CN212070168U - Continuous mould of solar support - Google Patents

Abstract

The utility model discloses a solar rack progressive die, this mould include mould and lower mould, it includes the upper die base to go up the mould, the bottom and the upper padding plate of upper die base correspond releasable connection, the bottom and the upper fixed plate of upper padding plate correspond releasable connection, the bottom one side of upper padding plate still corresponds with the shaping and is connected the lower part correspondence of mould is equipped with the shaping mold insert in the shaping the below correspondence of upper fixed plate is equipped with the stripper, the lower mould includes the bottom plate, the upper end and a plurality of bottom pads of bottom plate correspond and are connected, the upper end of bottom pad all corresponds with the die holder and is connected, the upper end of die holder corresponds with die backing plate and shaping lower mould respectively and is connected the upper end correspondence of die backing plate is equipped with the die board. The utility model discloses can once only accomplish the production of solar rack product, improve production efficiency, save the cost of labor, improve the product percent of pass.

Description

Continuous mould of solar support

Technical Field

The utility model relates to a mould equipment field especially relates to a continuous mould of solar rack.

Background

The die is various dies and tools for obtaining required products by injection molding, blow molding, extrusion, die casting or forging forming, smelting, stamping and other methods in industrial production. In short, a mold is a tool used to make a shaped article, the tool being made up of various parts, different molds being made up of different parts. The processing of the appearance of an article is realized mainly through the change of the physical state of a formed material. The element has the name of "industrial mother".

The blank is formed into a tool with a specific shape and size under the action of external force. The method is widely applied to blanking, die forging, cold heading, extrusion, powder metallurgy part pressing, pressure casting and the forming processing of compression molding or injection molding of products such as engineering plastics, rubber, ceramics and the like. The die has a specific contour or cavity shape, and the blank can be separated (blanked) according to the contour shape by applying the contour shape with the cutting edge. The blank can obtain a corresponding three-dimensional shape by using the shape of the inner cavity. The mold generally comprises a movable mold and a fixed mold (or a male mold and a female mold), which can be separated or combined. When the blank is closed, the blank is injected into the die cavity for forming. The die is a precise tool, has a complex shape, bears the expansion force of a blank, has higher requirements on structural strength, rigidity, surface hardness, surface roughness and processing precision, and the development level of die production is one of important marks of the mechanical manufacturing level.

The hardware mould comprises: including stamping dies (such as blanking dies, bending dies, deep drawing dies, hole flanging dies, hole shrinking dies, rolling dies, bulging dies, shaping dies and the like), forging dies (such as die forging dies, upsetting dies and the like), extrusion dies, die casting dies, forging dies and the like.

In the existing solar bracket production process, the solar bracket is generally composed of two or more sets of dies, and the mode has the main defects that: the production efficiency is low, the production cycle is long, the consumption of manual equipment is high, and the period of customer requirements is limited. Therefore, a continuous mold for solar racks needs to be designed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, a solar support continuous die is provided.

The utility model discloses a following scheme realizes:

a solar support continuous die comprises an upper die and a lower die, wherein the upper die comprises an upper die base, the bottom of the upper die base is correspondingly detachably connected with an upper base plate, the bottom of the upper base plate is correspondingly detachably connected with an upper fixing plate, one side of the bottom of the upper base plate is also correspondingly connected with an upper forming die, a forming insert is correspondingly arranged at the lower part of the upper forming die, a discharging plate is correspondingly arranged below the upper fixing plate, and a guide pillar and an equal-height sleeve are correspondingly arranged between the upper fixing plate and the discharging plate;

the lower die comprises a lower supporting plate, the upper end of the lower supporting plate is correspondingly connected with a plurality of lower foot pads, the upper ends of the lower foot pads are correspondingly connected with a lower die base, the upper end of the lower die base is correspondingly connected with a female die base plate and the lower forming die respectively, and a female die plate is correspondingly arranged at the upper end of the female die base plate;

the concave die plate is matched with the stripper plate, and the upper forming die is matched with the lower forming die.

The upper die is arranged on the lower die base, the lower die base is arranged on the lower die base, and the upper die is arranged on the lower die base.

The joint of the upper forming die and the lower forming die is of an L-shaped structure.

The guide pillar comprises a guide sleeve, the guide sleeve is of a rigid hollow tubular structure, the guide sleeve is embedded in an upper fixing plate, a plastic bead sleeve is correspondingly arranged in the guide sleeve, a plurality of balls are arranged in the plastic bead sleeve, a straight rod-shaped light column is correspondingly arranged in the plastic bead sleeve, the lower portion of the light column extends out of the plastic bead sleeve and is correspondingly connected with a lower connecting seat, a spring is wound outside the light column, the upper end and the lower end of the spring are respectively correspondingly connected with the plastic bead sleeve and the lower connecting seat, the bottom of the lower connecting seat is correspondingly connected with a discharging plate, a movable gland is correspondingly arranged at the upper end of the light column, and the outer diameter of the movable gland is smaller than the inner diameter of the guide sleeve.

The utility model has the advantages that:

the utility model provides a solar rack continuous die uses corresponding stamping equipment in process of production, can once only accomplish the production of solar rack product, improves production efficiency, saves the cost of labor, improves the product percent of pass.

Drawings

Fig. 1 is a schematic structural view of the solar rack continuous mold of the present invention.

Fig. 2 is a schematic structural diagram of the mold closing state of the solar rack continuous mold of the present invention.

Fig. 3 is a detailed structural view of the guide pillar of the solar rack continuous die of the present invention.

In the figure: 1 position upper die base, 2 position upper padding plates, 3 position upper fixing plates, 4 for the shaping upper die, 5 position stripper, 6 for the guide pillar, 61 for the guide sleeve, 62 for the plastic pearl cover, 63 for the ball, 64 for the light column, 65 for the lower connecting seat, 66 for the spring, 67 position removable cover, 7 high sleeves, 8 position shaping mold inserts, 9 position bottom plate, 10 for the bottom bolster, 11 for the die holder, 12 for the die backing plate, 13 for the shaping lower mould, 14 for the die plate, 15 position upper locating plate, 16 for the lower locating plate.

Detailed Description

The invention will be further described with reference to the following specific embodiments:

as shown in fig. 1 and 2, the continuous die for the solar support comprises an upper die and a lower die, wherein the upper die comprises an upper die base 1, the bottom of the upper die base 1 corresponds to an upper padding plate 2 in a detachable connection mode, the bottom of the upper padding plate 2 corresponds to an upper fixing plate 3 in a detachable connection mode, one side of the bottom of the upper padding plate 2 is further connected with a forming upper die 4 in a corresponding mode, a forming insert 8 is correspondingly arranged on the lower portion of the forming upper die 4, a discharging plate 5 is correspondingly arranged below the upper fixing plate 3, a guide pillar 6 and an equal-height sleeve 7 are correspondingly arranged between the upper fixing plate 3 and the discharging plate 5, and in practical application, a plurality of inner hexagonal screws are correspondingly arranged to be correspondingly connected to ensure structural stability. The upper die holder 1 is connected with the upper backing plate 2, the bottom of the upper backing plate 2 is connected with the upper fixing plate 3 through corresponding inner hexagonal screws and pins, and the description is omitted.

The lower die comprises a lower supporting plate 9, the upper end of the lower supporting plate 9 is correspondingly connected with a plurality of lower foot pads 10, the upper ends of the lower foot pads 10 are correspondingly connected with a lower die base 11, the upper end of the lower die base 11 is correspondingly connected with a female die base plate 12 and a forming lower die 13 respectively, and a female die plate 14 is correspondingly arranged at the upper end of the female die base plate 12; the lower die holder 11 and the die backing plate 12, and the die backing plate 12 and the die plate 14 are connected by hexagon socket head cap screws and pins, which are not described in detail herein. The lower die base 11 and the lower foot pad 10, and the lower support plate 9 and the lower foot pad 10 are correspondingly connected by hexagon socket head cap screws, which are not described herein again.

The concave die plate 14 is matched with the stripper plate 5, and the upper forming die 4 is matched with the lower forming die 13. An upper positioning plate 15 is correspondingly arranged at the joint of the upper forming die 4 and the upper backing plate 2, and a lower positioning plate 16 is correspondingly arranged at the joint of the lower forming die 13 and the lower die holder 11. The joint of the upper forming die 4 and the lower forming die 13 is of an L-shaped structure.

As shown in fig. 3, the guide post 6 includes a guide sleeve 61, the guide sleeve 61 is a rigid hollow tubular structure, the guide sleeve 61 is embedded in the upper fixing plate 3, a plastic bead sleeve 62 is correspondingly disposed in the guide sleeve 61, a plurality of balls 63 are disposed in the plastic bead sleeve 62, a straight rod-shaped light post 64 is correspondingly disposed in the plastic bead sleeve 62, a lower portion of the light post 64 extends out of the plastic bead sleeve 62 and is correspondingly connected with a lower connecting seat 65, a spring 66 is further wound outside the light post 64, upper and lower ends of the spring 66 are respectively correspondingly connected with the plastic bead sleeve 62 and the lower connecting seat 65, a bottom of the lower connecting seat 65 is correspondingly connected with the discharging plate 5, an upper end of the light post 64 is correspondingly provided with a movable gland 67, and an outer diameter of the movable gland 67 is smaller than an inner diameter of the guide sleeve 61. The guide pillar of this application has good guidance quality, and the straightness that hangs down all is within 0.01mm, can satisfy high-speed stable punching press requirement, and the group mould is convenient and fast.

The utility model provides a continuous mould of solar rack is when the compound die, stripper 5 towards cavity board 14 removal, then stripper 5 and cavity board 14 contact, at the in-process of compound die, guide pillar 6 plays the effect of direction, and under the pressure of compound die, stripper 5 moves up relatively, and mould 4 and shaping lower mould 13 are pressed into the panel between the two "L" shape structure that meets the requirements in the shaping, and then the compound die is accomplished. The continuous solar support die uses corresponding stamping equipment in the production process, and can complete production of solar support products at one time. When different solar rack products are changed, only the die structure (mainly the structure of the upper forming die 4 and the lower forming die 13) and the stamping equipment are adjusted correspondingly. The corresponding stamping device is well known in the art and will not be described in detail herein.

Although the invention has been shown and described in detail with respect to the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (4)

1. The utility model provides a continuous mould of solar rack which characterized in that: the die comprises an upper die and a lower die, wherein the upper die comprises an upper die base (1), the bottom of the upper die base (1) is correspondingly detachably connected with an upper padding plate (2), the bottom of the upper padding plate (2) is correspondingly detachably connected with an upper fixing plate (3), one side of the bottom of the upper padding plate (2) is also correspondingly connected with an upper forming die (4), a forming insert (8) is correspondingly arranged at the lower part of the upper forming die (4), a discharging plate (5) is correspondingly arranged below the upper fixing plate (3), and a guide pillar (6) and an equal-height sleeve (7) are correspondingly arranged between the upper fixing plate (3) and the discharging plate (5);

the lower die comprises a lower supporting plate (9), the upper end of the lower supporting plate (9) is correspondingly connected with a plurality of lower foot pads (10), the upper ends of the lower foot pads (10) are correspondingly connected with a lower die base (11), the upper end of the lower die base (11) is correspondingly connected with a female die base plate (12) and a forming lower die (13) respectively, and a female die plate (14) is correspondingly arranged at the upper end of the female die base plate (12);

the concave die plate (14) is matched with the stripper plate (5), and the upper forming die (4) is matched with the lower forming die (13).

2. The continuous solar rack mold as claimed in claim 1, wherein: an upper positioning plate (15) is correspondingly arranged at the joint of the upper forming die (4) and the upper backing plate (2), and a lower positioning plate (16) is correspondingly arranged at the joint of the lower forming die (13) and the lower die holder (11).

3. The continuous solar rack mold as claimed in claim 1, wherein: the joint of the upper forming die (4) and the lower forming die (13) is of an L-shaped structure.

4. The continuous solar rack mold as claimed in claim 1, wherein: the guide post (6) comprises a guide sleeve (61), the guide sleeve (61) is of a rigid hollow tubular structure, the guide sleeve (61) is embedded in the upper fixing plate (3), a plastic bead sleeve (62) is correspondingly arranged in the guide sleeve (61), a plurality of balls (63) are arranged in the plastic bead sleeve (62), a straight rod-shaped light column (64) is correspondingly arranged in the plastic bead sleeve (62), the lower part of the light column (64) extends out of the plastic bead sleeve (62) and is correspondingly connected with a lower connecting seat (65), a spring (66) is further wound outside the light column (64), the upper end and the lower end of the spring (66) are respectively correspondingly connected with the plastic bead sleeve (62) and the lower connecting seat (65), the bottom of the lower connecting seat (65) is correspondingly connected with the discharging plate (5), a movable gland (67) is correspondingly arranged at the upper end of the light column (64), the outer diameter of the movable gland (67) is smaller than the inner diameter of the guide sleeve (61).

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