CN113118271B - Electric control type sleeve-free edge sealing device for machining composite plate - Google Patents

Abstract

The invention relates to the technical field of sleeve-free edge sealing equipment, in particular to an electric control sleeve-free edge sealing device for machining a composite plate. According to the electric control type sleeve-free edge sealing device for processing the composite plate, the inner translation assembly plate is hoisted through the top linkage support at the bottom of the top frame provided with the driving motor, so that the running stability and the supporting force of the inner driving pipe are greatly improved, and the service life is longer; the telescopic adjusting screw rod is arranged at the lower end of the top frame, the telescopic translation of the telescopic adjusting screw rod is controlled by the lateral adjusting component, so that the telescopic adjusting screw rod is separated from and combined with the driving gear, the driving motor is used for driving the whole internal translation assembly plate to be adjusted in the external frame body, manual driving translation is not needed, the adjusting efficiency is high, the split plugging mode is adopted for loading and unloading and fixing, the telescopic adjusting screw rod can be quickly disassembled and replaced, the operation is simple, and the later use cost is reduced; the application range is wider.

Description

Electric control type sleeve-free edge sealing device for machining composite plate

Technical Field

The invention relates to the technical field of non-sleeve edge sealing equipment, in particular to an electric control non-sleeve edge sealing device for machining a composite plate.

Background

The edge banding machine is a machine for replacing manual operation to carry out high automation on edge banding procedures, and is mainly divided into semi-automatic operation and portable operation. The edge banding machine is one of the novel building material production machines, belongs to the novel building material machines, and is used for edge banding as the name implies. The traditional manual operation flow is completed by high-automation machinery, and comprises a plurality of procedures such as conveying, extrusion deformation and the like in the straight-face special-shaped edge sealing.

The non-sleeve edge banding machine is a device for laterally extruding and banding the composite board through the guide pressing wheel, the traditional non-sleeve edge banding machine is simple in structure, single in adjusting operation and limited in operation, time and labor are wasted through manual adjustment, the efficiency is low, and the transmission shaft can be replaced only by completely dismantling the internal extruding edge banding wheel, so that the non-sleeve edge banding machine is quite troublesome.

Disclosure of Invention

The invention aims to solve the technical problems that: in order to solve the problems in the prior art, an improved electric control type sleeve-free edge sealing device for processing composite boards is provided, the problems that a traditional sleeve-free edge sealing machine is simple in structure, single in adjusting operation is limited, time and labor are wasted, efficiency is low, a transmission shaft is required to be completely removed for replacement by internal extrusion edge sealing wheels, and the operation is quite troublesome are solved.

The technical scheme adopted for solving the technical problems is as follows: an automatically controlled formula does not have cover banding device for composite sheet processing, includes outside framework, accommodate motor and driving motor, outside framework inside be provided with inside translation assembly plate, outside framework inside movable mounting have a plurality of inside drive pipes, inside drive pipe lateral surface be located and cup jointed split type inside shaping pinch roller between outside framework and the inside translation assembly plate, outside framework upper end have a top frame that is used for installing driving motor through bolt fixed mounting, outside framework outside have side direction altitude mixture control support through assembly lead screw fixed mounting, top frame interior bottom surface on set up built-in top accommodate lead screw's top transmission groove, inside translation assembly plate lateral surface upper end have the top linkage support of falling L type through bolt fixed mounting, top linkage support upper surface fixed have with top accommodate lead screw matched with horizontal internal thread sleeve pipe, top frame top movable mounting be equipped with the side direction adjusting part that is used for controlling top accommodate lead screw position.

The top of the outer side of the inner driving pipe is positioned between the outer frame body and the lateral height adjusting bracket, a lateral driving gear is axially sleeved on the outer side rotating shaft of the driving motor, the driving gear is axially connected on the outer side rotating shaft of the driving motor, and a lateral transmission gear for connecting the lateral driving gear with the driving gear is movably assembled on the outer side of the outer frame body through the lateral rotating shaft.

The lateral height adjusting support comprises a lateral assembly plate in threaded connection with the assembly screw rod, a lateral assembly seat fixed on the lateral assembly plate through bolts, a longitudinal height adjusting screw rod inserted in the lateral assembly seat, a longitudinal assembly plate inserted on the outer side face of the lateral assembly seat in a sliding manner through a longitudinal sliding rail and a top mounting support fixed at the top end of the longitudinal assembly plate, the adjusting motor is fixed on the upper surface of the top mounting support through bolts, and a rotating shaft at the lower end of the adjusting motor is fixedly connected with the top end of the longitudinal height adjusting screw rod in an axial direction.

The split type inside shaping pinch roller cup joint and fix first assembly wheel, second assembly wheel, the bolt fastening in first assembly wheel outside top and pass through the second side pinch roller of bolt fastening in second assembly wheel outside top in the outside of inside driving tube.

The first assembly wheel is close to the nearly inside translation assembly board outer wall end of outside box in side wall end and second assembly wheel all seted up interior hexagonal assembly slot, first side direction pinch roller and second side direction pinch roller by two arc assembly support, fix the side direction assembly inserted block on arc assembly support plane lateral wall and fix the arc side direction extrusion cover on arc assembly support arc lateral wall, first side direction pinch roller insert interior hexagonal assembly slot through the side direction assembly inserted block and first assembly wheel peg graft fixedly, the second side direction pinch roller insert interior hexagonal assembly slot through the side direction assembly inserted block and peg graft fixedly with the second assembly wheel.

The lateral adjusting assembly comprises an inner linkage shaft movably inserted at the outer top end of the top adjusting screw rod, a lateral extrusion pipe movably sleeved on the outer side surface of the inner linkage shaft, an outer linkage shaft inserted in the lateral extrusion pipe and an outer threaded telescopic pipe sleeved at the outer side of the outer linkage shaft, the outer top end of the outer threaded telescopic pipe is provided with an outer hexagonal control head of an outwards protruding integrated structure, and the outer section of the lateral extrusion pipe is of a non-circular structure.

The internal translation assembly plate is movably connected with the top frame through a transverse internal thread sleeve pipe thread sleeve on the top linkage support on the top adjusting screw rod.

The top end of the top adjusting screw rod is axially and fixedly connected with a conical transmission gear matched with the driving gear.

The beneficial effects of the invention are as follows:

(1) According to the electric control type sleeve-free edge sealing device for processing the composite plate, the inner translation assembly plate is hoisted through the top linkage support at the bottom of the top frame provided with the driving motor, so that the running stability and the supporting force of the inner driving pipe are greatly improved, and the service life is longer;

(2) The lower end of the top frame is provided with a top adjusting screw rod which can be telescopically adjusted, the telescopic translation of the top adjusting screw rod is controlled by a lateral adjusting component, so that the top adjusting screw rod is separated from a driving gear, the driving motor is used for driving the whole internal translation assembly plate to be adjusted in the external frame body, manual driving translation is not needed, and the adjusting efficiency is high;

(3) The split type internal forming pinch roller consists of an assembly wheel sleeved and fixed on the outer side of the internal driving pipe and a split type lateral pinch roller fixed on the top end of the outer side of the assembly wheel by bolts, and is assembled and disassembled in a split inserting mode, so that the forming pinch roller can be rapidly disassembled and replaced without disassembling the internal driving pipe, the operation is simple, and the later use cost is reduced;

(4) The drive wheel drives inside translation assembly plate and adjusts in the inside translation of outside framework when control top accommodate the lead screw pivoted, synchronous adjustment split type inside shaping pinch roller interval between, makes it can adapt to the composite sheet of different width specifications, makes its application scope more extensive.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is an internal cross-sectional view of the top adjustment screw assembly position of the present invention.

Figure 4 is a cross-sectional view of the present invention in an assembled state with the first lateral puck.

Fig. 5 is a sectional view of the present invention in a first assembled wheel state.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention.

An automatically controlled formula no cover banding device for composite sheet processing that fig. 1, fig. 2 and fig. 3 show, including outside framework 1, accommodate motor 2 and driving motor 3, outside framework 1 inside is provided with inside translation assembly plate 4, the inside movable assembly of outside framework 1 has 5 inside drive tubes 5, the inside drive tube 5 lateral surface is located and has cup jointed split type inside shaping pinch roller between outside framework 1 and the inside translation assembly plate 4, outside framework 1 upper end has top frame 6 that is used for installing driving motor 3 through bolt fixed mounting, the outside framework 1 outside has side direction altitude mixture control support through assembly lead screw 7 fixed mounting, top transmission groove 9 of built-in top accommodate lead screw 8 has been seted up on the bottom surface in top frame 6, inside translation plate 4 lateral surface upper end has down L type top linkage support 10 through bolt fixed mounting, top linkage support 10 upper surface is fixed with the horizontal internal thread sleeve 11 that cooperatees with top accommodate lead screw 8, top frame 6 top activity is equipped with the side direction adjusting component that is used for controlling top accommodate lead screw 8 position.

Examples: the driving motor 3 drives all the internal driving pipes 5 to rotate through the lateral gears, then the composite board translates and drives between the upper internal driving pipe 5 and the lower internal driving pipe 5, and the two sides of the composite board are deformed by extruding the two ends of the composite board, so that edge sealing operation is completed.

Further, in order to cooperate the side direction to transmit and adjust, the outside top of inside drive tube 5 is located outside and has cup jointed side direction drive gear 12 between frame 1 and the side direction altitude mixture control support axially, is connected with drive gear 13 axially in the pivot of driving motor 3 outside, and the outside side of outside frame 1 is equipped with the side direction drive gear 14 that is used for transmission connection side direction drive gear 12 and drive gear 13 through the side direction pivot activity. The lateral transfer gears 14 are mounted between adjacent lateral drive gears 12, as well as between the lateral drive gears 12 and the drive gears 13.

Further, in order to cooperate to carry out the altitude mixture control from the outside, the side direction altitude mixture control support includes the horizontal assembly board 15 of screw thread connection with assembly lead screw 7, the side direction assembly seat 16 of bolt fastening on horizontal assembly board 15, the vertical altitude mixture control lead screw 17 of grafting in side direction assembly seat 16, the longitudinal assembly board 19 of grafting on the lateral surface of side direction assembly seat 16 is slided through vertical slide rail 18 and the top installing support 20 of fixing on the top of longitudinal assembly board 19, accommodate motor 2 passes through the bolt fastening at top installing support 20 upper surface, accommodate motor 2 lower extreme pivot and the axial fixed connection in vertical altitude mixture control lead screw 17 top. The adjusting motor 2 is started to drive the longitudinal height adjusting screw rod 17 to rotate, so that the longitudinal assembling plate 19 is driven to be in sliding connection with the outer side of the lateral assembling seat 16 along the longitudinal sliding rail 18.

As shown in fig. 4 and 5, for the purpose of cooperation support and extrusion deformation, the split type internal forming pinch roller is sleeved and connected with a first assembling wheel 21, a second assembling wheel 22, a first lateral pinch roller 23 fixed on the outer top end of the first assembling wheel 21 through bolts and a second lateral pinch roller 24 fixed on the outer top end of the second assembling wheel 22 through bolts, further, for cooperation disassembly, an inner hexagonal assembling slot 25 is formed at the inner side wall end of the first assembling wheel 21 near the external frame body 1 and the outer wall end of the second assembling wheel 22 near the internal translation assembling plate 4, and the first lateral pinch roller 23 and the second lateral pinch roller 24 are respectively fixed by two arc-shaped assembling brackets 26, a lateral assembling inserting block 27 fixed on the plane side wall of each arc-shaped assembling bracket 26 and an arc-shaped lateral extrusion cover 28 fixed on the arc-shaped side wall of each arc-shaped assembling bracket 26, the first lateral pinch roller 23 is inserted into the inner hexagonal assembling slot 25 through the lateral assembling inserting block 27, and the first assembling wheel 21 is inserted and fixed through the lateral assembling inserting block 27 into the inner side of the inner hexagonal assembling slot 25 and the second assembling wheel 22. The first assembling wheel 21 and the second assembling wheel 22 on the same inner driving tube 5 are the same in size, and the first lateral pressing wheel 23 and the second lateral pressing wheel 24 on the same inner driving tube 5 are the same in size, so that holes can be formed in the inner driving tube 5 as shown in the figure, and then the holes can be fixedly connected through bolts, blind holes can also be formed in the inner driving tube, and the blind holes are fixedly connected through screwing in the bolts, so that the inner driving tube is mainly used for installation and fixation.

Further, in order to cooperate to control the expansion and contraction from the outside, the lateral adjustment assembly comprises an inner linkage shaft 29 movably inserted into the outer top end of the top adjustment screw rod 8, a lateral extrusion pipe 30 movably sleeved on the outer side surface of the inner linkage shaft 29, an outer linkage shaft 31 inserted into the lateral extrusion pipe 30, and an outer threaded telescopic pipe 32 sleeved outside the outer linkage shaft 31, wherein the outer top end of the outer threaded telescopic pipe 32 is provided with an integrally-structured outer hexagonal control head 33 protruding outwards, and the outer cross section of the lateral extrusion pipe 30 is of a non-circular structure. The lateral adjusting component can also change the external thread telescopic pipe 32 into electromagnetic control, utilize extrusion spring and electromagnet to cooperate control lateral extrusion pipe 30 flexible regulation, people can be through outside with the hexagon socket head cap 33 outside, then drive it and rotate, then synchronous drive external thread telescopic pipe 32 rotates, external thread telescopic pipe 32 is inside flexible at the screw thread blind hole in top frame 6, then extrude inside universal driving shaft 29, lateral extrusion pipe 30 and outside universal driving shaft 31, finally drive top accommodate screw 8 and stretch out and draw back in top transmission groove 9, thereby control conical drive gear 34 and drive gear 13 meshing transmission, then drive inside translation assembly plate 4 translation through controlling top accommodate screw 8 rotation, second assembly wheel 22 and second lateral pinch roller 24 can also be directly with inside translation assembly plate 4 lateral roller bearing outside face be connected, then adopt sliding connection's mode between it and the inside drive pipe 5, when the inside translation assembly plate 4 adjusts, can be rather than the automatically controlled translation adjustment interval, so that it is more various to make its accommodation mode, it is also very convenient to use.

Further, for the purpose of matching with screw thread adjustment translation, the internal translation assembly plate 4 is movably connected with the top frame 6 on the top adjusting screw rod 8 through a transverse internal screw sleeve 11 on the top linkage support 10 in a connecting pipe screw thread mode, and further, for the purpose of improving separation and engagement efficiency, the top end of the top adjusting screw rod 8 is axially and fixedly connected with a conical transmission gear 34 matched with the driving gear 13. The top adjusting screw rod 8 is controlled in a linkage way by extending forwards to enable the conical transmission gear 34 to be meshed with the driving gear 13 for transmission.

According to the electric control type sleeve-free edge sealing device for processing the composite plate, the inner translation assembly plate 4 is hoisted through the top linkage support 10 at the bottom of the top frame 6 provided with the driving motor 3, so that the running stability and the supporting force of the inner driving pipe 5 are greatly improved, and the service life is longer; the lower end of the top frame 6 is provided with a top adjusting screw rod 8 which can be telescopically adjusted, the telescopic translation of the top adjusting screw rod is controlled by a lateral adjusting component, the top adjusting screw rod is separated from and combined with a driving gear 13, the driving motor 3 is used for driving the whole internal translation assembly plate 4 to be adjusted in the external frame 1, manual driving translation is not needed, and the adjusting efficiency is high; the split type internal forming pinch roller consists of an assembly wheel sleeved and fixed on the outer side of the internal driving pipe 5 and a split type lateral pinch roller fixed on the outer top end of the assembly wheel by bolts, and is assembled and disassembled in a split type inserting manner, so that the forming pinch roller can be rapidly disassembled and replaced without disassembling the internal driving pipe 5, the operation is simple, and the later use cost is reduced; the drive wheel drives inside translation assembly plate 4 and adjusts at the inside translation of outside framework 1 when control top accommodate the screw 8 pivoted, and interval between the split type inside shaping pinch roller of synchronous regulation makes it can adapt to the composite sheet of different width specifications, makes its application scope more extensive.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims (6)

1. An electric control type sleeve-free edge sealing device for machining composite boards comprises an outer frame body (1), an adjusting motor (2) and a driving motor (3), and is characterized in that: the automatic adjusting device is characterized in that an inner translation assembly plate (4) is arranged inside the outer frame body (1), a plurality of inner driving pipes (5) are movably assembled inside the outer frame body (1), split type inner forming pressing wheels are sleeved between the outer frame body (1) and the inner translation assembly plate (4) on the outer side face of the inner driving pipes (5), a top frame (6) for installing a driving motor (3) is fixedly installed at the upper end of the outer frame body (1) through bolts, a lateral height adjusting bracket is fixedly installed at the outer side of the outer frame body (1) through an assembling screw rod (7), a top transmission groove (9) for internally arranging a top adjusting screw rod (8) is formed in the inner bottom face of the top frame (6), an inverted L-shaped top linkage bracket (10) is fixedly installed at the upper end of the outer side face of the inner translation assembly plate (4) through bolts, a transverse internal thread sleeve (11) matched with the top adjusting screw rod (8) is fixedly installed on the upper surface of the top linkage bracket (10), and a lateral adjusting assembly for controlling the top adjusting screw rod (8) is movably installed at the top end of the top frame (6);

The top end of the outer side of the inner driving tube (5) is positioned between the outer frame body (1) and the lateral height adjusting bracket, a lateral driving gear (12) is axially sleeved and connected with a driving gear (13) on the outer side rotating shaft of the driving motor (3), and a lateral transmission gear (14) for connecting the lateral driving gear (12) with the driving gear (13) in a transmission manner is movably arranged on the outer side surface of the outer frame body (1) through the lateral rotating shaft;

The top end of the top adjusting screw rod (8) is axially and fixedly connected with a conical transmission gear (34) matched with the driving gear (13).

2. An electrically controlled, sleeve-less edge banding apparatus for composite panel processing as in claim 1, wherein: the lateral height adjusting support comprises a lateral assembly plate (15) in threaded connection with an assembly screw rod (7), a lateral assembly seat (16) fixed on the lateral assembly plate (15) through bolts, a longitudinal height adjusting screw rod (17) inserted in the lateral assembly seat (16), a longitudinal assembly plate (19) inserted on the outer side face of the lateral assembly seat (16) in a sliding manner through a longitudinal sliding rail (18) and a top mounting support (20) fixed at the top end of the longitudinal assembly plate (19), wherein the adjusting motor (2) is fixed on the upper surface of the top mounting support (20) through bolts, and a rotating shaft at the lower end of the adjusting motor (2) is axially and fixedly connected with the top end of the longitudinal height adjusting screw rod (17).

3. An electrically controlled, sleeve-less edge banding apparatus for composite panel processing as in claim 1, wherein: the split type internal forming pinch roller is sleeved and connected with a first assembly wheel (21) and a second assembly wheel (22) which are fixed on the outer side of an internal driving pipe (5), a first lateral pinch roller (23) which is fixed on the outer top end of the first assembly wheel (21) through bolts, and a second lateral pinch roller (24) which is fixed on the outer top end of the second assembly wheel (22) through bolts.

4. An electrically controlled, sleeve-less edge banding apparatus for composite panel processing as in claim 3 wherein: the first assembly wheel (21) is close to the nearly inside translation assembly board (4) outer wall end of outside box and is equipped with hexagonal assembly slot (25) in nearly inside translation assembly board (22), first side pinch roller (23) and second side pinch roller (24) by two arc assembly support (26), fix side direction assembly inserted block (27) on arc assembly support (26) plane lateral wall and fix arc side direction extrusion cover (28) on arc assembly support (26) arc lateral wall, first side pinch roller insert hexagonal assembly slot (25) inside and first assembly wheel (21) grafting fixedly through side direction assembly inserted block, second side pinch roller (24) insert hexagonal assembly slot (25) inside and second assembly wheel (22) grafting fixedly through side direction assembly inserted block (27).

5. An electrically controlled, sleeve-less edge banding apparatus for composite panel processing as in claim 1, wherein: the lateral adjusting assembly comprises an inner linkage shaft (29) movably inserted into the outer top end of the top adjusting screw rod (8), a lateral extrusion pipe (30) movably sleeved on the outer side surface of the inner linkage shaft (29), an outer linkage shaft (31) inserted into the lateral extrusion pipe (30) and an outer threaded telescopic pipe (32) sleeved on the outer side of the outer linkage shaft (31), the outer top end of the outer threaded telescopic pipe (32) is provided with an outer hexagonal control head (33) with an outwards protruding integrated structure, and the outer cross section of the lateral extrusion pipe (30) is of a non-circular structure.

6. An electrically controlled, sleeve-less edge banding apparatus for composite panel processing as in claim 1, wherein: the internal translation assembly plate (4) is sleeved on the top adjusting screw rod (8) through a transverse internal thread sleeve pipe (11) on the top linkage support (10) in a threaded manner and is movably connected with the top frame (6).