CN202506920U - Micro reflow soldering platform capable of improving utilization rate of heat source - Google Patents

Abstract

The utility model provides a micro reflow soldering platform capable of improving the utilization rate of a heat source. The platform consists of a controller, two heaters, a bottom plate and a transmission mechanism, wherein the controller and the transmission mechanism are arranged on the bottom plate; a first heater is connected with the transmission mechanism; a second heater is connected with the bottom plate; the working surface of the first heater is vertically arranged on the upper side of the working surface of the second heater in a corresponding mode; and each of the first heater and the second heater consists of a heat disc, a plurality of electric heating pipes, a temperature measuring sensor, a heat insulation cushion and a transition plate. The platform is reasonable in structural design and can improve the utilization rate of the heat source to achieve high heat power density, the aim of directly performing synchronous conductive heating on the top surface and the bottom surface of a fixture is fulfilled through the two heaters, and a component in the fixture can obtain heat conducted by the heaters and radiation heat generated in the fixture simultaneously, and is subjected to reflow soldering.

Description

Can improve the miniature backflow welding stage of thermal source utilization rate

Technical field

The utility model relates to the welding stage technical field, particularly a kind of backflow welding stage, especially a kind of miniature backflow welding stage that improves the thermal source utilization rate.

Background technology

Reflow Soldering is a common processes of electronics industry, and mostly conventional Reflow Soldering equipment is the tunnel type reflow soldering or goes up open type Reflow Soldering case.The thermal power of above-mentioned two kinds of Reflow Soldering equipment is 5kw and 3kw respectively.And all be that the employing radiation is main mode of heating, its heating power density is all at 3w/cm ²About, can satisfy greatly and the welding condition of thin printed circuit board (PCB).

Along with continuing to bring out of new electronic component product, new requirement has been proposed reflow soldering process.Make some baroque components and parts, must constrain in weldment in the special-purpose metal anchor clamps sometimes, together with the anchor clamps Reflow Soldering, postwelding takes out components and parts.Yet; Because the projected area of anchor clamps is less, thermal capacity is but much bigger than simple printed circuit board (PCB), places components and parts in the lower existing Reflow Soldering equipment of thermal power density and can reduce the utilization rate to thermal source greatly; Therefore, be difficult to obtain satisfactory Reflow Soldering temperature curve.

Summary of the invention

To the weak point of above-mentioned technology, the utility model provides a kind of can obtain bigger thermal power density, to realize the components and parts in the anchor clamps are carried out the miniature backflow welding stage of the improved thermal source utilization rate of solder reflow operation.

For realizing above-mentioned purpose; The utility model provides a kind of miniature backflow welding stage that improves the thermal source utilization rate; Constitute by controller, heater, base plate and transmission mechanism; Said controller and said transmission mechanism are installed on the said base plate, and the quantity of said heater is two, and said primary heater is connected with said transmission mechanism; Said secondary heater is connected with said base plate, and the working face of said primary heater adopts corresponding mode to be vertically set on the working face upside of said secondary heater.

Said primary heater and said secondary heater all are to be made up of heat dish, a plurality of electrothermal tube, temperature transducer, heat insulating mattress and rebound; Said heat dish is arranged on the upside of said rebound; Said heat insulating mattress is arranged between said heat dish and the said rebound; Said a plurality of electrothermal tube is arranged on the inside of said heat dish, and said temperature transducer is arranged on the middle part of said heat dish near working face one side.

Said transmission mechanism is made up of cylinder, crossbeam, transverse slat, guide pillar and guide pin bushing; Said cylinder is installed on the said crossbeam; The output of said cylinder is through the inside of said crossbeam and be fixed in the joint on the said transverse slat, and said guide pillar is from top to bottom successively through the inside of said crossbeam, said transverse slat, said guide pin bushing and said base plate.

Said primary heater is suspended on the bottom of said transverse slat.

Said secondary heater is suspended on the bottom of said base plate, and the top of said heat dish is in the through hole of said backplate surface, and the working face of said heat dish and the top surface of said base plate are same plane and are provided with.

Between the inside edge of said hot outer ledge that coils and said through hole, also be provided with the gap.

Compared with prior art, the utlity model has following advantage:

The project organization of the utility model is reasonable; Can improve the utilization rate of thermal source; To obtain bigger thermal power density; To reach the purpose of directly top and bottom of anchor clamps being conducted synchronously heating, make the components and parts in the anchor clamps can obtain the heat of heater conductive and the radiations heat energy of the inner generation of anchor clamps simultaneously, through two heaters to realize that components and parts in the anchor clamps are carried out solder reflow operation.The utility model adopts heat exchange pattern; Through being concentrated, uses less thermal source; To obtain bigger thermal power density; Therefore, be applicable to that more must be contained in the small sized product of welding together in the anchor clamps to small scale printed circuitry plate, combined resistor-capacitor elements and thick film hybrid etc. carries out solder reflow operation.

Description of drawings

Fig. 1 is the front view of the utility model;

Fig. 2 is the side view of Fig. 1;

Fig. 3 partly cuts open side view for heater among Fig. 1 and Fig. 2;

Fig. 4 partly cuts open vertical view for Fig. 3's;

Fig. 5 and Fig. 6 are the utility model " time-temperature " curve synoptic diagram.

Main symbol description is following:

1-cylinder 2-crossbeam 3-guide pillar

4-transverse slat 5-guide pin bushing 6-joint

7-base plate 8-controller 9-start button

10-primary heater 11-secondary heater 12-anchor clamps

13-gap 14-heat dish 15-electrothermal tube

16-temperature transducer 17-heat insulating mattress 18-rebound

The specific embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is done further explain.

Like Fig. 1 and shown in Figure 2, the utility model provides a kind of miniature backflow welding stage that improves the thermal source utilization rate, is made up of controller, two heaters, base plate and transmission mechanisms.Controller 8 is installed on the base plate 7 with transmission mechanism, and controller is provided with start button 9, the K7-A200 type controller of this permanent company of controller 8 employing Beijing Sadens.Primary heater 10 is connected with transmission mechanism, and secondary heater 11 is connected with base plate 7, and primary heater 10 is arranged on the upper end of secondary heater 11.Wherein, the working face of primary heater 10 adopts corresponding mode to be vertically set on the working face upside of secondary heater 11.

Transmission mechanism is made up of with guide pin bushing 5 cylinder 1, crossbeam 2, transverse slat 4, guide pillar 3.Wherein, cylinder 1 is installed on the crossbeam 2, and the output of cylinder 1 is through the inside of crossbeam 2 and be fixed in the joint 6 on the transverse slat 4.The quantity of guide pillar 3 is two, and from top to bottom successively through the inside of crossbeam 2, transverse slat 4, guide pin bushing 5 with base plate 7.

Primary heater 10 is suspended on the bottom of transverse slat 4, and secondary heater 11 is suspended on the bottom of base plate 7.Adopt the mode of suspension respectively primary heater and secondary heater to be connected with transverse slat and base plate, not only can block or reduce the conduction of heat, reduce energy consumption, can also avoid harmful intensification of other assemblies.The top of secondary heater 11 is in the through hole on base plate 7 surfaces, and the top surface of the working face at its top and base plate 7 is that same plane is provided with, and can the anchor clamps that be built-in with components and parts 12 be placed on the top surface of secondary heater 11.Between the through hole of the outer surface of secondary heater 11 and backplate surface, also be provided with annular gap 13, wherein, the gap between the outer surface of secondary heater and the inner surface of through hole is not less than 3mm.Can prevent that through this gap 13 position that base plate 7 contacts with secondary heater 11 from being influenced by the heat that secondary heater sends, in addition, can get up to the heat that secondary heater the sends effect of water conservancy diversion of this gap.

The utility model in use, controller is controlled the output of cylinder, makes it carry out motion vertically downward, in its motion process, drives transverse slat and two guide pin bushings and on two guide pillars, also carries out motion vertically downward.And transverse slat is in motion process vertically downward, thus make primary heater lower surface to the secondary heater of its lower end near.When primary heater contacts with the top of anchor clamps, just accomplished solder reflow operation jointly to components and parts in the anchor clamps with secondary heater.

Through two heaters to reach the purpose of directly top and bottom of anchor clamps being conducted synchronously heating; Can improve the utilization rate of thermal source; To obtain bigger thermal power density; Make the components and parts in the anchor clamps can obtain the heat of heater conductive and the radiations heat energy of the inner generation of anchor clamps simultaneously, to realize that components and parts in the anchor clamps are carried out solder reflow operation.

Like Fig. 3 and shown in Figure 4, primary heater and secondary heater all are to be made up of with rebound 18 heat dish 14, electrothermal tube 15, temperature transducer 16, heat insulating mattress 17.Wherein, heat dish 14 is arranged on the upside of rebound 18, and heat insulating mattress 17 is arranged between heat dish 14 and the rebound 18.In the present embodiment; The quantity of electrothermal tube is two; And be separately positioned in the inner electrothermal tube installation position of heat dish; Temperature transducer 16 is arranged between two electrothermal tubes 15, and as far as possible near a side of heat dish working face, heat insulating mattress 17 then is fixed on heat dish 14 sides away from working face successively with rebound 18.

Hot dish can adopt with good heat conducting material manufacturings such as aluminium, copper, and in this example, the heat dish adopts LY-10 type aluminium alloy to make, and its appearance and size is φ 60*24.Two electrothermal tubes are the commodity electrothermal tube of φ 12*60/150W/220V, and its general power is 600W, and thermal power density can reach 10.5w/cm ², in other occasions, anchor clamps size that can be required according to product is done suitable increase and decrease to conditions such as heat dish size, electrothermal tube quantity and electrothermal tube watt levels, and its principle is to obtain sufficient heat transfer area and enough heating powers.Temperature transducer is the temperature transducer of PT-100 standard.

As shown in Figure 5, be contained in the components and parts of desire welding in the anchor clamps by technological requirement, they are pushed away the middle part that is placed on secondary heater.

The start button of opening controller, cylinder is descending, and primary heater rides on the anchor clamps; Simultaneously, two heaters power on simultaneously, heat up by the curve requirement of setting: ts-a-b-c-d.When arriving d value, two heaters cut off the power supply automatically, cylinder goes upward to top dead-centre automatically and stops, and send audible and visible alarm, and system gets into the waiting state of lowering the temperature.At this moment, by releasing on the secondary heater, anchor clamps dispel the heat on base plate with anchor clamps in manual work, and temperature is cooled off along d-e naturally, takes turns welding thereby accomplish one.People can do the beamhouse operation of next round during the automatic operation of equipment.

In addition, in the continuous operation occasion, after welding is taken turns in completion one,, repeat the aforesaid operations process, carry out the another reflow soldering of taking turns no matter heater cooling degree how, all can push next anchor clamps on the secondary heater at any time.

By shown in Figure 6, after releasing previous anchor clamps, this moment, heater also was in the situation of extreme temperature (th); If push another new anchor clamps immediately; So, the heat that contains the heater that has surplus heat can be absorbed by cold anchor clamps, and the temperature of heater descends along th ⌒ 0 curve; Meanwhile, cold anchor clamps absorb the heat of heater, and temperature rises along ts ⌒ 0 curve.When they the most at last with the control line ts-a that sets when crossing for 0, controller gets into 0-a-b-c-d at once and powers up state of a control, guarantees preset follow-up Reflow Soldering condition.

When other any moment (heater is in any temperature of ts-th) pushed the heater welding to cold anchor clamps, the The initial segment temperature that it is not controlled was with not running off the arc shadow region of ts ⌒ 0 with the ts-0 formation.The rate of rise of any temperature curve in this zone all is far smaller than 4 ℃ of/second these damageability thermal shock standards.

Obviously, the advantage of aforesaid operations is: can utilize waste heat, simplify control, operation arbitrarily.

The utility model through two heaters to realize directly the top surface and the lower surface of anchor clamps being conducted heating synchronously; Can improve the utilization rate of thermal source; To obtain bigger thermal power density; Make the components and parts in the anchor clamps can obtain the heat of heater conductive and the radiations heat energy of the inner generation of anchor clamps simultaneously, to realize that components and parts in the anchor clamps are carried out solder reflow operation.

The above is merely the preferred embodiment of the utility model, and is in order to restriction the utility model, not all within the spirit and principle of the utility model, any modification of being done, is equal to replacement, improvement etc., all should be included within the protection domain of the utility model.

Claims (6)

1. miniature backflow welding stage that can improve the thermal source utilization rate; Be made up of controller, heater, base plate and transmission mechanism, said controller and said transmission mechanism are installed on the said base plate, it is characterized in that; The quantity of said heater is two; Said primary heater is connected with said transmission mechanism, and said secondary heater is connected with said base plate, and the working face of said primary heater adopts corresponding mode to be vertically set on the working face upside of said secondary heater.

2. the miniature backflow welding stage that improves the thermal source utilization rate according to claim 1; It is characterized in that; Said primary heater and said secondary heater all are to be made up of heat dish, a plurality of electrothermal tube, temperature transducer, heat insulating mattress and rebound; Said heat dish is arranged on the upside of said rebound; Said heat insulating mattress is arranged between said heat dish and the said rebound, and said a plurality of electrothermal tubes are arranged on the inside of said heat dish, and said temperature transducer is arranged on the middle part of said heat dish near working face one side.

3. the miniature backflow welding stage that improves the thermal source utilization rate according to claim 2; It is characterized in that; Said transmission mechanism is made up of cylinder, crossbeam, transverse slat, guide pillar and guide pin bushing; Said cylinder is installed on the said crossbeam, and the output of said cylinder is through the inside of said crossbeam and be fixed in the joint on the said transverse slat, and said guide pillar is from top to bottom successively through the inside of said crossbeam, said transverse slat, said guide pin bushing and said base plate.

4. the miniature backflow welding stage that improves the thermal source utilization rate according to claim 3 is characterized in that said primary heater is suspended on the bottom of said transverse slat.

5. the miniature backflow welding stage that improves the thermal source utilization rate according to claim 2; It is characterized in that; Said secondary heater is suspended on the bottom of said base plate; The top of said heat dish is in the through hole of said backplate surface, and the working face of said heat dish and the top surface of said base plate are same plane and are provided with.

6. the miniature backflow welding stage that improves the thermal source utilization rate according to claim 5 is characterized in that, between the inside edge of said hot outer ledge that coils and said through hole, also is provided with the gap.

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