CN217434556U - Horizontal slicing machine for science and technology board - Google Patents

Abstract

The utility model relates to a wood working equipment technical field specifically is a horizontal slicer is used to science and technology board, comprising a base plate, the bottom plate both sides form the board that inclines, the board top surface that inclines forms the V-arrangement spout, install the slicing subassembly in the V-arrangement spout slidable, the slicing subassembly passes through power connecting rod and connects power component, power component drive slicing subassembly reciprocating motion realizes slicing in the V-arrangement spout, the board inboard that inclines is provided with trapezoidal slide rail, install vacuum adsorption device slidable, vacuum adsorption device is used for adsorbing fixed flitch in order to dig and cut, the board that inclines is provided with the baffle in vacuum adsorption device the place ahead position, the yawing force of flitch is in order to guarantee stably when the baffle bears the slicing, vacuum adsorption device realizes the feeding of flitch by the drive of lift power component. Has the advantages that: the utility model is provided with the vacuum adsorption device and the baffle plate in front of the vacuum adsorption device, thereby ensuring stable and reliable slicing quality; the lifting power assembly controls the feeding of the battens, and the control precision is high.

Description

Horizontal slicing machine for science and technology board

Technical Field

The utility model relates to a wood working equipment technical field specifically is a horizontal slicer is used to science and technology board.

Background

At present, when a horizontal veneer slicer is used for slicing battens, the battens are usually fixed in a clamping mode by adopting a wood clamping sliding block. The wood clamping device is characterized in that a plurality of groups of wood clamping supports are installed, wood clamping sliding blocks move oppositely on a screw rod in the wood clamping supports through power driving, and the wood clamping sliding blocks moving oppositely clamp wood beams to realize fixation. When a batten to be planed and cut is clamped, the wood clamping knob is firstly clamped to a loosening state, the wood clamping sliding block in the wood clamping support is opened to the widest state capable of containing a log plate, then the batten is placed, the wood clamping knob is clamped to a clamping state, and when the wood clamping sliding block clamps the placed batten, the batten is completely clamped, and then planing and cutting can be carried out.

The above-mentioned prior art has the following disadvantages: firstly, the wood beam is thinner and thinner in the process of being planed and cut, the force applied by the wood clamping sliding block is unchanged, the wood beam is easy to deform, and the subsequent planing and cutting quality of the wood beam is influenced. Secondly, in the process of clamping battens, the battens need to be rotationally driven to move to realize clamping, the clamping operation is complex, and the working efficiency is low.

Therefore, there is a need for a horizontal planing machine with improved structure, which mainly improves the clamping device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a science and technology board is with horizontal plane cutter to solve the technical problem that above-mentioned background art provided.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a science and technology board is with horizontal slicer, includes bottom plate 1, and 1 both sides of bottom plate form side riser 2, 2 top surfaces of side riser form V-arrangement spout 21, install slicing component 3 in the V-arrangement spout 21 slidable, slicing component 3 passes through power connecting rod 5 and connects power component 4, power component 4 drives slicing component 3 and realizes slicing, its characterized in that in V-arrangement spout 21 reciprocating motion: the inner side of the side vertical plate 2 is provided with a trapezoidal sliding rail 6, the trapezoidal sliding rail 6 is slidably provided with a vacuum adsorption device 8, the vacuum adsorption device 8 is used for adsorbing and fixing a batten 10 for slicing, a baffle plate 9 is arranged in front of the vacuum adsorption device 8 on the side vertical plate 2, the baffle plate 9 bears the lateral force of the batten 10 during slicing to ensure stability, and the vacuum adsorption device 8 is driven by a lifting power assembly 7 to realize feeding of the batten 10.

Preferably, the slicing assembly 3 further includes a sliding support 31 installed in the V-shaped chute 21, the left and right sliding supports 31 are connected to a slicing box 32, a discharging mechanism 33 is disposed in the slicing box 32, the lower portion of the discharging mechanism 33 is communicated with a slicing knife, and a veneer formed by slicing the batten 10 with the slicing knife is discharged along the discharging mechanism 33.

Preferably, the power assembly 4 comprises a power motor 41, a first transmission rod 42, a second transmission rod 43 and a transmission wheel 44, wherein the power motor 41 transmits force to the first transmission rod 42 through a belt, the first transmission rod 42 is in meshed transmission with the second transmission rod 43, the transmission wheels 44 are arranged at two ends of the second transmission rod 43, and the transmission wheel 44 is hinged to the power connecting rod 5 and pushes and pulls the slicing assembly 3 through the power connecting rod 5 to realize reciprocating motion.

Preferably, the lifting power assembly 7 includes a motor bracket 71, a driving motor 72 is installed and fixed in the motor bracket 71, a main shaft of the driving motor 72 is connected with a screw rod 73 through a gear engagement transmission manner to realize rotation of the screw rod 73, the screw rod 73 is spirally connected with the vacuum adsorption device 8, and the positive and negative rotation of the screw rod 73 realizes lifting of the vacuum adsorption device 8.

Preferably, the vacuum adsorption device 8 includes a bearing plate 81, trapezoidal sliding grooves 82 matched with the trapezoidal sliding rails 6 are formed on left and right side surfaces of the bearing plate 81, supporting handles 83 are formed on front and rear end surfaces of the bearing plate 81, spiral holes 84 matched with the screw rods 73 in a spiral manner are formed on the supporting handles 83, a vacuum suction hole 85 communicated with the bottom surface is formed on the top surface of the bearing plate 81, a vacuum tube 86 communicated with the vacuum suction hole 85 is arranged on the bottom surface, and the vacuum tube 86 is connected with an external vacuum generator, so as to realize a vacuum adsorption effect.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model adopts the vacuum adsorption device in the slicing machine, realizes clamping in a vacuum adsorption mode, and simultaneously, the baffle is arranged in front of the vacuum adsorption device, and bears the lateral force generated when the batten is sliced, thereby ensuring stable and reliable slicing and high slicing quality; the vacuum adsorption device is connected with the lifting power assembly, the lifting power assembly controls the lifting of the vacuum adsorption device, and in the slicing process, the lifting power assembly realizes feeding of battens, so that the control precision is high, and the slicing thickness of the veneers is guaranteed.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the embodiments will be briefly described, wherein the same components are denoted by the same reference numerals. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic perspective view of the present invention (in a state of being clamped with a batten 10).

Fig. 2 is a schematic perspective view of the present invention (in a state where the batten 10 is not clamped).

Fig. 3 is a partial enlarged view of a in fig. 2.

Fig. 4 is a schematic perspective view of fig. 2 from another viewing angle.

Fig. 5 is a top view of the present invention.

Fig. 6 is a three-dimensional structure diagram of the vacuum adsorption device 8 of the present invention.

Fig. 7 is a perspective view of fig. 2 from another viewing angle.

In the figure: a base plate 1; a side vertical plate 2; a V-shaped chute 21; a slicing assembly 3; a slide support 31; a slicing box 32; a discharge mechanism 33; a power assembly 4; a power motor 41; the first drive lever 42; a second transmission lever 43; a drive wheel 44; a power link 5; a trapezoidal slide rail 6; a lifting power assembly 7; a motor bracket 71; a drive motor 72; a screw rod 73; a vacuum adsorption device 8; a bearing plate 81; a trapezoidal shaped chute 82; a handle 83; a helical bore 84; a vacuum suction hole 85; a vacuum tube 86; a baffle 9; and (5) a batten 10.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, fig. 2, fig. 4 and fig. 5, the present invention provides a technical solution: the utility model provides a horizontal slicer for science and technology board, includes bottom plate 1, and the bottom plate 1 left and right sides forms side riser 2, forms V-arrangement spout 21 at side riser 2 top surface, and V-arrangement spout 21 has constituted the walking track, consequently, installs planing component 3 in V-arrangement spout 21 slidable, and planing component 3 can make a round trip to walk at V-arrangement spout 21 and realize slicing, more specifically, as shown in fig. 2 and fig. 4, planing component 3 passes through power connecting rod 5 and connects power component 4, power component 4 drive planing component 3 is in V-arrangement spout 21 reciprocating motion realization slicing.

The inner side of the side vertical plate 2 is provided with a trapezoidal sliding rail 6, the trapezoidal sliding rail 6 is slidably provided with a vacuum adsorption device 8, the vacuum adsorption device 8 generates negative pressure to adsorb a batten 10 placed on the trapezoidal sliding rail 6, the batten 10 firmly adsorbed can be sliced, meanwhile, a baffle plate 9 is arranged at the position of the side vertical plate 2 in front of the vacuum adsorption device 8, and the batten 10 can be subjected to lateral force from a slicing knife when being sliced, so that the baffle plate 9 is arranged to bear the lateral force of the batten 10 when being sliced, and stable operation is ensured; because the slicing height of the slicing assembly 3 is consistent, a certain height (the feeding height is determined by the thickness of a veneer which needs to be sliced) needs to be fed to the batten 10 every time slicing is completed, and specifically, the vacuum adsorption device 8 is driven by the lifting power assembly 7 to realize feeding of the batten 10.

More specifically, as shown in fig. 6 and 7, the vacuum adsorption device 8 includes a bearing plate 81, trapezoidal sliding grooves 82 which are matched with the trapezoidal sliding rails 6 are formed on left and right sides of the bearing plate 81, the bearing plate 81 is inserted into the trapezoidal sliding rails 6 through the trapezoidal sliding grooves 82 to realize directional sliding of the bearing plate 81, meanwhile, supporting arms 83 are formed on front and rear end surfaces of the bearing plate 81, the supporting arms 83 are structures for lifting the bearing plate 81, spiral holes 84 which are spirally matched with the screw rods 73 are formed on the supporting arms 83, and the bearing plate 81 can be driven to move up and down through the spiral holes 84 which are spirally matched with the screw rods 73; a vacuum suction hole 85 communicated with the bottom surface is formed in the top surface of the bearing plate 81, a vacuum tube 86 communicated with the vacuum suction hole 85 is arranged on the bottom surface, the vacuum tube 86 is connected with an external vacuum generator, whether the vacuum suction hole 85 generates negative pressure or not is realized through the on-off of the external vacuum generator, the vacuum suction hole is in an adsorption state when vacuum is generated, a batten is adsorbed, and the vacuum suction hole is in a release state and does not generate adsorption force when vacuum is not generated.

As shown in fig. 1, 2, 4 and 5, in particular, the slicing assembly 3 further includes a sliding support 31 mounted in the V-shaped chute 21, the bottom of the sliding support 31 is a V-shaped protrusion corresponding to the structure of the V-shaped chute 21, and the V-shaped protrusion can slide along the V-shaped chute 21; the left and right sliding supports 31 are connected with a slicing box 32, a discharging mechanism 33 is arranged in the slicing box 32, the lower part of the discharging mechanism 33 is communicated with a slicing knife, the slicing knife is arranged on the bottom surface of the slicing box 32, and a channel communicated with the discharging mechanism 33 is formed at the position of the knife edge of the slicing knife, so that a veneer formed by slicing the batten 10 by the slicing knife can be discharged along the discharging mechanism 33.

As shown in fig. 1 and 4, in particular, the power assembly 4 is composed of a power motor 41, a first transmission rod 42, a second transmission rod 43 and a transmission wheel 44, the power motor 41 transmits force to the first transmission rod 42 through a belt, the first transmission rod 42 and the second transmission rod 43 realize meshing transmission through a gear set, the transmission wheels 44 are coaxially arranged at two ends of the second transmission rod 43, the rotation of the second transmission rod 43 drives the transmission wheels 44 to rotate, a raised structure is formed at the edge of the driving wheel 44, to which one end of the power link 5 is hinged, and at the other end to the planing assembly 3, the rotation of the driving wheel 44 cyclically positioning the structure of the projections in different positions, when this bellied structure is kept away from slicing component 3, will slice component 3 and pull back, when being close to slicing component 3, will slice component 3 and push out, realize slicing component 3 reciprocating motion.

As shown in fig. 1, 2 and 3, specifically, the lifting power assembly 7 includes a motor bracket 71, a driving motor 72 is installed and fixed in the motor bracket 71, the driving motor 72 is installed on the motor bracket 71 in an inverted manner, a lead screw 73 is further disposed on the bottom plate 1, the lead screw 73 can rotate relative to the bottom plate 1, the lead screw 73 is connected with a main shaft of the driving motor 72 through a gear engagement transmission manner, the lead screw 73 is spirally connected with the vacuum adsorption device 8, and forward and reverse rotation of the lead screw 73 is converted into lifting movement of the vacuum adsorption device 8 through the spiral connection; the lifting power assemblies 7 are provided with two groups, one group is arranged on the outer side of the baffle 9, the other group is arranged on the bottom plate 1 positioned on the inner side of the baffle 9, the two groups of lifting power assemblies 7 move synchronously to drive the lifting motion of the vacuum adsorption device 8 together, and the operation stability is improved.

When the wood slicing machine is used, firstly, the vacuum adsorption device 8 is in a release state, the batten 10 is placed on the top surface of the vacuum adsorption device 8, the front side surface of the batten 10 is attached to the inner side surface of the baffle 9, then the vacuum adsorption device 8 is started to generate vacuum negative pressure to adsorb the batten 10, then the slicing machine is started to slice the batten 10, the slicing assembly 3 is pushed out to slice, the batten 10 is pulled in to reset, then the batten 10 is driven by the lifting power assembly 7 to be lifted to a certain height (the height is the same as the thickness of a veneer), next slicing is carried out, the veneer obtained by slicing the batten 10 is discharged through the discharging mechanism 33 of the slicing assembly 3, and finally manual arrangement is carried out.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides a science and technology board is with horizontal planer, includes bottom plate (1), bottom plate (1) both sides form side riser (2), side riser (2) top surface forms V-arrangement spout (21), install planing subassembly (3) in V-arrangement spout (21) slidable, planing subassembly (3) are through power connecting rod (5) connection power subassembly (4), power subassembly (4) drive planing subassembly (3) reciprocating motion realizes planing in V-arrangement spout (21), its characterized in that: the side riser (2) inboard is provided with trapezoidal slide rail (6), installs vacuum adsorption device (8) trapezoidal slide rail (6) slidable, vacuum adsorption device (8) are used for adsorbing fixed flitch (10) in order to dig and cut, side riser (2) are provided with baffle (9) in vacuum adsorption device (8) the place ahead position, lateral force in order to guarantee stability of flitch (10) when bearing the dig and cut baffle (9), vacuum adsorption device (8) are realized feeding of flitch (10) by lift power component (7) drive.

2. The horizontal slicer of claim 1, wherein: the slicing assembly (3) further comprises a sliding support body (31) installed in the V-shaped sliding groove (21), the left sliding support body and the right sliding support body (31) are connected with a slicing box (32), a discharging mechanism (33) is arranged in the slicing box (32), the lower portion of the discharging mechanism (33) is communicated with a slicing knife, and a veneer formed by slicing the batten (10) through the slicing knife is discharged along the discharging mechanism (33).

3. The horizontal slicer of claim 1, wherein: the power assembly (4) comprises a power motor (41), a first transmission rod (42), a second transmission rod (43) and transmission wheels (44), the power motor (41) transmits force to the first transmission rod (42) through a belt, the first transmission rod (42) and the second transmission rod (43) are in meshed transmission, the transmission wheels (44) are installed at two ends of the second transmission rod (43), and the transmission wheels (44) are hinged to a power connecting rod (5) and push and pull the slicing assembly (3) through the power connecting rod (5) to realize reciprocating motion.

4. The horizontal slicer of claim 1, wherein: the lifting power assembly (7) comprises a motor support (71), a driving motor (72) is fixedly installed in the motor support (71), a main shaft of the driving motor (72) is connected with a screw rod (73) in a gear meshing transmission mode to realize rotation of the screw rod (73), the screw rod (73) is in spiral connection with the vacuum adsorption device (8), and the positive rotation and the negative rotation of the screw rod (73) realize lifting of the vacuum adsorption device (8).

5. The horizontal slicer of claim 4, wherein: vacuum adsorption device (8) include loading board (81), the side forms trapezoidal spout (82) with trapezoidal slide rail (6) complex about loading board (81), loading board (81) front and back terminal surface forms and props hand (83), forms spiral hole (84) with lead screw (73) spiral complex on propping hand (83), loading board (81) top surface forms vacuum suction hole (85) of communicating the bottom surface, and the bottom surface is provided with vacuum tube (86) that communicate vacuum suction hole (85), and vacuum tube (86) are connected with outside vacuum generator, realize the vacuum adsorption effect.

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