CN205289485U - Water tank mainboard mould of radiator - Google Patents

Abstract

The utility model provides a water tank mainboard mould of radiator, including last mould, lower mould, interior guide pillar and guide Bush subassembly and outer guide pillar and guide Bush subassembly, it includes cope match -plate pattern, punch plate, jet -bedding terrace die and punch -die to go up the mould, the lower mould includes die holder, die backing plate, jet -bedding die and die board, wherein, punch plate with the bottom surface of cope match -plate pattern is connected, the jet -bedding terrace die sets up punch plate is last, the punch -die with punch plate's bottom surface is connected, the die backing plate sets up the top surface of die holder, concave template settings is in the top surface of die backing plate. The beneficial effects of the utility model are that: merge into one set of mould with three sets of moulds of trimming die, bender, jet -bedding of water tank mainboard to the purpose that improves production efficiency is reached, owing to reduced resetting's number of times, the manufacturing accuracy can be effectively improved moreover.

Description

The water tank mainboard mould of a kind of radiator

Technical field

The utility model relates to mould, particularly relates to the water tank mainboard mould of a kind of radiator.

Background technology

Radiator, also known as scatterer, is the main parts in automobile cooling system, and its effect is distribute heat, and water coolant absorbs heat in water jacket, and after flowing to scatterer, heat leaves, then returns to water jacket internal recycle, reaches the object of vehicles engine temperature. And water tank mainboard is the important composition parts of radiator, water tank mainboard is aluminum hardware, by mould, sheet material is carried out punching press and obtains required shape and size. The traditional complete processing of water tank mainboard stamping die comprises four cover single-stroke mould usually, can be divided into according to order from front to back: shaping mould, trimming die, bending mould, notching die, namely the punching press of water tank mainboard needs to use more mould, this kind manufacturing mode technique is loaded down with trivial details, man-hour consumes greatly, process-cycle length, efficiency are lower, and, need to repeat to locate the accumulation causing error, cause punching press part dimensional precision greatly to reduce, and easily produce defects such as colliding with on surface.

Along with current automobile demand amount hits new peak repeatly, the problem of the inefficiency of production of each auto vendor exposes obvious, the get on the car demand of water tank mainboard of market is very big, and therefore, the punching press efficiency how improving water tank mainboard is the task of top priority of each producer at present.

Summary of the invention

In order to solve the problems of the prior art, the utility model provides the water tank mainboard mould of a kind of radiator, and by deburring, bending, to rush groove three-in-one.

The utility model provides the water tank mainboard mould of a kind of radiator, comprise upper die and lower die, interior guide pillar guide pin bushing assembly and outer guide pillar guide pin bushing assembly, described patrix comprises top plate, punch retainer, rushes geosynclinal convex mould and convex-concave mould, and described counterdie comprises lower die holder, die backing plate, lower die and concave template, wherein, described punch retainer is connected with the bottom surface of described top plate, and the described geosynclinal convex mould that rushes is arranged on described punch retainer, and described convex-concave mould is connected with the bottom surface of described punch retainer, described die backing plate is arranged on the end face of described lower die holder, described concave template is arranged on the end face of described die backing plate, the end face of described concave template is provided with deburring concave die cavity, described lower die is arranged in the deburring concave die cavity of described concave template, described top plate, lower die holder is connected to form moving sets by described outer guide pillar guide pin bushing assembly, described punch retainer, concave template is connected to form moving sets by described interior guide pillar guide pin bushing assembly, the outside of described convex-concave mould is deburring punch, described deburring punch, deburring concave die cavity is that trimming die coordinates, the inner side of described convex-concave mould is bending patrix, the outside of described lower die is bending counterdie, described bending patrix, bending counterdie is that bending mould coordinates, the end face of described lower die is provided with the lower die die cavity of place work piece, described rush geosynclinal convex mould, lower die die cavity is that notching die coordinates.

As further improvement of the utility model, described top plate is connected with the loading and unloading material plate pushing down workpiece when deburring by unloading bolt, described loading and unloading material plate is positioned on described lower die die cavity, being connected with deburring between described loading and unloading material plate, top plate and compress spring, described punch retainer, loading and unloading material plate, concave template are connected to form moving sets by described interior guide pillar guide pin bushing assembly.

As further improvement of the utility model, described top plate by unloading bolt be connected with bending, rush groove time push down the unloading block of workpiece, described unloading block is positioned on described lower die die cavity, is connected with bending and rushes groove compression spring between described unloading block, top plate.

As further improvement of the utility model, described punch retainer is provided with and rushes geosynclinal convex mould fixed link, and the described geosynclinal convex mould that rushes is fixed on described punching on geosynclinal convex mould fixed link.

As further improvement of the utility model, described lower die holder is connected with by unloading bolt and is rushing the lower discharging plate released by workpiece after groove completes, described lower discharging plate is positioned at described deburring concave die cavity, is connected with ejector spring between described lower discharging plate, lower die holder.

As further improvement of the utility model, between described top plate, lower die holder, it is provided with the spacing column assembly of punching stroke restriction.

As further improvement of the utility model, described counterdie also comprises lower base plate and feet, and described feet is arranged on described lower base plate, and described lower die holder is arranged in described feet.

The utility model additionally provides the three-in-one Sheet Metal Forming Technology of a kind of water tank mainboard, carries out following step on the water tank mainboard mould of described radiator:

S1, patrix move down;

Top plate, lower die holder are led by S2, outer guide pillar guide pin bushing assembly, and punch retainer, loading and unloading material plate, concave template are led by interior guide pillar guide pin bushing assembly;

S3, patrix continue down to move, and workpiece pushed down by loading and unloading material plate;

S4, patrix continue down to move, and convex-concave mould enters concave template, and workpiece is carried out deburring by the outside of convex-concave mould and concave template;

S5, patrix continue to move down, and unloading block pushes down workpiece, and lower die enters convex-concave mould, and workpiece is carried out bending by the outside of lower die and the inner side of convex-concave mould;

S6, patrix continue to move down, and rush geosynclinal convex mould and enter lower die, complete punch process;

S7, patrix continue descending �� spacing column assembly and contact up and down, prevent mould and workpiece from damaging;

S8, patrix move up, and workpiece, by the thrust of ejector spring, is released concave template by lower discharging plate, complete a deburring, bending, punching course that to rush groove three-in-one.

The beneficial effects of the utility model are: pass through such scheme, by the trimming die of water tank mainboard, bending mould, rush groove three mold and merge into one set of die, thus reach the object improving production efficiency, and the number of times repeating location owing to decreasing, it is possible to effectively improve manufacturing accuracy.

Accompanying drawing explanation

The water tank mainboard mould that Fig. 1 is a kind of radiator of the utility model is in the structural representation opened.

Fig. 2 is that the water tank mainboard mould of a kind of radiator of the utility model is in deburring, bending completes, and does not also carry out rushing the structural representation of groove.

The water tank mainboard mould that Fig. 3 is a kind of radiator of the utility model completes the structural representation rushing groove.

Fig. 4 is the process flow sheet of the three-in-one Sheet Metal Forming Technology of the utility model a kind of water tank mainboard.

Embodiment

Illustrate below in conjunction with accompanying drawing and the utility model is illustrated by embodiment further.

Drawing reference numeral in Fig. 1 to Fig. 3 is: lower base plate 1; Feet 2; Lower die holder 3; Die backing plate 4; Concave template 5; Loading and unloading material plate 6; Punch retainer 7; Top plate 8; Interior guide pillar guide pin bushing assembly 9; Convex-concave mould 10; Bending is rushed groove and is compressed spring 11; Unloading bolt 12; Rush geosynclinal convex mould fixed link 13; Unloading block 14; Rush geosynclinal convex mould 15; Lower die 16; Unloading bolt 17; Lower discharging plate 18; Deburring compresses spring 19; Spacing column assembly 20; Ejector spring 21; Outer guide pillar guide pin bushing assembly 22; Water tank mainboard 23.

As shown in Figure 1 to Figure 3, the water tank mainboard mould of a kind of radiator, comprise upper die and lower die, interior guide pillar guide pin bushing assembly 9 and outer guide pillar guide pin bushing assembly 22, described patrix comprises top plate 8, punch retainer 7, rushes geosynclinal convex mould 15 and convex-concave mould 10, and described counterdie comprises lower die holder 3, die backing plate 4, lower die 16 and concave template 5, wherein, described punch retainer 7 is connected with the bottom surface of described top plate 8, and the described geosynclinal convex mould 15 that rushes is arranged on described punch retainer 7, and described convex-concave mould 10 is connected with the bottom surface of described punch retainer 7, described die backing plate 4 is arranged on the end face of described lower die holder 3, described concave template 5 is arranged on the end face of described die backing plate 4, the end face of described concave template 5 is provided with deburring concave die cavity, described lower die 16 is arranged in the deburring concave die cavity of described concave template 5, described top plate 8, lower die holder 3 is connected to form moving sets by described outer guide pillar guide pin bushing assembly 22, described punch retainer 7, concave template 5 is connected to form moving sets by described interior guide pillar guide pin bushing assembly 9, the outside of described convex-concave mould 10 is deburring punch, described deburring punch, deburring concave die cavity is that trimming die coordinates, the inner side of described convex-concave mould 10 is bending patrix, the outside of described lower die 16 is bending counterdie, described bending patrix, bending counterdie is that bending mould coordinates, the end face of described lower die 16 is provided with the lower die die cavity placing water tank mainboard 23, described rush geosynclinal convex mould 15, lower die die cavity is that notching die coordinates.

As shown in Figure 1 to Figure 3, described top plate 8 is connected with the loading and unloading material plate 6 pushing down workpiece when deburring by unloading bolt 17, described loading and unloading material plate 6 is positioned on described lower die die cavity, being connected with deburring between described loading and unloading material plate 6, top plate 8 and compress spring 19, described punch retainer 7, loading and unloading material plate 6, concave template 5 are connected to form moving sets by described interior guide pillar guide pin bushing assembly 9.

As shown in Figure 1 to Figure 3, described unloading bolt 17 is connected with loading and unloading material plate 6, and deburring compresses spring 19 and applies spring power in loading and unloading material plate 6, and water tank mainboard 23 pushed down by loading and unloading material plate 6, carries out deburring.

As shown in Figure 1 to Figure 3, described top plate 8 by unloading bolt 12 be connected with bending, rush groove time push down the unloading block 14 of workpiece, described unloading block 14 is positioned on described lower die die cavity, is connected with bending and rushes groove compression spring 11 between described unloading block 14, top plate 8.

As shown in Figure 1 to Figure 3, described unloading bolt 12 is connected with unloading block 14, and bending is rushed groove compression spring 11 and applied spring power in unloading block 14, and unloading block 14 pushes down water tank mainboard 23, carries out bending and punching.

As shown in Figure 1 to Figure 3, described punch retainer 7 is provided with and rushes geosynclinal convex mould fixed link 13, and the described geosynclinal convex mould 15 that rushes is fixed on described punching on geosynclinal convex mould fixed link 13.

As shown in Figure 1 to Figure 3, described lower die holder 3 is connected with by unloading bolt and is rushing the lower discharging plate 18 released by workpiece after groove completes, described lower discharging plate 18 is positioned at described deburring concave die cavity, is connected with ejector spring 21 between described lower discharging plate 18, lower die holder 3.

As shown in Figure 1 to Figure 3, described top plate 8, the spacing column assembly 20 that is provided with punching stroke restriction between lower die holder 3.

As shown in Figure 1 to Figure 3, described counterdie also comprises lower base plate 1 and feet 2, and described feet 2 is arranged on described lower base plate 1, and described lower die holder 3 is arranged in described feet 2.

As shown in Figures 1 to 4, the three-in-one Sheet Metal Forming Technology of a kind of water tank mainboard, carries out following step on the water tank mainboard mould of described radiator:

S1, patrix move down;

Top plate 8, lower die holder 3 are led by S2, outer guide pillar guide pin bushing assembly 22, and punch retainer 7, loading and unloading material plate 6, concave template 5 are led by interior guide pillar guide pin bushing assembly 9;

S3, patrix continue down to move, and water tank mainboard 23 pushed down by loading and unloading material plate 6;

S4, patrix continue down to move, and convex-concave mould 10 enters concave template 5, and water tank mainboard is carried out deburring (blanking) by the outside of convex-concave mould 10 and concave template 5;

S5, patrix continue to move down, and unloading block 14 pushes down water tank mainboard 23, and lower die 16 enters convex-concave mould 10, and water tank mainboard 23 is carried out bending by the outside of lower die 16 and the inner side of convex-concave mould 10;

S6, patrix continue to move down, and rush geosynclinal convex mould 15 and enter lower die 16, complete the punch process to water tank mainboard 23;

S7, patrix continue descending �� spacing column assembly about 20 and contact, and prevent mould and water tank mainboard 23 from damaging;

S8, patrix move up, and water tank mainboard 23, by the thrust of ejector spring 21, is released concave template 5 by lower discharging plate 18, complete a deburring, bending, punching course that to rush groove three-in-one.

Rear three molds of water tank mainboard mould, by research, are merged into one set of die by the water tank mainboard mould of a kind of radiator that the utility model provides and technique, thus reach the object improving production efficiency; Trimming die (being also called blanking die) wherein, bending mould, notching die are merged, four molds is changed into two molds (the water tank mainboard mould of shaping mould and radiator), improving productivity more than 50%; And the number of times repeating location owing to decreasing, it is possible to effectively improve its manufacturing accuracy. Owing to the structure itself of trimming die, bending mould, notching die exists bigger difference, it is very difficult for how being undertaken merging by this three nested structure, the utility model for radiator mainboard mould structure &processes be a very big innovation.

Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations. For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, it is also possible to make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (7)

1. the water tank mainboard mould of a radiator, it is characterized in that: comprise upper die and lower die, interior guide pillar guide pin bushing assembly and outer guide pillar guide pin bushing assembly, described patrix comprises top plate, punch retainer, rushes geosynclinal convex mould and convex-concave mould, and described counterdie comprises lower die holder, die backing plate, lower die and concave template, wherein, described punch retainer is connected with the bottom surface of described top plate, and the described geosynclinal convex mould that rushes is arranged on described punch retainer, and described convex-concave mould is connected with the bottom surface of described punch retainer, described die backing plate is arranged on the end face of described lower die holder, described concave template is arranged on the end face of described die backing plate, the end face of described concave template is provided with deburring concave die cavity, described lower die is arranged in the deburring concave die cavity of described concave template, described top plate, lower die holder is connected to form moving sets by described outer guide pillar guide pin bushing assembly, described punch retainer, concave template is connected to form moving sets by described interior guide pillar guide pin bushing assembly, the outside of described convex-concave mould is deburring punch, described deburring punch, deburring concave die cavity is that trimming die coordinates, the inner side of described convex-concave mould is bending patrix, the outside of described lower die is bending counterdie, described bending patrix, bending counterdie is that bending mould coordinates, the end face of described lower die is provided with the lower die die cavity of place work piece, described rush geosynclinal convex mould, lower die die cavity is that notching die coordinates.

2. the water tank mainboard mould of radiator according to claim 1, it is characterized in that: described top plate is connected with the loading and unloading material plate pushing down workpiece when deburring by unloading bolt, described loading and unloading material plate is positioned on described lower die die cavity, being connected with deburring between described loading and unloading material plate, top plate and compress spring, described punch retainer, loading and unloading material plate, concave template are connected to form moving sets by described interior guide pillar guide pin bushing assembly.

3. the water tank mainboard mould of radiator according to claim 2, it is characterized in that: described top plate by unloading bolt be connected with bending, rush groove time push down the unloading block of workpiece, described unloading block is positioned on described lower die die cavity, is connected with bending and rushes groove compression spring between described unloading block, top plate.

4. the water tank mainboard mould of radiator according to claim 3, it is characterised in that: described punch retainer is provided with and rushes geosynclinal convex mould fixed link, and the described geosynclinal convex mould that rushes is fixed on described punching on geosynclinal convex mould fixed link.

5. the water tank mainboard mould of radiator according to claim 4, it is characterized in that: described lower die holder is connected with by unloading bolt and is rushing the lower discharging plate released by workpiece after groove completes, described lower discharging plate is positioned at described deburring concave die cavity, is connected with ejector spring between described lower discharging plate, lower die holder.

6. the water tank mainboard mould of radiator according to claim 5, it is characterised in that: the spacing column assembly being provided with punching stroke restriction between described top plate, lower die holder.

7. the water tank mainboard mould of radiator according to claim 6, it is characterised in that: described counterdie also comprises lower base plate and feet, and described feet is arranged on described lower base plate, and described lower die holder is arranged in described feet.