CN203900838U - Fin and flat-tube press-mounting molding device of heat exchanger core integration unit - Google Patents

Abstract

The utility model relates to a fin and flat-tube press-mounting molding device of a heat exchanger core integration unit. The fin and flat-tube press-mounting molding device comprises a fixed bracket, a working plate, an upper fixed plate, upper elevation screws, an elevation press plate, fin straining mechanisms and a top plate elevation mechanism, the elevation press plate is driven by a synchronous driving steering device group to elevate, an integrated fin assembly is limited through the top plate elevation mechanism and the elevation press plate, the integrated fin assembly is raised through the elevation press plate, the integrated fin assembly is shifted and positioned through two groups of linearly distributed fin straining mechanisms, the integrated fin assembly is accurately and mutually plugged into a micro-passage flat tube through the linear descending of the top plate elevation mechanism, and finally the integrated fin assembly is press-mounted and molded through the elevation press plate. By adopting the fin and flat-tube press-mounting molding device, the automatic assembling for press-mounting of the integrated fin assembly and the micro-passage flat tube can be realized, and the problems caused by the manual assembling such as low productivity, poor product quality and the like can be solved.

Description

The fin of the integrated unit of heat exchanger core body and flat tube forming device for press-mounting

Technical field

The utility model relates to the manufacture field of fin in the both cooling and heating parallel-flow heat exchanger of all-aluminium type microchannel, relates in particular to fin and flat tube forming device for press-mounting in the integrated unit of heat exchanger core body.

Background technology

All-aluminium type microchannel both cooling and heating parallel-flow heat exchanger, it is the heat exchanger that a aluminium flat conduit with microchannel replaces inner screw thread copper pipe to carry out heat exchange by refrigerant, traditional copper aluminium heater is that aluminium fin stamps out circular port by high velocity ram machine, make circular copper pipe pass through aluminium fin, afterwards by make copper pipe outer wall and fin hole combine closely to the expand tube of copper pipe, refrigerant flows in copper pipe, reaches the object of heat exchange.Separately there is a kind of all-aluminium type heat exchanger to be widely used in automobile and the cold field of air conditioning of family expenses list, its structure is to clamp an aluminium fin between every two aluminium flat conduits, by that analogy, form a set of heat exchanger by soldering, but the assembling mode of the fin structure of traditional all-aluminium type heat exchanger and fin and aluminum pipe cannot complete evaporimeter (using in indoor apparatus of air conditioner group) drainage problem, evaporator condensate cannot discharge chamber outside, make household cold-warm air conditioner cannot use all-aluminium type heat exchanger to reach and save the object that cost is raised the efficiency.All-aluminium type microchannel both cooling and heating parallel-flow heat exchanger, by the structural change to aluminium fin, has solved the problem of heat exchange and draining, makes this product be different from all-aluminium type parallel-flow heat exchanger, can use on the air-condition heat exchanger condenser of both cooling and heating.In the both cooling and heating parallel-flow heat exchanger of all-aluminium type microchannel, the structure of aluminium fin is different from existing product, as shown in Figure 1, it is pectinate texture, the thin equal intervals of strip aluminium go out the notch coordinating with aluminium flat conduit, the degree of depth of notch is greater than 1/2 of strip aluminium fin width, the advantage of this product is that heat exchanger effectiveness is high, refrigerant use amount reduces, and manufacturing cost reduces.Experiment showed, that heat exchanger effectiveness is 1.3 times of efficiency of copper pipe aluminum fin.Replace the heat exchanger of copper tube aluminum with this product, can make heat exchanger product cost reduce by 30%.Energy-saving effect and cost savings are all apparent, meet the requirement of energy-saving and emission-reduction in country's 12 planning, and following popularization trend is very bright and clear.

Aluminium fin for all-aluminium type microchannel both cooling and heating parallel-flow heat exchanger obtains by strip aluminium strip continuous punching, when punching press in order to make full use of material, the distribution scheme of aluminium fin as shown in Figure 2, two pectination aluminium fins are symmetrical, pectination aluminium fin and microchannel aluminium flat conduit will be clamped into heat exchanger core body assembly is all by the manual aluminium fin burst that completes successively at present, upset screening, gather materials, carry, press-fit with aluminium flat conduit, this mode of production not only production efficiency is low, and product quality is subject to the impact of human factor, production human cost is too high, lacking mechanized production apparatus is the technology barrier that restriction all-aluminium type microchannel both cooling and heating parallel-flow heat exchanger is applied.

Therefore, air-conditioning manufacturing enterprise in the urgent need to one group can carry out AUTOMATIC ZONING burst, flip vertical to aluminium fin, automated assembling equipment that the conveying of gathering materials, aluminium fin and aluminium flat conduit press-fit, to enhance productivity, ensure product quality, reduce production costs.

In order to meet the need of market, applicant carries out process design to this aluminium fin, and provide by layering and divide piece conveying device, flip vertical device, counting to scrape the integrated unit of heat exchanger core body that piece conveying device, cantilever conveying device and core body press-loading apparatus form, the execution technique of this unit is as follows:

---layering burst is carried, and---------elementary the scraping of aluminium fin moved conveying---terminal of aluminium fin is scraped and moved conveying---, and aluminium fin and aluminium flat conduit press-fit moulding and obtain air-conditioning core body the flip vertical of aluminium fin the symmetry arrangement aluminium fin that the thin volume punching press of aluminium obtains in the collection conveying of scraping of aluminium fin.

Complete flip vertical at aluminium fin, scrape after collection conveying, also need aluminium fin to be transported in pressing machine, finally carry out again core body and press-fit.

Utility model content:

The purpose of this utility model is to provide fin and the flat tube forming device for press-mounting of the integrated unit of a kind of heat exchanger core body, it can press-fit into heat exchanger core body with aluminium flat conduit by the integrated aluminium fin of being scraped by fin cantilever mechanism after collection, and it is the equipment that press-fits moulding between aluminium fin conglomerate and aluminium flat conduit.

The technical scheme that the utility model is taked is as follows:

The fin of the integrated unit of a kind of heat exchanger core body and flat tube forming device for press-mounting, it is characterized in that: comprise fixed mount, working plate, upper mounted plate, the synchronous steering gear group that drives, upper lifting screw, lifting pressing plate, the fin tightening system of two groups of lineal layouts and top board elevating mechanism, working plate and upper mounted plate are all fixedly connected as a single entity with fixed mount, working plate is positioned at the below of upper mounted plate, and be arranged in fixed mount, described synchronous driving steering gear group comprises zero turn radius device, lateral deflection device and output steering gear, in output steering gear, worm gear screws with upper lifting screw mutually by the screwed hole at its center, zero turn radius device is driven by motor, two lateral deflection devices are distributed in the both sides of zero turn radius device symmetrically, and be positioned at the center of two output steering gears, two lateral deflection devices are synchronously driven in the same way by zero turn radius device, the synchronous driving in the same way of lateral deflection device is attached thereto two output steering gears that connect, zero turn radius device, lateral deflection device and output steering gear are all fixedly mounted on upper mounted plate, in output steering gear, the axis horizontal setting of worm screw, the axis of worm gear vertically arranges, the lower end of upper lifting screw is fixedly mounted on lifting pressing plate, lifting pressing plate is between working plate and upper mounted plate, the synchronous steering gear group that drives synchronously drives the worm gear in all output steering gears to make rotating in same direction, thereby drive lifting pressing plate with respect to working plate lifting, described fin tightening system comprises motor fixing seat, scrape and move motor, horizontal lead screw, feed screw nut, the slide rail of two parallel distributions, fin slip shifting block, screw mandrel holder and mobile scraping blade tooth bar, two one slide rails are fixed on along fin moving direction on the upper surface of lifting pressing plate, screw mandrel holder and motor fixing seat are fixedly mounted on lifting pressing plate, the two ends of horizontal lead screw are arranged on respectively in screw mandrel holder and motor fixing seat, horizontal lead screw is positioned at the central plane of two one slide rails, horizontal lead screw moves motor driving by scraping, feed screw nut is screwed on horizontal lead screw, and be fixedly mounted on fin slip shifting block, fin slip shifting block is arranged on two one slide rails, forming straight line slippage between the two coordinates, fin slip shifting block is between motor fixing seat and screw mandrel holder, mobile scraping blade tooth bar passes lifting pressing plate shifting chute by guiding connector is fixedly connected with fin slip shifting block, mobile scraping blade tooth bar is positioned at the lower surface of lifting pressing plate, mobile scraping blade tooth bar can be along shifting chute with fin slip shifting block synchronizing moving, top board elevating mechanism comprises sheet top board, elevating screw, lifting nut, lifting motor, hoistable platform, lead and bottom holder, sheet top board is fixed on hoistable platform vertically, all sheet top board parallel interval distribute, lifting nut is fixed on hoistable platform, elevating screw is screwed in lifting nut, elevating screw is driven by lifting motor, lifting motor is fixed on the holder of bottom, between working plate and bottom holder, be provided with more than two lead, on hoistable platform suit lead, the slot of sheet top board on working plate moves up and down, on working plate, be provided with flat tube fixed mount, be provided with equally spacedly flat tube groove at flat tube fixed mount, flat tube groove is parallel with the slot on working plate, and slot is positioned on the center line of two flat tube grooves, and micro-channel flat is inserted in the flat tube groove on flat tube fixed mount.

Further, be at least vertically installed with two guide posts on lifting pressing plate, fixed head is enclosed within on guide post.

Further, in fin tightening system, scrape and move motor and drive horizontal lead screw structure to be:

Driving pulley is installed scraping the output shaft that moves motor, driven pulley is installed on horizontal lead screw, scrape and move motor and realize band transmission by driving pulley and driven pulley.

Further, in two groups of fin tightening systems, the length of horizontal lead screw is identical.

The course of work of the present utility model is as follows:

Require a selected fin tightening system as benchmark governor motion according to the different specification size of heat exchanger core body, wherein mobile scraping blade tooth bar is adjusted and is moved to predetermined reference position, on flat tube fixed mount on working plate, insert flat tube, in the time that integrated fin component is delivered to the top of working plate by cantilever conveyer structure, integrated fin component is placed in cantilever vertical cutter, between working plate and lifting pressing plate, now synchronously drive the zero turn radius device of steering gear group by lateral deflection device and output steering gear, make to export worm gear in steering gear and make rotating in same direction by screwed hole and the upper lifting screw at its center, thereby drive lifting pressing plate to decline, in the time that the lower surface of lifting pressing plate approaches integrated fin component upper surface, stop declining, being responsible for scraping another fin tightening system moving comes into operation, mobile scraping blade tooth bar is wherein opened to benchmark and is moved, the integrated fins set being placed in this process in cantilever vertical cutter is synchronously moved to benchmark, in the time that integrated fins set moves into place, fin tightening system comes into operation and stops, the top board elevating mechanism that is positioned at working plate below comes into operation, lifting motor drives elevating screw to rotate, the lifting nut that is fixed on hoistable platform rises thereupon, sheet top board is by rising in the top board slot on working plate, in the time that the end face of sheet top board contacts with integrated fin component bottom, cantilever vertical cutter is return, integrated fin component is held up by sheet top board, then top board elevating mechanism starts to move down, integrated fin component will move down thereupon, when the notch of integrated fin component drops down onto when docking slot with flat tube and putting, integrated fin component is just shelved on the combination of flat tube fixed mount and micro-channel flat, in the time that the end face of sheet top board moves down the upper surface of low level working plate, synchronous driving steering gear group drives lifting pressing plate to move down the upper surface of integrated fin component is pressed down, force integrated fin component and the moulding of micro-channel flat plug-in mounting, when integrated fin component and micro-channel flat press-fit after moulding, be responsible for scraping the fin tightening system moving and start to unclamp reset, lifting pressing plate starts to the reduction that resets of rising, the heat exchanger core body having press-fited is passed through frock framework jack-up by both sides cylinder, be drawn out to integrating press-mounting mechanism outside by guide rail, manually take the core body being equipped with away, remove to assemble collector tube.

Because the utility model has solved the problem that fin and micro-channel flat press-fit, this device has used synchronous driving steering gear group to drive the lifting of lifting pressing plate cleverly, realize spacing to integrated fin component by top board elevating mechanism and lifting pressing plate, realize the picking-up to integrated fin component by lifting pressing plate, realize dialling of integrated fin component moved to location by the fin tightening system of two groups of lineal layouts again, straight line by top board elevating mechanism decline realize integrated fin component with micro-channel flat accurately to slotting, finally by synchronously driving steering gear group to drive lifting pressing plate to press-fit moulding to it, so just complete the automation assembling that integrated fin component and micro-channel flat are press-fited, solve and caused production capacity low because of hand assembled, the significant problems such as product quality is bad.

Brief description of the drawings

Fig. 1 is the structural representation of aluminium fin;

Fig. 2 is aluminium fin punching press distribution schematic diagram;

Fig. 3 is structural representation of the present utility model;

Fig. 4 is the syndeton schematic diagram that synchronously drives steering gear group;

Fig. 5 is the mounting structure schematic diagrames of two groups of fin tightening systems on lifting pressing plate;

Fig. 6 is the bottom surface structure schematic diagram of Fig. 5, i.e. the mounting structure schematic diagram of mobile scraping blade tooth bar 77 and lifting pressing plate;

Fig. 7 is distribution and the mounting structure schematic diagram of two groups of fin tightening systems;

Fig. 8 is micro-channel flat mounting structure schematic diagram on working plate;

Fig. 9 is the A-A cutaway view of Fig. 8;

Figure 10 is the mounting structure schematic diagram between top board elevating mechanism and working plate;

Figure 11 is the structural representation of top board elevating mechanism in extreme lower position;

Figure 12 is the structural representation of top board elevating mechanism rising extreme position;

Wherein: 1-fixed mount; 2-working plate; 3-upper mounted plate; 4-synchronously drives steering gear group; The upper lifting screw of 5-; 6-lifting pressing plate; 7-fin tightening system; 8-top board elevating mechanism; 9-micro-channel flat; 10-guide post; 21-slot; 22-flat tube fixed mount; 23-flat tube groove; 41-zero turn radius device; 42-lateral deflection device; 43-exports steering gear; ; 61-shifting chute; 70-motor fixing seat; 71-scrapes and moves motor; 72-horizontal lead screw; 73-feed screw nut; 74-slide rail; 75-fin slip shifting block; 76-screw mandrel holder; 77-moves scraping blade tooth bar; 78-driving pulley; 79-driven pulley; 80-guiding connector; 81-sheet top board; 82-elevating screw; 83-lifting nut; 84-lifting motor; 85-hoistable platform; 86-lead; 87-bottom holder.

Detailed description of the invention:

Below in conjunction with brief description of the drawings detailed description of the invention of the present utility model:

The fin of the integrated unit of a kind of heat exchanger core body and flat tube forming device for press-mounting, as shown in Fig. 3～12, comprise fixed mount 1, working plate 2, upper mounted plate 3, the synchronous steering gear group 4 that drives, upper lifting screw 5, lifting pressing plate 6, the fin tightening system 7 of two groups of lineal layouts and top board elevating mechanism 8, working plate 2 and upper mounted plate 3 are all fixedly connected as a single entity with fixed mount 1, working plate 2 is positioned at the below of upper mounted plate 3, and be arranged in fixed mount 1, described synchronous driving steering gear group 4 comprises zero turn radius device 41, lateral deflection device 42 and output steering gear 43, in output steering gear 43, worm gear screws with upper lifting screw 5 mutually by the screwed hole at its center, zero turn radius device 41 is driven by motor, two lateral deflection devices 42 are distributed in the both sides of zero turn radius device 41 symmetrically, and be positioned at the center of two output steering gears 43, two lateral deflection devices 42 are synchronously driven in the same way by zero turn radius device 41, the synchronous driving in the same way of lateral deflection device 42 is attached thereto two output steering gears 43 that connect, zero turn radius device 41, lateral deflection device 42 and output steering gear 43 are all fixedly mounted on upper mounted plate 3, in output steering gear 43, the axis horizontal setting of worm screw, the axis of worm gear vertically arranges, the lower end of upper lifting screw 5 is fixedly mounted on lifting pressing plate 6, lifting pressing plate 6 is between working plate 2 and upper mounted plate 3, between lifting pressing plate 6 and upper mounted plate 3, be provided with two guide posts 10, synchronous four worm gears of exporting in steering gears 43 of the synchronous driving of steering gear group 4 that drive are made rotating in same direction, thereby drive lifting pressing plate 6 with respect to working plate 2 liftings, described fin tightening system 7 comprises motor fixing seat 70, scrape and move motor 71, horizontal lead screw 72, feed screw nut 73, the slide rail 74 of two parallel distributions, fin slip shifting block 75, screw mandrel holder 76 and mobile scraping blade tooth bar 77, two one slide rails 74 are fixed on along fin moving direction on the upper surface of lifting pressing plate 6, screw mandrel holder 76 and motor fixing seat 70 are all fixedly mounted on lifting pressing plate 6, the two ends of horizontal lead screw 72 are arranged on respectively in screw mandrel holder 76 and motor fixing seat 70, horizontal lead screw 72 is positioned at the central plane of two one slide rails 74, scrape and move motor 71 and be arranged in motor fixing seat 70, driving pulley 78 is installed scraping the output shaft that moves motor 71, driven pulley 79 is installed on horizontal lead screw 72, scrape and move motor 71 by driving pulley 78 and driven pulley 79 realization band transmissions, feed screw nut 73 is screwed on horizontal lead screw 72, and be fixedly mounted on fin slip shifting block 75, fin slip shifting block 75 is arranged on two one slide rails 74, forming straight line slippage between the two coordinates, fin slip shifting block 75 is between motor fixing seat 70 and screw mandrel holder 76, mobile scraping blade tooth bar 77 is fixedly connected with fin slip shifting block 75 through the shifting chute 61 of lifting pressing plate 6 by guiding connector 80, mobile scraping blade tooth bar 77 is positioned at the lower surface of lifting pressing plate 6, mobile scraping blade tooth bar 77 can be along shifting chute 61 with fin slip shifting block 75 synchronizing movings, in two groups of fin tightening systems 7, on the left of being positioned at, the length of the horizontal lead screw 72 on the Length Ratio right side of horizontal lead screw 72 is long, certainly also can be arranged to equal length, described top board elevating mechanism 8 comprises sheet top board 81, elevating screw 82, lifting nut 83, lifting motor 84, hoistable platform 85, lead 86 and bottom holder 87, sheet top board 81 is fixed on hoistable platform 85 vertically, all sheet top board 81 parallel interval distribute, lifting nut 83 is fixed on hoistable platform 85, elevating screw 82 is screwed in lifting nut 83, elevating screw 82 is driven by lifting motor 84, lifting motor 84 is fixed on bottom holder 87, between working plate 2 and bottom holder 87, be provided with more than two lead 86, hoistable platform 85 is set with on lead 86, the slot 21 of sheet top board 81 on working plate 2 moves up and down, on working plate 2, be provided with flat tube fixed mount 22, be provided with equally spacedly flat tube groove 23 at flat tube fixed mount 22, flat tube groove 23 is parallel with the slot 21 on working plate 2, and slot 21 is positioned on the center line of two flat tube grooves 23, and micro-channel flat 9 is inserted in the flat tube groove 23 on flat tube fixed mount 22.

Claims (4)

1. the fin of the integrated unit of heat exchanger core body and flat tube forming device for press-mounting, it is characterized in that: comprise fixed mount (1), working plate (2), upper mounted plate (3), the synchronous steering gear group (4) that drives, upper lifting screw (5), lifting pressing plate (6), the fin tightening system (7) of two groups of lineal layouts and top board elevating mechanism (8), working plate (2) and upper mounted plate (3) are all fixedly connected as a single entity with fixed mount (1), working plate (2) is positioned at the below of upper mounted plate (3), and be arranged in fixed mount (1), described synchronous driving steering gear group (4) bag is scraped zero turn radius device (41), lateral deflection device (42) and output steering gear (43), in output steering gear (43), worm gear screws with upper lifting screw (5) mutually by the screwed hole at its center, zero turn radius device (41) is driven by motor, two lateral deflection devices (42) are distributed in the both sides of zero turn radius device (41) symmetrically, and be positioned at the center of two output steering gears (43), two lateral deflection devices (42) are synchronously driven in the same way by zero turn radius device (41), the synchronous driving in the same way of lateral deflection device (42) is attached thereto two the output steering gears (43) that connect, zero turn radius device (41), lateral deflection device (42) and output steering gear (43) are all fixedly mounted on upper mounted plate (3), in output steering gear (43), the axis horizontal setting of worm screw, the axis of worm gear vertically arranges, the lower end of upper lifting screw (5) is fixedly mounted on lifting pressing plate (6), lifting pressing plate (6) is positioned between working plate (2) and upper mounted plate (3), the synchronous steering gear group (4) that drives synchronously drives the worm gear in all output steering gears (43) to make rotating in same direction, thereby drive lifting pressing plate (6) with respect to working plate (2) lifting, described fin tightening system (7) bag is scraped motor fixing seat (70), scrape and move motor (71), horizontal lead screw (72), feed screw nut (73), the slide rail (74) of two parallel distributions, fin slip shifting block (75), screw mandrel holder (76) and mobile scraping blade tooth bar (77), two one slide rails (74) are fixed on along fin moving direction on the upper surface of lifting pressing plate (6), screw mandrel holder (76) and motor fixing seat (70) are all fixedly mounted on lifting pressing plate (6), the two ends of horizontal lead screw (72) are arranged on respectively in screw mandrel holder (76) and motor fixing seat (70), horizontal lead screw (72) is positioned at the central plane of two one slide rails (74), horizontal lead screw (72) moves motor (71) driving by scraping, feed screw nut (73) is screwed on horizontal lead screw (72), and be fixedly mounted on fin slip shifting block (75), fin slip shifting block (75) is arranged on two one slide rails (74), forming straight line slippage between the two coordinates, fin slip shifting block (75) is positioned between motor fixing seat (70) and screw mandrel holder (76), mobile scraping blade tooth bar (77) is fixedly connected with fin slip shifting block (75) through the shifting chute (61) of lifting pressing plate (6) by guiding connector (80), mobile scraping blade tooth bar (77) is positioned at the lower surface of lifting pressing plate (6), mobile scraping blade tooth bar (77) can be along shifting chute (61) with fin slip shifting block (75) synchronizing moving, top board elevating mechanism (8) bag is scraped sheet top board (81), elevating screw (82), lifting nut (83), lifting motor (84), hoistable platform (85), lead (86) and bottom holder (87), sheet top board (81) is fixed on hoistable platform (85) vertically, all sheet top boards (81) parallel interval distributes, lifting nut (83) is fixed on hoistable platform (85), elevating screw (82) is screwed in lifting nut (83), elevating screw (82) is driven by lifting motor (84), lifting motor (84) is fixed on bottom holder (87), between working plate (2) and bottom holder (87), be provided with more than two lead (86), hoistable platform (85) is sleeved on lead (86), the slot (21) of sheet top board (81) on working plate (2) moves up and down, on working plate (2), be provided with flat tube fixed mount (22), be provided with equally spacedly flat tube groove (23) at flat tube fixed mount (22), flat tube groove (23) is parallel with the slot (21) on working plate (2), slot (21) is positioned on the center line of two flat tube grooves (23), and micro-channel flat (9) is inserted in the flat tube groove (23) on flat tube fixed mount (22).

2. the fin of the integrated unit of heat exchanger core body and flat tube forming device for press-mounting according to claim 1, it is characterized in that: on lifting pressing plate (6), be at least vertically installed with two guide posts (10), fixed head (3) is enclosed within on guide post (10).

3. the fin of the integrated unit of heat exchanger core body and flat tube forming device for press-mounting according to claim 1, it is characterized in that: in fin tightening system (7), scrape and move motor (71) and drive horizontal lead screw (72) structure to be: driving pulley (78) is installed scraping the output shaft that moves motor (71), driven pulley (79) is installed on horizontal lead screw (72), scrapes and move motor (71) by driving pulley (78) and the transmission of driven pulley (79) realization band.

4. the fin of the integrated unit of heat exchanger core body and flat tube forming device for press-mounting according to claim 1, is characterized in that: in two groups of fin tightening systems (7), the length of horizontal lead screw (72) is identical.