CN207828110U - Energy saving hot-bending machine - Google Patents

Abstract

The utility model discloses a kind of energy saving hot-bending machines, including：Upper rectangle frame and lower rectangle frame, feeding structure and hot-bending machine chassis.Technical solution provided by the utility model has easily mobile, light-weight advantage.

Description

Energy saving hot-bending machine

Technical field

The utility model is related to machinery and mobile phone accessories field more particularly to a kind of energy saving hot-bending machines.

Background technology

Mobile phone is that most common electronic equipment, the appearance of the especially smart mobile phone of touch screen change people during people are daily To the use habit of mobile phone, for touch-screen mobile phone, mobile phone screen belongs to the most used component of mobile phone, for hand For machine, since existing size is increasing, screen is also increasing, in order to protect mobile phone screen, sticking film for mobile phone to produce, Sticking film for mobile phone can effectively protect mobile phone screen.

With the development of mobile phone screen, mobile phone screen develops to arc-surface display screen from flat-faced screen, in order to adapt to cambered surface The protection of display screen, cambered surface pad pasting also occur, and the critical component of cambered surface pad pasting is cambered surface tempering film, need through hot-bending machine reality Existing transformation of the tempering film from plane to cambered surface, existing hot-bending machine chassis are entity structure, and weight weight is mobile inconvenient.

Utility model content

The purpose of this utility model is to provide a kind of energy saving hot-bending machines, mainly solve the weight weight of the prior art, move Move inconvenient problem.

In order to solve the above-mentioned technical problem, the utility model provides a kind of hot-bending machine and includes：Feeding structure and heat Bender chassis, the feeding structure are fixed at hot-bending machine chassis top, and the hot-bending machine chassis includes：Upper rectangle frame is under Rectangle frame, hollow portion of rectangle frame is provided with multiple sub- rectangle frames on this, which is correspondingly arranged on multiple lower sons Rectangle frame, square position of sub- rectangle frame and lower sub- rectangle frame is fixed with more reinforcing ribs, the side setting of chassis on this There are multiple fans；

The chassis further includes：First cooling duct, the second cooling duct and supporting rack, the first cooling duct are provided with Cooling tube and first time cooling tube on one, the second cooling duct are provided with cooling tube and second time cooling tube on second, wherein First time cooling tube is arranged in parallel with second time cooling tube, and first time cooling tube and second time cooling tube are both provided with multiple coolings Outlet, cooling tube is arranged in parallel and is located at the downside of the cooling-part of hot-bending machine on cooling tube and second on first, cold on first But cooling tube is both provided with multiple coolant outlets on pipe and second, and one end of the supporting rack is fixed with upper rectangle frame, the supporting rack The other end fix on first cooling tube, first cooling duct and the second cooling duct on cooling tube and second and deposited with cooling Storage device is connected to；

The feeding structure includes：Rack, feeding component, pan feeding component, wherein

The rack is hollow structure, includes multiple placement round bars in the hollow structure, hot bending die is placed on institute It states and places on round bar；

The feeding component includes：Upper flitch, head, connecting rod, Z-axis lifting mechanism and X, Y-axis linkage mechanism；Wherein, The one side of the upper flitch and one end of the connecting rod are fixed, and the other end of the connecting rod and the front of the head are solid Fixed, the top surface of the head is connect with the mobile terminal of the Z-axis lifting mechanism, the fixing end of the Z-axis lifting mechanism with it is described X, one end of Y-axis linkage mechanism is fixed, and the X, Y-axis linkage mechanism drive the Z-axis lifting mechanism to be moved in X, Y-axis, institute The width for stating upper flitch is placed adjacent the distance between round bar less than two；

The pan feeding component, including：Nacelle, Y-axis feeding channel, X-axis feeding channel, Y-axis baffle, Y-axis mobile device and X The entrance of axis pulling rod, the Y-axis feeding channel is connected to the rack, outlet and the X-axis of the Y-axis feeding channel The entrance of feeding channel is connected to, the heating cabinet of the outlet hot-bending machine of the X-axis feeding channel；One end of the Y-axis baffle It is connect with the lead screw of the Y-axis mobile device, the Y-axis baffle can drive the hot bending die to be moved in the Y-axis feeding channel Dynamic, the corresponding position of the X-axis feeding channel of the nacelle is arranged in the X-axis pulling rod.

Optionally, the lower end of the lower rectangle frame is symmetrically arranged with multiple pulleys, and the lower end of lower rectangle frame is detachably fixed There are multiple fixed seats, the wherein height of fixed seat to be higher than the pulley.

Optionally, the front of the chassis is provided with multiple sliding doors.

Optionally, the chassis further includes fan control circuitry, and the fan control circuitry includes：What is be connected in parallel is multiple One end of fan, the multiple fans being connected in parallel is connect with the other end of switch K1, the other end for the multiple fans being connected in parallel One end of first resistor, the anode of one end connection power supply of switch K1 are connected, the cathode of power supply connects the other end of first resistor, One end of first resistor also with one end for being attracted switch JAK1 of relay A1, the actuation switch JBK1 of relay B1 one end, One end connection for being attracted switch JCK of relay C is attracted one end of the other end connection resistance RA of switch JAK1, is attracted switch One end of the other end connection resistance RB of JBK1 is attracted one end of the other end connection resistance RC of switch JCK, resistance RA, resistance The other end of RB and resistance RC connect power cathode；

No. 1 port of the other end connection rectifier bridge of switch K1, the one of No. 2 ports connection thermistor RT of rectifier bridge End, one end of the other end connection second resistance of thermistor RT, the other end ground connection of second resistance, No. 3 ports of rectifier bridge Connect power cathode, No. 4 port ground connection；

One end for being attracted switch JBK3 of the other end connection relay B3 of thermistor RT, the actuation switch of relay B2 One end of JBK2 and the positive input of comparator C, the other end connection relay A2 for being attracted switch JBK3 are attracted switch One end of JAK2, is attracted the positive input of the other end connection comparator A of switch JAK2, and the reverse input end of comparator A connects First voltage source VCC1 is met, the reverse input end of comparator C connects tertiary voltage source VCC3, is attracted switch JBK2 connection comparators The positive input of B, the reverse input end connection the second voltage source VCC2 of comparator B；

The base stage of the output end connecting triode QA of comparator A, triode QA collectors connect first voltage source VCC1, and three One end of the coil ZA1 of the emitter connection relay A1 of pole pipe QA, the one of the other end connection 3rd resistor R3 of coil ZA1 End, the other end ground connection of 3rd resistor R3；

The collector of the base stage of the output end connecting triode QB1 of comparator B, triode QB1 connects the second voltage source One end of the coil ZB1 of the emitter connection relay B1 of VCC2, triode QB1, the other end of coil ZB1 connect the 4th resistance One end of R4, the other end ground connection of the 4th resistance R4, the other end of coil ZB1 are also connected with the input terminal of the first not circuit, the The base stage of the output end connecting triode QB2 of one not circuit, the collector connection the second voltage source VCC2 of triode QB2, three One end of the coil ZA2 of the emitter connection relay A2 of pole pipe QB2, the other end of coil ZA2 connect one end of the 5th resistance, The other end of 5th resistance is grounded；

The base stage of the output end connecting triode QC1 of comparator C, the collector connection tertiary voltage source of triode QC1 One end of the coil ZC of the emitter connection relay C of VCC3, triode QC1, the other end of coil ZC connect the 6th resistance R6 One end, the other end ground connection of the 6th resistance R6, the other end of coil ZC is also connected with the input terminal of the second not circuit, and second is non- The collector of the base stage of the output end connecting triode QC2 of gate circuit, triode QC2 connects tertiary voltage source VCC3, triode One end of the coil ZB2 of the emitter connection relay B2 of QC2, the coil ZB3's of the other end connection relay B3 of coil ZB2 One end, the other end of coil ZB3 connect one end of the 7th resistance, the other end ground connection of the 7th resistance；

Wherein, VCC1<VCC2<VCC3.

Optionally, the rack is multilayered structure, and every layer of structure includes multiple placement round bars.

Optionally, the feeding structure of the energy saving hot-bending machine further includes：Lifting platform, the lifting platform are arranged in the placement Under frame.

Technical solution provided by the utility model sets chassis to hollow structure, its is light-weight first, in addition, hollow knot The chassis of structure is also beneficial to the advantages of heat dissipation of hot-bending machine.

Description of the drawings

In order to illustrate more clearly of the technical solution of the utility model embodiment, will make below to required in embodiment Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the utility model, for For those of ordinary skill in the art, without creative efforts, other are can also be obtained according to these attached drawings Attached drawing.

Fig. 1 is a kind of hot-bending machine chassis stereoscopic schematic diagram provided by the present application.

Fig. 2 is the structural schematic diagram of energy saving hot-bending machine provided by the present application.

Fig. 3 is the structural schematic diagram of the fan control circuitry of the application.

Fig. 4 is the structural schematic diagram of rack in feeding structure provided by the present application.

Fig. 5 be the application feeding structure in pan feeding component structural schematic diagram.

Fig. 6 is the structural schematic diagram of the feeding component in the feeding structure of the application.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not under the premise of making the creative labor The every other embodiment obtained, shall fall within the protection scope of the present invention.

In the description of the utility model embodiment, it is to be understood that the fingers such as term " thickness " " left side " " right side " "upper" "lower" The orientation or positional relationship shown be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the utility model and Simplify description, rather than implies or indicate that signified device or element must have a particular orientation, with specific azimuth configuration And operation, therefore should not be understood as limiting the present invention.

The energy saving hot-bending machine includes：Hot-bending machine chassis and feeding structure.

It is the structural schematic diagram of hot-bending machine chassis refering to fig. 1, as shown in Figure 1 and Figure 2, including：Upper rectangle frame 80 and lower rectangle Frame 81, hollow portion of rectangle frame 80 is provided with multiple sub- rectangle frames 90 on this, and being correspondingly arranged on for the lower rectangle frame 81 is multiple Lower sub- rectangle frame, square position of sub- rectangle frame 90 and lower sub- rectangle frame is fixed with more reinforcing ribs 92 on this, one of chassis Side 82 is provided with multiple fans 84.The chassis further includes：First cooling duct 85, the second cooling duct 86 and supporting rack 87, First cooling duct 85 is provided with cooling tube 851 and first time cooling tube 852 on first, and the second cooling duct 86 is provided with Cooling tube 861 and second time cooling tube 862 on two, wherein first time cooling tube 852 is arranged in parallel with second time cooling tube 862, First time cooling tube 852 and second time cooling tube 862 are both provided with multiple coolant outlets, on first on cooling tube 851 and second Cooling tube 861 is arranged in parallel and the downside of cooling-part 6 positioned at hot-bending machine, cooling tube on cooling tube 851 and second on first 861 are both provided with multiple coolant outlets, and one end of the supporting rack 87 is fixed with upper rectangle frame 80, and the other end of the supporting rack 87 is solid Cooling tube 861, first cooling duct 85 and the second cooling duct 86 are deposited with cooling on cooling tube 851 and second on fixed first The connection (as shown in Figure 2) of storage device 100.

The operation principle of technical solution provided by the utility model can be, chassis is arranged to rectangular frame up and down, and And the multiple sub- rectangle frames of setting, centre are additionally provided with reinforcing rib, provide stable mechanical support in this way, and effectively reduce Weight.In addition, increasing cooling duct, and set cooling duct to multiple cooling ducts, at work, one to be primary, One is spare, can ensure that the cooling medium of its supply does not go wrong in this way, because for hot-bending machine, if cooling Medium is not supplied, then cooling segment can not cool down, the temperature of cambered surface film, which can not reduce, to be caused to damage, to influence non-defective unit Rate.In addition, the cooling duct top to the top of cooling duct, that is, cambered surface film respectively setting up and down here and cambered surface film Lower part cools down respectively, has good cooling results, cooling time is short, efficient advantage.

Optionally, the lower end of the lower rectangle frame 81 is symmetrically arranged with multiple pulleys 78, and the lower end of lower rectangle frame 81 is detachable Multiple fixed seats 79 are fixed with, the wherein height of fixed seat 79 is higher than the pulley 78.Here setting fixed seat is convenient working When hot-bending machine move, when needing mobile, which is disassembled, such pulley 78 will contact ground, to side Just it slides.

Optionally, the front 88 of the chassis is provided with multiple sliding doors 77, and multiple sliding doors 77 are arranged and can make full use of the bottom The inner space of frame increases the space availability ratio of chassis.

Optionally, which further includes fan control circuitry, as shown in figure 3, this includes：The multiple fans being connected in parallel 84, the one end for the multiple fans 84 being connected in parallel is connect with the other end of switch K1, the multiple fans 84 being connected in parallel it is another One end of end connection first resistor R1, the anode of one end connection power supply of switch K1, the cathode connection first resistor R1's of power supply One end of the other end, first resistor R1 is connect with the other end of heating collar 1202, and the actuation of one end of R1 also with relay A1 is opened One end connection for being attracted switch JCK for closing one end of JAK1, one end for being attracted switch JBK1 of relay B1, relay C, is attracted One end of the other end connection resistance RA of switch JAK1, is attracted one end of the other end connection resistance RB of switch JBK1, and actuation is opened One end of the other end connection resistance RC of JCK is closed, the other end of resistance RA, resistance RB and resistance RC connect power cathode.

No. 1 port of the other end connection rectifier bridge of switch K1, the one of No. 2 ports connection thermistor RT of rectifier bridge End, one end of the other end connection second resistance of thermistor RT, the other end ground connection of second resistance, No. 3 ports of rectifier bridge Connect power cathode, No. 4 port ground connection.

One end for being attracted switch JBK3 of the other end connection relay B3 of thermistor RT, the actuation switch of relay B2 One end of JBK2 and the positive input of comparator C, the other end connection relay A2 for being attracted switch JBK3 are attracted switch One end of JAK2, is attracted the positive input of the other end connection comparator A of switch JAK2, and the reverse input end of comparator A connects First voltage source VCC1 is met, the reverse input end of comparator C connects tertiary voltage source VCC3, is attracted switch JBK2 connection comparators The positive input of B, the reverse input end connection the second voltage source VCC2 of comparator B；

The base stage of the output end connecting triode QA of comparator A, triode QA collectors connect first voltage source VCC1, and three One end of the coil ZA1 of the emitter connection relay A1 of pole pipe QA, the one of the other end connection 3rd resistor R3 of coil ZA1 End, the other end ground connection of 3rd resistor R3.

The collector of the base stage of the output end connecting triode QB1 of comparator B, triode QB1 connects the second voltage source One end of the coil ZB1 of the emitter connection relay B1 of VCC2, triode QB1, the other end of coil ZB1 connect the 4th resistance One end of R4, the other end ground connection of the 4th resistance R4, the other end of coil ZB1 are also connected with the input terminal of the first not circuit, the The base stage of the output end connecting triode QB2 of one not circuit, the collector connection the second voltage source VCC2 of triode QB2, three One end of the coil ZA2 of the emitter connection relay A2 of pole pipe QB2, the other end of coil ZA2 connect the one of the 5th resistance R5 End, the other end ground connection of the 5th resistance R5.

The base stage of the output end connecting triode QC1 of comparator C, the collector connection tertiary voltage source of triode QC1 One end of the coil ZC of the emitter connection relay C of VCC3, triode QC1, the other end of coil ZC connect the 6th resistance R6 One end, the other end ground connection of the 6th resistance R6, the other end of coil ZC is also connected with the input terminal of the second not circuit, and second is non- The collector of the base stage of the output end connecting triode QC2 of gate circuit, triode QC2 connects tertiary voltage source VCC3, triode One end of the coil ZB2 of the emitter connection relay B2 of QC2, the coil ZB3's of the other end connection relay B3 of coil ZB2 One end, the other end of coil ZB3 connect one end of the 7th resistance R7, the other end ground connection of the 7th resistance R7.

Optionally, above-mentioned VCC1<VCC2<VCC3.

The working condition of circuit is explained below.For thermistor, variation with temperature and change, then second The voltage U2 of resistance R2 can change with the variation of temperature, so when U2 is between VCC1 and VCC2, since U2 is less than VCC3, comparator C export low level, and QC1 is closed, and the actuation switch JCK of relay ZC is disconnected, QC2 conductings, the suction of relay B2 The actuation switch JBK3 of combination switch JBK2 and relay B3 is closed, similarly, for comparator B, the actuation of relay ZB1 Switch JBK1 is disconnected, and the actuation switch JAK2 of relay ZA2 is closed, and since U2 is more than VCC1, then comparator A exports high level, The actuation switch JAK1 of relay ZA1 is closed, and resistance RA is resistance in parallel at this time.

When U2 is between VCC2 and VCC3, for being less than VCC3 due to U2, comparator C exports low level, and QC1 is closed It closes, the actuation switch JCK of relay ZC is disconnected, and QC2 conductings, the actuation of actuation the switch JBK2 and relay B3 of relay B2 is opened It closes JBK3 to be closed, for comparator B, since U2 is more than VCC2 at this time, comparator B exports high level, relay ZB1's It is attracted switch JBK1 to be closed, the actuation switch JAK2 of relay ZA2 is disconnected, for comparator A, due to being attracted switch JAK2 It disconnects, so it does not work, so resistance in parallel is RB at this time.

When U2 is more than VCC3, comparator C exports high level, and the actuation switch JCK of QC1 conductings, relay ZC is closed, QC2 is disconnected, and the actuation switch JBK3 of the actuation switch JBK2 and relay B3 of relay B2 are disconnected, at this time resistance in parallel R3, so the temperature control circuit can select which kind of resistance in parallel according to specific temperature, since the resistance value of parallel resistance is different, The voltage and electric current for the multiple fans being connected in parallel can be had an impact, and then the rotating speed of adjust automatically fan, so it has There is the advantages of realizing temperature controlled rotation speed of the fan automatically.

Refering to Fig. 4, Fig. 5, Fig. 6 in the feeding structure of energy saving hot-bending machine, including：Rack, feeding component, pan feeding portion Part, wherein as shown in figure 4, being a kind of rack provided by the utility model, which can place hot bending die, this is put It is hollow structure to set frame, includes multiple placement round bars 201 in the hollow structure, and hot bending die, which is placed on, places 201 top of round bar, The feeding component is as shown in fig. 6, include：Upper flitch 301, head 302, connecting rod 303, Z-axis lifting mechanism 304 and X, Y-axis connection Motivation structure 10；Wherein, the one side of upper flitch 301 and one end of connecting rod 303 are fixed, the other end and the head 302 of connecting rod 303 Front it is fixed, the top surface of the head 302 is connect with the mobile terminal of Z-axis lifting mechanism 304, the fixing end of Z-axis lifting mechanism 304 It fixing with one end of X, Y-axis linkage mechanism 10, X, Y-axis linkage mechanism 10 drive the Z-axis lifting mechanism 304 to be moved in X, Y-axis, The width of upper flitch 301 is placed adjacent the distance between round bar 201 less than two.The pan feeding component is as shown in figure 5, include：Cabin Body 210, Y-axis feeding channel 211, X-axis feeding channel (being not drawn into figure), Y-axis baffle 212, Y-axis mobile device 213 and X-axis are drawn The entrance of rising stem 214, Y-axis feeding channel 211 is connected to rack, outlet and the X-axis feeding channel of Y-axis feeding channel 211 Entrance is connected to, the heating cabinet of the outlet hot-bending machine of the X-axis feeding channel；The silk of one end and Y-axis mobile device of Y-axis baffle Bar connects, and the corresponding position in X-axis feeding channel is arranged in X-axis pulling rod.

The realization principle of above-mentioned feeding structure is, after being placed on rack for hot bending die, the upper flitch of feeding component 301 are moved to hot bending die position, which is pushed into the Y-axis feeding channel of pan feeding component by then upper flitch movement, Then hot bending die is driven to be moved to X-axis feeding channel entrance in Y-axis feeding channel 211 by Y-axis baffle, X-axis pulling rod is by X The hot bending die of axis feeding channel entrance is pushed into heating cabinet, and entire fill process is completed, since the equipment is by being arranged rack, So it can once place many hot bending dies improves efficiency without placement hot bending die one by one, have High efficiency, advantage at low cost.

Optionally, above-mentioned rack is multilayered structure, and every layer of structure includes multiple placement round bars 201.Multilayer knot is set Structure can more place hot bending die so that more efficient.

Optionally, the feeding structure of above-mentioned energy saving hot-bending machine can also include：Lifting platform, the lifting platform are arranged in the placement Below frame.Effect for lifting platform is arranged is the height in order to allow the height of the hot bending die on rack to adapt to pan feeding component Degree.

Optionally, the bottom surface of above-mentioned head 302 also sets up camera, and the entrance of the Y-axis feeding channel 211 is additionally provided with rotation Turn platform, which is used to shoot the image of hot bending die, according to the angle of the image recognition hot bending die, such as the angle It is nonopiate with Y-axis feeding channel, start rotating platform adjustment hot bending die and makes the hot bending die in the angle of Y-axis feeding channel It is orthogonal with the Y-axis feeding channel.This technical solution is to realize the angle not active influence following process for hot bending die Problem, if its angle is incorrect, is possible in subsequent heat process because of heating because for hot bending die Angle Different Effects arc mould yield rate.So camera is arranged here shoots hot bending die, to hot bending die into Row identification obtains corresponding image and carrys out detection angles, and the tune to the angle of hot bending die is realized according to angle and rotating platform It is whole.

Optionally, above-mentioned nacelle 210 is additionally provided with transparent window.The position of hot bending die is observed for the ease of user.

It is the embodiment of the utility model embodiment above, it is noted that for the ordinary skill people of the art For member, under the premise of not departing from the utility model embodiment principle, several improvements and modifications can also be made, these improvement It is also considered as the scope of protection of the utility model with retouching.

Claims (6)

1. a kind of energy saving hot-bending machine, which is characterized in that the hot-bending machine includes：Feeding structure and hot-bending machine chassis, the charging Structure is fixed at hot-bending machine chassis top, and the hot-bending machine chassis includes：Upper rectangle frame and lower rectangle frame, rectangle frame on this Hollow portion be provided with multiple sub- rectangle frames, which is correspondingly arranged on multiple lower sub- rectangle frames, sub- rectangle on this The square position of frame and lower sub- rectangle frame is fixed with more reinforcing ribs, and a side of chassis is provided with multiple fans；

The chassis further includes：First cooling duct, the second cooling duct and supporting rack, the first cooling duct are provided on first Cooling tube and first time cooling tube, the second cooling duct are provided with cooling tube and second time cooling tube on second, wherein first Lower cooling tube is arranged in parallel with second time cooling tube, and first time cooling tube is both provided with multiple coolings with second time cooling tube and goes out Mouthful, cooling tube is arranged in parallel and is located at the downside of the cooling-part of hot-bending machine on cooling tube and second on first, is cooled down on first Cooling tube is both provided with multiple coolant outlets on pipe and second, and one end of the supporting rack is fixed with upper rectangle frame, the supporting rack The other end fixes cooling tube, first cooling duct and the second cooling duct and cooling storage on cooling tube and second on first Device is connected to；

The feeding structure includes：Rack, feeding component, pan feeding component, wherein

The rack is hollow structure, includes multiple placement round bars in the hollow structure, and hot bending die is placed on described put It sets on round bar；

The feeding component includes：Upper flitch, head, connecting rod, Z-axis lifting mechanism and X, Y-axis linkage mechanism；Wherein, described The one side of upper flitch and one end of the connecting rod are fixed, and the other end of the connecting rod and the front of the head are fixed, institute The top surface for stating head is connect with the mobile terminal of the Z-axis lifting mechanism, the fixing end of the Z-axis lifting mechanism and the X, Y-axis One end of linkage mechanism is fixed, and the X, Y-axis linkage mechanism drive the Z-axis lifting mechanism to be moved in X, Y-axis, the feeding The width of plate is placed adjacent the distance between round bar less than two；

The pan feeding component, including：Nacelle, Y-axis feeding channel, X-axis feeding channel, Y-axis baffle, Y-axis mobile device and X-axis are drawn The entrance of rising stem, the Y-axis feeding channel is connected to the rack, the outlet of the Y-axis feeding channel and the X-axis pan feeding The entrance in channel is connected to, the heating cabinet of the outlet hot-bending machine of the X-axis feeding channel；One end of the Y-axis baffle and institute The lead screw connection of Y-axis mobile device is stated, the Y-axis baffle can drive the hot bending die to be moved in the Y-axis feeding channel, institute State the corresponding position that the X-axis feeding channel of the nacelle is arranged in X-axis pulling rod.

2. energy saving hot-bending machine according to claim 1, which is characterized in that the lower end of the lower rectangle frame is symmetrically arranged with more The lower end of a pulley, lower rectangle frame is removably fixed with multiple fixed seats, and the wherein height of fixed seat is higher than the pulley.

3. energy saving hot-bending machine according to claim 1, which is characterized in that the front of the chassis is provided with multiple sliding doors.

4. energy saving hot-bending machine according to claim 1, which is characterized in that the chassis further includes fan control circuitry, institute Stating fan control circuitry includes：The multiple fans being connected in parallel, one end of the multiple fans being connected in parallel are another with switch K1's End connection, one end of the other end connection first resistor for the multiple fans being connected in parallel, one end connection power supply of switch K1 is just Pole, the other end of the cathode connection first resistor of power supply, one end of first resistor is also with the actuation switch JAK1's of relay A1 One end connection for being attracted switch JCK of one end, one end for being attracted switch JBK1 of relay B1, relay C, is attracted switch JAK1 Other end connection resistance RA one end, be attracted one end of the other end connection resistance RB of switch JBK1, actuation switch JCK's is another One end connects one end of resistance RC, and the other end of resistance RA, resistance RB and resistance RC connect power cathode；

No. 1 port of the other end connection rectifier bridge of switch K1, one end of No. 2 ports connection thermistor RT of rectifier bridge, heat One end of the other end connection second resistance of quick resistance RT, the other end ground connection of second resistance, No. 3 ports connection electricity of rectifier bridge Source cathode, No. 4 port ground connection；

One end for being attracted switch JBK3 of the other end connection relay B3 of thermistor RT, the actuation switch JBK2 of relay B2 One end and comparator C positive input, be attracted the other end connection relay A2 actuation switches JAK2's of switch JBK3 One end is attracted the positive input of the other end connection comparator A of switch JAK2, the reverse input end connection first of comparator A The reverse input end of voltage source VCC1, comparator C connect tertiary voltage source VCC3, are being attracted switch JBK2 connection comparators B just To input terminal, the reverse input end connection the second voltage source VCC2 of comparator B；

The base stage of the output end connecting triode QA of comparator A, triode QA collectors connect first voltage source VCC1, triode One end of the coil ZA1 of the emitter connection relay A1 of QA, one end of the other end connection 3rd resistor R3 of coil ZA1, the The other end of three resistance R3 is grounded；

The base stage of the output end connecting triode QB1 of comparator B, the collector connection the second voltage source VCC2 of triode QB1, three One end of the coil ZB1 of the emitter connection relay B1 of pole pipe QB1, the other end of coil ZB1 connect the one of the 4th resistance R4 End, the other end ground connection of the 4th resistance R4, the other end of coil ZB1 are also connected with the input terminal of the first not circuit, the first NOT gate The collector of the base stage of the output end connecting triode QB2 of circuit, triode QB2 connects the second voltage source VCC2, triode QB2 Emitter connection relay A2 coil ZA2 one end, the other end of coil ZA2 connects one end of the 5th resistance, the 5th electricity The other end of resistance is grounded；

The base stage of the output end connecting triode QC1 of comparator C, the collector connection tertiary voltage source VCC3 of triode QC1, three One end of the coil ZC of the emitter connection relay C of pole pipe QC1, the other end of coil ZC connect one end of the 6th resistance R6, The other end of 6th resistance R6 is grounded, and the other end of coil ZC is also connected with the input terminal of the second not circuit, the second not circuit Output end connecting triode QC2 base stage, the collector of triode QC2 connects tertiary voltage source VCC3, the hair of triode QC2 Emitter-base bandgap grading connects one end of the coil ZB2 of relay B2, one end of the coil ZB3 of the other end connection relay B3 of coil ZB2, line The other end for enclosing ZB3 connects one end of the 7th resistance, the other end ground connection of the 7th resistance；

Wherein, VCC1<VCC2<VCC3.

5. energy saving hot-bending machine according to claim 1, which is characterized in that

The rack is multilayered structure, and every layer of structure includes multiple placement round bars.

6. energy saving hot-bending machine according to claim 1, which is characterized in that

The feeding structure of the energy saving hot-bending machine further includes：Lifting platform, the lifting platform are arranged under the rack.