CN111674032B - Automatic wear to dry by fire heat and contract jacketing machine - Google Patents

Abstract

The invention discloses an automatic penetrating and drying heat shrinkable tubing machine, which belongs to the technical field of wire processing and comprises a workbench, a wire feeding mechanism, a heat shrinkable tubing feeding mechanism, a sleeving and cutting mechanism and a heat shrinkable tubing limiting mechanism, wherein the top of the workbench is provided with a tubing rack, the top of the tubing rack is provided with two conduit grooves, a limiting ring is arranged in each conduit groove, and the sleeving and cutting mechanism comprises a left end cutting assembly and a sleeving and cutting assembly. The wire cutting machine has the advantages that the automation degree is high, feeding operation of wires and heat-shrinkable sleeves can be achieved, the wires to be cut and the heat-shrinkable sleeves sleeved on the wires can be limited in advance through the heat-shrinkable sleeve limiting mechanism, the right end of the sleeved wires can be cut at a proper position through the sleeved cutting mechanism, and workers can control the length of the heat-shrinkable sleeves with high precision.

Description

Automatic wear to dry by fire hot jacketing machine that contracts

The application is a divisional application of a Chinese patent application with the application number of 201811499205.3, which is filed on 2018, 12 and 08 and is named as an automatic penetration drying heat shrink jacketing machine.

Technical Field

The invention relates to the technical field of wire processing, in particular to an automatic penetrating, drying and heat-shrinking casing machine.

Background

The heat-shrinkable sleeve is a heat-shrinkable packaging material, can be shrunk when heated, and can be divided into a PVC heat-shrinkable sleeve, a PET heat-shrinkable sleeve, an irradiation cross-linked PE heat-shrinkable sleeve, a 10KV high-voltage busbar protection heat-shrinkable sleeve, a 35KV high-voltage busbar protection heat-shrinkable sleeve, a double-wall heat-shrinkable sleeve containing glue and a wood grain-like heat-shrinkable sleeve according to the material. The heat-shrinkable sleeve is soft and elastic, can shrink when heated (125 degrees), is widely applied to insulation protection of various wire harnesses, welding spots and inductors, and is rustproof and corrosion-proof for metal pipes and bars, and the traditional processing method of the heat-shrinkable sleeve generally adopts a manual heating method, namely the insulation heat-shrinkable sleeve is sleeved on a wire rod firstly, and then the wire rod is manually heated by using an electric hair drier or other heating equipment. The device has high operation requirements on personnel, high labor intensity, unsatisfactory safety and reliability and low production efficiency.

The invention patent disclosed in patent No. CN103515824B is an automatic rolling-baking heat-shrinkable sleeving machine, which comprises a frame, a conveying belt and a conveying chain; the conveying belt and the conveying chain are driven by a motor to synchronously run; a pressing piece is arranged above the conveying belt; the outer surface of the conveying chain is outwards radiated with a plurality of clamping columns, the conveying chain is provided with an upper-layer chain part and a lower-layer chain part, and electric heating devices are arranged above and below the upper-layer chain part. By this, through utilizing the card post on the conveying chain to drive the wire rod translation, utilize the pressing piece to push down the wire rod so that conveyer belt friction drives the wire rod and rolls, the wire rod is at translation and rolling in-process, utilize the electric heat facility to toast heat-shrinkable sleeve, the automatic purpose of rolling roast heat-shrinkable sleeve of rolling has been realized, the manual mode of heating heat-shrinkable sleeve with the hot-blast rifle of having replaced tradition, the manpower has effectively been saved consumes, the operating efficiency is greatly improved, and it is even to have guaranteed that heat-shrinkable sleeve is heated, be favorable to promoting product quality, thereby solve manufacturing enterprise's puzzlement.

However, the above invention still has the following problems in real life: firstly, the automatic feeding operation of the wire cannot be realized, meanwhile, the device is difficult to automatically feed the heat-shrinkable sleeve, the wire needs to be manually fed by a worker, additional labor is brought to the worker, secondly, the length of the heat-shrinkable sleeve is difficult to control with high precision, different lengths of heat-shrinkable sleeves need to be sleeved on different wires, the requirements of different producers cannot be met, and the practicability is poor.

Disclosure of Invention

The invention aims to provide an automatic penetrating and drying heat shrinkable tubing machine, which aims to solve the technical problems that in the prior art, a wire and a heat shrinkable tubing cannot be fed, and the length of the heat shrinkable tubing cannot be controlled at high precision.

The invention provides an automatic penetrating, drying and heat-shrinkable tubing machine which comprises a workbench, a wire feeding mechanism, a heat-shrinkable tubing feeding mechanism, a sleeving and cutting mechanism and a heat-shrinkable tubing limiting mechanism, wherein the wire feeding mechanism and the heat-shrinkable tubing feeding mechanism are respectively arranged at the left end and the right end of the workbench, the sleeving and cutting mechanism is arranged at the top of the workbench, the heat-shrinkable tubing limiting mechanism is arranged below the sleeving and cutting mechanism, a casing frame is arranged at the top of the workbench, two guide pipe grooves are arranged at intervals at the top of the casing frame, a limiting ring is vertically arranged in each guide pipe groove, the sleeving and cutting mechanism comprises a left-end cutting assembly and a sleeving and cutting assembly, and the left-end cutting assembly is arranged above the casing frame.

Further, left end cutting assembly is including first blade holder, drive frame, mounting bracket and erect the portal frame at the workstation top, the mounting bracket sets up the top at the portal frame, the top of mounting bracket is equipped with driving motor, be equipped with the installation pole that is vertical setting between the bottom of drive frame and the top of first blade holder, the cover is equipped with the rotor plate on driving motor's the output shaft, is equipped with the storage tank on the portal frame, the tip of rotor plate is equipped with and drives frame matched with gyro wheel, the bottom of first blade holder is equipped with first cutting knife.

Further, left end cutting assembly is still including the chopping block and the gag lever post of vertical setting at drive frame top that the level set up, the top of portal frame is equipped with L type limiting plate, be equipped with the through-hole that supplies the gag lever post to pass through on the L type limiting plate, the top of first blade holder is equipped with two guide bars, be equipped with on the portal frame and supply the gliding perforation of guide bar, be equipped with the logical groove that supplies first cutting knife to pass through on the casing frame, be equipped with the buffer spring that a plurality of edge straight line direction interval set up between chopping block and the workstation, be equipped with electro-heat equipment on the right side of casing frame, the both ends of casing frame all are equipped with an air gun, two the air jet of air gun all faces logical groove.

Further, wire rod feed mechanism is including mounting bracket and two feeding subassemblies, the mounting bracket sets up the left end at the workstation, be equipped with on the mounting bracket and be the level setting and rotate the installation axle of being connected with the mounting bracket, it is equipped with two wire rod dishes, every to install epaxial cover the feeding subassembly all corresponds a wire rod dish, the top of workstation is equipped with the guide holder, be equipped with the directional sliding sleeve that two intervals set up on the guide holder.

Furthermore, two the feeding subassembly structure is the same and all include support frame and two vertical axis of rotation of inserting and establishing at the workstation top, every all the cover is equipped with spacing round in the axis of rotation, spacing taking turns to and is equipped with the skid resistant course, the support frame sets up the bottom at the workstation, be equipped with the vertical upward feeding motor of output shaft on the support frame, the cover is equipped with the driving gear on the output shaft of feeding motor, two the bottom of axis of rotation is equipped with first gear and the second gear with first gear engagement respectively, the driving gear meshes with first gear mutually.

Further, heat-shrinkable tube stop gear is including the spacing subassembly that support bracket and two intervals set up, two spacing subassembly structure is the same and all including fixed riser, two move the material piece and two intervals set up the curb plate at support riser top, two be equipped with two slide bars that the level set up between the curb plate, every move the material piece homoenergetic gliding cover of material and establish on the slide bar, every move the top of material piece all be equipped with clamp plate and with clamp plate fixed connection's reinforcement frame, the clamp plate is rectangular structure, and two the one end that the clamp plate is relative is equipped with V type groove.

Furthermore, two spacing subassemblies still all include the electric jar of lift and set up the slide rail on fixed riser lateral wall, be equipped with the sliding block rather than sliding fit on the slide rail, two all be fixed with the connecting plate on moving the lateral wall of piece, two all be equipped with the dead lever on the connecting plate, be equipped with two connecting rods on the lateral wall of sliding block, every the connecting rod all corresponds a dead lever, it has the driving plate to articulate between connecting rod and the dead lever rather than corresponding, be equipped with the lifter plate on the sliding block, the output shaft of electric jar of lift and the bottom fixed connection of lifter plate.

Further, heat-shrinkable tube feed mechanism sets up the bearing frame at the mount top including mount and two intervals, two be equipped with the connecting axle that is the level setting between the bearing frame, the cover is equipped with the pipe dish of depositing that two intervals set up on the connecting axle, be equipped with on the mount and bear the frame, the top of bearing the frame is equipped with the rotating electrical machines, the cover is equipped with driving pulley on the output shaft of rotating electrical machines, the cover is equipped with driven pulley on the connecting axle, connect through the belt between driving pulley and the driven pulley.

Furthermore, the top of workstation is equipped with the guide subassembly that two intervals set up, every the guide subassembly all corresponds a deposit pipe dish, the guide subassembly is equipped with rather than the rotation section of thick bamboo of being connected of rotating including the mount pad that two intervals set up on the mount pad, be equipped with the guide way on the rotation section of thick bamboo.

Further, suit cutting assembly is including the lead screw slip table that link, second blade holder and two intervals set up, the link sets up the slider top at two lead screw slip tables, the top of link is equipped with drives actuating cylinder, the top fixed connection who drives actuating cylinder's output and second blade holder, the bottom of second blade holder is equipped with the second cutting knife, the top of second blade holder is equipped with the directional pole that two intervals set up, be equipped with the through-hole that supplies directional pole to pass through on the link, the below of second cutting knife is equipped with bed hedgehopping board, two all be equipped with hot-blast rifle on the slider lateral wall of lead screw slip table.

Compared with the prior art, the invention has the beneficial effects that:

the thermal shrinkage sleeve cutting device is provided with a wire feeding mechanism, a thermal shrinkage sleeve feeding mechanism, a sleeving cutting mechanism and a thermal shrinkage sleeve limiting mechanism, wherein the wire feeding mechanism and the thermal shrinkage sleeve feeding mechanism can respectively complete feeding operation of a wire and the thermal shrinkage sleeve, and the sleeving cutting mechanism can automatically cut the thermal shrinkage sleeve at a proper position, so that the thermal shrinkage sleeve can be processed into sizes required by different producers, and the technical problems that the wire and the thermal shrinkage sleeve cannot be fed and the length of the thermal shrinkage sleeve cannot be controlled at high precision in the prior art are solved.

The wire feeding mechanism can automatically feed wires, the heat-shrinkable tubing feeding mechanism can automatically feed the heat-shrinkable tubing, the manual feeding operation of workers is not needed, the labor amount of the workers is reduced, the wires can extend into the heat-shrinkable tubing to a certain length through a preset set value by the feeding motor, and the length of the assembled wires is convenient to control.

Thirdly, the wire rod to be cut and the heat-shrinkable sleeve sleeved on the wire rod can be limited in advance through the heat-shrinkable sleeve limiting mechanism, and the problem that the cutting quality of the heat-shrinkable sleeve is influenced due to the fact that two ends of the heat-shrinkable sleeve of the wire rod vibrate after cutting is avoided.

The right end of the wire rod sleeving can be cut at a proper position through the sleeving and cutting mechanism, the connecting frame can be moved to the proper position in a high-precision mode through setting and working of the two screw rod sliding tables, and a worker can control the length of the heat-shrinkable sleeve in a high-precision mode.

The left end cutting assembly is arranged, the left end of the assembled wire rod sleeve can be automatically cut through the left end cutting assembly, manual cutting by workers is not needed, and labor intensity of the workers is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a partial perspective view of the first embodiment of the present invention;

FIG. 5 is a partial side view of the present invention;

FIG. 6 is a schematic view, partly in section, of the present invention;

FIG. 7 is a partial perspective view of the second embodiment of the present invention;

FIG. 8 is a schematic perspective view of a heat shrinkable sleeve limiting mechanism;

FIG. 9 is a schematic partial side view of a heat shrink tubing stop mechanism;

reference numerals:

the device comprises a workbench 1, a sleeve frame 1a, a conduit groove 1b, a limiting ring 1c, a wire feeding mechanism 2, a mounting frame 2a, a mounting shaft 2b, a wire disc 2c, a guide seat 2d, a directional sliding sleeve 2e, a heat-shrinkable tube feeding mechanism 3, a fixing frame 3a, a bearing seat 3b, a connecting shaft 3c, a storage tube disc 3d, a bearing frame 3e, a rotating motor 3f, a driving belt pulley 3g, a driven belt pulley 3h, a sheathing cutting mechanism 4, a heat-shrinkable tube limiting mechanism 5, a bearing bracket 5a, a limiting component 5b, a fixed vertical plate 5b1, a material moving block 5b2, a side plate 5b3, a sliding rod 5b4, a clamping plate 5b5, a reinforcing frame 5b6, a lifting electric cylinder 5b7, a sliding rail 5b8, a sliding block 5b9, a connecting plate 5c, a fixed rod 5c1, a transmission plate 5c2, a lifting plate 5c3, a connecting rod 5c4, a left end cutting component 6a, a first cutting seat 6a driving frame 1, the cutting machine comprises a material bearing frame 6a2, a portal frame 6a3, a driving motor 6a4, a connecting rod 6a5, a rotating plate 6a6, a roller 6a7, a first cutter 6b, a cutting board 6b1, a limiting rod 6b2, an L-shaped limiting plate 6b3, a guide rod 6b4, a buffer spring 6b5, an electric heating device 6c, a sleeved cutting assembly 7, a connecting frame 7a, a second cutter holder 7b, a screw rod sliding table 7c, a driving cylinder 7d, a second cutter 7e, a directional rod 7f, a raising plate 7g, a hot air gun 7h, a feeding assembly 8, a supporting frame 8a, a rotating shaft 8b, a limiting wheel 8c, a feeding motor 8d, a driving gear 8e, a first gear 8f, a second gear 8g, a material guiding assembly 9, a mounting seat 9a, a rotating cylinder 9b and a guide groove 9 c.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 9, an embodiment of the present invention provides an automatic casing penetrating and drying machine, including a workbench 1, a wire feeding mechanism 2, a heat-shrinkable casing feeding mechanism 3, a sheathing cutting mechanism 4, and a heat-shrinkable casing limiting mechanism 5, the wire feeding mechanism 2 and the heat-shrinkable sleeve feeding mechanism 3 are respectively arranged at the left end and the right end of the workbench 1, the sheathing cutting mechanism 4 is arranged at the top of the workbench 1, and the heat-shrinkable sleeve limiting mechanism 5 is arranged below the sheathing and cutting mechanism 4, the top of the workbench 1 is provided with a sleeve frame 1a, the top of the casing frame 1a is provided with two conduit grooves 1b arranged at intervals, a limit ring 1c arranged vertically is arranged in each conduit groove 1b, the sleeve cutting mechanism 4 comprises a left-end cutting assembly 6 and a sleeve cutting assembly 7, and the left-end cutting assembly 6 is arranged above the sleeve frame 1 a.

Specifically, the left-end cutting assembly 6 comprises a first cutter holder 6a, a driving frame 6a1, a material bearing frame 6a2 and a portal frame 6a3 erected at the top of the workbench 1, wherein the material bearing frame 6a2 is arranged at the top of the portal frame 6a3, a driving motor 6a4 is arranged at the top of the material bearing frame 6a2, a vertically arranged mounting rod 6a5 is arranged between the bottom of the driving frame 6a1 and the top of the first cutter holder 6a, a rotating plate 6a6 is sleeved on an output shaft of the driving motor 6a4, a storage groove is formed in the portal frame 6a3, a roller 6a7 matched with the driving frame 6a1 is arranged at the end of the rotating plate 6a6, and a first cutter 6b is arranged at the bottom of the first cutter holder 6 a; the left end cutting assembly 6 can cut the left end of the assembled wire rod set without manual cutting by workers, so that the labor intensity of the workers is reduced, and the storage groove in the portal frame 6a3 is used for allowing the driving frame 6a1 and the rotating plate 6a6 to pass through.

Specifically, the left-end cutting assembly 6 further comprises a horizontally arranged cutting board 6b1 and a limit rod 6b2 vertically arranged at the top of the driving frame 6a1, the top of the portal frame 6a3 is provided with an L-shaped limit plate 6b3, a through hole for the limit rod 6b2 to pass through is formed in the L-shaped limit plate 6b3, the top of the first knife holder 6a is provided with two guide rods 6b4, the portal frame 6a3 is provided with a through hole for the guide rod 6b4 to slide through, a through groove for the first cutting knife 6b to pass through is formed in the casing frame 1a, a plurality of buffer springs 6b5 arranged at intervals along a linear direction are arranged between the cutting board 6b1 and the workbench 1, an electric heating device 6c is arranged on the right side of the casing frame 1a, two air guns are arranged at two ends of the casing frame 1a, and air nozzles of the two air guns face the through groove; the electric heating device 6c can heat and shrink the left end of the assembled wire rod set, the driving motor 6a4 can enable the rotating plate 6a6 to rotate when working, the rotating plate 6a6 can drive the roller 6a7 to rotate, the roller 6a7 can drive the driving frame 6a1 to move, the driving frame 6a1 drives the mounting rod 6a5 to move, the first cutter holder 6a fixedly connected with the mounting rod 6a5 moves, the first cutter holder 6a can drive the first cutter 6b to move downwards, the first cutter 6b can cut the left end of the wire rod set, the air gun can blow out the wire rod residues on the sleeve frame 1a, the cutting board 6b1 is used for supporting the wire rod, the first cutter 6b can conveniently cut the wire rod set, and the buffer spring 6b5 is used for buffering the cutting board 6b1 to avoid generating large vibration in the cutting process.

Specifically, the wire feeding mechanism 2 comprises an installation frame 2a and two feeding assemblies 8, the installation frame 2a is arranged at the left end of the workbench 1, an installation shaft 2b which is horizontally arranged and is rotatably connected with the installation frame 2a is arranged on the installation frame 2a, two wire discs 2c are sleeved on the installation shaft 2b, each feeding assembly 8 corresponds to one wire disc 2c, a guide seat 2d is arranged at the top of the workbench 1, and two directional sliding sleeves 2e which are arranged at intervals are arranged on the guide seat 2 d; the worker will coil the wire rod on two wire rod dish 2c respectively through the feeding subassembly 8 that corresponds, makes every wire rod all through the directional sliding sleeve 2e that corresponds and by spacing between two spacing wheels 8c, can carry out the material loading to the wire rod is automatic through wire rod feed mechanism 2, need not the manual material loading operation that carries on of worker, has reduced worker's the amount of labour.

Specifically, the two feeding assemblies 8 have the same structure and each include a support frame 8a and two rotating shafts 8b vertically inserted into the top of the workbench 1, each rotating shaft 8b is sleeved with a limiting wheel 8c, each limiting wheel 8c is provided with an anti-slip layer, the support frame 8a is arranged at the bottom of the workbench 1, the support frame 8a is provided with a feeding motor 8d with an output shaft facing vertically upwards, an output shaft of the feeding motor 8d is sleeved with a driving gear 8e, the bottom ends of the two rotating shafts 8b are respectively sleeved with a first gear 8f and a second gear 8g meshed with the first gear 8f, and the driving gear 8e is meshed with the first gear 8 f; make the wire rod stretch into the inside certain length of heat shrinkage bush through predetermined setting value through feeding motor 8d, feeding motor 8d can select to use gear motor on the market, feeding motor 8d work can drive driving gear 8e and rotate, driving gear 8e can drive and rotate rather than the first gear 8f of meshing, first gear 8f can drive and rotate rather than the second gear 8g of meshing, make two axis of rotation 8b can take place to rotate simultaneously, axis of rotation 8b can drive spacing round 8c and rotate, two spacing rounds of 8c can take place to remove by the wire rod between the two, it is intraductal to make the wire rod can pass pipe groove 1b and insert to the heat shrinkage bush, the skid resistant course can avoid wire rod and spacing round of 8c to appear gliding condition on the spacing round of 8 c.

Specifically, the heat-shrinkable tube limiting mechanism 5 comprises a support bracket 5a and two limiting assemblies 5b arranged at intervals, the two limiting assemblies 5b have the same structure and respectively comprise a fixed vertical plate 5b1, two material moving blocks 5b2 and two side plates 5b3 arranged at the tops of the support vertical plate at intervals, two horizontally arranged slide bars 5b4 are arranged between the two side plates 5b3, each material moving block 5b2 can be slidably sleeved on the slide bar 5b4, the top of each material moving block 5b2 is provided with a clamping plate 5b5 and a reinforcing frame 5b6 fixedly connected with the clamping plate 5b5, the clamping plate 5b5 is of a long strip structure, and one end of each two clamping plates 5b5, which is opposite, is provided with a V-shaped groove; heat-shrinkable tube stop gear 5 can be spacing in advance to the wire rod that will cut and the heat-shrinkable tube of cover on the wire rod, avoids the both ends of the heat-shrinkable tube of wire rod to take place vibrations and influence heat-shrinkable tube's cutting quality after the cutting, and two clamp plates 5b5 can press from both sides tightly heat-shrinkable tube, and the V type groove on the clamp plate 5b5 can make heat-shrinkable tube can not take place great vibrations at the in-process of cutting.

Specifically, each of the two limiting assemblies 5b further includes a lifting electric cylinder 5b7 and a sliding rail 5b8 arranged on the side wall of the fixed vertical plate 5b1, sliding blocks 5b9 which are in sliding fit with the sliding rails 5b8 are arranged on the sliding rails 5b8, connecting plates 5c are fixed on the side walls of the two material moving blocks 5b2, fixing rods 5c1 are arranged on the two connecting plates 5c, two connecting rods 5c4 are arranged on the side wall of the sliding block 5b9, each connecting rod 5c4 corresponds to one fixing rod 5c1, a transmission plate 5c2 is hinged between each connecting rod 5c4 and the corresponding fixing rod 5c1, a lifting plate 5c3 is arranged on the sliding block 5b9, and an output shaft of the lifting electric cylinder 5b7 is fixedly connected with the bottom of the lifting plate 5c 3; the lifting electric cylinder 5b7 can drive the lifting plate 5c3 to move in the vertical direction when working, the lifting plate 5c3 can drive the sliding plate fixed with the lifting plate to move, the sliding plate can drive the two connecting rods 5c4 to move, the connecting rod 5c4 can drive the transmission plate 5c2 hinged with the connecting rod 5c4 to rotate, the fixing rod 5c1 hinged with the transmission plate 5c2 can move, the fixing rod 5c1 can drive the corresponding connecting plate 5c to move, the connecting plate 5c can drive the material moving block 5b2 fixed with the connecting plate 5c to move, the two material moving blocks 5b2 can move relatively or oppositely, and when the two material moving blocks 5b2 move relatively, the two material moving blocks 5b2 can respectively drive the two clamping plates 5b5 to move.

Specifically, the heat-shrinkable tube feeding mechanism 3 comprises a fixed frame 3a and two bearing seats 3b arranged at the top of the fixed frame 3a at intervals, a connecting shaft 3c arranged horizontally is arranged between the two bearing seats 3b, two tube storage discs 3d arranged at intervals are sleeved on the connecting shaft 3c, a bearing frame 3e is arranged on the fixed frame 3a, a rotating motor 3f is arranged at the top of the bearing frame 3e, a driving belt pulley 3g is sleeved on an output shaft of the rotating motor 3f, a driven belt pulley 3h is sleeved on the connecting shaft 3c, and the driving belt pulley 3g is connected with the driven belt pulley 3h through a belt; rotating electrical machines 3f work can drive pulley 3g and rotate, drive pulley 3g can make driven pulley 3h take place to rotate through the belt, make connecting axle 3c can take place to rotate, connecting axle 3c can drive two and deposit tub dish 3d and take place to rotate simultaneously, make and deposit the heat shrinkable tube on the tub dish 3d and can remove to the pipe groove 1b in, because of being provided with spacing ring 1c in the pipe groove 1b and making the heat shrinkable tube just contradict with spacing ring 1 c's lateral wall, wire rod feed mechanism 2 continues work and makes the wire rod can enter into to heat shrinkable tube's inside.

Specifically, two material guiding assemblies 9 arranged at intervals are arranged at the top of the workbench 1, each material guiding assembly 9 corresponds to one storage tube tray 3d, each material guiding assembly 9 comprises two mounting seats 9a arranged at intervals, a rotating cylinder 9b rotatably connected with the mounting seat 9a is arranged on the mounting seat 9a, and a guide groove 9c is arranged on the rotating cylinder 9 b; the heat-shrinkable tubing coiled on the storage tube disk 3d passes through the guide groove 9c on the rotating cylinder 9b, the mounting seat 9a is used for mounting the rotating cylinder 9b, and the storage tube disk 3d is used for coiling and storing the heat-shrinkable tubing.

Specifically, the sheathing cutting assembly 7 comprises a connecting frame 7a, a second tool apron 7b and two screw rod sliding tables 7c arranged at intervals, the connecting frame 7a is arranged at the tops of the sliding blocks of the two screw rod sliding tables 7c, a driving cylinder 7d is arranged at the top of the connecting frame 7a, the output end of the driving cylinder 7d is fixedly connected with the tops of the second tool apron 7b, a second cutting knife 7e is arranged at the bottom of the second tool apron 7b, two orientation rods 7f arranged at intervals are arranged at the top of the second tool apron 7b, a through hole for the orientation rod 7f to pass through is formed in the connecting frame 7a, a padding plate 7g is arranged below the second cutting knife 7e, and hot air guns 7h are arranged on the sliding block side walls of the two screw rod sliding tables 7 c; work through two lead screw slip tables 7c can make link 7a high accuracy remove to suitable position, make the worker can high accuracy control heat shrinkage bush's length, hot-blast rifle 7h on lead screw slip table 7 c's the slider lateral wall can heat the pyrocondensation operation to the heat shrinkage bush, it can make second blade holder 7b remove to drive actuating cylinder 7d work, second blade holder 7b can drive second cutting knife 7e and can cut the right-hand member of heat shrinkage bush, the completion is to the processing operation of heat shrinkage bush.

The working principle of the invention is as follows: the worker makes the wires coiled on the two wire coils 2c respectively pass through the corresponding feeding assemblies 8, so that each wire passes through the corresponding directional sliding sleeve 2e and is limited between the two limiting wheels 8c, the wires can be automatically fed through the wire feeding mechanism 2 without manual feeding operation of the worker, the labor amount of the worker is reduced, the working principle is that a feeding motor 8d works to drive a driving gear 8e to rotate, the driving gear 8e can drive a first gear 8f meshed with the driving gear to rotate, the first gear 8f can drive a second gear 8g meshed with the first gear to rotate, so that the two rotating shafts 8b can simultaneously rotate, the rotating shafts 8b can drive the limiting wheels 8c to rotate in an inserting manner, the two limiting wheels 8c can be moved by the wires between the two limiting wheels, so that the wires can pass through the guide pipe grooves 1b and be thermally shrunk into the guide pipe, the automatic feeding operation of the heat-shrinkable tubing can be realized through the heat-shrinkable tubing feeding mechanism 3, the working principle is that the heat-shrinkable tubing coiled on the storage tube disc 3d passes through the guide groove 9c on the rotating cylinder 9b, the rotating motor 3f can drive the driving belt pulley 3g to rotate when working, the driving belt pulley 3g can drive the driven belt pulley 3h to rotate through a belt, so that the connecting shaft 3c can rotate, the connecting shaft 3c can drive the two storage tube discs 3d to rotate simultaneously, so that the heat-shrinkable tubing on the storage tube discs 3d can move into the guide pipe groove 1b, the heat-shrinkable tubing is just abutted against the side wall of the spacing ring 1c due to the spacing ring 1c arranged in the guide pipe groove 1b, the wire feeding mechanism 2 continues to work, so that the wire can enter the inside of the heat-shrinkable tubing, and the wire can extend into the inside of the heat-shrinkable tubing to a certain length through the feeding motor 8d by a preset set value, the heat-shrinkable sleeve limiting mechanism 5 can pre-limit the wire to be cut and the heat-shrinkable sleeve sleeved on the wire, so as to prevent the two ends of the heat-shrinkable sleeve of the wire from vibrating after cutting to influence the cutting quality of the heat-shrinkable sleeve, the working principle is that the lifting electric cylinder 5b7 can drive the lifting plate 5c3 to move in the vertical direction, the lifting plate 5c3 can drive the sliding plate fixed with the lifting plate to move, the sliding plate can drive the two connecting rods 5c4 to move, the connecting rod 5c4 can drive the transmission plate 5c2 hinged with the connecting rod 5c4 to rotate, the fixing rod 5c1 hinged with the transmission plate 5c2 can move, the fixing rod 5c1 can drive the corresponding connecting plate 5c to move, the connecting plate 5c can drive the moving block 5b2 fixed with the connecting plate 5c to move, the two moving blocks 5b2 can move relatively or move back and back, when the two moving blocks 5b2 move relatively, the two material moving blocks 5b2 can respectively drive the two clamping plates 5b5 to move, so that the two clamping plates 5b5 can clamp the heat-shrinkable sleeve, so that the heat-shrinkable sleeve cannot generate large vibration in the cutting process, the left end of the assembled wire rod suit can be cut by the left end cutting assembly 6 without manual cutting by a worker, the labor intensity of the worker is reduced, the electric heating device 6c can heat and shrink the left end of the assembled wire rod suit, the driving motor 6a4 can drive the rotating plate 6a6 to rotate, the rotating plate 6a6 can drive the roller 6a7 to rotate, the roller 6a7 can drive the driving frame 6a1 to move, the driving frame 6a1 can drive the mounting rod 6a5 to move, the first cutter holder 6a fixedly connected with the mounting rod 6a5 moves, and the first cutter holder 6a can drive the first cutter 6b to move downwards, make first cutting knife 6b can cut the operation to the left end of wire rod suit, the air gun can blow off the wire rod defective material that is located on the casing frame 1a, can cut the operation at the right-hand member of wire rod suit in suitable position through suit cutting mechanism 4, work through two lead screw slip tables 7c can make link 7a high accuracy remove to suitable position, make the worker can high accuracy control heat shrinkage bush's length, hot-blast rifle 7h on lead screw slip table 7 c's the slider lateral wall can heat the pyrocondensation bush, it can make second blade holder 7b remove to drive actuating cylinder 7d work, second blade holder 7b can drive second cutting knife 7e and can cut the right-hand member of heat shrinkage bush, the completion is to the processing operation of heat shrinkage bush.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (3)

1. An automatic penetrating, drying and heat-shrinkable tubing machine is characterized by comprising a workbench (1), a wire feeding mechanism (2), a heat-shrinkable tubing feeding mechanism (3), a sleeving and cutting mechanism (4) and a heat-shrinkable tubing limiting mechanism (5), wherein the wire feeding mechanism (2) and the heat-shrinkable tubing feeding mechanism (3) are respectively arranged at the left end and the right end of the workbench (1), the sleeving and cutting mechanism (4) is arranged at the top of the workbench (1), the heat-shrinkable tubing limiting mechanism (5) is arranged below the sleeving and cutting mechanism (4), a bushing frame (1 a) is arranged at the top of the workbench (1), two conduit grooves (1 b) which are arranged at intervals are arranged at the top of the bushing frame (1 a), a limiting ring (1 c) which is vertically arranged is arranged in each conduit groove (1 b), and the sleeving and cutting mechanism (4) comprises a left-end cutting assembly (6) and a sleeving and cutting assembly (7), the left end cutting assembly (6) is arranged above the sleeve frame (1 a);

the wire feeding mechanism (2) comprises a mounting frame (2 a) and two feeding assemblies (8), the mounting frame (2 a) is arranged at the left end of the workbench (1), a mounting shaft (2 b) which is horizontally arranged and is rotatably connected with the mounting frame (2 a) is arranged on the mounting frame (2 a), two wire discs (2 c) are sleeved on the mounting shaft (2 b), each feeding assembly (8) corresponds to one wire disc (2 c), a guide seat (2 d) is arranged at the top of the workbench (1), and two directional sliding sleeves (2 e) arranged at intervals are arranged on the guide seat (2 d);

the two feeding assemblies (8) are identical in structure and respectively comprise a support frame (8 a) and two rotating shafts (8 b) which are vertically inserted at the top of the workbench (1), each rotating shaft (8 b) is sleeved with a limiting wheel (8 c), an anti-skid layer is arranged on each limiting wheel (8 c), the support frame (8 a) is arranged at the bottom of the workbench (1), a feeding motor (8 d) with an output shaft vertically upward is arranged on the support frame (8 a), a driving gear (8 e) is sleeved on the output shaft of each feeding motor (8 d), a first gear (8 f) and a second gear (8 g) meshed with the first gear (8 f) are respectively sleeved at the bottom ends of the two rotating shafts (8 b), and the driving gear (8 e) is meshed with the first gear (8 f);

the sleeved cutting assembly (7) comprises a connecting frame (7 a), a second tool apron (7 b) and two screw rod sliding tables (7 c) which are arranged at intervals, the connecting frame (7 a) is arranged at the top of the sliding blocks of the two screw rod sliding tables (7 c), the top of the connecting frame (7 a) is provided with a driving cylinder (7 d), the output end of the driving cylinder (7 d) is fixedly connected with the top of the second cutter holder (7 b), a second cutting knife (7 e) is arranged at the bottom of the second knife seat (7 b), two directional rods (7 f) arranged at intervals are arranged at the top of the second knife seat (7 b), a through hole for a directional rod (7 f) to pass through is formed in the connecting frame (7 a), a heightening plate (7 g) is arranged below the second cutting knife (7 e), and hot air guns (7 h) are arranged on the side walls of the sliding blocks of the two screw rod sliding tables (7 c);

the heat-shrinkable sleeve limiting mechanism (5) comprises a support bracket (5 a) and two limiting assemblies (5 b) arranged at intervals, the two limiting assemblies (5 b) are identical in structure and respectively comprise a fixed vertical plate (5 b 1), two material moving blocks (5 b 2) and two side plates (5 b 3) arranged at the tops of the support vertical plates at intervals, two sliding rods (5 b 4) arranged horizontally are arranged between the two side plates (5 b 3), each material moving block (5 b 2) can be sleeved on the sliding rods (5 b 4) in a sliding mode, a clamping plate (5 b 5) and a reinforcing frame (5 b 6) fixedly connected with the clamping plate (5 b 5) are arranged at the top of each material moving block (5 b 2), each clamping plate (5 b 5) is of a structure, and a V-shaped groove is formed in one end, opposite to the two clamping plates (5 b 5);

the two limiting assemblies (5 b) also comprise lifting electric cylinders (5 b 7) and sliding rails (5 b 8) arranged on the side walls of the fixed vertical plates (5 b 1), sliding blocks (5 b 9) which are in sliding fit with the sliding rails (5 b 8) are arranged on the sliding rails (5 b 8), connecting plates (5 c) are fixed on the side walls of the two moving blocks (5 b 2), fixing rods (5 c 1) are arranged on the two connecting plates (5 c), two connecting rods (5 c 4) are arranged on the side wall of the sliding block (5 b 9), each connecting rod (5 c 4) corresponds to one fixing rod (5 c 1), a transmission plate (5 c 2) is hinged between the connecting rod (5 c 4) and the corresponding fixed rod (5 c 1), the sliding block (5 b 9) is provided with a lifting plate (5 c 3), and the output shaft of the lifting electric cylinder (5 b 7) is fixedly connected with the bottom of the lifting plate (5 c 3).

2. The automatic penetration heating and sleeving machine according to claim 1, wherein the heat-shrinkable sleeving feeding mechanism (3) comprises a fixed frame (3 a) and two bearing seats (3 b) arranged at the top of the fixed frame (3 a) at intervals, a connecting shaft (3 c) arranged horizontally is arranged between the two bearing seats (3 b), two pipe storage discs (3 d) arranged at intervals are sleeved on the connecting shaft (3 c), a bearing frame (3 e) is arranged on the fixed frame (3 a), a rotating motor (3 f) is arranged at the top of the bearing frame (3 e), a driving belt pulley (3 g) is sleeved on an output shaft of the rotating motor (3 f), the connecting shaft (3 c) is sleeved with a driven belt pulley (3 h), and the driving belt pulley (3 g) is connected with the driven belt pulley (3 h) through a belt.

3. The automatic penetrating heating and jacketing machine according to claim 2, wherein two guide assemblies (9) are arranged at the top of the workbench (1) at intervals, each guide assembly (9) corresponds to one storage tube disc (3 d), each guide assembly (9) comprises two mounting seats (9 a) arranged at intervals, a rotating cylinder (9 b) rotatably connected with the mounting seat (9 a) is arranged on the mounting seat (9 a), and a guide groove (9 c) is arranged on the rotating cylinder (9 b).

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