CN218700886U - Mould of direct drinking machine water route board - Google Patents

Abstract

The utility model relates to a mould of a direct drinking machine water circuit board, which comprises an end plate, a connecting plate, a movable template, a fixed template and a bottom plate which are arranged from front to back in sequence; a first forming template is further embedded in the rear side of the movable template, correspondingly, a second forming template matched with the first forming template is further embedded in the front side of the fixed template, a first side forming assembly is further arranged on the left side of the first forming template and the left side of the second forming template, and a second side forming assembly is further arranged on the right side of the first forming template and the right side of the second forming template; a central forming assembly is also arranged above the first forming template and the second forming template; the utility model discloses the production step of having simplified greatly is in order to save manpower, material resources to both labour saving and time saving has reduced manufacturing cost again.

Description

Mould of direct drinking machine water route board

Technical Field

The utility model relates to a mould of a water route board of a direct drinking machine.

Background

The direct drinking machine is terminal water purifying equipment widely used for municipal tap water purification treatment, and produced water can be directly drunk by people; the waterway plate in the direct drinking machine is an important accessory for controlling the flow direction of water flow, and the current waterway plates are all injection-molded parts in consideration of the problems of manufacturing cost and processing difficulty; because a large number of holes are required to be processed on the water channel plate for water to flow in and out, the prior production mode is that the external structure of the water channel plate is firstly formed by an injection mold, and then the water channel plate is drilled and cut for a plurality of times to finally form a finished product, but the production steps of the water channel plate are complex, extra manpower and material resources are required, time and labor are wasted, the production cost is increased, and the water channel plate is to be further improved.

SUMMERY OF THE UTILITY MODEL

To the current situation of the prior art, the utility model aims to solve the technical problem of providing a production step that has simplified greatly with labour saving and time saving and reduced manufacturing cost's straight drink machine water route board's mould.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a mould of a water channel plate of a direct drinking machine comprises an end plate, a connecting plate, a movable mould plate, a fixed mould plate and a bottom plate which are sequentially arranged from front to back; the core column forming device is characterized in that a first side forming assembly is further arranged on the left sides of the first forming template and the second forming template, the first side forming assembly comprises two first rail blocks which are transversely embedded in the front side of the fixed template and are positioned on the left side of the second forming template, first sliding blocks which are movably arranged between the two first rail blocks, a first base block which is fixed on the rear side of the movable template, and first traction rods which are obliquely and movably inserted into the first sliding blocks, the front ends of the first traction rods are fixed on the first base blocks, and a plurality of first core columns, a plurality of second core columns and a plurality of third core columns are further arranged on the right sides of the first sliding blocks; the right sides of the first forming template and the second forming template are further provided with a second side forming assembly, the second side forming assembly comprises two second track blocks which are transversely embedded in the front side of the fixed template, are positioned on the right side of the second forming template and are symmetrically distributed in parallel, a second sliding block movably arranged between the two second track blocks, a second base block fixed on the rear side of the movable template, and a second traction rod obliquely and movably inserted into the second sliding block, the front end of the second traction rod is fixed on the second base block, a first extending column and a second extending column are outwards formed on the left side of the second sliding block, a fourth core column is further embedded in the end of the first extending column, a right arc-shaped notch is formed in the end of the second extending column, and a fifth core column is further embedded in the bottom of the right arc-shaped notch; the upper portions of the first forming template and the second forming template are further provided with a central forming assembly, the central forming assembly comprises two third track blocks which are vertically embedded in the front side of the fixed template and are located above the second forming template and symmetrically distributed in parallel, a third sliding block which is movably arranged between the two third track blocks, a cylinder which is fixed on the outer wall of the upper side of the fixed template, and a core rod which is vertically inserted into the second forming template from top to bottom and movably inserted into the outer wall of the upper side of the fixed template, the upper end of the core rod is fixed on the third sliding block, and a telescopic end of the cylinder is vertically arranged downwards and detachably fixed on the third sliding block.

Preferably, a first slot cavity is formed in the front side of the second forming template, a second slot cavity is correspondingly formed in the rear side of the first forming template, and the opening of the second slot cavity and the opening of the first slot cavity are spliced with each other; a first convex seat is formed forwards on the bottom surface of the first groove cavity, correspondingly, a second convex seat is formed backwards on the bottom surface of the second groove cavity, and the second convex seat is matched with the first convex seat.

Preferably, a cylindrical seat is further formed forwards on the bottom surface of the first groove cavity, a round hole is formed in the bottom surface of the second groove cavity, a cylindrical block is further embedded and fixed in the round hole, a first step seat is formed outwards on the end portion of the cylindrical block, a second step seat is formed outwards on the end portion of the first step seat, and the end portion of the second step seat is matched with the end portion of the cylindrical seat.

Preferably, a first counter bore is formed in an end portion of the second step seat, a first step shaft is formed outwards in the center of the bottom surface of the first counter bore, a second counter bore is formed in an end portion of the first step shaft, and a second step shaft is formed outwards in the center of the bottom surface of the second counter bore.

Preferably, left arc breach has been seted up to the inboard of first slider, left side arc breach with the left and right sides of column seat is located respectively to right side arc breach, it has a plurality of left side shaping piece still to be formed with outwards on the bottom surface of left side arc breach, it has a plurality of right side shaping piece still to be formed with outwards on the bottom surface of right side arc breach.

Preferably, a rectangular hole is formed in the bottom surface of the second groove cavity, an auxiliary block is further embedded and fixed in the rectangular hole, and a forming notch is formed in one side of the end portion of the auxiliary block.

Preferably, an open slot is further formed in one side of the first step seat, a side bar is further embedded and fixed in the open slot, and a side block is formed at the end part of the side bar outwards.

Compared with the prior art, the utility model has the advantages of: the utility model discloses not only can the shaping go out the exterior structure of water route board, can also once only come out with the equal shaping of each hole in the water route board, need not to arrange separately behind water route board demolding and punch and cutting process, and then the production step that has simplified greatly is in order to save manpower, material resources to both labour saving and time saving has reduced manufacturing cost again.

Drawings

FIG. 1 is a front right side exploded view of the present invention;

FIG. 2 is a left front side exploded view of the present invention;

fig. 3 is a right rear side exploded view of the first forming die plate of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and the like in the description of the invention does not denote any order, quantity, or importance, but rather the terms "first," "second," and the like are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item preceding the word comprises the element or item listed after the word and its equivalent, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted.

As shown in fig. 1-3, a mold for a water channel plate of a direct drinking machine comprises an end plate 1, a connecting plate 2, a movable template 3, a fixed template 5 and a bottom plate 6 which are arranged from front to back in sequence; the connecting plate 2 is fixed on the rear side of the end plate 1, the movable template 3 is fixed on the rear side of the connecting plate 2, the fixed template 5 is fixed on the front side of the bottom plate 6 and is matched with the movable template 3, the first forming template 4 is embedded in the rear side of the movable template 3, correspondingly, the second forming template 8 matched with the first forming template 4 is embedded in the front side of the fixed template 5, and an ejection mechanism 7 matched with the second forming template 8 is also arranged between the fixed template 5 and the bottom plate 6; move backward and agree with the back each other with fixed die plate 5 under the drive of end plate 1 and connecting plate 2 as movable die plate 3, first forming die plate 4 also splices each other with second forming die plate 8, later, the melten material via end plate 1, water in connecting plate 2 and the movable die plate 3 is watered and is entered into between first forming die plate 4 and the second forming die plate 8, has just formed water route board 15 after the cooling, with the help of ejection mechanism 7 with water route board 15 from second forming die plate 8 in outwards ejecting can, above-mentioned principle is prior art, and the utility model discloses a characteristics lie in: the left sides of the first forming template 4 and the second forming template 8 are further provided with a first side forming assembly 12, the first side forming assembly 12 comprises two first rail blocks 121 which are transversely embedded in the front side of the fixed template 5, are positioned on the left side of the second forming template 8 and are symmetrically distributed in parallel, a first sliding block 122 which is movably arranged between the two first rail blocks 121, a first base block 123 which is fixed on the rear side of the movable template 3, and a first traction rod 124 which is obliquely and movably inserted into the first sliding block 122, the front end of the first traction rod 124 is fixed on the first base block 123, and the right side of the first sliding block 122 is further embedded with a plurality of first core pillars 125, a plurality of second core pillars 126 and a plurality of third core pillars 127; a second side forming assembly 13 is further arranged on the right sides of the first forming template 4 and the second forming template 8, the second side forming assembly 13 comprises two second rail blocks 131 which are transversely embedded in the front side of the fixed template 5, are positioned on the right side of the second forming template 8, are symmetrically distributed in parallel, a second sliding block 132 movably arranged between the two second rail blocks 131, a second base block 133 fixed on the rear side of the movable template 3, and a second traction rod 134 which is obliquely and movably inserted into the second sliding block 132, the front end of the second traction rod 134 is fixed on the second base block 133, a first extending column 1321 and a second extending column 1322 are outwards formed on the left side of the second sliding block 132, a fourth core column 135 is further embedded in the end of the first extending column 1321, a right arc-shaped notch 1323 is formed in the end of the second extending column 1322, and a fifth core column 136 is further embedded in the bottom of the right arc-shaped notch 1323; the upper portions of the first molding template 4 and the second molding template 8 are further provided with a central molding assembly 14, the central molding assembly 14 comprises two third rail blocks 141 which are vertically embedded in the front side of the fixed template 5, are located above the second molding template 8 and are symmetrically distributed in parallel, a third sliding block 142 movably arranged between the two third rail blocks 141, a cylinder 143 fixed on the outer wall of the upper side of the fixed template 5, and a core rod 144 vertically inserted into the second molding template 8 from top to bottom and movably, the upper end of the core rod 144 is fixed on the third sliding block 142, and the telescopic end of the cylinder 143 is vertically arranged downwards and detachably fixed on the third sliding block 142.

A first groove cavity 81 is formed in the front side of the second forming template 8, correspondingly, a second groove cavity 41 is formed in the rear side of the first forming template 4, and the opening of the second groove cavity 41 and the opening of the first groove cavity 81 are spliced with each other; a first boss 83 is formed forward on the bottom surface of the first cavity 81, and correspondingly, a second boss 43 is formed backward on the bottom surface of the second cavity 41, and the second boss 43 is engaged with the first boss 83.

A cylindrical seat 82 is further formed forward on the bottom surface of the first slot cavity 81, a round hole 42 is formed in the bottom surface of the second slot cavity 41, a cylindrical block 10 is further embedded and fixed in the round hole 42, a first step seat 101 is formed outward on the end portion of the cylindrical block 10, a second step seat 102 is formed outward on the end portion of the first step seat 101, and the end portion of the second step seat 102 is matched with the end portion of the cylindrical seat 82.

The end of the second step seat 102 is provided with a first counterbore 107, the center of the bottom surface of the first counterbore 107 is outward provided with a first step shaft 103, the end of the first step shaft 103 is provided with a second counterbore 105, and the center of the bottom surface of the second counterbore 105 is outward provided with a second step shaft 106.

Left arc breach 1221 has been seted up to first slider 122's inboard, and left and right sides that column seat 82 was located respectively to left arc breach 1221 and right arc breach 1323, still outwards is formed with a plurality of left side shaping piece 1222 on left arc breach 1221's the bottom surface, still outwards is formed with a plurality of right side shaping piece 1324 on right arc breach 1323's the bottom surface.

The bottom surface of the second slot 41 is provided with a rectangular hole 44, an auxiliary block 9 is embedded and fixed in the rectangular hole 44, and one side of the end part of the auxiliary block 9 is provided with a forming notch 91.

An opening groove 104 is further formed in one side of the first step seat 101, a side bar 11 is further embedded and fixed in the opening groove 104, and a side block 111 is formed at the end portion of the side bar 11 outwards.

The working principle is as follows: after the movable mold plate 3 and the fixed mold plate 5 are closed, the first molding plate 4 and the second molding plate 8 are spliced with each other, and the second step seat 102 is inserted into the end part of the columnar seat 82; the first stems 125, the second stems 126, and the third stems 127 form a corresponding number of channels on the left side of the waterway plate 15, and the fourth stem 135 and the fifth stem 136 form a corresponding number of channels on the right side of the waterway plate 15.

When the movable die plate 3 moves backwards, the first base block 123 drives the first draw bar 124 which is obliquely arranged to move backwards, so that the first slide block 122 is forced to move rightwards between the two first rail blocks 121, and then the first core columns 125, the second core columns 126 and the third core columns 127 on the first rail blocks 121 are driven to move rightwards to extend into the space between the first slot cavity 81 and the second slot cavity 41 to assist in forming; meanwhile, the backward movement of the movable mold plate 3 drives the second draw bar 134 to move backward by the second base block 133, so as to force the second slide block 132 to move leftward between the two second rail blocks 131 until the fourth core column 135 and the fifth core column 136 also extend into the space between the first slot cavity 81 and the second slot cavity 41 to assist in forming.

When the movable mold plate 3 and the fixed mold plate 5 are closed, the telescopic end of the cylinder 143 in the central molding assembly 14 is driven to extend outward to drive the third slider 142 to move downward between the two third rail blocks 141, and further drive the core bar 144 to move downward until the lower end of the core bar 144 extends into the cavity in front of the second molding mold plate 8 to assist in molding.

The utility model discloses not only can the shaping go out the exterior structure of water route board, can also once only come out with the equal shaping of each hole in the water route board, need not to arrange separately behind water route board demolding and punch and cutting process, and then the production step that has simplified greatly is in order to save manpower, material resources to both labour saving and time saving has reduced manufacturing cost again.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (7)

1. A mould of a water channel plate of a direct drinking machine comprises an end plate, a connecting plate, a movable mould plate, a fixed mould plate and a bottom plate which are sequentially arranged from front to back; the core column forming device is characterized in that a first side forming assembly is further arranged on the left sides of the first forming template and the second forming template, the first side forming assembly comprises two first rail blocks which are transversely embedded in the front side of the fixed template and are positioned on the left side of the second forming template, first sliding blocks which are movably arranged between the two first rail blocks, a first base block which is fixed on the rear side of the movable template, and first traction rods which are obliquely and movably inserted into the first sliding blocks, the front ends of the first traction rods are fixed on the first base blocks, and a plurality of first core columns, a plurality of second core columns and a plurality of third core columns are further arranged on the right sides of the first sliding blocks; the right sides of the first forming template and the second forming template are further provided with a second side forming assembly, the second side forming assembly comprises two second track blocks which are transversely embedded in the front side of the fixed template, are positioned on the right side of the second forming template and are symmetrically distributed in parallel, a second sliding block movably arranged between the two second track blocks, a second base block fixed on the rear side of the movable template, and a second traction rod obliquely and movably inserted into the second sliding block, the front end of the second traction rod is fixed on the second base block, a first extending column and a second extending column are outwards formed on the left side of the second sliding block, a fourth core column is further embedded in the end of the first extending column, a right arc-shaped notch is formed in the end of the second extending column, and a fifth core column is further embedded in the bottom of the right arc-shaped notch; the upper portions of the first forming template and the second forming template are further provided with a central forming assembly, the central forming assembly comprises two third track blocks which are vertically embedded in the front side of the fixed template and are located above the second forming template and symmetrically distributed in parallel, a third sliding block which is movably arranged between the two third track blocks, a cylinder which is fixed on the outer wall of the upper side of the fixed template, and a core rod which is vertically inserted into the second forming template from top to bottom and movably inserted into the outer wall of the upper side of the fixed template, the upper end of the core rod is fixed on the third sliding block, and a telescopic end of the cylinder is vertically arranged downwards and detachably fixed on the third sliding block.

2. A mold for a direct drinking machine water way plate according to claim 1, wherein a first slot cavity is opened on the front side of the second molding template, correspondingly, a second slot cavity is opened on the rear side of the first molding template, and the opening of the second slot cavity and the opening of the first slot cavity are mutually spliced; a first convex seat is formed forwards on the bottom surface of the first groove cavity, correspondingly, a second convex seat is formed backwards on the bottom surface of the second groove cavity, and the second convex seat is matched with the first convex seat.

3. A mold for a water route plate of a direct drinking machine according to claim 2, wherein a column-shaped seat is further formed forward on the bottom surface of the first tank cavity, a round hole is formed on the bottom surface of the second tank cavity, a column-shaped block is further embedded and fixed in the round hole, a first step seat is formed outward on the end portion of the column-shaped block, a second step seat is formed outward on the end portion of the first step seat, and the end portion of the second step seat is matched with the end portion of the column-shaped seat.

4. A mold for a direct drinking machine water channel plate according to claim 3, wherein a first counter bore is opened at an end of the second step seat, a first step shaft is formed outwards from a center of a bottom surface of the first counter bore, a second counter bore is opened at an end of the first step shaft, and a second step shaft is formed outwards from a center of a bottom surface of the second counter bore.

5. A mold for a water route plate of a direct drinking machine according to claim 4, wherein the inner side of the first slide block is provided with a left arc-shaped notch, the left arc-shaped notch and the right arc-shaped notch are respectively arranged at the left side and the right side of the columnar seat, the bottom surface of the left arc-shaped notch is further outwardly formed with a plurality of left forming blocks, and the bottom surface of the right arc-shaped notch is further outwardly formed with a plurality of right forming blocks.

6. A mould for a water channel plate of a direct drinking machine according to claim 5, wherein a rectangular hole is formed on the bottom surface of the second groove cavity, an auxiliary block is embedded and fixed in the rectangular hole, and a forming notch is formed in one side of the end part of the auxiliary block.

7. A mold for a drinking fountain water plate according to claim 6, wherein an open slot is further formed in one side of the first step base, a side bar is further embedded and fixed in the open slot, and a side block is formed outwardly at the end of the side bar.

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