, wherein the wood clamping device 3 includes a fixing column 3-1, a fixing square cylinder 3-2, a clamping control shaft 3-3, a bevel gear 3-4, a bevel gear two 3-5, a pulley one 3-6, a transmission gear 3-7, a transmission belt 3-8, a transmission shaft one 3-9, a receiving pulley 3-10, a mounting seat 3-11, a pushing gear 3-12, a transmission shaft two 3-13, a receiving gear 3-14, an output pulley 3-15, a transmission belt two 3-16, a position limiting fixing cylinder 3-17, an auxiliary mating ring 3-18, a position limiting inclined plane bolt 3-19, and a positioning control device 3-4, 3-20 parts of a spring III, 3-21 parts of a pull-up mounting frame, 3-22 parts of a sliding mounting limiting column, 3-23 parts of a control limiting cylinder, 3-24 parts of a thread I, 3-25 parts of a rotating column, 3-26 parts of a thread II, 3-27 parts of a transmission belt wheel, 3-28 parts of a movable pushing column, 3-29 parts of a connecting sliding frame, 3-30 parts of a spring IV, 3-31 parts of a pushing rack, 3-32 parts of a position limiting column, 3-33 parts of a clamping sliding column, 3-34 parts of a connecting sliding plate, 3-35 parts of a spring V, 3-36 parts of a contraction limiting groove, 3-37 parts of a clamping inclined plane plate and 3-38 parts of a matching ball, 3-4 parts of a bevel gear I drive the belt wheel I3-6 and a transmission gear 3-7 to rotate through a clamping control shaft 3-3, 3-8 parts of the belt wheel I drive a receiving belt wheel 3-10 to rotate through a transmission belt 3-8, the receiving belt wheel 3-10 drives the pushing gear 3-12 to rotate through the transmission shaft I3-9, the transmission gear 3-7 drives the pushing gear 3-12 on the transmission shaft II 3-13 to rotate through the receiving gear 3-14, the rotating directions of the two pushing gears 3-12 are opposite, the pushing gear 3-12 and the pushing rack 3-31 are meshed to push the moving pushing column 3-28 to slide on the fixed square cylinder 3-2, the moving pushing column 3-28 pushes the clamping sliding column 3-33 to move through the connecting sliding plate 3-34 and the spring V3-35, the clamping sliding column 3-33 drives the clamping inclined plane plate 3-37 to move, the clamping inclined plane plate 3-37 pushes the wood receiving inclined plane plate 2-4 downwards to enable the output bevel gear 2-13 and the bevel gear I3-4 to be meshed more tightly, when the movable pushing column 3-28 and the fixed square cylinder 3-2 move relatively, the position limiting inclined plane bolt 3-19 limits the position of the fixed square cylinder 3-2 and the movable pushing column 3-28 under the condition of no external force, when the clamping inclined plane plate 3-37 clamps the wood, the clamping sliding column 3-33 and the movable pushing column 3-28 move relatively to each other, the contraction limiting groove 3-36 moves to the lower end of the position limiting column 3-32, then the spring four 3-30 pushes the pushing rack 3-31 to the inner part of the movable pushing column 3-28 through the connecting sliding frame 3-29 so that the pushing rack 3-31 and the pushing gear 3-12 are separated, then the clamping inclined plane plate 3-37 does not move to clamp the wood, and then the bevel gear two 3-5 rotates reversely, because no wood is in front of the clamping inclined plane plate 3-37, the spring five 3-35 pushes the clamping sliding column 3-33 and the moving pushing column 3-28 to move relatively through the connecting sliding plate 3-34, then the clamping sliding column 3-33 pushes the pushing rack 3-31 outwards through the position limiting column 3-32, so that the pushing rack 3-31 is meshed with the pushing gear 3-12, the pushing rack 3-31 drives the moving pushing column 3-28 to move reversely in the fixed square tube 3-2, meanwhile, the pushing gear 3-12 rotating reversely drives the output belt wheel 3-15 to rotate through the transmission shaft two 3-13, the output belt wheel 3-15 drives the transmission belt wheel two 3-27 to rotate through the transmission belt two 3-16, and the transmission belt wheel two 3-27 drives the rotating column 3-25 to rotate, the rotating rotary column 3-25 drives the control limiting cylinder 3-23 to move upwards through the matching of the second screw thread 3-26 and the first screw thread 3-24, the control limiting cylinder 3-23 moves upwards through the sliding installation limiting column 3-22 to pull up the mounting frame 3-21 and then pull up the position limiting inclined plane bolt 3-19 and separate the moving pushing column 3-28, so that the moving pushing column 3-28 can move in the fixed square cylinder 3-2 and then pull back the clamping inclined plane plate 3-37 to the initial position for the next clamping of wood, when the first screw thread 3-24 and the second screw thread 3-26 are not matched, the rotating column 3-25 cannot pull down or pull down the control limiting cylinder 3-23, the installation fixing column 3-1 is installed and fixed on the installation bottom plate 1, the fixed square cylinder 3-2 is installed and fixed on the installation fixing column 3-1, a clamping control shaft 3-3 is rotatably arranged on a fixed square barrel 3-2, a bevel gear I3-4 is fixedly arranged on the clamping control shaft 3-3, a bevel gear II 3-5 is fixedly arranged on the clamping control shaft 3-3, a belt wheel I3-6 is fixedly arranged on the clamping control shaft 3-3, a transmission gear 3-7 is fixedly arranged on the clamping control shaft 3-3, a transmission belt 3-8 is arranged on the belt wheel I3-6 and a receiving belt wheel 3-10, a transmission shaft I3-9 is rotatably arranged on an installation seat 3-11, the receiving belt wheel 3-10 is fixedly arranged on a transmission shaft I3-9, an installation seat 3-11 is fixedly arranged on the fixed square barrel 3-2, and a pushing gear 3-12 is fixedly arranged on the transmission shaft I3-9, the pushing gear 3-12 is fixedly arranged on the transmission shaft II 3-13, the transmission shaft II 3-13 is rotatably arranged on the mounting seat 3-11, the receiving gear 3-14 is fixedly arranged on the transmission shaft II 3-13, the receiving gear 3-14 is meshed with the transmission gear 3-7, the output belt wheel 3-15 is fixedly arranged on the transmission shaft II 3-13, the transmission belt II 3-16 is arranged on the output belt wheel 3-15, the auxiliary matching ring 3-18 and the transmission belt wheel II 3-27, the position limiting fixing cylinder 3-17 is fixedly arranged on the fixing square cylinder 3-2, the auxiliary matching ring 3-18 is rotatably arranged on the position limiting fixing cylinder 3-17, the position limiting inclined surface bolt 3-19 is slidably arranged in the position limiting fixing cylinder 3-17, the spring III 3-20 is sleeved on the position limiting inclined surface bolt 3-19, a pull-up mounting frame 3-21 is fixedly arranged on a position limiting inclined plane bolt 3-19, a sliding mounting limiting column 3-22 is slidably arranged on the pull-up mounting frame 3-21, a control limiting cylinder 3-23 is fixedly arranged on the sliding mounting limiting column 3-22, a screw thread I3-24 is arranged inside the control limiting cylinder 3-23, a rotating cylinder 3-25 is arranged inside the control limiting cylinder 3-23, the rotating cylinder 3-25 is rotatably arranged on a fixed square cylinder 3-2, a screw thread II 3-26 is arranged on the rotating cylinder 3-25, a driving belt wheel II 3-27 is fixedly arranged on the rotating cylinder 3-25, a movable push cylinder 3-28 is slidably arranged inside the fixed square cylinder 3-2, and a connecting sliding frame 3-29 is slidably arranged inside the movable push cylinder 3-28, a fourth spring 3-30 is fixedly arranged on the connecting sliding frame 3-29, a pushing rack 3-31 is fixedly arranged on the connecting sliding frame 3-29, a position limiting column 3-32 is fixedly arranged on the pushing rack 3-31, a position limiting column 3-32 is slidably arranged in a moving pushing column 3-28, a clamping sliding column 3-33 is slidably arranged in the moving pushing column 3-28, a connecting sliding plate 3-34 is fixedly arranged on the clamping sliding column 3-33, a connecting sliding plate 3-34 is slidably arranged in the moving pushing column 3-28, a fifth spring 3-35 is fixedly arranged on the connecting sliding plate 3-34, a contraction limiting groove 3-36 is arranged on the connecting sliding plate 3-34, a clamping inclined plate 3-37 is fixedly arranged on the connecting sliding plate 3-34, the mating balls 3-38 are rotatably mounted on the clamping ramp 3-37.

The fourth concrete implementation mode:

the present embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14. in the present embodiment, the wood pushing device 4 includes a mounting fixing plate three 4-1, a fixing clamping plate 4-2, a control moving device 4-3, a pushing box 4-4, a wood pushing strip 4-5, and a reset connecting frame 4-6, then the control moving device 4-3 of the wood pushing device 4 pushes the pushing box 4-4 to move, the pushing box 4-4 pushes the wood pushing strip 4-5 to move to push the wood, when the wood pushing strip 4-5 pushes the wood to the end of the pushing box 4-4 to stop for a period of time, the pushing box 4-4 drives the reset connecting frame 4-6 to move and contact with the connecting pushing curved plate 2-18, the matched ball 3-38 is rotatably arranged on the mounting fixing plate III 4-1, the mounting fixing plate III 4-1 is fixedly arranged on the mounting base plate 1, the fixed clamping plate 4-2 is fixedly arranged on the mounting fixing plate III 4-1, the control moving device 4-3 is fixedly arranged on the mounting base plate 1, the pushing box 4-4 is fixedly arranged on the control moving device 4-3, the wood pushing strip 4-5 is slidably arranged on the fixed clamping plate 4-2 and the pushing box 4-4, and the reset connecting frame 4-6 is fixedly arranged on the pushing box 4-4.

The fifth concrete implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, where the number of the connecting bolts 2-2 and the number of the springs one 2-3 of the transmission control device 2 are two, and the driving shaft 2-12 is provided with a matching motor.

The sixth specific implementation mode:

the third embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14. the third embodiment is further described, the number of the mounting seats 3-11, the pushing gears 3-12, the position limiting fixing cylinders 3-17, the position limiting inclined plane bolts 3-19 and the springs 3-20 of the timber clamping device 3 is two, the number of the connecting sliding frames 3-29 and the springs 3-30 is eight, the number of the pushing racks 3-31 is two, and the number of the position limiting columns 3-32 is four.

The working principle of the invention is as follows:

a working principle of wood processing clamping feeding equipment for constructional engineering is that whether connection conditions among devices meet requirements is checked before the wood processing clamping feeding equipment is used, firstly, wood to be processed is placed on clamping inclined plane plates 3-37 of a wood clamping device 3, then the wood rolls on wood receiving inclined plane plates 2-4 of a transmission control device 2 along with the slope surfaces of the clamping inclined plane plates 3-37 and pushes wood receiving inclined plane plates 2-4 to move downwards to compress springs I2-3 and move sliding connecting columns 2-5, the sliding connecting columns 2-5 drive pushing connecting frames 2-6 to move and drive sliding plates 2-9 to move to compress springs II 2-10 for a certain length, then the sliding cylinders 2-8 push sliding cylinders 2-8 to move downwards on fixed rails 2-7, and the sliding cylinders 2-8 drive output bevel gears 2-13 to move through driving shafts 2-12 to enable output bevel gears to move The wheels 2-13 are meshed with a bevel gear I3-4 of the wood clamping device 3, then a driving shaft 2-12 drives the bevel gear I3-4 to rotate through an output bevel gear 2-13, the bevel gear I3-4 drives a belt wheel I3-6 and a transmission gear 3-7 to rotate through a clamping control shaft 3-3, the belt wheel I3-6 drives a receiving belt wheel 3-10 to rotate through a transmission belt 3-8, the receiving belt wheel 3-10 drives a pushing gear 3-12 to rotate through a transmission shaft I3-9, the transmission gear 3-7 drives a pushing gear 3-12 on a transmission shaft II 3-13 to rotate through a receiving gear 3-14, the rotating directions of the two pushing gears 3-12 are opposite, the pushing gear 3-12 and a pushing rack 3-31 are meshed to push a moving pushing column 3-28 to slide on a fixed square cylinder 3-2, the movable pushing columns 3-28 push the clamping sliding columns 3-33 to move through connecting the sliding plates 3-34 and the springs five 3-35, the clamping sliding columns 3-33 drive the clamping inclined plane plates 3-37 to move, the clamping inclined plane plates 3-37 push the wood receiving inclined plane plates 2-4 downwards to enable the output bevel gears 2-13 and the bevel gears one 3-4 to be meshed more tightly, when the movable pushing columns 3-28 and the fixed square cylinders 3-2 move relatively, the positions of the fixed square cylinders 3-2 and the movable pushing columns 3-28 are limited by the position limiting inclined plane bolts 3-19 under the condition of no external force, after the clamping inclined plane plates 3-37 clamp the wood, the contraction limiting grooves 3-36 move to the lower ends of the position limiting columns 3-32 due to the fact that the clamping sliding columns 3-33 and the movable pushing columns 3-28 move relatively, then the spring four 3-30 will push the pushing rack 3-31 to the inside of the moving pushing column 3-28 through the connecting sliding rack 3-29 to separate the pushing rack 3-31 and the pushing gear 3-12 and then clamp the inclined plane board 3-37 without further clamping the wood, then the control moving device 4-3 of the wood pushing device 4 pushes the pushing box 4-4 to move, the pushing box 4-4 pushes the wood pushing strip 4-5 to move to push the wood, when the wood pushing strip 4-5 pushes the wood to the end of the treatment, the pushing box 4-4 also makes the pushing box 4-4 at the end of the end, the pushing box 4-4 drives the reset connecting rack 4-6 to move and contact with the connecting pushing bent board 2-18, the connecting pushing bent board 2-18 drives the pulling pushing inclined plane board 2-17 to move, the pulling pushing inclined plane plates 2-17 are pulled to push the pulling pushing plates 2-14 upwards, the pulling pushing plates 2-14 drive the sliding cylinders 2-8 to move, the sliding cylinders 2-8 drive the output bevel gears 2-13 to move through the driving shafts 2-12 so that the output bevel gears 2-13 are meshed with the bevel gears two 3-5, then the bevel gears two 3-5 rotate reversely, and due to the fact that no wood exists in front of the clamping inclined plane plates 3-37, the springs five 3-35 push the clamping sliding columns 3-33 and the moving pushing columns 3-28 to move oppositely through the connecting sliding plates 3-34, then the clamping sliding columns 3-33 push the pushing racks 3-31 outwards through the position limiting columns 3-32 so that the pushing racks 3-31 are meshed with the pushing gears 3-12, so that the pushing rack 3-31 drives the movable pushing column 3-28 to move reversely in the fixed square cylinder 3-2, meanwhile, the pushing gear 3-12 rotating reversely drives the output belt wheel 3-15 to rotate through the transmission shaft two 3-13, the output belt wheel 3-15 drives the transmission belt wheel two 3-27 to rotate through the transmission belt two 3-16, the transmission belt wheel two 3-27 drives the rotating column 3-25 to rotate, the rotating column 3-25 drives the control limiting cylinder 3-23 to move upwards through the matching of the screw thread two 3-26 and the screw thread one 3-24, the control limiting cylinder 3-23 moves upwards through the sliding installation of the limiting column 3-22 to pull up the installation rack 3-21 to move, then the position limiting inclined plane bolt 3-19 is pulled up and the movable pushing column 3-28 is separated, so that the movable pushing column 3-28 can move in the fixed square cylinder 3-2 The clamping ramp 3-37 is then pulled back to the original position for the next timber clamping, and the rotating post 3-25 cannot pull the control cylinder 3-23 down or down when the threads one 3-24 and two 3-26 are not engaged.

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. And (3) screening and separating pore cylinders (3-19).

Claims (3)

1. The utility model provides a tight feeding equipment of timber processing clamp for building engineering, includes mounting plate (1), transmission controlling means (2), wood clamping device (3), timber advancing device (4), its characterized in that: the transmission control device (2) is fixedly installed on the installation bottom plate (1), the wood clamping device (3) is fixedly installed on the installation bottom plate (1), and the wood propelling device (4) is fixedly installed on the installation bottom plate (1);

the transmission control device (2) comprises an installation fixing frame (2-1), a connecting bolt (2-2), a spring I (2-3), a wood receiving inclined plane plate (2-4), a sliding connecting column (2-5), a pushing connecting frame (2-6), a fixed rail (2-7), a sliding cylinder (2-8), a sliding plate (2-9), a spring II (2-10), a sliding installation groove (2-11), a driving shaft (2-12), an output bevel gear (2-13), a pulling pushing plate (2-14), a fixed installation plate (2-15), a fixed slideway (2-16), a pulling pushing inclined plane plate (2-17), a connecting pushing bent plate (2-18) and a spring II (2-19), wherein the installation fixing frame (2-1) is installed and fixed on an installation base plate (1), the connecting bolt (2-2) is slidably mounted on the mounting fixing frame (2-1), the spring I (2-3) is sleeved on the connecting bolt (2-2), the wood receiving inclined plane plate (2-4) is fixedly mounted on the connecting bolt (2-2), the sliding connecting column (2-5) is slidably mounted on the mounting fixing frame (2-1), the sliding connecting column (2-5) is fixedly mounted on the wood receiving inclined plane plate (2-4), the pushing connecting frame (2-6) is fixedly mounted on the sliding connecting column (2-5), the fixed rail (2-7) is fixedly mounted on the mounting bottom plate (1), the sliding cylinder (2-8) is slidably mounted on the fixed rail (2-7), and the sliding plate (2-9) is slidably mounted inside the sliding cylinder (2-8), a sliding plate (2-9) is fixedly arranged on a pushing connecting frame (2-6), a second spring (2-10) is sleeved on the pushing connecting frame (2-6), a sliding installation groove (2-11) is arranged on a sliding cylinder (2-8), a driving shaft (2-12) is rotatably arranged on the sliding cylinder (2-8), an output bevel gear (2-13) is fixedly arranged on the driving shaft (2-12), a pulling pushing plate (2-14) is fixedly arranged on the sliding cylinder (2-8), a fixed installation plate (2-15) is fixedly arranged on an installation bottom plate (1), a fixed slideway (2-16) is fixedly arranged on the fixed installation plate (2-15), a pulling pushing inclined plane plate (2-17) is slidably arranged on the fixed slideway (2-16), and a connecting pushing bent plate (2-18) is fixedly arranged on the pulling pushing inclined plane plate (2-17) The six springs (2-19) are fixedly arranged on the connecting pushing bent plates (2-18) and the fixed slide ways (2-16);

the wood clamping device (3) comprises a mounting and fixing column (3-1), a fixing square barrel (3-2), a clamping control shaft (3-3), a bevel gear I (3-4), a bevel gear II (3-5), a belt wheel I (3-6), a transmission gear (3-7), a transmission belt (3-8), a transmission shaft I (3-9), a receiving belt wheel (3-10), a mounting seat (3-11), a pushing gear (3-12), a transmission shaft II (3-13), a receiving gear (3-14), an output belt wheel (3-15), a transmission belt II (3-16), a position limiting fixing barrel (3-17), an auxiliary matching ring (3-18), a position limiting inclined plane bolt (3-19), a spring III (3-20), The mounting frame (3-21) is pulled up, the limiting columns (3-22) are slidably mounted, the control limiting cylinders (3-23), the first threads (3-24), the rotating columns (3-25), the second threads (3-26), the second transmission belt wheels (3-27), the movable pushing columns (3-28), the connecting sliding frames (3-29), the fourth springs (3-30), the pushing racks (3-31), the position limiting columns (3-32), the clamping sliding columns (3-33), the connecting sliding plates (3-34), the fifth springs (3-35), the contraction limiting grooves (3-36), the clamping inclined plane plates (3-37) and the matching balls (3-38) are fixedly mounted on the mounting bottom plate (1), the fixed square cylinders (3-2) are fixedly mounted on the mounting fixing columns (3-1), a clamping control shaft (3-3) is rotatably arranged on a fixed square barrel (3-2), a bevel gear I (3-4) is fixedly arranged on the clamping control shaft (3-3), a bevel gear II (3-5) is fixedly arranged on the clamping control shaft (3-3), a belt wheel I (3-6) is fixedly arranged on the clamping control shaft (3-3), a transmission gear (3-7) is fixedly arranged on the clamping control shaft (3-3), a transmission belt (3-8) is arranged on the belt wheel I (3-6) and a receiving belt wheel (3-10), a transmission shaft I (3-9) is rotatably arranged on an installation seat (3-11), the receiving belt wheel (3-10) is fixedly arranged on the transmission shaft I (3-9), and the installation seat (3-11) is fixedly arranged on the fixed square barrel (3-2), the pushing gear (3-12) is fixedly arranged on the first transmission shaft (3-9), the pushing gear (3-12) is fixedly arranged on the second transmission shaft (3-13), the second transmission shaft (3-13) is rotatably arranged on the mounting seat (3-11), the receiving gear (3-14) is fixedly arranged on the second transmission shaft (3-13), the receiving gear (3-14) is meshed with the transmission gear (3-7), the output belt wheel (3-15) is fixedly arranged on the second transmission shaft (3-13), the second transmission belt (3-16) is arranged on the output belt wheel (3-15), the auxiliary matching ring (3-18) and the second transmission belt wheel (3-27), the position limiting fixing cylinder (3-17) is fixedly arranged on the fixing square cylinder (3-2), the auxiliary matching ring (3-18) is rotatably arranged on the position limiting fixing cylinder (3-17), the position limiting inclined plane bolt (3-19) is slidably arranged in the position limiting fixed cylinder (3-17), the spring III (3-20) is sleeved on the position limiting inclined plane bolt (3-19), the pull-up mounting frame (3-21) is fixedly arranged on the position limiting inclined plane bolt (3-19), the slidably-arranged limiting column (3-22) is slidably arranged on the pull-up mounting frame (3-21), the control limiting cylinder (3-23) is fixedly arranged on the slidably-arranged limiting column (3-22), the screw thread I (3-24) is arranged in the control limiting cylinder (3-23), the rotating column (3-25) is rotatably arranged on the fixed square cylinder (3-2), the screw thread II (3-26) is arranged on the rotating column (3-25), the second transmission belt wheel (3-27) is fixedly arranged on the rotating column (3-25), the movable pushing column (3-28) is slidably arranged inside the fixed square barrel (3-2), the connecting sliding frame (3-29) is slidably arranged inside the movable pushing column (3-28), the fourth spring (3-30) is fixedly arranged on the connecting sliding frame (3-29), the pushing rack (3-31) is fixedly arranged on the connecting sliding frame (3-29), the position limiting column (3-32) is fixedly arranged on the pushing rack (3-31), the position limiting column (3-32) is slidably arranged inside the movable pushing column (3-28), the clamping sliding column (3-33) is slidably arranged inside the movable pushing column (3-28), and the connecting sliding plate (3-34) is fixedly arranged on the clamping sliding column (3-33), the connecting sliding plates (3-34) are slidably arranged in the moving pushing columns (3-28), the springs (3-35) are fixedly arranged on the connecting sliding plates (3-34), the contraction limiting grooves (3-36) are arranged on the connecting sliding plates (3-34), the clamping inclined plane plates (3-37) are fixedly arranged on the connecting sliding plates (3-34), and the matching balls (3-38) are rotatably arranged on the clamping inclined plane plates (3-37);

the wood propelling device (4) comprises a mounting fixing plate III (4-1), a fixing clamping plate (4-2), a control moving device (4-3), a pushing box (4-4), a wood pushing strip (4-5) and a reset connecting frame (4-6), a matching ball (3-38) is rotatably mounted on the mounting fixing plate III (4-1), the mounting fixing plate III (4-1) is mounted and fixed on a mounting base plate (1), the fixing clamping plate (4-2) is mounted and fixed on the mounting fixing plate III (4-1), the control moving device (4-3) is mounted and fixed on the mounting base plate (1), the pushing box (4-4) is mounted and fixed on the control moving device (4-3), and the wood pushing strip (4-5) is slidably mounted on the fixing clamping plate (4-2) and the pushing box (4-4), the reset connecting frame (4-6) is fixedly arranged on the pushing box (4-4).

2. A wood-handling clamping feed apparatus for construction engineering according to claim 1, characterised in that: the number of the connecting bolts (2-2) and the springs (2-3) of the transmission control device (2) is two, and the driving shafts (2-12) are provided with matched motors.

3. A wood-handling clamping feed apparatus for construction engineering according to claim 1, characterised in that: the wood clamping device is characterized in that the number of the mounting seats (3-11), the number of the pushing gears (3-12), the number of the position limiting fixing cylinders (3-17), the number of the position limiting inclined plane bolts (3-19) and the number of the springs (3-20) are two, the number of the connecting sliding frames (3-29) and the number of the springs (3-30) are eight, the number of the pushing racks (3-31) is two, and the number of the position limiting columns (3-32) is four.

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