CN206998365U - Heat exchange pipe end chamfering machine - Google Patents

Abstract

A kind of heat exchange pipe end chamfering machine, including frame, its forward upper organic frame fromer rail, upper back organic frame rear rail；Stepped pipe blank conveying mechanism, guide rail forward and backward with frame coordinate；Transmission shaft driving mechanism, it is located at the left end of frame and is connected with stepped pipe blank conveying mechanism；Tooth plate moving adjusting mechanism, it is located in frame and links with stepped pipe blank conveying mechanism；The rear side , Guan Pi that pipe folds up the right-hand member top that mechanism is located at frame hold laying mechanism under the arm and are located at the front side on right-hand member top of frame and corresponding with the front side that pipe folds up mechanism；Blank end chamfer mechanism, it is located at the top of frame；The miscellaneous bits cleaning machine of pipe chamber, it is located at the top of frame and holds laying mechanism cooperation under the arm with pipe；Pirn feeding mechanism, it is located in the position of the rear side corresponding to stepped pipe blank conveying mechanism in frame；Pipe storage bed, it is located in the position of the rear side corresponding to pirn feeding mechanism on terrace.Reduce labor intensity；Improve efficiency；Ensure the uniformity of quality；Reduce human input.

Description

Heat exchange pipe end chamfering machine

Technical field

The utility model belongs to the technical field of auxiliary facilities of heat-exchange tube processing, and in particular to a kind of heat exchange pipe End chamfering machine.

Background technology

Foregoing heat-exchange tube is also referred to as heat-transfer pipe, heat exchanger tube or even referred to as finned tube, applied to gas-gas, solution-air, gas-oil Etc enhanced heat exchange occasion, be no lack of in disclosed China and foreign countries' patent document and be seen in, such as CN1092327C（Mix refrigerant passes Heat pipe）、CN2365635Y（Heat-transfer pipe）、CN2539948Y（Interrupting tooth internal thread steamless high efficient heat-transfer pipe）、CN100365369C （Heat exchange tube of evaporator）、CN102425972A（A kind of heat-exchange tube）、CN103063072A（A kind of heat-exchange tube）、 CN2144290Y（High fin heat transfer pipe）、CN2740988Y（Heat exchanger copper alloy is seamless high finned tube）、 CN203824399U（Boiler evaporator monolithic devices spiral fin coil）、WO 03/050467A1、US2003/0094272A1、 US4337824, US5896660A, US2667337, JP2003287392A and JP2005121238A, etc..

As is known in the industry, in the production process of heat-exchange tube, it is necessary first to according to the length required by technique to copper pipe Sawing, and the cutting part after sawing easily in copper tube end produces overlap and/or burr, if overlap, burr not removed, that The flatness of copper pipe end face can be had a strong impact on, is caused by subsequent technique as rolled the heat-exchange tube obtained after extrusion process processing End face is rough, out-of-flatness, influence the use of user such as refrigeration system production firm.

In order to meet the requirement of heat-exchange tube user, heat-exchange tube production firm is generally by by the sawing process in preceding road Copper pipe after sawing makes the end of copper pipe correspond to the scraper of clamping mechanically in the state of holding by hand（Also referred to as " hinge Knife "）Position, by the scraper in rotary state to copper pipe end scraping, next station is transferred to after the completion of scraping, is held by worker's hand Pipe end port is directed at the air blow gun of air compressor pipeline connection, the miscellaneous bits of intraluminal metal will be entered during scraping and are blown Remove.

Above-mentioned used to copper tube end scraping removes the overlap left during sawing, the operating type of burr has to still owe Lack：First, due to need to artificially hold copper pipe by worker during for scraper blades scrape, thus the operation intensity of worker is larger； Second, due to relatively inefficient, thus be difficult to meet industrial amplification production requirement；Third, due to copper pipe during scraping Artificially to be controlled by worker, often the factor such as the experience to worker, sense of responsibility or even physical efficiency and mood is related for the length of scraping time, Thus the quality conformance of scraping or chamfering is difficult to ensure；It is fourth, each due to station need to be removed in scraping station and miscellaneous bits From assignment worker, thus the human resources of preciousness are caused to waste.

The applicant has carried out literature search, but in China and foreign countries' patent disclosed so far and non-patent literature not It is seen in the referential enlightenment for being addressed above-mentioned technical problem.Therefore, the applicant has made lasting and beneficial design repeatedly, Finally form technical scheme described below and simulated in the case where taking secrecy provision in the applicant enterprise Experiment, is as a result proved to be practicable.

The content of the invention

Task of the present utility model, which is to provide, a kind of to be helped automatically by the chamfering and to remove the miscellaneous bits of metal Heat exchange pipe clamps and uses and significantly mitigate worker's operation intensity, be advantageous to make chamfering with removing the miscellaneous bits of metal and driving neat automatically Ground is driven to carry out and use and improve efficiency and meet industrial amplification production requirement, be beneficial to avoid being affected by human factors and using The miscellaneous bits of metal remove the uniformity of quality and had and are easy to reduction human input and use the valuable labor of saving in guarantee scraping and pipe The heat exchange pipe end chamfering machine of power resource.

What task of the present utility model was performed by, a kind of heat exchange pipe end chamfering machine, including a frame, should Frame is supported on the terrace in heat-exchange tube pipe chamfering place in a state of use, and parallel in the forward upper of the frame A frame fromer rail is fixed with the long side direction of frame, and the upper back in frame is equally parallel to the long side direction of frame A frame rear rail is fixed with, the forward and backward guide rail of the frame is parallel；One stepped pipe blank conveying mechanism, the step-by-step movement pipe Conveying mechanism is slidably matched with the frame fromer rail and frame rear rail simultaneously；One is used to drive the step-by-step movement pipe defeated The transmission shaft driving mechanism of mechanism action is sent, the transmission shaft driving mechanism is arranged on the left end of the frame and and stepped pipe Blank conveying mechanism is connected；One is used to drive the stepped pipe blank conveying mechanism to follow described frame fromer rail and machine The tooth plate moving adjusting mechanism that frame rear rail moves left and right, the tooth plate moving adjusting mechanism is corresponding to the power transmission shaft driving machine The position on the right side of structure is arranged in the frame and linked with stepped pipe blank conveying mechanism；One pipe folds up mechanism and one Pipe holds laying mechanism under the arm, and pipe folds up the rear side that mechanism is arranged on the right-hand member top of the frame, and Er Guan Pi hold laying mechanism under the arm and are arranged on The front side on the right-hand member top of frame and corresponding with the front side that pipe folds up mechanism；One blank end chamfer mechanism, the pipe End-beveling mechanism is movably arranged at the top of the frame in the position on the right side that mechanism is folded up corresponding to the pipe；One The miscellaneous bits cleaning machine of pipe chamber, the miscellaneous bits cleaning machine of the pipe chamber are set in the position on the right side for holding laying mechanism under the arm corresponding to the pipe Put on the top of frame and hold laying mechanism under the arm with pipe and be engaged；One is used to the pipe up for chamfering being fed for the step-by-step movement The pirn feeding mechanism of pipe conveying mechanism, the pirn feeding mechanism are arranged in the position of the rear side corresponding to stepped pipe blank conveying mechanism In the frame；One pipe storage bed, the pipe storage bed are arranged on heat in the position of the rear side corresponding to the pirn feeding mechanism On the terrace for exchanging pipe pipe chamfering place.

In a specific embodiment of the present utility model, described stepped pipe blank conveying mechanism includes tooth plate forward pass Moving axis, tooth plate inter-axle shaft and pipe conveying tooth plate group, the left end of tooth plate front propeller shaft are rotatably supported at a left side for the frame End, the middle part of tooth plate front propeller shaft and right-hand member are rotatably supported on tooth plate front propeller shaft bearing bracket respectively, the tooth plate Front propeller shaft bearing bracket is fixed on tooth plate front propeller shaft bearing bracket sliding block, and the tooth plate front propeller shaft bearing block branch Frame sliding block is slidably matched with described frame fromer rail, and tooth plate inter-axle shaft and tooth plate front propeller shaft are parallel, are driven after the tooth plate The left end of axle is rotatably supported at the left end of frame, and the middle part of tooth plate inter-axle shaft and right-hand member are rotatably supported at tooth plate respectively On inter-axle shaft bearing bracket, the tooth plate inter-axle shaft bearing bracket is fixed on tooth plate inter-axle shaft bearing bracket sliding block On, and the tooth plate inter-axle shaft bearing bracket sliding block is slidably matched with the frame rear rail, tooth plate inter-axle shaft bearing block The quantity of bracket slide is equal with the quantity of tooth plate front propeller shaft bearing bracket sliding block and position is corresponding, pipe conveying tooth The quantity of plate group is equal with the quantity of tooth plate front propeller shaft bearing bracket sliding block, and the pipe conveys tooth plate group and turned including a pipe Tooth plate and pipe supporting tooth plate are moved, it is eccentric to be each provided with pipe transfer tooth plate in the front-end and back-end of pipe transfer tooth plate Disk, eccentric disc axis hole is offered on pipe transfer tooth plate eccentric disc, the pipe positioned at pipe transfer tooth plate front end shifts tooth Plate eccentric disc is corresponding with described tooth plate front propeller shaft and the tooth plate front propeller shaft passes through described eccentric disc axis hole, is located at The pipe transfer tooth plate eccentric disc of pipe transfer tooth plate rear end is corresponding with described tooth plate inter-axle shaft and the tooth plate after pass Moving axis passes through described eccentric disc axis hole, in the front-end and back-end of pipe supporting tooth plate and inclined corresponding to pipe transfer tooth plate The position of cartridge is respectively equipped with a pipe support teeth board shaft bearing, the pipe support teeth board shaft positioned at the front end of pipe supporting tooth plate Bearing is fixed with described tooth plate front propeller shaft bearing bracket, the pipe support teeth board shaft positioned at the rear end of pipe supporting tooth plate Bearing is fixed with described tooth plate inter-axle shaft bearing bracket, the tooth plate front propeller shaft and tooth plate inter-axle shaft through It is rotatably supported at after the eccentric disc axis hole in the pipe support teeth board shaft bearing hole of pipe support teeth board shaft bearing, described In pipe conveying tooth plate group, on the right side of the pipe supporting tooth plate of the pipe conveying tooth plate group in right-hand member and corresponding The position that mechanism is folded up in the pipe is provided with a pipe signal picker, and in the position for holding laying mechanism under the arm corresponding to the pipe Install and be equipped with a pipe signal discovery device, set in described frame and in the position on the right side that mechanism is folded up corresponding to pipe A pair of rose reamer disk-drive motor seat guide rails are equipped with, blank end chamfer mechanism is slided with this to rose reamer disk-drive motor seat guide rail It is dynamic to coordinate, set in the frame and in the position for holding laying mechanism and the miscellaneous bits cleaning machine of the pipe chamber under the arm corresponding to pipe A bearing plate seat is equipped with, pipe holds laying mechanism under the arm and the miscellaneous bits cleaning machine of pipe chamber is arranged on the bearing plate seat, described Transmission shaft driving mechanism be connected simultaneously with the left end of the left end of the tooth plate front propeller shaft and tooth plate inter-axle shaft, institute The tooth plate moving adjusting mechanism stated simultaneously with described tooth plate front propeller shaft bearing bracket sliding block and tooth plate inter-axle shaft axle Base supporting sliding block links.

In another specific embodiment of the present utility model, described transmission shaft driving mechanism drives including power transmission shaft Motor, front propeller shaft reduction box, inter-axle shaft reduction box and reduction box transition axis, power transmission shaft motor slow down with front propeller shaft Case transmission coordinates and is supported on by front propeller shaft reduction box together with power transmission shaft motor on front propeller shaft reduction box bearing support, The output shaft of front propeller shaft reduction box first of the front propeller shaft reduction box passes through front propeller shaft reduction box the first output shaft shaft coupling It is connected with the left end of the tooth plate front propeller shaft, the output shaft of front propeller shaft reduction box second of front propeller shaft reduction box passes through The front end of front propeller shaft reduction box the second output shaft shaft coupling and reduction box transition axis is connected, and inter-axle shaft reduction box is right It should be supported in the position of the rear end of reduction box transition axis on inter-axle shaft reduction box bearing support, after the inter-axle shaft reduction box Power transmission shaft reduction box input shaft passes through inter-axle shaft reduction box input shaft shaft coupling and the rear-end transmission of the reduction box transition axis Connection, and the inter-axle shaft reduction gearbox output shaft of inter-axle shaft reduction box passes through inter-axle shaft reduction gearbox output shaft shaft coupling and institute The left end drive connection of tooth plate inter-axle shaft is stated, the left end of described tooth plate front propeller shaft passes through tooth plate front propeller shaft left shaft holder It is supported on the front propeller shaft reduction box bearing support, the left end of described tooth plate inter-axle shaft passes through tooth plate inter-axle shaft left axle Bearing is supported on the inter-axle shaft reduction box bearing support, front propeller shaft reduction box bearing support and inter-axle shaft reduction box branch Bolster and the left end of frame are fixed.

In another specific embodiment of the present utility model, described tooth plate moving adjusting mechanism is drawn including sliding block Motor, sliding block traction drive reduction box, sliding block traction drive sprocket, sliding block traction active chain, sliding block traction driven chain Chain and sliding block traction rear chain, sliding block traction drive motor are with just before wheel, sliding block traction driven chain wheel shaft, sliding block traction The motor of reverse function, the sliding block traction drive motor, which coordinates and drawn by sliding block with the transmission of sliding block traction drive reduction box, to be driven Dynamic reduction box is arranged in the frame, and the sliding block traction drive of sliding block traction drive sprocket and sliding block traction drive reduction box subtracts Fast case axle is fixed, and sliding block traction driven sprocket is fixed on the middle part of sliding block traction driven chain wheel shaft, sliding block traction driven sprocket The front end of axle is rotatably supported on sliding block traction driven chain wheel shaft front support bearing block, and after sliding block traction driven chain wheel shaft End is rotatably supported in sliding block traction driven chain wheel shaft rear trunnion bearing, sliding block traction driven chain wheel shaft front support bearing Seat and sliding block traction driven chain wheel shaft rear trunnion bearing are fixed with the frame, and draw driven chain wheel shaft in sliding block Be fixedly arranged at the front end with one before chain interoperation sprocket wheel, and sliding block traction driven chain wheel shaft rear end be fixed with a rear chain coordinate chain Wheel, one end of sliding block traction active chain are nested with sliding block traction drive sprocket, and the other end is nested with draws driven chain in sliding block On wheel, one end of chain is nested with preceding chain interoperation sprocket wheel before sliding block traction, chain coupling plate before middle part is drawn by sliding block Link with the tooth plate front propeller shaft bearing bracket sliding block towards the side of the tooth plate inter-axle shaft bearing bracket sliding block, It is sliding and the other end of chain is nested with before the sliding block traction being rotatably supported in frame on chain changed course sprocket wheel before sliding block traction One end of block traction rear chain is nested with to be coordinated on sprocket wheel in rear chain, and rear chain web and the tooth are drawn in middle part by sliding block Plate inter-axle shaft bearing bracket sliding block links towards the side of tooth plate front propeller shaft bearing bracket sliding block, and after sliding block traction The other end of chain is nested with the sliding block traction rear chain changed course sprocket wheel being rotatably supported in frame.

In another specific embodiment of the present utility model, described pipe, which folds up mechanism, includes clamp frame, clamp Acting cylinder fixed plate, clamp acting cylinder, upper fixture block sliding seat guide block, upper fixture block sliding seat, upper fixture block and lower fixture block, clamp frame Bottom is fixed on clamp frame cushion block, and clamp frame cushion block is in the left end corresponding to a pair of rose reamer disk-drive motor seat guide rails Position is fixed in the frame, and a chamfering cutterhead resigning chamber is offered on clamp frame, and clamp acting cylinder fixed plate is fixed on The top of clamp frame, clamp acting cylinder are fixed in clamp acting cylinder fixed plate, the clamp acting cylinder court of the clamp acting cylinder Downwards and clamp acting cylinder fixed plate is passed through, upper fixture block sliding seat guide block and the left end end face of clamp acting cylinder fixed plate are consolidated Fixed, the space between the upper fixture block sliding seat guide block and clamp acting cylinder is configured to upper fixture block sliding seat guide groove, and upper fixture block is slided The shape of seat is fixed in the bottom of L-shaped and the upper fixture block sliding seat with clamp acting cylinder, and upper fixture block sliding seat is upper Portion probes into upper fixture block sliding seat guide groove and is slidably matched with upper fixture block sliding seat guide block, upper fixture block and the bottom of upper fixture block sliding seat Fixed towards the side of lower fixture block, the lower fixture block is fixed in the position of the lower section corresponding to upper fixture block and clamp frame, upper fixture block Upper fixture block clamp chamber is corresponding with the lower fixture block clamp chamber of lower fixture block, described chamfering cutterhead resigning chamber and upper and lower fixture block clamp Right side between chamber is corresponding, the left side that described pipe signal picker corresponds between upper and lower fixture block and pipe letter Number collector is optoelectronic switch, and the blank end being slidably matched with a pair of described rose reamer disk-drive motor seat guide rails falls Angle mechanism is corresponding with described chamfering cutterhead resigning chamber.

In an also specific embodiment of the present utility model, described pipe, which holds laying mechanism under the arm, to be included holding pipe support under the arm, holding under the arm Pipe acting cylinder fixed plate, hold under the arm pipe acting cylinder, on hold under the arm block sliding seat guide block, on hold under the arm block sliding seat, on hold under the arm block, under hold block and bottom plate under the arm, The bottom for holding pipe support under the arm is fixed on bottom plate, and the bottom plate is fixed on the bearing plate seat, and one is offered on pipe support is held under the arm and is blown Gas head guide hole, hold pipe acting cylinder fixed plate under the arm and be fixed on the top for holding pipe support under the arm, hold pipe acting cylinder under the arm and be fixed on and hold pipe acting cylinder fixed plate under the arm On, what this held pipe acting cylinder under the arm holds pipe acting cylinder under the arm towards lower and through holding pipe acting cylinder fixed plate under the arm, above holds block sliding seat guide block under the arm Left end end face with holding pipe acting cylinder fixed plate under the arm is fixed, and the space held block sliding seat guide block on this under the arm and held under the arm between pipe acting cylinder is formed Above to hold block sliding seat guide groove under the arm, the shape of block sliding seat is above held under the arm in L-shaped and holds the bottom of block sliding seat on this under the arm and holds pipe work under the arm Fixed with cylinder post, and on hold the top of block sliding seat under the arm and probe into hold under the arm in block sliding seat guide groove and match somebody with somebody with above holding the slip of block sliding seat guide block under the arm Close, above hold block under the arm and above hold under the arm and hold the side of block under the arm under the bottom direction of block sliding seat and fix, hold block under this under the arm corresponding to above holding under the arm under block The position of side is fixed with holding pipe support under the arm, above hold under the arm block on hold block under the arm and hold tube chamber under the arm and held under the arm with and hold block under block under the arm to hold tube chamber under the arm corresponding, it is described to blow Gas head guide hole with it is upper and lower hold under the arm block hold under the arm tube chamber, between right side it is corresponding, described pipe signal discovery device corresponds to upper and lower hold under the arm Left side and the pipe signal discovery device between block are optoelectronic switch, the miscellaneous bits cleaning machine of described pipe chamber and the air blowing Head guide hole is corresponding.

Of the present utility model more and in a specific embodiment, described blank end chamfer mechanism includes rose reamer Disk-drive motor seat, rose reamer disk-drive motor, chamfering cutterhead, bolt and nut and nut displacement motor, in chamfering cutter plate driver Side of the motor cabinet under and respectively it is fixed with the position corresponding to a pair of described rose reamer disk-drive motor seat guide rails A pair of motor cabinet sliding blocks, this is slidably matched to motor cabinet sliding block and a pair of rose reamer disk-drive motor seat guide rails, and chamfering cutterhead drives Dynamic motor is fixed on rose reamer disk-drive motor seat, and chamfering cutterhead is fixed on the chamfering cutter plate driver of rose reamer disk-drive motor On motor shaft and corresponding with described chamfering cutterhead resigning chamber, bolt and nut is fixed on chamfering cutter motor seat under Side, position of the nut displacement motor between the right-hand member corresponding to a pair of rose reamer disk-drive motor seat guide rails are fixed on described Frame on, the nut displacement motor screw rod of the nut displacement motor coordinates with bolt and nut screw thread, and nut displacement motor For the servomotor with positive and negative rotating function.

In an of the present utility model and then specific embodiment, the miscellaneous bits cleaning machine of described pipe chamber includes blowing The left fixed seat of cylinder, the right fixed seat of air blowing cylinder, air blowing cylinder, blow head, blow head stroke limit pin and a pair of position-limit foot arms Screw limited block, the left fixed seat of air blowing cylinder and the right fixed seat of air blowing cylinder are with the state that corresponds to each other on the right side of the bottom plate End, air blowing cylinder are fixed between the left fixed seat of air blowing cylinder and the right fixed seat of air blowing cylinder, the air blowing cylinder of the air blowing cylinder Air inlet leans out the right fixed seat of air blowing cylinder and is connected with compressed air aerogenesis apparatus pipeline, and the air blowing cylinder of air blowing cylinder Gas outlet leans out the left fixed seat of air blowing cylinder and is stretched over the blow head towards described pipe support of holding under the arm, the left end of blow head and leads It is slidably matched in hole and with blow head guide hole, the right-hand member of blow head is consolidated by blow head fixing screws and air blowing cylinder gas outlet Fixed, the middle part of blow head stroke limit pin and the right-hand member of blow head are fixed, and are respectively formed at the both ends of the blow head stroke limit pin Have a position-limit foot arm, screwed a position-limit foot arm screw on position-limit foot arm, a pair of position-limit foot arm screw limited blocks corresponding to The position in the left side of position-limit foot arm is respectively fixed by limited block fixing screws and described pipe support of holding under the arm, described position-limit foot arm screw It is corresponding with the right flank of position-limit foot arm screw limited block.

Of the present utility model and more and in a specific embodiment, described pirn feeding mechanism includes supply bobbin motor, fed Pipe drive sprocket, spiral supply bobbin roller reduction box, supply bobbin driven sprocket, spiral supply bobbin roller, spiral supply bobbin roller transition power transmission shaft, spiral Supply bobbin roller transition reduction box and supply bobbin driving chain, supply bobbin motor is fixed on supply bobbin motor cabinet, and the supply bobbin motor cabinet and institute The rear side left end bottom for stating the long side direction of frame is fixed, and supply bobbin drive sprocket is fixed on the supply bobbin motor shaft of supply bobbin motor, Spiral supply bobbin roller reduction box is fixed in frame in the position of the top corresponding to supply bobbin motor, and supply bobbin driven sprocket is fed with spiral The spiral supply bobbin roller reduction box power input shaft of pipe roller reduction box is fixed, and spiral supply bobbin roller conveys towards described step-by-step movement pipe Mechanism and fixed with horizontal boom state and spiral supply bobbin roller the first output shaft of reduction box of spiral supply bobbin roller reduction box, and spiral shell Revolve supply bobbin roller reduction box spiral the second output shaft of supply bobbin roller reduction box by spiral supply bobbin roller reduction gearbox output shaft shaft coupling with The left end drive connection of spiral supply bobbin roller transition power transmission shaft, the right-hand member of the spiral supply bobbin roller transition power transmission shaft pass through transition power transmission shaft The spiral supply bobbin roller transition reduction box input shaft of shaft coupling and spiral supply bobbin roller transition reduction box is connected, in the spiral supply bobbin Equally it is fixed with spiral supply bobbin roller transition the first output shaft of reduction box of roller transition reduction box with horizontal boom state described in one Spiral supply bobbin roller, and spiral supply bobbin the second output shaft of roller transition reduction box of spiral supply bobbin roller transition reduction box and another spiral Supply bobbin roller transition transmission shaft driven is connected, and the lower end of supply bobbin driving chain is nested with supply bobbin drive sprocket, and supply bobbin driving-chain The upper end of bar is nested with supply bobbin driven sprocket, and being equipped with one between the rear side and the pipe storage bed of the frame send pipe Platform.

It is of the present utility model and and then a specific embodiment in, the height for sending pipe platform is less than described pipe Base storage bed, sent at this on pipe platform and the resigning of spiral supply bobbin roller is offered in the position corresponding to the spiral supply bobbin roller Chamber, the upper plane of spiral supply bobbin roller lean out the upper surface for sending pipe platform.

One of technique effect of technical scheme provided by the utility model, due to folding up mechanism by pipe and pipe is held under the arm and put Heat-exchange tube pipe is automatically positioned by mechanism, without being held by hand by online worker, thus helps significantly to mitigate the labor of worker Fatigue resistance；Two, due to blank end chamfer mechanism to blank end implement chamfering during by pipe chamber it is miscellaneous bits remove Mechanism is removed the miscellaneous bits of the metal of pipe intracavitary in a manner of relay, thus is advantageous to improve efficiency, meets industrial amplification production It is required that；Three, because the chamfering to heat-exchange tube blank end and the cleaning to tube chamber are taken on by machinery, thus can avoid by The influence of human factor, it is beneficial for ensuring that the uniformity of quality；Four, due to human input can be reduced, thus have and be easy to save Valuable human resources.

Brief description of the drawings

Fig. 1 is embodiment schematic diagram of the present utility model.

Fig. 2 is the stepped pipe blank conveying mechanism shown in Fig. 1, pipe folds up mechanism, pipe holds laying mechanism under the arm, blank end falls The detailed structure view of the miscellaneous bits cleaning machine of angle mechanism, pipe chamber and pipe storage bed.

Fig. 3 is transmission shaft driving mechanism shown in Fig. 1, the detailed construction of tooth plate moving adjusting mechanism and pirn feeding mechanism Figure.

Fig. 4 is that the pipe shown in Fig. 2 and Fig. 3 conveys the pipe transfer tooth plate of tooth plate group and pipe supports the front end of tooth plate The schematic diagram being engaged with tooth plate front propeller shaft bearing bracket.

Fig. 5 is the detailed structure view of the chamfering cutterhead of the blank end chamfer mechanism shown in Fig. 1 and Fig. 2.

Embodiment

In order to which the technical essence of the utility model and beneficial effect is more clearly understood, applicant is below with reality The mode for applying example elaborates, but the description to embodiment is not the limitation to the utility model, any foundation The made only formal rather than substantial equivalent transformation of the utility model design is regarded as of the present utility model Technical scheme category.

The concept of the every directionality for being related to upper, lower, left, right, front and rear or directionality is all in the following description On the basis of the location of Fig. 1 states, thus the spy to technical scheme provided by the utility model can not be understood as Do not limit.

Refer to Fig. 1 and combine Fig. 2 and Fig. 3, show a frame 1, the frame 1 is in fiame-like construction, is using shape State lower support is in heat-exchange tube pipe 20（Fig. 2 shows）On the terrace in chamfering place, and it is parallel in the forward upper of the frame 1 One frame fromer rail 11 is fixed with using frame fromer rail screw 111 in the long side direction of frame 1, and on the rear side of frame 1 The long side direction that portion is equally parallel to frame 1 is fixed with a frame rear rail 12, the frame using frame rear rail screw 121 Forward and backward guide rail 11,12 is parallel；A stepped pipe blank conveying mechanism 2 is shown, the stepped pipe blank conveying mechanism 2 is simultaneously It is slidably matched with foregoing frame fromer rail 11 and frame rear rail 12；Show that one is used to drive foregoing step-by-step movement pipe to convey The transmission shaft driving mechanism 3 that mechanism 2 acts, the transmission shaft driving mechanism 3 are arranged on the left end and and step-by-step movement of foregoing frame 1 Pipe conveying mechanism 2 is connected；Show that one is used for before driving foregoing stepped pipe blank conveying mechanism 2 to follow foregoing frame The tooth plate moving adjusting mechanism 4 that guide rail 11 and frame rear rail 12 move left and right, the tooth plate moving adjusting mechanism 4 corresponding to The position on the right side of aforementioned drive axle drive mechanism 3 is arranged in foregoing frame 1 and connected with stepped pipe blank conveying mechanism 2 Knot；Show that a pipe folds up mechanism 5（Fig. 2 shows）Laying mechanism 6 is held under the arm with a pipe, and pipe folds up mechanism 5 and is arranged on foregoing frame 1 Right-hand member top rear side, Er Guan Pi hold under the arm laying mechanism 6 be arranged on frame 1 right-hand member top front side and fold up mechanism with pipe 5 front side is corresponding；A blank end chamfer mechanism 7 is shown, the blank end chamfer mechanism 7 presss from both sides corresponding to foregoing pipe The position on the right side of laying mechanism 5 is movably arranged at the top of foregoing frame 1；The miscellaneous bits cleaning machine 8 of one pipe chamber, the pipe chamber Miscellaneous bits cleaning machine 8 is arranged on the top of frame 1 and and pipe in the position on the right side for holding laying mechanism 6 under the arm corresponding to foregoing pipe Laying mechanism 6 is held under the arm to be engaged；Show that one is used to that foregoing stepping will to be fed for up for the i.e. foregoing heat-exchange tube pipe of the pipe of chamfering The pirn feeding mechanism 9 of formula pipe conveying mechanism 2, the pirn feeding mechanism 9 is in the position of the rear side corresponding to stepped pipe blank conveying mechanism 2 It is arranged in foregoing frame 1；A pipe storage bed 10 is shown, the pipe storage bed 10 is corresponding to foregoing pirn feeding mechanism 9 The position of rear side is arranged on the terrace in heat-exchange tube pipe chamfering place.

Refer to Fig. 2 to Fig. 4 and combine Fig. 1, foregoing stepped pipe blank conveying mechanism 2 includes tooth plate front propeller shaft 21st, tooth plate inter-axle shaft 22 and pipe conveying tooth plate group 23, the left end of tooth plate front propeller shaft 21 is rotatably supported at foregoing frame 1 Left end, the middle part of tooth plate front propeller shaft 21 and right-hand member pass through tooth plate front propeller shaft supporting shaft holder 213 and rotate twelve Earthly Branches respectively Hold on tooth plate front propeller shaft bearing bracket 211, the tooth plate front propeller shaft bearing bracket 211 passes through tooth plate front propeller shaft axle Base supporting screw 2112 is fixed on tooth plate front propeller shaft bearing bracket sliding block 2111, and the tooth plate front propeller shaft bearing block Bracket slide 2111 is slidably matched with described frame fromer rail 11, and tooth plate inter-axle shaft 22 is parallel with tooth plate front propeller shaft 21, The left end of the tooth plate inter-axle shaft 22 is rotatably supported at the left end of frame 1, the middle part of tooth plate inter-axle shaft 22 and right-hand member point Do not pass through tooth plate inter-axle shaft supporting shaft holder 223（Fig. 2 shows）It is rotatably supported at tooth plate inter-axle shaft bearing bracket 221 On, after the tooth plate inter-axle shaft bearing bracket 221 is fixed on tooth plate by tooth plate inter-axle shaft bearing bracket screw 2212 On transmission shafts base supporting sliding block 2211, and the tooth plate inter-axle shaft bearing bracket sliding block 2211 and foregoing frame rear rail 12 are slidably matched, quantity and the tooth plate front propeller shaft bearing bracket sliding block of tooth plate inter-axle shaft bearing bracket sliding block 2211 2111 quantity is equal and position is corresponding, in this embodiment, the forward and backward transmission shafts base supporting sliding block 2111 of tooth plate, 2211 be respectively three, but is not exposed to the limitation of the quantity.The quantity and tooth plate front propeller shaft bearing of pipe conveying tooth plate group 23 The quantity of seat support sliding block 2111 is equal to have three, but is not limited by the quantity, such as increases the forward and backward biography of foregoing tooth plate The quantity of moving axis bearing bracket 2111,2211 then accordingly increases the quantity of pipe conveying tooth plate group 23.In Fig. 2 and Fig. 4 also Before showing the tooth plate for fixing foregoing tooth plate front propeller shaft supporting shaft holder 213 and tooth plate front propeller shaft bearing bracket 211 Cardan-shaft suspension bearing block fixing screws 2131, and by foregoing tooth plate inter-axle shaft supporting shaft holder 223 with being driven after tooth plate The tooth plate inter-axle shaft supporting shaft holder fixing screws 2231 that bearing housing support 221 is fixed.

Emphasis is shown in Fig. 2 and Fig. 4, and foregoing pipe conveying tooth plate group 23 includes pipe transfer tooth plate 231 and one pipe supporting Tooth plate 232, pass through eccentric disc bearing 23112 in the front-end and back-end of pipe transfer tooth plate 231（Fig. 4 shows）It is each provided with a pipe Tooth plate eccentric disc 2311 is shifted, eccentric disc axis hole 23111 is offered on pipe transfer tooth plate eccentric disc 2311, positioned at pipe Shift 2311 and tooth plate corresponding with foregoing tooth plate front propeller shaft 21 of pipe transfer tooth plate eccentric disc of the front end of tooth plate 231 Front propeller shaft 21 passes through foregoing eccentric disc axis hole 23111, and the pipe after pipe transfer tooth plate 231 shifts tooth plate eccentric disc 2311 is corresponding with foregoing tooth plate inter-axle shaft 22 and the tooth plate inter-axle shaft 22 passes through foregoing eccentric disc axis hole 23111, in front-end and back-end of pipe supporting tooth plate 232 and each in the position that tooth plate eccentric disc 2311 is shifted corresponding to pipe A pipe support teeth board shaft bearing 2321 is equipped with, the pipe support teeth board shaft bearing positioned at the front end of pipe supporting tooth plate 232 2321 are fixed by pipe support teeth board shaft bearing fixing screws 23211 with foregoing tooth plate front propeller shaft bearing bracket 211, Pipe support teeth board shaft bearing 2321 positioned at the rear end of pipe supporting tooth plate 232 is consolidated again by pipe support teeth board shaft bearing Determine screw 23211 to fix with foregoing tooth plate inter-axle shaft bearing bracket 221, after foregoing tooth plate front propeller shaft 21 and tooth plate Power transmission shaft 22 is through the pipe support teeth that pipe support teeth board shaft bearing 2321 is rotatably supported at after eccentric disc axis hole 23111 In board shaft bearing hole 23212.It also show in Fig. 4 for limiting foregoing pipe support teeth board shaft bearing fixing screws 23211 Fixed pipe support teeth board shaft bearing fixing screws limit nut 23213.

In foregoing pipe conveying tooth plate group 23, in the pipe support teeth of the pipe conveying tooth plate group 23 in right-hand member The right side of plate 232 and a pipe signal picker 233 is provided with the position that mechanism 5 is folded up corresponding to foregoing pipe, and The position for holding laying mechanism 6 under the arm corresponding to foregoing pipe is provided with a pipe signal discovery device 234, in foregoing frame 1 and The position that the right side of mechanism 5 is folded up corresponding to pipe is provided with a pair of rose reamer disk-drive motor seat guide rails 13, and blank end falls Angle mechanism 7 is slidably matched with this to rose reamer disk-drive motor seat guide rail 13, is held under the arm in foregoing frame 1 and corresponding to pipe The position of laying mechanism 6 and the miscellaneous bits cleaning machine 8 of foregoing pipe chamber is provided with a bearing plate seat 14, pipe hold under the arm laying mechanism 6 with And pipe chamber it is miscellaneous bits cleaning machine 8 be arranged on the bearing plate seat 14, foregoing transmission shaft driving mechanism 3 simultaneously with foregoing tooth The left end drive connection of the left end and tooth plate inter-axle shaft 22 of plate front propeller shaft 21, foregoing tooth plate moving adjusting mechanism 4 are same When connect with foregoing tooth plate front propeller shaft bearing bracket sliding block 2111 and tooth plate inter-axle shaft bearing bracket sliding block 2211 Knot.

As preferable scheme, as shown in Figure 4, on foregoing pipe transfer tooth plate 231 and corresponding to foregoing pipe Shift the both sides of tooth plate eccentric disc 2311（Left and right sides）Position respectively using bearing cap screw 23131 corresponding to being preset in pipe The position of bearing cap screw hole 2314 on transfer tooth plate 231 is each to fix an eccentric disc bearing cap 2313, by the eccentric disc bearing Lid 2313 avoids eccentric disc bearing 23112 from escaping and shifts tooth plate 231 in pipe to the control of eccentric disc bearing 23112.In eccentric disc An eccentric disc bearing cap power transmission shaft is offered on bearing cap 2313 and in the position corresponding to foregoing eccentric disc axis hole 23111 to allow Position hole 23132, foregoing tooth plate front propeller shaft 21 and tooth plate inter-axle shaft 22 are stepped down through the eccentric disc bearing cap power transmission shaft Hole 23132.

Fig. 2 to Fig. 4 in the above-mentioned explanation to stepped pipe blank conveying mechanism 2 and is combined by applicant：It is foregoing Tooth plate front propeller shaft 21 and the shape of cross section of tooth plate inter-axle shaft 22 be in hexagon, with this adaptably, foregoing is inclined Cartridge axis hole 23111 is hex hole.

Please emphasis is shown in Fig. 3 and combines Fig. 1 and Fig. 2, foregoing transmission shaft driving mechanism 3 includes power transmission shaft motor 31st, front propeller shaft reduction box 32, inter-axle shaft reduction box 33 and reduction box transition axis 34, power transmission shaft motor 31 and driving front The transmission of axle reduction box 32, which coordinates and is supported on front propeller shaft together with power transmission shaft motor 31 by front propeller shaft reduction box 32, to be subtracted On fast case bearing support 35, the first output shaft of front propeller shaft reduction box 321 of the front propeller shaft reduction box 32 is subtracted by front propeller shaft The left end of fast the first output shaft of case shaft coupling 3211 and foregoing tooth plate front propeller shaft 21 is connected, front propeller shaft reduction box 32 The second output shaft of front propeller shaft reduction box 322 passes through the second output shaft of front propeller shaft reduction box shaft coupling 3221 and reduction box transition The front end drive connection of axle 34, inter-axle shaft reduction box 33 corresponding to the position of the rear end of reduction box transition axis 34 after being supported on On power transmission shaft reduction box bearing support 36, the inter-axle shaft reduction box input shaft 331 of the inter-axle shaft reduction box 33 passes through rear transmission Axle reduction box input shaft shaft coupling 3311 is connected with the rear-end transmission of foregoing reduction box transition axis 34, and inter-axle shaft reduction box 33 Inter-axle shaft reduction gearbox output shaft 332 pass through inter-axle shaft reduction gearbox output shaft shaft coupling 3321 and foregoing tooth plate inter-axle shaft 22 left end drive connection, the left end of foregoing tooth plate front propeller shaft 21 are supported on by tooth plate front propeller shaft left shaft holder 212 On foregoing front propeller shaft reduction box bearing support 35, the left end of foregoing tooth plate inter-axle shaft 22 passes through tooth plate inter-axle shaft left bearing Seat 222 is supported on foregoing inter-axle shaft reduction box bearing support 36, and front propeller shaft reduction box bearing support 35 and inter-axle shaft subtract Fast case bearing support 36 and the left end of frame 1 are fixed.Also show in figure corresponding to front propeller shaft reduction box bearing support 35 and The bearing support block 16 that the right side of inter-axle shaft reduction box bearing support 36 is fixed in frame 1（Also " bearing support reinforcement can be claimed Block "）.

When the power transmission shaft motor 31 for being controlled by electric control box works, forward pass is driven by power transmission shaft motor 31 Moving axis reduction box 32, the first output shaft of front propeller shaft reduction box 321 through the front propeller shaft reduction box 32 are subtracted by front propeller shaft Fast the first output shaft of case shaft coupling 3211 drives the front propeller shaft 21 of the structural system of stepped pipe blank conveying mechanism 2, same with this When the output shaft of front propeller shaft reduction box second passed through by the second output shaft of front propeller shaft reduction box 322 of front propeller shaft reduction box 32 Shaft coupling 3221 drives reduction box transition axis 34, because the inter-axle shaft reduction box input shaft 331 of inter-axle shaft reduction box 33 is logical Later power transmission shaft reduction box input shaft shaft coupling 3311 is connected with reduction box transition axis 34, thus by inter-axle shaft reduction box 33 inter-axle shaft reduction gearbox output shaft 332 drives inter-axle shaft 22 by inter-axle shaft reduction gearbox output shaft shaft coupling 3321. In the case where front propeller shaft 21 and inter-axle shaft 22 are in running order, the pipe transfer being located on pipe transfer tooth plate 231 is driven Tooth plate eccentric disc 2311, so that pipe transfer tooth plate 231 moves., will by it during pipe transfer tooth plate 231 moves Supported in a stepwise manner in a manner of relay from pipe up for the heat-exchange tube pipe 20 for the chamfering of blank end chamfer mechanism 7 The front end that the rear end of tooth plate 232 supports tooth plate 232 to pipe transports（Transfer）.Pipe transfer tooth plate eccentric disc 2311 often rotates one Circle, heat-exchange tube pipe 20 is just from the pipe transfer tooth plate chamber 2315 being formed on pipe transfer tooth plate 231 to adjacent pipe Transfer tooth plate chamber 2315 shifts.Specifically, when pipe transfer tooth plate 231 is in low level, heat-exchange tube pipe 20 is shelved In the pipe supporting tooth plate chamber 2323 of pipe supporting tooth plate 232, and when pipe transfer tooth plate 231 is in high-order, then heat is handed over Change pipe pipe 20 to hold up, heat-exchange tube pipe 20 is supported tooth plate to next pipe from previous pipe supporting tooth plate chamber 2323 Chamber 2323 shifts, until making to be moved away from frame 1 by the heat-exchange tube pipe 20 that the miscellaneous bits cleaning machine 8 of pipe chamber completes cleaning, supplies Next station such as washing station cleans.

Still see Fig. 3 and combine Fig. 1 and Fig. 2, foregoing tooth plate moving adjusting mechanism 4 includes sliding block traction drive motor 41st, sliding block traction drive reduction box 42, sliding block traction drive sprocket 43, sliding block traction active chain 44, sliding block traction driven chain Chain 47 and sliding block traction rear chain 48, sliding block traction drive motor before wheel 45, sliding block traction driven chain wheel shaft 46, sliding block traction 41 be the motor with positive and negative rotating function, and the sliding block traction drive motor 41 is matched somebody with somebody with the transmission of sliding block traction drive reduction box 42 and merged And be arranged on by sliding block traction drive reduction box 42 in foregoing frame 1, sliding block traction drive sprocket 43 subtracts with sliding block traction drive The sliding block traction drive speed reduction box shaft 421 of fast case 42 is fixed, and sliding block traction driven sprocket 45 is fixed on sliding block traction driven sprocket The middle part of axle 46, the front end of sliding block traction driven chain wheel shaft 46 are rotatably supported at sliding block traction driven chain wheel shaft front support axle In bearing 461, and sliding block is supported on sliding block traction driven chain wheel shaft rear trunnion with drawing the rear end thereof of driven chain wheel shaft 46 In bearing 462, sliding block traction driven chain wheel shaft front support bearing block 461 and sliding block traction driven chain wheel shaft rear trunnion are held Seat 462 is fixed with foregoing frame 1, and sliding block traction driven chain wheel shaft 46 be fixedly arranged at the front end with one before chain interoperation chain Wheel 463, and a rear chain is fixed with the rear end of sliding block traction driven chain wheel shaft 46 and coordinates sprocket wheel 464, sliding block traction drive chain One end of bar 44（The lower end of diagram）It is nested with sliding block traction drive sprocket 43, the other end（The upper end of diagram）It is nested with sliding block Draw on driven sprocket 45, one end of chain 47 before sliding block traction（The left end of diagram）It is nested with preceding chain interoperation sprocket wheel 463, Chain coupling plate before middle part is drawn by sliding block（Not shown in figure）With foregoing tooth plate front propeller shaft bearing bracket sliding block 2111 Towards foregoing tooth plate inter-axle shaft bearing bracket sliding block 2211 side link, and sliding block traction before chain 47 the other end （The right-hand member of diagram）It is nested with the chain changed course sprocket wheel before the sliding block traction being rotatably supported in frame 1（Not shown in figure）On, Sliding block draws one end of rear chain 48（The left end of diagram）It is nested with and coordinates in rear chain on sprocket wheel 464, middle part is drawn by sliding block Rear chain web 481 and foregoing tooth plate inter-axle shaft bearing bracket sliding block 2211 are towards tooth plate front propeller shaft bearing bracket The side of sliding block 2111 links, and the other end of sliding block traction rear chain 48（The right-hand member of diagram）It is nested with and is being rotatably supported at machine On sliding block traction rear chain changed course sprocket wheel 482 on frame 1.

Applicant it should be noted that：Although chain changed course sprocket wheel before the traction of foregoing sliding block, reflects not shown in figure Chain changed course sprocket wheel is equal with sliding block traction rear chain changed course sprocket wheel 481 before sliding block traction, thus will not be understood this reality Puzzled with new generation；Same reason, although chain coupling plate before sliding block traction foregoing not shown in figure, in view of should Chain coupling plate is equal to sliding block traction rear chain web 481 before sliding block traction, thus will not also be understood the utility model Produce puzzlement.

When the sliding block traction drive motor 41 for being controlled by electric control box works, by the band of sliding block traction drive motor 41 Movable slider traction drive reduction box 42, slowed down by sliding block traction drive reduction box 42 and by its sliding block traction drive speed reduction box shaft 421 band movable slider traction drive sprockets 43, draw active chain 44 through sliding block and draw driven sprocket 45 with movable slider, due to the cunning Block traction driven sprocket 45 is fixed on the middle part of sliding block traction driven chain wheel shaft 46, thus makes cunning by sliding block traction driven sprocket 45 Block traction driven chain wheel shaft 46 rotates, by the preceding band of chain interoperation sprocket wheel 463 for being fixed on the front end of sliding block traction driven chain wheel shaft 46 Movable slider traction before chain 47, due to sliding block draw before chain 47 middle part drawn by sliding block before chain coupling plate with it is foregoing Tooth plate front propeller shaft bearing bracket sliding block 2111 links, thus before being drawn by sliding block chain 47 with moving tooth plate front propeller shaft bearing Seat support sliding block 2111 follows foregoing frame fromer rail 11 and slided.At the same time by being fixed on sliding block traction driven chain wheel shaft 46 after The rear chain at end coordinates sprocket wheel 464 to draw rear chain 48 with movable slider, because the middle part of sliding block traction rear chain 48 passes through sliding block Traction rear chain web 481 links with foregoing tooth plate inter-axle shaft bearing bracket sliding block 2211, thus is drawn by sliding block Rear chain 48 follows foregoing frame rear rail 12 with moving tooth plate inter-axle shaft bearing bracket sliding block 2211 and slided.In aforementioned process In, by the forward and backward transmission shafts base supporting sliding block 2111,2211 of tooth plate respectively with the forward and backward transmission shafts base supporting of moving tooth plate 211st, 221, so that the pipe transfer tooth plate 231 and pipe support teeth of the structural system of foregoing pipe conveying tooth plate group 23 Plate 232 follows the forward and backward power transmission shaft 21 of tooth plate, 22 displacements respectively, is adjusted with the adaptability of the heat-exchange tube pipe 20 to different length It is whole, such as change pipe conveying tooth plate group 23 in right-hand member and pipe folds up mechanism 5 and pipe is held under the arm between laying mechanism 6 Distance.The forward and backward transmission shafts base supporting sliding block 2111 of foregoing tooth plate, 2211 leftward or rightward displacements are drawn depending on sliding block The working condition clockwise or counterclockwise of motor 41.

Please emphasis see Fig. 2, foregoing pipe, which folds up mechanism 5 and includes clamp frame 51, clamp acting cylinder fixed plate 52, clamp, to be made Consolidated with cylinder 53, upper fixture block sliding seat guide block 54, upper fixture block sliding seat 55, upper fixture block 56 and lower fixture block 57, the bottom of clamp frame 51 It is scheduled on clamp frame cushion block 511, and clamp frame cushion block 511 is in the left end corresponding to a pair of rose reamer disk-drive motor seat guide rails 13 Position be fixed in foregoing frame 1, a chamfering cutterhead resigning chamber 512 is offered on clamp frame 51, clamp acting cylinder is fixed Plate 52 is fixed by screws in the top of clamp frame 51, and clamp acting cylinder 53 is fixed in clamp acting cylinder fixed plate 52, the folder The clamp acting cylinder 531 of pipe acting cylinder 53 is towards lower and pass through clamp acting cylinder fixed plate 52, upper fixture block sliding seat guide block 54 are fixed by upper fixture block sliding seat guide block screw 542 and the left end end face of clamp acting cylinder fixed plate 52, and the upper fixture block is slided Space between seat guide block 54 and clamp acting cylinder 53 is configured to upper fixture block sliding seat guide groove 541, the shape of upper fixture block sliding seat 55 Shape is fixed in the bottom of L-shaped and the upper fixture block sliding seat 55 by screw and clamp acting cylinder 531, and upper fixture block is slided The top of seat 55 probes into upper fixture block sliding seat guide groove 541 and is slidably matched with upper fixture block sliding seat guide block 54, and upper fixture block 56 passes through The bottom of upper fixture block screw 562 and upper fixture block sliding seat 55 is fixed towards the side of lower fixture block 57, the lower fixture block 57 corresponding to The position of the lower section of upper fixture block 56 is fixed by lower fixture block screw 572 and clamp frame 51, the upper fixture block clamp chamber 561 of upper fixture block 56 It is corresponding with the lower fixture block clamp chamber 571 of lower fixture block 57, foregoing chamfering cutterhead resigning chamber 512 and upper and lower fixture block clamp chamber 561st, the right side between 571 is corresponding, the left side that foregoing pipe signal picker 233 corresponds between upper and lower fixture block 56,57 And the pipe signal picker 233 is optoelectronic switch, slides and match somebody with somebody with a pair of foregoing rose reamer disk-drive motor seat guide rails 13 The foregoing blank end chamfer mechanism 7 closed is corresponding with foregoing chamfering cutterhead resigning chamber 512.

In the present embodiment, foregoing clamp acting cylinder 53 is cylinder, but if for evading mesh of the present utility model And replace cylinder with oil cylinder, then should be regarded as equivalent and still belong to technical connotation category disclosed in the utility model.

The pipe guide plate 17 that the position that also show in fig. 2 corresponding to the rear side of clamp frame 51 is fixed in frame 1, The end for coming from the heat-exchange tube pipe 20 of pipe storage bed 10 is limited by the pipe guide plate 17, that is to say, that heat is handed over The end of pipe pipe 20 is changed by neatization of pipe guide plate 17, to ensure to enter what is be collectively forming by upper and lower fixture block chamber 561,571 The uniformity of the degree of intracavitary.

When the heat-exchange tube pipe 20 that the pirn feeding mechanism 9 by describing in further detail below will come from pipe storage bed 10 When being fed to stepped pipe blank conveying mechanism 2 and corresponding between upper and lower fixture block 56,57, letter is gathered by pipe signal picker 233 Number and signal is fed back into electric control box, by electric control box send instruction and clamp acting cylinder 53 is worked, clamp effect The clamp acting cylinder 531 of cylinder 53 stretches to outside cylinder body（That is stretching, extension downwards）, drive upper fixture block sliding seat 55 descending, by upper fixture block Sliding seat 55 drives upper fixture block 56 downwards i.e. towards the direction displacement of lower fixture block 57, heat-exchange tube pipe 20 to be clamped, clamped End under state by the blank end chamfer mechanism 7 that describes in further detail below to heat-exchange tube pipe 20（Port position）It is real Apply chamfer machining, after the completion of chamfer machining, the reverse operation of clamp acting cylinder 53, upper fixture block 56 is opened relative to the reprimand of lower fixture block 57, The heat-exchange tube pipe 20 for completing chamfering is considered to be worth doing cleaning machine 8 under the work of stepped pipe blank conveying mechanism 2 to pipe chamber is miscellaneous The station transfer at place.

Foregoing pipe hold under the arm laying mechanism 6 include hold under the arm pipe support 61, hold under the arm pipe acting cylinder fixed plate 62, hold under the arm pipe acting cylinder 63, on hold under the arm Block sliding seat guide block 64, on hold under the arm block sliding seat 65, on hold under the arm block 66, under hold block 67 and bottom plate 68 under the arm, the bottom for holding pipe support 61 under the arm is fixed on On bottom plate 68, and the bottom plate 68 is fixed in bottom plate fulcrum bearing 14, and a blow head guide hole is offered on pipe support 61 is held under the arm 611, hold pipe acting cylinder fixed plate 62 under the arm and fix plate bolt 621 and be fixed on by holding pipe acting cylinder under the arm and hold the top of pipe support 61 under the arm, hold pipe work under the arm It is fixed on and is held under the arm in pipe acting cylinder fixed plate 62 with cylinder 63, what this held pipe acting cylinder 63 under the arm holds pipe acting cylinder 631 under the arm towards lower and wear Cross and hold pipe acting cylinder fixed plate 62 under the arm, above hold block sliding seat guide block 64 under the arm and acted on by above holding block sliding seat guide block screw 642 under the arm and holding pipe under the arm The left end end face of cylinder fixed plate 62 is fixed, and holds block sliding seat guide block 64 on this under the arm and on the space held under the arm between pipe acting cylinder 63 is configured to Hold block sliding seat guide groove 641 under the arm, above hold the shape of block sliding seat 65 under the arm in L-shaped and hold the bottom of block sliding seat 65 on this under the arm and pass through spiral shell Pipe acting cylinder 631 is followed closely and holds under the arm to fix, and on hold the top of block sliding seat 65 under the arm and probe into and hold under the arm in block sliding seat guide groove 641 with above holding under the arm Block sliding seat guide block 64 is slidably matched, and above holds block 66 under the arm by above holding block screw 662 under the arm with above holding the bottom of block sliding seat 65 under the arm under The side for holding block 67 under the arm is fixed, and is held block 67 under this under the arm and is being held block screw 672 under the arm with holding under the arm under corresponding to the position for the lower section for above holding block 66 under the arm Pipe support 61 is fixed, above hold under the arm block 66 on hold block under the arm and hold tube chamber 661 under the arm and held under the arm with and hold block under block 67 under the arm to hold tube chamber 671 under the arm corresponding, it is foregoing to blow Gas head guide hole 611 holds that the right side that block held under the arm between tube chamber 661,671 is corresponding, and foregoing pipe signal discovery device 234 is right under the arm with upper and lower Should be optoelectronic switch in the upper and lower left side held under the arm between block 66,67 and the pipe signal discovery device 234, foregoing pipe chamber is miscellaneous It is corresponding with foregoing blow head guide hole 611 to consider cleaning machine 8 to be worth doing.

In the present embodiment, foregoing pipe acting cylinder 63 of holding under the arm is cylinder, but if for evading mesh of the present utility model And replace cylinder with oil cylinder, then such as the explanation to foregoing clamp acting cylinder 53.

When the heat-exchange tube pipe that chamfering is completed by stepped pipe blank conveying mechanism 2 is transferred to block is held under the arm corresponding to upper and lower When the 66th, between 67, signal is found out by pipe signal discovery device 234 and signal is fed back into electric control box, by electric control box Send instruction and make to hold pipe acting cylinder 63 under the arm and work, because detailed process to the course of work of clamp acting cylinder 53 with duplicating above, Thus applicant repeats no more.It should be noted that：Only after the completion of the removing work of the miscellaneous bits cleaning machine 8 of pipe chamber, folder The ability reverse operation of pipe acting cylinder 63.

Please continue to refer to Fig. 2, foregoing blank end chamfer mechanism 7 includes rose reamer disk-drive motor seat 71, chamfering cutterhead Motor 72, chamfering cutterhead 73, bolt and nut 74 and nut displacement motor 75, in rose reamer disk-drive motor seat 71 under Side and be respectively fixed with a pair of motor cabinets in the position corresponding to a pair of foregoing rose reamer disk-drive motor seat guide rails 13 Sliding block 711, this is slidably matched to motor cabinet sliding block 711 and a pair of rose reamer disk-drive motor seat guide rails 13, chamfering cutter plate driver Motor 72 is fixed on rose reamer disk-drive motor seat 71, and chamfering cutterhead 73 is fixed on the rose reamer of rose reamer disk-drive motor 72 It is on disk-drive motor axle 721 and corresponding with foregoing chamfering cutterhead resigning chamber 512（Below it may also be noticed that）, bolt and nut 74 71 side under of chamfering cutter motor seat is fixed on, nut displacement motor 75 is corresponding to a pair of rose reamer disk-drive motors Position between the right-hand member of seat guide rail 13 is fixed in foregoing frame 1, the nut displacement motor spiral shell of the nut displacement motor 75 Bar 751 coordinates with the screw thread of bolt and nut 74, and nut displacement motor 75 is the servomotor with positive and negative rotating function.

Refer to Fig. 5 and combine Fig. 2, foregoing chamfering cutterhead 73 is by a pair of chamfering cutterhead fixing screws 731 with falling Angle cutter plate driver motor shaft 721 is fixed, and is passed through in the side of chamfering cutterhead 73 towards foregoing chamfering cutterhead resigning chamber 512 in one pair Chamfering blade fixing screws 7321 are fixed with chamfering blade 732 in one and consolidated by an external chamfering blade fixing screws 7331 Surely there is an outer chamfering blade 733.It also show to be formed on chamfering cutterhead 73 in Figure 5 and supply chamfering blade 732 in fixed Interior chamfering blade lock chamber 734 and the outer chamfering blade fixing groove 735 for fixed outer chamfering blade 733.

The upper and lower fixture block 56,57 that the structural system of mechanism 5 is folded up in foregoing pipe presss from both sides the end of heat-exchange tube pipe 20 In the state of, the nut displacement motor 75 for being controlled by electric control box works, by the nut displacement of the nut displacement motor 75 Motor screw 751（Equivalent to motor shaft）Bolt and nut 74 is driven, rose reamer disk-drive motor seat 71 is driven by bolt and nut 74 Direction displacement of a pair of rose reamer disk-drive motor seat guide rails 13 towards clamp frame 51 is follow by motor cabinet sliding block 71, due to falling Angle cutter plate driver motor 72 is fixed on rose reamer disk-drive motor seat 71, thus rose reamer disk-drive motor 72 is in company with rose reamer Disk-drive motor seat 71 is towards the direction displacement of clamp frame 51, the rose reamer being now fixed on rose reamer disk-drive motor axle 721 Disk 73 is by way of chamfering cutterhead resigning chamber 512 and the ends contact of heat-exchange tube pipe 20, specifically, foregoing interior chamfering blade 732 contact with the port inner wall of heat-exchange tube pipe 20, and the port outer wall of outer chamfering blade 733 and heat-exchange tube pipe 20 connects Touch.Now in the case where being controlled by the work of rose reamer disk-drive motor 72 of electric control box, by rose reamer disk-drive motor axle 721 Chamfering cutterhead 73 is driven to rotate, so as to be handed over by the blade of interior chamfering blade 732 and the blade of outer chamfering blade 733 in heat Change on the inside and outside wall in port of pipe pipe 20 and form chamfering.After the completion of chamfering, rose reamer disk-drive motor 72 is stopped, simultaneously The reverse operation of nut displacement motor 75, chamfering cutterhead 73 is exited chamfering cutterhead resigning chamber 512 by foregoing contrary principles, then press from both sides The reverse operation of pipe acting cylinder 53 and upper fixture block 56 is released the state of clamping to heat-exchange tube pipe 20, it is and defeated by step-by-step movement pipe Mechanism 2 is sent to shift.When what the next heat-exchange tube pipe 20 up for chamfering was in up and down fixture block 56,57 clamps state When, then chamfering is carried out by inside and outside chamfering blade 732,733 by foregoing repetitive process.Under normal circumstances only to heat-exchange tube pipe Chamfering inside and outside one end end face area progress of base.

Continue to see Fig. 2, can be in heat after completing the chamfering to heat-exchange tube pipe 20 due to blank end chamfer mechanism 7 The tube chamber for exchanging pipe pipe 20 leaves the miscellaneous bits of metal, and therefore, the utility model recommends have the miscellaneous bits cleaning machine 8 of tube chamber, the pipe The structure that is preferred rather than being definitely limited to of the miscellaneous bits cleaning machine 8 of chamber is as follows：The left fixed seat 81 of air blowing cylinder, the right fixation of air blowing cylinder Seat 82, air blowing cylinder 83, blow head 84, blow head stroke limit pin 85 and a pair of position-limit foot arm screw limited blocks 86, inflatable gas The left fixed seat 81 of cylinder and the right fixed seat 82 of air blowing cylinder with the state that corresponds to each other respectively by screw bottom plate 68 right-hand member, Air blowing cylinder 83 is fixed by screws between the left fixed seat 81 of air blowing cylinder and the right fixed seat 82 of air blowing cylinder, the air blowing cylinder 83 air blowing cylinder air inlet 831 lean out the right fixed seat 82 of air blowing cylinder and with compressed air aerogenesis apparatus such as air compressor Pipeline connects, and the air blowing cylinder gas outlet 832 of air blowing cylinder 83 leans out the left fixed seat 81 of air blowing cylinder and towards foregoing Hold pipe support 61 under the arm, the left end of blow head 84 is stretched in foregoing blow head guide hole 611 and is slidably matched with blow head guide hole 611, The right-hand member of blow head 84 is fixed by blow head fixing screws 841 and air blowing cylinder gas outlet 832, blow head stroke limit pin 85 Middle part and the right-hand member of blow head 84 fix, the both ends of the blow head stroke limit pin 85 respectively form have a position-limit foot arm 851, A position-limit foot arm screw 8511 is screwed on position-limit foot arm 851, a pair of position-limit foot arm screw limited blocks 86 are corresponding to spacing The position in the left side of pin arm 851 is respectively fixed by limited block fixing screws 861 and foregoing pipe support 61 of holding under the arm, foregoing position-limit foot arm Screw 8511 is corresponding with the right flank of position-limit foot arm screw limited block 86.

The upper and lower block 66,67 of holding under the arm for holding the structural system of laying mechanism 6 under the arm in foregoing pipe holds the end of heat-exchange tube pipe 20 under the arm In the state of firmly, the aforementioned compression air aerogenesis apparatus such as air compressor for being controlled by electric control box works, and will be pressed by pipeline Contracting air supply air blowing cylinder air inlet 831, air blowing cylinder 83 is in running order, is equivalent to cylinder block but blowing with through hole Gas cylinder gas outlet 832 is stretched towards the direction for holding pipe support 61 under the arm, drives blow head 84 in being seized on both sides by the arms by upper and lower block 66,67 of holding under the arm The end displacement of the heat-exchange tube pipe 20 of state with the end face patch of heat-exchange tube pipe 20 until touch, while come from blow head 84 Compressed air be come from air blowing cylinder gas outlet 832 venthole 8321 compressed air enter heat-exchange tube pipe 20 pipe Chamber, it will be left in chamfer process and blow out tube chamber from the other end of heat-exchange tube pipe 20 in the miscellaneous bits of intraluminal metal.Pipe chamber After the completion of miscellaneous bits cleaning machine 8 works, the reverse operation of air blowing cylinder 83, blow head 84 is set to release the end with heat-exchange tube pipe 20 The contact in face, at the same it is foregoing hold the reverse operation of pipe acting cylinder 63 under the arm, hold block 66 in releasing under the arm to the end of heat-exchange tube pipe 20 Seize on both sides by the arms, the heat-exchange tube pipe 20 for completing miscellaneous bits removing is sent from frame 1 by stepped pipe blank conveying mechanism 2, specifically, Inclined-plane 2322 is exported by pipe that is on foregoing pipe supporting tooth plate 232 and being illustrated by Fig. 2（Also can claim " discharge end "）Export. In aforementioned process, the degree of displacement or extreme position of displacement of the blow head 84 to the direction of heat-exchange tube pipe 20 are with position-limit foot Arm screw 8511 is defined by the stop of position-limit foot arm screw limited block 86.

Can also the left end in foregoing frame 1 and the position setting one in corresponding foregoing blow head 84 as preferable scheme Dust bucket 18, the dust bucket 18 have a dust mouth 181, and the miscellaneous bits for being insufflated the tube chamber of first 84 blowout heat-exchange tube pipe 20 are proper It is good to be accessed and introduced in dust bucket 18 by dust mouth 181.

Continue to see Fig. 3 and combine Fig. 1 to Fig. 2, foregoing pirn feeding mechanism 9 includes supply bobbin motor 91, supply bobbin drive sprocket 92nd, spiral supply bobbin roller reduction box 93, supply bobbin driven sprocket 94, spiral supply bobbin roller 95, spiral supply bobbin roller transition power transmission shaft 96, spiral Supply bobbin roller transition reduction box 97 and supply bobbin driving chain 98, supply bobbin motor 91 is fixed on supply bobbin motor cabinet 912, and the supply bobbin is electric The rear side left end bottom of support 912 and the long side direction of foregoing frame 1 is fixed, and supply bobbin drive sprocket 92 is fixed on supply bobbin motor 91 Supply bobbin motor shaft 911 on, spiral supply bobbin roller reduction box 93 is fixed on frame 1 in the position of the top corresponding to supply bobbin motor 91 On, the spiral supply bobbin roller reduction box power input shaft 931 of supply bobbin driven sprocket 94 and spiral supply bobbin roller reduction box 93 is fixed, spiral Supply bobbin roller 95 is towards foregoing stepped pipe blank conveying mechanism 2 and with horizontal boom state and spiral supply bobbin roller reduction box 93 The first output shaft of spiral supply bobbin roller reduction box 932 is fixed, and the spiral supply bobbin roller reduction box second of spiral supply bobbin roller reduction box 93 Output shaft 933 is passed by the left end of spiral supply bobbin roller reduction gearbox output shaft shaft coupling 9331 and spiral supply bobbin roller transition power transmission shaft 96 Dynamic connection, the right-hand member of the spiral supply bobbin roller transition power transmission shaft 96 pass through transition power transmission shaft shaft coupling 961 and spiral supply bobbin roller transition The spiral supply bobbin roller transition reduction box input shaft drive connection of reduction box 97, in the spiral of the spiral supply bobbin roller transition reduction box 97 A foregoing spiral supply bobbin roller 95 is equally fixed with horizontal boom state on the first output shaft of supply bobbin roller transition reduction box 971, And spiral supply bobbin the second output shaft of roller transition reduction box of spiral supply bobbin roller transition reduction box 97 and another spiral supply bobbin roller transition Power transmission shaft 96 is connected, and the lower end of supply bobbin driving chain 98 is nested with supply bobbin drive sprocket 92, and supply bobbin driving chain 98 Upper end be nested with supply bobbin driven sprocket 94.

Fig. 1 and Fig. 2 in the explanation to pirn feeding mechanism 9 above and is combined by applicant：Due to foregoing spiral The quantity of supply bobbin roller 95 has four, therefore foregoing spiral supply bobbin roller transition power transmission shaft 96 and spiral supply bobbin in the present embodiment Roller transition table manner 97 respectively has three, is connected between them in a manner of repeatedly identical.

As shown in Fig. 2 and Fig. 3, between the rear side and foregoing pipe storage bed 10 of foregoing frame 1 being equipped with one send Guan Ping Platform 15, this send the height of pipe platform 15 to be less than foregoing pipe storage bed 10, sent at this on pipe platform 15 and corresponding to before The position for stating spiral supply bobbin roller 95 offers spiral supply bobbin roller resigning chamber 151, and the upper plane of spiral supply bobbin roller 95, which is leant out, send Guan Ping The upper plane of platform 15.Heat-exchange tube pipe 20 on foregoing pipe storage bed 10 is driven to foregoing by an online assignment personnel Spiral supply bobbin roller 95.

When the supply bobbin motor 91 for being controlled by electric control box works, driven by the supply bobbin motor shaft 911 of supply bobbin motor 91 Supply bobbin drive sprocket 92, supply bobbin driven sprocket 94, then the spiral shell through spiral supply bobbin roller reduction box 93 are driven through supply bobbin driving chain 98 Revolve the first output shaft of supply bobbin roller reduction box 932 and drive spiral supply bobbin roller 95, while fed by the spiral of spiral supply bobbin roller reduction box 93 The second output shaft of pipe roller reduction box 933 drives spiral supply bobbin roller transition by spiral supply bobbin roller reduction gearbox output shaft shaft coupling 9331 Power transmission shaft 96, spiral supply bobbin roller transition is driven by transition power transmission shaft shaft coupling 961 by the spiral supply bobbin roller transition power transmission shaft 96 Reduction box 97, another spiral supply bobbin roller 95 is driven by the first output shaft of spiral supply bobbin roller transition reduction box 971, while by spiral The second output shaft of spiral supply bobbin roller transition reduction box of supply bobbin roller transition reduction box 97 drives the spiral supply bobbin roller mistake of next unit Cross power transmission shaft 96, the like and until make four spiral supply bobbin rollers 95 of the present embodiment be synchronized with the movement, by up for chamfering Heat-exchange tube pipe 20 is fed for foregoing stepped pipe blank conveying mechanism 2.

Because the operation principle of each mechanism of the present utility model has made a detailed description respectively above, thus not Repeat again.

In summary, technical scheme provided by the utility model compensate for the shortcoming in prior art, favorably accomplish Invention task, the technique effect referred in the superincumbent technique effect column of applicant is faithfully cashed.

Claims (10)

1. a kind of heat exchange pipe end chamfering machine, it is characterised in that including a frame (1), the frame (1) is in a state of use It is supported on the terrace in heat-exchange tube pipe chamfering place, and the length of frame (1) is parallel in the forward upper of the frame (1) Edge direction is fixed with a frame fromer rail (11), and the upper back in frame (1) is equally parallel to the long side direction of frame (1) A frame rear rail (12) is fixed with, the forward and backward guide rail of the frame (11,12) is parallel；One stepped pipe blank conveying mechanism (2), the stepped pipe blank conveying mechanism (2) while slided with the frame fromer rail (11) and frame rear rail (12) is matched somebody with somebody Close；One transmission shaft driving mechanism (3) for driving stepped pipe blank conveying mechanism (2) action, the power transmission shaft driving machine Structure (3) is arranged on the left end of the frame (1) and is connected with stepped pipe blank conveying mechanism (2)；One is used to drive institute State stepped pipe blank conveying mechanism (2) and follow the tooth that described frame fromer rail (11) and frame rear rail (12) move left and right Plate moving adjusting mechanism (4), the tooth plate moving adjusting mechanism (4) is on the right side corresponding to the transmission shaft driving mechanism (3) Position is arranged in the frame (1) and linked with stepped pipe blank conveying mechanism (2)；One pipe folds up mechanism (5) and one Pipe holds laying mechanism (6) under the arm, and pipe folds up the rear side that mechanism (5) is arranged on the right-hand member top of the frame (1), and Er Guan Pi hold the machine of putting under the arm Structure (6) be arranged on the front side on the right-hand member top of frame (1) and folded up with pipe mechanism (5) front side it is corresponding；One pipe end Portion's chamfer mechanism (7), the blank end chamfer mechanism (7) move in the position that the right side of mechanism (5) is folded up corresponding to the pipe The top of the frame (1) is arranged on dynamicly；The miscellaneous bits cleaning machine (8) of one pipe chamber, the miscellaneous bits cleaning machine (8) of the pipe chamber exist The position for holding the right side of laying mechanism (6) under the arm corresponding to the pipe is arranged on the top of frame (1) and holds laying mechanism (6) under the arm with pipe It is engaged；One pirn feeding mechanism (9) for the pipe up for chamfering to be fed for the stepped pipe blank conveying mechanism (2), should Pirn feeding mechanism (9) is arranged in the frame (1) in the position of the rear side corresponding to stepped pipe blank conveying mechanism (2)；One pipe Base storage bed (10), the pipe storage bed (10) are arranged on heat exchange in the position of the rear side corresponding to the pirn feeding mechanism (9) On the terrace in pipe pipe chamfering place.

2. heat exchange pipe end chamfering machine according to claim 1, it is characterised in that described step-by-step movement pipe conveying Mechanism (2) includes tooth plate front propeller shaft (21), tooth plate inter-axle shaft (22) and pipe conveying tooth plate group (23), tooth plate front propeller shaft (21) left end is rotatably supported at the left end of the frame (1), and the middle part of tooth plate front propeller shaft (21) and right-hand member turn respectively It is supported on dynamicly on tooth plate front propeller shaft bearing bracket (211), the tooth plate front propeller shaft bearing bracket (211) is fixed on tooth On plate front propeller shaft bearing bracket sliding block (2111), and the tooth plate front propeller shaft bearing bracket sliding block (2111) with it is described Frame fromer rail (11) is slidably matched, tooth plate inter-axle shaft (22) and tooth plate front propeller shaft (21) parallel, the tooth plate inter-axle shaft (22) left end is rotatably supported at the left end of frame (1), and the middle part of tooth plate inter-axle shaft (22) and right-hand member difference are rotationally It is supported on tooth plate inter-axle shaft bearing bracket (221), after the tooth plate inter-axle shaft bearing bracket (221) is fixed on tooth plate On transmission shafts base supporting sliding block (2211), and after the tooth plate inter-axle shaft bearing bracket sliding block (2211) and the frame Guide rail (12) is slidably matched, quantity and the tooth plate front propeller shaft bearing block branch of tooth plate inter-axle shaft bearing bracket sliding block (2211) The quantity of frame sliding block (2111) is equal and position is corresponding, quantity and the tooth plate front propeller shaft axle of pipe conveying tooth plate group (23) The quantity of base supporting sliding block (2111) is equal, and pipe conveying tooth plate group (23) includes pipe transfer tooth plate (231) and one Pipe supporting tooth plate (232), pipe transfer tooth plate eccentric disc is each provided with the front-end and back-end of pipe transfer tooth plate (231) (2311) eccentric disc axis hole (23111), is offered on pipe transfer tooth plate eccentric disc (2311), tooth plate is shifted positioned at pipe (231) before pipe transfer tooth plate eccentric disc (2311) and tooth plate corresponding with described tooth plate front propeller shaft (21) of front end Power transmission shaft (21) passes through described eccentric disc axis hole (23111), and the pipe positioned at pipe transfer tooth plate (231) rear end shifts tooth plate Eccentric disc (2311) is corresponding with described tooth plate inter-axle shaft (22) and the tooth plate inter-axle shaft (22) is through described inclined Cartridge axis hole (23111), in the front-end and back-end of pipe supporting tooth plate (232) and shifting tooth plate eccentric disc corresponding to pipe (2311) position is respectively equipped with a pipe support teeth board shaft bearing (2321), positioned at the front end of pipe supporting tooth plate (232) Pipe support teeth board shaft bearing (2321) is fixed with described tooth plate front propeller shaft bearing bracket (211), is supported positioned at pipe The pipe support teeth board shaft bearing (2321) of the rear end of tooth plate (232) and described tooth plate inter-axle shaft bearing bracket (221) Fixed, the tooth plate front propeller shaft (21) and tooth plate inter-axle shaft (22) turn afterwards through the eccentric disc axis hole (23111) It is supported on dynamicly in the pipe support teeth board shaft bearing hole (23212) of pipe support teeth board shaft bearing (2321), in the pipe Convey in tooth plate group (23), on the right side of the pipe supporting tooth plate (232) of the pipe conveying tooth plate group (23) in right-hand member And the position that mechanism (5) is folded up corresponding to the pipe is provided with a pipe signal picker (233), and corresponding to institute State pipe and hold the position of laying mechanism (6) under the arm and be provided with a pipe signal discovery device (234), in described frame (1) and right The position on the right side that pipe folds up mechanism (5) should be provided with a pair of rose reamer disk-drive motor seat guide rails (13), blank end Chamfer mechanism (7) is slidably matched with this to rose reamer disk-drive motor seat guide rail (13), in the frame (1) and corresponding The position for holding laying mechanism (6) and the miscellaneous bits cleaning machine (8) of the pipe chamber under the arm in pipe is provided with a bearing plate seat (14), manages Base holds laying mechanism (6) under the arm and the miscellaneous bits cleaning machine (8) of pipe chamber is arranged on the bearing plate seat (14), and described power transmission shaft drives Motivation structure (3) at the same with the left end of the left end of the tooth plate front propeller shaft (21) and tooth plate inter-axle shaft (22) be connected, Described tooth plate moving adjusting mechanism (4) at the same with described tooth plate front propeller shaft bearing bracket sliding block (2111) and tooth plate Inter-axle shaft bearing bracket sliding block (2211) links.

3. heat exchange pipe end chamfering machine according to claim 2, it is characterised in that described transmission shaft driving mechanism (3) power transmission shaft motor (31), front propeller shaft reduction box (32), inter-axle shaft reduction box (33) and reduction box transition axis are included (34), power transmission shaft motor (31) coordinates with front propeller shaft reduction box (32) transmission and connected by front propeller shaft reduction box (32) It is supported on power transmission shaft motor (31) on front propeller shaft reduction box bearing support (35), before the front propeller shaft reduction box (32) The output shaft of power transmission shaft reduction box first (321) passes through front propeller shaft reduction box the first output shaft shaft coupling (3211) and the tooth plate The left end drive connection of front propeller shaft (21), the output shaft of front propeller shaft reduction box second (322) of front propeller shaft reduction box (32) It is connected by the front end of front propeller shaft reduction box the second output shaft shaft coupling (3221) and reduction box transition axis (34), it is rear to pass Moving axis reduction box (33) is supported on inter-axle shaft reduction box bearing support in the position of the rear end corresponding to reduction box transition axis (34) (36) on, the inter-axle shaft reduction box input shaft (331) of the inter-axle shaft reduction box (33) is inputted by inter-axle shaft reduction box Axle shaft coupling (3311) is connected with the rear-end transmission of the reduction box transition axis (34), and the rear biography of inter-axle shaft reduction box (33) Moving axis reduction gearbox output shaft (332) passes through inter-axle shaft reduction gearbox output shaft shaft coupling (3321) and the tooth plate inter-axle shaft (22) left end drive connection, the left end of described tooth plate front propeller shaft (21) pass through tooth plate front propeller shaft left shaft holder (212) It is supported on the front propeller shaft reduction box bearing support (35), the left end of described tooth plate inter-axle shaft (22) after tooth plate by passing Moving axis left shaft holder (222) is supported on the inter-axle shaft reduction box bearing support (36), front propeller shaft reduction box bearing support (35) and inter-axle shaft reduction box bearing support (36) and the left end of frame (1) are fixed.

4. heat exchange pipe end chamfering machine according to claim 2, it is characterised in that described tooth plate movement adjustment machine Structure (4) includes sliding block traction drive motor (41), sliding block traction drive reduction box (42), sliding block and draws drive sprocket (43), slides Chain before block traction active chain (44), sliding block traction driven sprocket (45), sliding block traction driven chain wheel shaft (46), sliding block traction (47) and sliding block draws rear chain (48), and sliding block traction drive motor (41) is the motor with positive and negative rotating function, and the sliding block is led Draw motor (41) to be driven cooperation with sliding block traction drive reduction box (42) and set by sliding block traction drive reduction box (42) Put in the frame (1), the sliding block traction drive of sliding block traction drive sprocket (43) and sliding block traction drive reduction box (42) Speed reduction box shaft (421) is fixed, and sliding block traction driven sprocket (45) is fixed on the middle part of sliding block traction driven chain wheel shaft (46), the cunning The front end of block traction driven chain wheel shaft (46) is rotatably supported on sliding block traction driven chain wheel shaft front support bearing block (461), And sliding block is supported on sliding block traction driven chain wheel shaft rear trunnion bearing (462) with drawing the rear end thereof of driven chain wheel shaft (46) On, sliding block traction driven chain wheel shaft front support bearing block (461) and sliding block traction driven chain wheel shaft rear trunnion bearing (462) it is fixed with the frame (1), and sliding block traction driven chain wheel shaft (46) be fixedly arranged at the front end with one before chain interoperation Sprocket wheel (463), and a rear chain is fixed with the rear end of sliding block traction driven chain wheel shaft (46) and coordinates sprocket wheel (464), sliding block is led The one end for drawing active chain (44) is nested with sliding block traction drive sprocket (43), and the other end is nested with draws driven sprocket in sliding block (45) on, one end of chain (47) is nested with preceding chain interoperation sprocket wheel (463) before sliding block traction, before middle part is drawn by sliding block Chain coupling plate and the tooth plate front propeller shaft bearing bracket sliding block (2111) are towards the tooth plate inter-axle shaft bearing block branch The side of frame sliding block (2211) links, and the other end of chain (47) is nested with and is being rotatably supported at frame (1) before sliding block traction On sliding block traction before chain changed course sprocket wheel on, sliding block traction rear chain (48) one end be nested with rear chain coordinate sprocket wheel (464) on, rear chain web (481) and the tooth plate inter-axle shaft bearing bracket sliding block are drawn in middle part by sliding block (2211) link towards the side of tooth plate front propeller shaft bearing bracket sliding block (2111), and sliding block traction rear chain (48) is another One end is nested with the sliding block traction rear chain changed course sprocket wheel (482) being rotatably supported in frame (1).

5. heat exchange pipe end chamfering machine according to claim 2, it is characterised in that described pipe folds up mechanism (5) Including clamp frame (51), clamp acting cylinder fixed plate (52), clamp acting cylinder (53), upper fixture block sliding seat guide block (54), upper folder Block sliding seat (55), upper fixture block (56) and lower fixture block (57), the bottom of clamp frame (51) are fixed on clamp frame cushion block (511), And clamp frame cushion block (511) be fixed in the position of the left end corresponding to a pair of rose reamer disk-drive motor seat guide rails (13) it is described In frame (1), a chamfering cutterhead resigning chamber (512) is offered on clamp frame (51), clamp acting cylinder fixed plate (52) is fixed On the top of clamp frame (51), clamp acting cylinder (53) is fixed in clamp acting cylinder fixed plate (52), the clamp acting cylinder (53) clamp acting cylinder (531) is towards lower and pass through clamp acting cylinder fixed plate (52), upper fixture block sliding seat guide block (54) the left end end face with clamp acting cylinder fixed plate (52) is fixed, the upper fixture block sliding seat guide block (54) and clamp acting cylinder (53) space between is configured to upper fixture block sliding seat guide groove (541), and the shape of upper fixture block sliding seat (55) in L-shaped and is somebody's turn to do The bottom of upper fixture block sliding seat (55) is fixed with clamp acting cylinder (531), and the top of upper fixture block sliding seat (55) probes into It is slidably matched in fixture block sliding seat guide groove (541) with upper fixture block sliding seat guide block (54), upper fixture block (56) and upper fixture block sliding seat (55) side of bottom towards lower fixture block (57) is fixed, and the lower fixture block (57) is in the position of the lower section corresponding to upper fixture block (56) It is fixed with clamp frame (51), the upper fixture block clamp chamber (561) of upper fixture block (56) and the lower fixture block clamp chamber (571) of lower fixture block (57) Corresponding, described chamfering cutterhead resigning chamber (512) is corresponding with the right side between upper and lower fixture block clamp chamber (561,571), institute The pipe signal picker (233) stated is corresponding to the left side between upper and lower fixture block (56,57) and the pipe signal picker (233) it is optoelectronic switch, the blank end being slidably matched with a pair of described rose reamer disk-drive motor seat guide rails (13) Chamfer mechanism (7) is corresponding with described chamfering cutterhead resigning chamber (512).

6. heat exchange pipe end chamfering machine according to claim 2, it is characterised in that described pipe holds laying mechanism (6) under the arm Including hold under the arm pipe support (61), hold under the arm pipe acting cylinder fixed plate (62), hold under the arm pipe acting cylinder (63), on hold under the arm block sliding seat guide block (64), on hold under the arm Block sliding seat (65), on hold under the arm block (66), under hold block (67) and bottom plate (68) under the arm, the bottom for holding pipe support (61) under the arm is fixed on bottom plate (68) On, and the bottom plate (68) is fixed on the bearing plate seat (14), and a blow head guide hole is offered on pipe support (61) is held under the arm (611), hold pipe acting cylinder fixed plate (62) under the arm and be fixed on the top for holding pipe support (61) under the arm, hold under the arm pipe acting cylinder (63) be fixed on hold under the arm pipe effect In cylinder fixed plate (62), what this held pipe acting cylinder (63) under the arm holds pipe acting cylinder (631) under the arm towards lower and consolidate through holding pipe acting cylinder under the arm Fixed board (62), above hold block sliding seat guide block (64) under the arm and fixed with holding the left end end face of pipe acting cylinder fixed plate (62) under the arm, hold block cunning on this under the arm Dynamic seat guide block (64) and the space held under the arm between pipe acting cylinder (63) hold block sliding seat guide groove (641) under the arm on being configured to, and above hold block slip under the arm The shape of seat (65) is in L-shaped and holds the bottom of block sliding seat (65) on this under the arm and to hold pipe acting cylinder (631) under the arm fixed, and on hold under the arm The top of block sliding seat (65) probes into hold under the arm in block sliding seat guide groove (641) and is slidably matched with above holding block sliding seat guide block (64) under the arm, On hold block (66) under the arm and hold the side of block (67) under the arm with above holding the bottom of block sliding seat (65) under the arm under and fix, hold block (67) under the arm corresponding under this In the position of the upper lower section for holding block (66) under the arm and hold that pipe support (61) is fixed under the arm, above hold under the arm block (66) on hold block under the arm and hold tube chamber (661) under the arm and held under the arm with Holding block under block (67) under the arm, to hold tube chamber (671) under the arm corresponding, and the blow head guide hole (611) holds tube chamber (661,671) under the arm with upper and lower block of holding under the arm Between right side it is corresponding, described pipe signal discovery device (234) corresponds to the upper and lower left side held under the arm between block (66,67) simultaneously And the pipe signal discovery device (234) is optoelectronic switch, the miscellaneous bits cleaning machine (8) of described pipe chamber and the blow head guide hole (611) it is corresponding.

7. heat exchange pipe end chamfering machine according to claim 5, it is characterised in that described blank end beveler Structure (7) includes rose reamer disk-drive motor seat (71), rose reamer disk-drive motor (72), chamfering cutterhead (73), bolt and nut (74) and nut displacement motor (75), in side of the rose reamer disk-drive motor seat (71) under and corresponding to described The position of a pair of rose reamer disk-drive motor seat guide rails (13) is respectively fixed with a pair of motor cabinet sliding blocks (711), and this is slided to motor cabinet Block (711) is slidably matched with a pair of rose reamer disk-drive motor seat guide rails (13), and rose reamer disk-drive motor (72) is fixed on down On angle cutter plate driver motor cabinet (71), chamfering cutterhead (73) is fixed on the chamfering cutter plate driver electricity of rose reamer disk-drive motor (72) On arbor (721) and corresponding with described chamfering cutterhead resigning chamber (512), bolt and nut (74) is fixed on chamfering cutterhead electricity Side of the support (71) under, nut displacement motor (75) is corresponding to a pair of rose reamer disk-drive motor seat guide rails (13) Position between right-hand member is fixed in described frame (1), the nut displacement motor screw rod (751) of the nut displacement motor (75) Coordinate with bolt and nut (74) screw thread, and nut displacement motor (75) is the servomotor with positive and negative rotating function.

8. heat exchange pipe end chamfering machine according to claim 6, it is characterised in that the miscellaneous bits of described pipe chamber are removed Mechanism (8) include the left fixed seat of air blowing cylinder (81), the right fixed seat of air blowing cylinder (82), air blowing cylinder (83), blow head (84), Blow head stroke limit pin (85) and a pair of position-limit foot arm screw limited blocks (86), the left fixed seat of air blowing cylinder (81) and air blowing The right fixed seat of cylinder (82) is fixed on inflatable gas with the right-hand member of the state that corresponds to each other in the bottom plate (68), air blowing cylinder (83) Between the left fixed seat of cylinder (81) and the right fixed seat of air blowing cylinder (82), the air blowing cylinder air inlet (831) of the air blowing cylinder (83) Lean out the right fixed seat of air blowing cylinder (82) and be connected with compressed air aerogenesis apparatus pipeline, and the inflatable gas of air blowing cylinder (83) Cylinder gas outlet (832) leans out the left fixed seat of air blowing cylinder (81) and holds pipe support (61), a left side for blow head (84) under the arm towards described End is stretched in the blow head guide hole (611) and is slidably matched with blow head guide hole (611), and the right-hand member of blow head (84) leads to It is fixed with air blowing cylinder gas outlet (832) to cross blow head fixing screws (841), the middle part of blow head stroke limit pin (85) is with blowing The right-hand member of gas head (84) is fixed, and respectively being formed at the both ends of the blow head stroke limit pin (85) has a position-limit foot arm (851), is limiting A position-limit foot arm screw (8511) is screwed on position pin arm (851), a pair of position-limit foot arm screw limited blocks (86) are corresponding to limit The position in the left side of position pin arm (851) is respectively fixed by limited block fixing screws (861) and described pipe support (61) of holding under the arm, described Position-limit foot arm screw (8511) is corresponding with the right flank of position-limit foot arm screw limited block (86).

9. heat exchange pipe end chamfering machine according to claim 1, it is characterised in that described pirn feeding mechanism (9) includes Supply bobbin motor (91), supply bobbin drive sprocket (92), spiral supply bobbin roller reduction box (93), supply bobbin driven sprocket (94), spiral supply bobbin Roller (95), spiral supply bobbin roller transition power transmission shaft (96), spiral supply bobbin roller transition reduction box (97) and supply bobbin driving chain (98), feed Pipe motor (91) is fixed on supply bobbin motor cabinet (912), and the supply bobbin motor cabinet (912) and the long side direction of the frame (1) Rear side left end bottom fix, supply bobbin drive sprocket (92) is fixed on the supply bobbin motor shaft (911) of supply bobbin motor (91), spiral Supply bobbin roller reduction box (93) is fixed in frame (1) in the position of the top corresponding to supply bobbin motor (91), supply bobbin driven sprocket (94) it is fixed with the spiral supply bobbin roller reduction box power input shaft (931) of spiral supply bobbin roller reduction box (93), spiral supply bobbin roller (95) towards described stepped pipe blank conveying mechanism (2) and with horizontal boom state and spiral supply bobbin roller reduction box (93) Spiral supply bobbin roller the first output shaft of reduction box (932) is fixed, and the spiral supply bobbin roller reduction box of spiral supply bobbin roller reduction box (93) Second output shaft (933) passes through spiral supply bobbin roller reduction gearbox output shaft shaft coupling (9331) and spiral supply bobbin roller transition power transmission shaft (96) left end drive connection, the right-hand member of the spiral supply bobbin roller transition power transmission shaft (96) pass through transition power transmission shaft shaft coupling (961) It is connected with the spiral supply bobbin roller transition reduction box input shaft of spiral supply bobbin roller transition reduction box (97), in the spiral supply bobbin roller Equally it is fixed with spiral supply bobbin roller transition the first output shaft of reduction box (971) of transition reduction box (97) with horizontal boom state Spiral supply bobbin roller (95) described in one, and the spiral supply bobbin roller transition reduction box second of spiral supply bobbin roller transition reduction box (97) is defeated Shaft is connected with another spiral supply bobbin roller transition power transmission shaft (96), and the lower end of supply bobbin driving chain (98) is nested with supply bobbin master On movable sprocket (92), and the upper end of supply bobbin driving chain (98) is nested with supply bobbin driven sprocket (94), in the frame (1) One is equipped between rear side and the pipe storage bed (10) and send pipe platform (15).

10. heat exchange pipe end chamfering machine according to claim 9, it is characterised in that the height for sending pipe platform (15) Degree is less than described pipe storage bed (10), is sent at this on pipe platform (15) and corresponding to the spiral supply bobbin roller (95) Position offers spiral supply bobbin roller resigning chamber (151), and the upper plane of spiral supply bobbin roller (95) leans out the upper table for sending pipe platform (15) Face.