CN217020772U - Wood veneer conveying and correcting device for transverse splicing machine - Google Patents

Abstract

The utility model discloses a veneer transmission and correcting device for a transverse splicing machine, which comprises a rack, a transmission and correcting mechanism and a power mechanism, wherein the rack is provided with a conveying and correcting mechanism; the transmission correcting mechanism and the power mechanism are arranged on the frame; the transmission correcting mechanism is characterized by comprising a supporting plate, a screw I, a rotating shaft I, a fixing plate I, a screw II, a supporting plate I, a fixing plate II, a fixing plate III, a fixing plate IV and a supporting frame; the supporting plate is fixed at the top of the supporting frame; the screw I, the rotating shaft I and the screw II are fixed at the bottom of the support frame through bearing seats, and the rotating shaft I is arranged between the screw I and the screw II; the fixing plate I, the supporting plate I, the fixing plate II, the fixing plate III and the fixing plate IV are arranged above the screw rod I and the screw rod II; the fixing plate II is fixed at one end of the fixing plate I; a fixing plate III and a fixing plate IV are fixed at the other end of the fixing plate I; layer board I is located I one side of fixed plate. The utility model can lead the veneer to be automatically restored when the feeding is transmitted, and the size cutting is accurate.

Description

Wood skin transmission reforming device for transverse splicing machine

Technical Field

The utility model belongs to the technical field of wood veneer processing, and particularly relates to a veneer transmission and correcting device for a transverse splicing machine.

Background

When the wood veneer is produced and processed, a plurality of veneers are needed to be spliced at first, including a transverse splicing machine or a vertical splicing machine; the wood skin is prone to deviation along with transmission during feeding and transmission in the first step, so that the wood skin cannot be integrally vertical to the cutter, then the cutting size of the wood skin is deviated during cutting in the next important step, the quality of spliced wood skin is reduced, and the splicing effect is poor;

there is a need for a device that automatically resets when the bark is deflected in its transport to ensure proper delivery of the bark.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a veneer conveying and correcting device for a transverse splicing machine, which can ensure that veneers can be automatically corrected when the veneers are conveyed in a feeding manner, so that the veneers are kept vertical to a cutter, and further, the deviation of veneer cutting is avoided.

In order to achieve the purpose, the utility model adopts the technical scheme that:

a veneer transmission and reforming device for a transverse splicing machine comprises a rack, a transmission and reforming mechanism and a power mechanism; the transmission and reforming mechanism and the power mechanism are arranged on the rack, and the power mechanism is arranged on one side of the transmission and reforming mechanism; the transmission correcting mechanism comprises a supporting plate, a screw I, a rotating shaft I, a fixing plate I, a screw II, a supporting plate I, a fixing plate II, a fixing plate III, a fixing plate IV and a supporting frame; the supporting frame bears a supporting plate, a screw I, a rotating shaft I, a fixing plate I, a screw II, a supporting plate I, a fixing plate II, a fixing plate III and a fixing plate IV; the supporting plate is fixed at the top of the supporting frame; the screw I, the rotating shaft I and the screw II are fixed at the bottom of the support frame through bearing seats, and the rotating shaft I is arranged between the screw I and the screw II; the fixing plate I, the supporting plate I, the fixing plate II, the fixing plate III and the fixing plate IV are arranged above the screw rod I and the screw rod II; the fixing plate II is fixed at one end of the fixing plate I; a fixing plate III and a fixing plate IV are fixed at the other end of the fixing plate I, and the fixing plate III is arranged between the fixing plate II and the fixing plate IV; i one side of fixed plate is located to layer board I.

The power mechanism comprises a motor, a transmission shaft, a transmission chain wheel and a belt pulley II; the motor output shaft passes through shaft coupling connection transmission shaft one end, and transmission sprocket locates transmission shaft one end, and belt pulley II is equipped with a plurality ofly and evenly fixes on the transmission shaft.

One end of the screw I is provided with a power chain wheel VII; one end of the screw II is provided with a power chain wheel III; the chain wheel III is connected with the chain wheel VII through a chain.

A power chain wheel I and a power chain wheel II are arranged on the rotating shaft I, and the power chain wheel I is arranged on one side of the power chain wheel II; and the power chain wheel II is connected with a transmission chain wheel through a chain.

The fixing plates I are provided with a pair of fixing plates which are arranged in parallel up and down and are fixedly connected with each other through connecting plates; a roller shaft is arranged at two ends of the fixing plate I, and a bevel gear I is arranged at the end part of the roller shaft at one end of the feeding hole; the roll shafts are connected with each other in a surrounding way through belts; the two ends of the bottom of the fixing plate I are provided with connecting columns, one ends of the connecting columns are provided with screw sleeves and are connected with a screw rod I and a screw rod II through the screw sleeves, and the other ends of the connecting columns are rotatably connected with the bottom of the fixing plate I.

The bottom of the supporting plate I is provided with a supporting arm and is connected with the fixing plate I through the supporting arm, and one end of the supporting plate I is provided with a transmission chain wheel; two ends of the fixing plate II are fixedly connected with the bottom of the supporting plate I and the bottom of the fixing plate I respectively; a fixing seat is arranged on one side of the fixing plate II, a rotating shaft is arranged on the fixing seat, one end of the rotating shaft is provided with a bevel gear II, and the other end of the rotating shaft is provided with a conveying chain wheel I; the bevel gear II is meshed with the bevel gear I; the supporting plate I is parallel to the fixing plate I.

The fixing plate III is fixed at the bottom of the fixing plate I through a bolt and is positioned above the rotating shaft I; a rotating shaft II and a rotating shaft IV are arranged at the bottom of the fixing plate III and are fixed through a bearing seat; one end of the rotating shaft II is provided with a transmission chain wheel II and a power chain wheel IV; the other end is provided with a power chain wheel VI; the power chain wheel IV is connected with the power chain wheel I through a chain; the conveying chain wheel II is connected with a conveying chain wheel and a conveying chain wheel I at one end of the supporting plate I through a chain, and the supporting plate I is used for supporting and conveying the chain; one end of the rotating shaft IV is provided with a power chain wheel V; and the power chain wheel V is connected with a power chain wheel VI through a chain.

The fixing plate IV is fixed at the bottom of the fixing plate I through a bolt; the bottom of the fixing plate IV is provided with a rotating shaft III and is fixed through a bearing seat; one end of the rotating shaft III is provided with a conveying chain wheel III, and the other end of the rotating shaft III is provided with a universal joint; the other end of the universal joint is connected with a rotating shaft IV; a supporting plate II is arranged on one side of the fixing plate IV, a transmission chain wheel is arranged at one end of the supporting plate II and is connected with a transmission chain wheel III through a chain, the supporting plate II is used for transmitting wood veneers through the chain, and the effect of the supporting plate II is the same as that of the supporting plate I; the rotating shaft III and the supporting plate II are arranged at an angle of 90 degrees; the included angle between the supporting plate I and the supporting plate II is set to be 20-35 degrees.

Preferably, a pressing plate is arranged at the top of one end of the fixing plate I, and a pressing wheel is arranged on the pressing plate; the direction of the pinch roller is consistent with the directions of the conveying chain wheel III and the supporting plate II.

Preferably, I bottom of layer board is equipped with adjusting sprocket II, be equipped with adjusting sprocket I on the mount of I one side of axis of rotation.

Compared with the prior art, the utility model has the beneficial effects that:

1) in the utility model, a rotating shaft III and a supporting plate II are arranged at an angle of 90 degrees; an included angle between the supporting plate I and the supporting plate II is set to be 20-35 degrees; after the veneer is placed in the conveying and correcting mechanism, the chain on the supporting plate II is conveyed to drive the veneer to continuously move towards the right in the advancing process until the side edge of the veneer is tightly attached to the belt, and the veneer is corrected; when the width of the processed veneer is changed, the fixing plate I is driven to move along the screw rod I by manually rotating the screw rod I, so that the application interchange adjustment between the three-ruler veneer and the four-ruler veneer is realized; can manually rotate lead screw I when not having the link chain between power sprocket VII and the power sprocket III and finely tune fixed plate I and belt, make I perpendicular to of fixed plate cut the mechanism and avoid the wood skin to cut the too big deviation that appears.

Drawings

FIG. 1 is a schematic structural view of a veneer conveying and correcting device for a transverse splicing machine according to the present invention;

FIG. 2 is a schematic diagram of the transport righting mechanism of FIG. 1;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a schematic view of a portion of the structure of FIG. 2;

FIG. 5 is a first bottom view of FIG. 4;

FIG. 6 is a second bottom view of FIG. 4;

in the figure: 1. a frame; 2. a transport righting mechanism; 201. a support plate; 2011. a belt pulley I; 202. a screw I; 2021. a power chain wheel VII; 203. a rotating shaft I; 2031. a power chain wheel I; 2032. a power chain wheel II; 204. a fixing plate I; 2041. a roll shaft; 20411. a bevel gear I; 2042. a belt; 2043. connecting columns; 205. a screw II; 2051. a power sprocket III; 206. a supporting plate I; 2061. a support arm; 207. fixing a plate II; 2071. a bevel gear II; 2072. a conveying chain wheel I; 208. a fixing plate III; 2081. a rotating shaft II; 2082. a transmission chain wheel II; 2083. a power sprocket IV; 2084. a power chain wheel VI; 2085. a rotating shaft IV; 2086. a power chain wheel V; 209. a fixing plate IV; 2091. a rotating shaft III; 20911. a conveying chain wheel III; 2092. a universal joint; 2093. a supporting plate II; 210. a support frame; 2011. pressing a plate; 20111. a pinch roller; 2012. adjusting a chain wheel I; 2013. adjusting a chain wheel II; 3. a power mechanism; 301. a motor; 302. a drive shaft; 303. a drive sprocket; 304. a belt pulley II; 4. a chain conveying mechanism I; 5. a cutting mechanism; 6. a chain conveying mechanism II; 7. a belt conveying mechanism.

Detailed Description

For the understanding of the technical field, the technical solution of the present invention is further explained in detail with reference to the accompanying drawings 1-6.

A veneer transmission and reforming device for a transverse splicing machine comprises a frame 1, a transmission and reforming mechanism 2 and a power mechanism 3; the transmission and recovery mechanism 2 and the power mechanism 3 are arranged on the frame 1, and the power mechanism 3 is arranged on one side of the transmission and recovery mechanism 2; the transmission correcting mechanism 2 comprises a supporting plate 201, a screw I202, a rotating shaft I203, a fixing plate I204, a screw II 205, a supporting plate I206, a fixing plate II 207, a fixing plate III 208, a fixing plate IV 209 and a supporting frame 210; the supporting frame 210 bears a supporting plate 201, a screw I202, a rotating shaft I203, a fixing plate I204, a screw II 205, a supporting plate I206, a fixing plate II 207, a fixing plate III 208 and a fixing plate IV 209; the supporting plate 201 is fixed on the top of the supporting frame 210; the screw I202, the rotating shaft I203 and the screw II 205 are fixed at the bottom of the support frame 210 through bearing seats, and the rotating shaft I203 is arranged between the screw I202 and the screw II 205; the fixing plate I204, the supporting plate I206, the fixing plate II 207, the fixing plate III 208 and the fixing plate IV 209 are arranged above the screw I202 and the screw II 205; the fixing plate II 207 is fixed at one end of the fixing plate I204; a fixing plate III 208 and a fixing plate IV 209 are fixed at the other end of the fixing plate I204, and the fixing plate III 208 is arranged between the fixing plate II 207 and the fixing plate IV 209; the support plate I206 is arranged on one side of the fixing plate I204.

The power mechanism 3 comprises a motor 301, a transmission shaft 302, a transmission chain wheel 303 and a belt pulley II 304; the output shaft of the motor 301 is connected with one end of the transmission shaft 302 through a coupler, the transmission chain wheel 303 is arranged at one end of the transmission shaft 302, and a plurality of belt pulleys II 304 are uniformly fixed on the transmission shaft 302.

One end of the screw I202 is provided with a power chain wheel VII 2021; one end of the screw II 205 is provided with a power chain wheel III 2051; the power chain wheel III 2051 is connected with the power chain wheel VII 2021 through a chain.

A power chain wheel I2031 and a power chain wheel II 2032 are arranged on the rotating shaft I203, and the power chain wheel I2031 is arranged on one side of the power chain wheel II 2032; the power chain wheel II 2032 is connected with the transmission chain wheel 303 through a chain; the power mechanism 3 drives the rotating shaft I203 to rotate.

The fixing plates I204 are provided with a pair and are arranged in parallel up and down, and the fixing plates I204 and the fixing plates are fixedly connected with each other through connecting plates; two ends of the fixing plate I204 are provided with a roll shaft 2041, wherein the end part of the roll shaft 2041 at one end of the feeding hole is provided with a bevel gear I20411; the roller shafts 2041 and 2041 are connected in a surrounding manner through belts 2042; two ends of the bottom of the fixing plate I204 are provided with connecting columns 2043, and one ends of the connecting columns 2043 are provided with screw sleeves and are connected with a screw I202 and a screw II 205 through the screw sleeves; the other end of the connecting column 2043 is rotatably connected with the bottom of the fixing plate I204.

The bottom of the supporting plate I206 is provided with a supporting arm 2061 and is connected with the fixing plate I204 through the supporting arm 2061, and one end of the supporting plate I206 is provided with a transmission chain wheel; two ends of the fixing plate II 207 are fixedly connected with the bottom of the supporting plate I206 and the bottom of the fixing plate I204 respectively; a fixed seat is arranged on one side of the fixed plate II 207, a rotating shaft is arranged on the fixed seat, a bevel gear II 2071 is arranged at one end of the rotating shaft, and a transmission chain wheel I2072 is arranged at the other end of the rotating shaft; the bevel gear II 2071 is meshed with the bevel gear I20411; the supporting plate I206 is parallel to the fixing plate I204.

The fixing plate III 208 is fixed at the bottom of the fixing plate I204 through a bolt and is positioned above the rotating shaft I203; the bottom of the fixing plate III 208 is provided with a rotating shaft II 2081 and a rotating shaft IV 2085 which are fixed through a bearing seat; one end of the rotating shaft II 2081 is provided with a conveying chain wheel II 2082 and a power chain wheel IV 2083; the other end is provided with a power chain wheel VI 2084; the power chain wheel IV 2083 is connected with the power chain wheel I2031 through a chain and drives the rotating shaft II 2081 to rotate through the rotating shaft I203; the conveying chain wheel II 2082 is connected with a conveying chain wheel and a conveying chain wheel I2072 at one end of the support plate I206 through a chain, and the support plate I206 is used for supporting and conveying the chain; one end of the rotating shaft IV 2085 is provided with a power chain wheel V2086; and the power chain wheel V2086 is connected with a power chain wheel VI 2084 through a chain.

The fixing plate IV 209 is fixed at the bottom of the fixing plate I204 through a bolt; the bottom of the fixing plate IV 209 is provided with a rotating shaft III 2091 and is fixed through a bearing seat; one end of the rotating shaft III 2091 is provided with a transmission chain wheel III 20911, and the other end is provided with a universal joint 2092; the other end of the universal joint 2092 is connected with a rotating shaft IV 2085; a supporting plate II 2093 is arranged on one side of the fixing plate IV 209, one end of the supporting plate II 2093 is provided with a transmission chain wheel and is connected with a transmission chain wheel III 20911 through a chain, the transmission chain wheel is used for transmitting wood veneers through the chain, and the effect of the supporting plate II 2093 is the same as that of the supporting plate I206; the rotating shaft III 2091 and the supporting plate II 2093 are arranged at an angle of 90 degrees; the included angle between the supporting plate I206 and the supporting plate II 2093 is set to be 20-35 degrees.

A pressure plate 2011 is arranged at the top of one end of the fixing plate I204, and a pressure wheel 20111 is arranged on the pressure plate 2011; the trend of the pinch roller 20111 is consistent with the trend of a conveying chain wheel III 20911 and a supporting plate II 2093; when the veneer is conveyed, the use of the pinch roller 20111 ensures smooth conveyance of the veneer.

The bottom of the supporting plate I206 is provided with an adjusting chain wheel II 2013, a fixing frame on one side of the rotating shaft I203 is provided with an adjusting chain wheel I2012, and the adjusting chain wheel I2012 and the adjusting chain wheel II 2013 are respectively used for tensioning adjustment of a chain.

The belt on the supporting plate 201 is driven to transmit through a transmission shaft 302 of the power mechanism 3; meanwhile, a transmission chain wheel 303 on the transmission shaft 302 drives the rotating shaft I203 to rotate through a chain; the rotating shaft I203 drives the rotating shaft II 2081 to rotate through a chain, so that the conveying chain wheel II 2082 and the conveying chain wheel I2072 are driven to rotate, and the effect of chain conveying of wood veneers is achieved; the power chain wheel V2086 and the power chain wheel VI 2084 are connected through a chain, so the rotating shaft II 2081 drives the rotating shaft III 2091 to rotate, and further drives the chain on the supporting plate II 2093 to transmit the veneer; the transmission of chain on layer board I206 drives the transport of belt on fixed plate I204 through bevel gear II 2071 and bevel gear I20411.

After the veneer is placed in the transmission and correcting mechanism 2, the chain on the supporting plate II 2093 drives the veneer to be continuously drawn to the right in the advancing process until the side edge of the veneer is tightly attached to the belt 2042 so as to correct the veneer; when the width of the processed veneer is changed, the fixing plate I204 is driven to move along the screw I202 by manually rotating the screw I202, so that the application interchange adjustment between the three-ruler veneer and the four-ruler veneer is realized; when no chain is connected between the power chain wheel VII 2021 and the power chain wheel III 2051, the screw I202 can be manually rotated to finely adjust the fixing plate I204 and the belt 2042, so that the fixing plate I204 is vertical to the cutting mechanism 5; then the veneer gets into through I4 transmission of chain conveyor and cuts mechanism 5 and cut, then gets into belt conveyor 7 through II 6 transmissions of chain conveyor and gets into next process again.

The foregoing is merely illustrative and explanatory of the present invention, and various modifications, additions or substitutions may be made to the specific embodiments described by those skilled in the art without departing from the scope of the present invention as defined in the accompanying claims.

Claims (9)

1. A veneer transmission and reforming device for a transverse splicing machine comprises a rack, a transmission and reforming mechanism and a power mechanism; the transmission correcting mechanism and the power mechanism are arranged on the rack, and the power mechanism is arranged on one side of the transmission correcting mechanism; the transmission correcting mechanism is characterized by comprising a supporting plate, a screw I, a rotating shaft I, a fixing plate I, a screw II, a supporting plate I, a fixing plate II, a fixing plate III, a fixing plate IV and a supporting frame; the supporting frame bears a supporting plate, a screw I, a rotating shaft I, a fixing plate I, a screw II, a supporting plate I, a fixing plate II, a fixing plate III and a fixing plate IV; the supporting plate is fixed at the top of the supporting frame; the screw I, the rotating shaft I and the screw II are fixed at the bottom of the support frame through bearing seats, and the rotating shaft I is arranged between the screw I and the screw II; the fixing plate I, the supporting plate I, the fixing plate II, the fixing plate III and the fixing plate IV are arranged above the screw rod I and the screw rod II; the fixing plate II is fixed at one end of the fixing plate I; a fixing plate III and a fixing plate IV are fixed at the other end of the fixing plate I, and the fixing plate III is arranged between the fixing plate II and the fixing plate IV; layer board I is located I one side of fixed plate.

2. The wood skin transmission and reforming device for the transverse assembling machine according to claim 1, wherein the power mechanism comprises a motor, a transmission shaft, a transmission chain wheel and a belt pulley II; the motor output shaft passes through shaft coupling connection transmission shaft one end, and transmission sprocket locates transmission shaft one end, and belt pulley II is equipped with a plurality ofly and evenly fixes on the transmission shaft.

3. The veneer transmission and righting device for the horizontal splicing machine according to claim 1, wherein one end of the screw rod I is provided with a power sprocket VII; one end of the screw II is provided with a power chain wheel III; the chain wheel III is connected with the chain wheel VII through a chain;

the rotating shaft I is provided with a power chain wheel I and a power chain wheel II, and the power chain wheel I is arranged on one side of the power chain wheel II; and the power chain wheel II is connected with a transmission chain wheel through a chain.

4. The veneer conveying and correcting device for the transverse assembling machine according to claim 1, characterized in that the fixing plate I is provided with a pair of fixing plates which are arranged in parallel up and down and are fixedly connected with each other through a connecting plate; two ends of the fixing plate I are provided with roll shafts, and the end part of the roll shaft at one end of the feeding hole is provided with a bevel gear I; the roll shafts are connected in a surrounding way through belts; the two ends of the bottom of the fixing plate I are provided with connecting columns, one ends of the connecting columns are provided with screw sleeves and are connected with a screw rod I and a screw rod II through the screw sleeves, and the other ends of the connecting columns are rotatably connected with the bottom of the fixing plate I.

5. The veneer conveying and correcting device for the transverse assembling machine is characterized in that a supporting arm is arranged at the bottom of the supporting plate I and is connected with a fixing plate I through the supporting arm, and a conveying chain wheel is arranged at one end of the supporting plate I; the two ends of the fixing plate II are fixedly connected with the bottom of the supporting plate I and the bottom of the fixing plate I respectively; a fixing seat is arranged on one side of the fixing plate II, a rotating shaft is arranged on the fixing seat, one end of the rotating shaft is provided with a bevel gear II, and the other end of the rotating shaft is provided with a conveying chain wheel I; the bevel gear II is meshed with the bevel gear I; the supporting plate I is parallel to the fixing plate I.

6. The veneer conveying and correcting device for the transverse assembling machine is characterized in that the fixing plate III is fixed at the bottom of the fixing plate I and located above the rotating shaft I through bolts; a rotating shaft II and a rotating shaft IV are arranged at the bottom of the fixing plate III and are fixed through a bearing seat; one end of the rotating shaft II is provided with a transmission chain wheel II and a power chain wheel IV; the other end is provided with a power chain wheel VI; the power chain wheel IV is connected with the power chain wheel I through a chain; the conveying chain wheel II is connected with a conveying chain wheel and a conveying chain wheel I at one end of the supporting plate I through a chain, and the supporting plate I is used for supporting and conveying the chain; one end of the rotating shaft IV is provided with a power chain wheel V; and the power chain wheel V is connected with a power chain wheel VI through a chain.

7. The veneer conveying and correcting device for the transverse assembling machine according to claim 1, wherein the fixing plate IV is fixed at the bottom of the fixing plate I through bolts; the bottom of the fixing plate IV is provided with a rotating shaft III and is fixed through a bearing seat; one end of the rotating shaft III is provided with a conveying chain wheel III, and the other end of the rotating shaft III is provided with a universal joint; the other end of the universal joint is connected with a rotating shaft IV; a supporting plate II is arranged on one side of the fixing plate IV, a transmission chain wheel is arranged at one end of the supporting plate II and is connected with a transmission chain wheel III through a chain, the supporting plate II is used for transmitting wood veneers through the chain, and the effect of the supporting plate II is the same as that of the supporting plate I; the rotating shaft III and the supporting plate II are arranged at an angle of 90 degrees; the included angle between the supporting plate I and the supporting plate II is set to be 20-35 degrees.

8. The veneer conveying and correcting device for the transverse assembling machine according to claim 1, wherein a pressing plate is arranged at the top of one end of the fixing plate I, and a pressing wheel is arranged on the pressing plate; the direction of the pinch roller is consistent with the direction of the conveying chain wheel III and the direction of the supporting plate II.

9. The wood veneer conveying and correcting device for the transverse assembling machine according to claim 1, wherein an adjusting chain wheel II is arranged at the bottom of the supporting plate I, and an adjusting chain wheel I is arranged on a fixing frame on one side of the rotating shaft I.

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