CN205222987U - Half self -heating of glass teapot kettle body blowing former - Google Patents

Abstract

Half self -heating of glass teapot kettle body blowing former has the square panel of X, Y orientation in its frame, X to total pole establish upper portion in the frame, running -board hinge lower part in the frame, a wire rope connects between running -board, total pole, control assembly includes the 2nd wire rope, the Y of panel upside to the outside department in relative both sides respectively have X to linear guide, linear guide is last to have two linear guide sliders, there is a die block at panel middle part, control assembly, side form, die block, another side form, another control assembly in proper order along the X of panel to arranging, every side form load is put on two corresponding linear guide sliders of two linear guide, every the 2nd wire rope one end is met with that side that the die block was kept away from to the homonymy side form, wear the panel and assemble the pole under the other end and be connected with the side, during the mould close, the die block is with two side form cooperations and enclose into the cavity. This equipment of using has reduced operative employee intensity of labour, improved kettle body processingquality, etc. Article rate, machining efficiency.

Description

Glass teapot kettle body Semiautomatic heating blow molding equipment

Technical field

The utility model relates to tea glass production field, particularly a kind of glass teapot kettle body Semiautomatic heating blow molding equipment.

Background technology

At present, the shaping most employing double molds shaped device of heating blow of glass teapot kettle body (below to glass teapot kettle body all referred to as kettle body), an a set of described device of operative employee's respective operations.

This device comprises rectangular-shaped hollow sting, foot board, wireline, two side forms (this device does not arrange bed die) positioned opposite, there is horizontally disposed rectangular panel the upside of support, foot board is positioned at support, two side forms are higher than panel, two side forms are arranged up and down and are connected by hinge, arbitrary side form has recessed near the inner side of another side form, and that side form on top is built with automatic runback device, and wireline is connected between that side form on foot board, top.

Operative employee drives wireline by foot board, and what realize an angle of 90 degrees with that side form controlling top opens mould (that side form transfixion of bottom), and mold closing then realizes by described automatic runback device.

Glass tubing is laterally placed on heating blow in two side forms shaping, the diameter of kettle body portion can ensure, the positive round difference of kettle body is ± 0.5mm, but due to the experience of operative employee, secondary processing need be relied at the bottom of kettle shaping, the labour intensity of operative employee is higher, therefore apparent size (being mainly diameter) at the bottom of kettle, verticality all cannot ensure, (in fact the qualification rate of kettle body is only 93%, in this 93% qualified kettle body, the kettle body that can meet design requirements completely exists hardly); Separately, because two side forms arranged up and down are connected through hinge, the tolerance clearance of two side forms is comparatively large (especially after life-time service, the tolerance clearance of two side forms can be strengthened further, described tolerance clearance can reach more than 1mm), described automatic runback device cannot ensure the vertical transverse precision of two side forms, after making kettle body formed, it easily leaves the projection vestige of vertical linear, affects the overall appearance modeling effect of kettle body.

Comprehensively above-mentioned, adopt this device, the labour intensity of operative employee is higher, and can not meet the heating blow Forming Quality requirement of kettle body, the processing quality of kettle body is poor, and the rate such as product such as grade of kettle body, working (machining) efficiency (i.e. production capacity) are all lower.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of glass teapot kettle body Semiautomatic heating blow molding equipment, adopts this equipment, effectively reduces the labour intensity of operative employee, effectively improve the processing quality of kettle body, etc. product rate, working (machining) efficiency.

In order to solve the problems of the technologies described above, the utility model provides a kind of glass teapot kettle body Semiautomatic heating blow molding equipment, comprise rectangular-shaped hollow frame, two side forms that structure is identical, foot board, total bar, the first wireline, two control units that structure is identical, there is horizontally disposed rectangular panel the upside of frame, setting the orthogonal length direction of panel and width in any one party to for X to and other direction is Y-direction, two side forms are higher than panel, and foot board is positioned at frame;

Lower than panel, the top be located at along panel X to horizontally disposed total bar in frame, foot board is hinged on the bottom in frame, the axis at hinge point place parallels with total bar, the position of foot board is corresponding in position with the region, stage casing of total bar, first wireline is connected between the region, stage casing of foot board, total bar, and each control unit at least comprises the second wireline;

On the upside of panel, the outside place, relative both sides of Y-direction is respectively provided with one along panel X to horizontally disposed line slideway, and two line slideways are parallel to each other and contour, each line slideway all have two straight-line guide rail slide blocks;

The middle part of panel is provided with horizontally disposed and higher than the bed die of panel, and a control unit, a side form, bed die, another side form, another control unit is successively along the X of panel to layout, each side form load is placed on corresponding two straight-line guide rail slide blocks of two line slideways, a side form, another side form is arranged symmetrically with relative to bed die, a control unit of a side form homonymy, another control unit of another side form homonymy is arranged symmetrically with relative to bed die, one end of each second wireline connects with homonymy side form that side away from bed die, wear panel under the other end of each second wireline to be connected with the same side of total bar,

When this equipment is in mold closing state, bed die coordinates with two side forms respectively, surrounds vertically to settle Glass tubing and make shaping glass tubes be the chamber of glass teapot kettle body by heating blow between three.

For the purpose of concise description problem, below to glass teapot kettle body Semiautomatic heating blow molding equipment described in the utility model all referred to as this equipment.

After adopting above technical scheme:

Each side form is vertical mode (sectional elevation and the panel at each its length direction center of side form process is perpendicular), two side forms are connected across on two line slideways movably (well-known, the precision of line slideway is high, life-span long).Two control units (each control unit at least comprises the second wireline) coordinate with total bar, the first wireline, foot board, constitute foot-operated operating-controlling mechanism.Rely on described operating-controlling mechanism and line slideway, operative employee can realize two high-precision keyings of side form, save the time, the position of two side forms is easily accurately located when opening mould and mold closing, control the radial both sides that two side forms are positioned at actionless bed die in a symmetrical accurately, realize coordinating comparatively accurately between three moulds, effectively overcome the problem that in background technology, kettle body heating blow Forming Quality is poor, precision is low, after testing, side form and bed die coordinate positioning precision reach ± 13 μm.

When this equipment is in mold closing state, as long as Glass tubing is vertically placed in the chamber that formed between bed die, two side forms by operative employee, just can it be made disposablely to be shaped to qualified kettle body through blowing Glass tubing, can ensure the quality of the kettle body that blow molding obtains, its formed precision is much higher more than the formed precision of background technology.

After previous glass tube heating blow molding completes and obtains qualified kettle body, rely on described operating-controlling mechanism and line slideway, two side forms are opened rapidly realization and moves back mould, unload previous kettle body, continue again to rely on described operating-controlling mechanism and line slideway, two side forms are resetted, close and realize mold closing, and then next Glass tubing vertically can be placed on bed die again, in the chamber formed between two side forms, and carry out the heating blow forming process of next Glass tubing immediately, this automanual mechanical workout mode, effectively reduce the opening and closing time of two side forms, the production capacity of kettle body is higher, and Glass tubing is all namely obtain kettle body by one-time heating blow molding.

Like this, relative to background technology, the labour intensity of operative employee effectively reduces, the working (machining) efficiency of kettle body effectively improves, ensure that the consistence of the external sight of kettle, after testing, the overall three-dimensional dimension of kettle body can control ± 0.02mm (the positive circular error of kettle body can reach diameter at the bottom of ± 0.02mm, kettle and verticality also can be guaranteed), and top-quality product rate can reach more than 99%.

In sum, adopt this equipment, effectively reduce the labour intensity of operative employee, effectively improve the processing quality of kettle body, etc. product rate, working (machining) efficiency.

Described total bar is positioned at the central region place along panel Y-direction, and foot board is positioned at the either side outside place along panel Y-direction;

Each side form is through the sectional elevation at its length direction center, the common vertical plane of axis of bed die.

The above-mentioned particular location of total bar, foot board, convenient operation work tramples foot board comparatively effortlessly, moves downward to drive total bar;

The above-mentioned particular location of each side form, is convenient to realize coordinating more accurately between two side forms, bed die, effectively overcomes the problem that in background technology, kettle body heating blow Forming Quality is poor, precision is low, and further raising side form coordinates positioning precision with bed die.

Described each control unit also comprises web member, spring, support, guide, fluted roller shaft, sheave;

Web member comprises horizontally disposed square block, the middle part in block height direction has the through hole that axis parallels with total bar, the vertical spinning trip bolt of end face of block, the thread end of trip bolt puts in through hole, on block along panel X to side have horizontal-extending and be shaped with externally threaded circular connecting pipe, on block along panel X to opposite side have circle first guide pipe of horizontal-extending, the first guide pipe, through hole, pipe connecting successively coaxial line are communicated with;

Support comprises the first vertical plate, the second vertical plate, leveling board, the normal of the first vertical plate parallels with total bar, normal and total bar of the second vertical plate are perpendicular, a side of the first vertical plate short transverse connects with a side of the second vertical plate short transverse, and the angle between two plates be 90 degree, the second vertical plate is away from bed die, leveling board connects with the lower end of two plates respectively, the middle part of the first vertical plate short transverse has the first oval hole vertically arranged, the middle part of the second vertical plate short transverse has the second oval hole vertically arranged;

Guide comprises guide plate, horizontally disposed circle second guide pipe vertically arranged, and the axis of the second guide pipe parallels with total bar, the middle part vertical connection of the second guide pipe and guide plate;

Web member is spun by pipe connecting and homonymy side form that middle side part region away from bed die, and the axis of pipe connecting, homonymy side form are through the sectional elevation at its length direction center, the common vertical plane of axis of bed die;

Support is fixed on X on the upside of panel by leveling board and fastening piece and locates to the outside, corresponding side near homonymy side form, and the common vertical plane of the axis of the vertical medullary ray in the first oval hole, bed die;

Guide plate reclines mutually with the first vertical plate that side near web member, and guide plate is located in the short transverse of the first vertical plate by the fastening piece running through itself and the first oval hole, second guide pipe, the first guide pipe coaxial line, the connection position of the second guide pipe and guide plate and the first oval hole just to and communicate;

Fluted roller shaft runs through the second oval hole and is fixed on the second vertical plate by fastening piece, the axis perpendicular of fluted roller shaft, the second guide pipe, the working zone of fluted roller shaft is in 90 degree of angle spaces being formed between the first vertical plate, the second vertical plate, on the working zone that sheave is arranged on fluted roller shaft and the conduit of sheave and the first oval hole faces, fluted roller shaft, apart from the specification size of the height of panel, sheave and conduit, is enough to make the axis extended line of the second guide pipe and the tangent state of bottom institute Cheng Yuancheng of conduit;

Spring is socketed with the first guide pipe and the second guide pipe respectively, and the two ends of spring and block, guide plate close contact, the intensity of each spring, guarantees when foot board is from pedal force, is enough to make this equipment can be in the state of mold closing;

Region, the stage casing load of each second wireline is placed in the conduit of homonymy sheave; One end of each second wireline passes the first oval hole of homonymy successively, guide plate, the second guide pipe, spring, the first guide pipe, through hole are entered in pipe connecting, and connected with homonymy block by trip bolt; The other end of each second wireline wears down the leveling board of homonymy successively, panel is connected with the same side of total bar;

The length of each second wireline, when being enough to make this equipment be in mold closing state, two the second wireline are in the state lifting total bar, and total bar is positioned at its highest position.

Like this, the said structure simplicity of design of each control unit, rationally, two control units coordinate with total bar, the first wireline, foot board, constitute foot-operated operating-controlling mechanism; Rely on described operating-controlling mechanism and line slideway, operative employee can succinctly facilitate, realize flexibly and comfortably the keying of two side forms, and also make the work-ing life of this equipment longer.

Described each side form is placed on corresponding two straight-line guide rail slide blocks of two line slideways by glass base plate stacked up and down, die bottom plate load.

Utilize bed die, two side forms by glass tube heating blow molding for kettle body time, two side forms will reach higher temperature.By the heat-insulation and heat-preservation measure of glass base plate, first, effectively can reduce the heat loss of side form, the homo(io)thermism of side form, can not sharply to decline, normal heating blow molding for Glass tubing plays the effect effectively maintaining side form temperature, Glass tubing through heating blow obtained by molding to the quality of kettle body can not be subject to negative impact, the qualification rate of kettle body can reach more than 99%; Second, prevent the heat on two side forms to be directly transferred on line slideway, straight-line guide rail slide block, distortion is aging, quality of fit declines to avoid line slideway, straight-line guide rail slide block to cause because being heated, and can extend the work-ing life of this equipment.

Accompanying drawing explanation

Fig. 1 is the stereographic map that this equipment is seen from the top down.

Fig. 2 is another stereographic map that this equipment is seen from bottom to top.

Fig. 3 is the left view of this equipment.

Fig. 4 is the structural representation of this equipment.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.

See Fig. 1-Fig. 4:

This equipment comprises rectangular-shaped hollow frame 1, bed die 3, two side form 2a that structure is identical, two control units that structure is identical, the first wireline 6, total bar 5, foot board 4.

There is horizontally disposed rectangular panel 1a the upside of frame 1, the length direction in the setting orthogonal length direction of panel 1a and width be X to and width is Y-direction.

Lower than panel 1a, the top be located at along the X of panel 1a to horizontally disposed total bar 5 in frame 1, and total bar 5 is positioned at the central region place of the Y-direction along panel 1a, and total bar 5 adopts square tube.

Foot board 4 is positioned at frame 1, foot board 4 is hinged on the bottom in frame 1, and foot board 4 is positioned at the either side outside place along the Y-direction of panel 1a, the axis at hinge point place parallels with total bar 5, the position of foot board 4 is corresponding in position with the region, stage casing of total bar 5, and the first wireline 6 is connected between the region, stage casing of foot board 4, total bar 5 by snap close.

On the upside of panel 1a, the outside place, relative both sides of Y-direction is respectively provided with an X along panel 1a to horizontally disposed line slideway 1b by bolt, two line slideway 1b are parallel to each other and contour, each line slideway 1b all have two the straight-line guide rail slide block 1c be slidably matched.

The middle part of panel 1a is provided with horizontally disposed and higher than the circular bed die 3 of panel 1a by fastening piece, the axis of bed die 3 is vertical shape and perpendicular to panel 1a, bed die 3 between two line slideway 1b place and with two line slideway 1b separately.

Two control units are positioned at the top of total bar 5, control unit, side form 2a, bed die 3, another side form 2a, another control unit are successively along the X of panel 1a to layout, side form 2a, another side form 2a are arranged symmetrically with relative to bed die 3, a control unit of a side form 2a homonymy, another control unit of another side form 2a homonymy are arranged symmetrically with (like this, this equipment design for symmetrical structure) relative to bed die 3.

Two side form 2a are higher than panel 1a, described each side form 2a is placed on corresponding two straight-line guide rail slide block 1c of two line slideway 1b by stacked up and down glass base plate 2b, die bottom plate 2c load, and each side form 2a is through the sectional elevation at its length direction center, the common vertical plane of axis of bed die 3.Side form 2a and glass base plate 2b, glass base plate 2b and die bottom plate 2c, die bottom plate 2c with straight-line guide rail slide block 1c respectively for (in fact bolt is connected, straight-line guide rail slide block 1c, die bottom plate 2c, glass base plate 2b, side form 2a are connected as a single entity), arbitrary side form 2a has recessed near the inner side of another side form 2a, when this equipment is in mold closing state, bed die 3 coordinates with two side form 2a respectively, surrounds vertically to settle Glass tubing and make shaping glass tubes be the chamber of glass teapot kettle body H by heating blow between three.

Described each control unit comprises the second wireline 7a, web member, spring 7s, support, guide, fluted roller shaft 7p, sheave 7q.

Web member comprises horizontally disposed square block 7b, the middle part of block 7b short transverse has the through hole 7e that axis parallels with total bar 5, the end face vertical spinning trip bolt 7f of block 7b, the thread end of trip bolt 7f puts in through hole 7e, on block 7b along the X of panel 1a to side have horizontal-extending and be shaped with externally threaded circular connecting pipe 7c, on block 7b along the X of panel 1a to opposite side have the circle first guide pipe 7d of horizontal-extending, the first guide pipe 7d, through hole 7e, pipe connecting 7c successively coaxial line are communicated with.

Support comprises the first vertical plate 7g, second vertical plate 7h, leveling board 7i, the normal of the first vertical plate 7g parallels with total bar 5, normal and total bar 5 of the second vertical plate 7h are perpendicular, a side of the first vertical plate 7g short transverse connects with a side of the second vertical plate 7h short transverse, and the angle between two plates is 90 degree, second vertical plate 7h is away from bed die 3, leveling board 7i connects with the lower end of two plates respectively, the middle part of the first vertical plate 7g short transverse has the first oval hole 7j vertically arranged, the middle part of the second vertical plate 7h short transverse has the second oval hole 7k vertically arranged.

Guide comprises the guide plate 7m, the horizontally disposed circle second guide pipe 7n that vertically arrange, and the axis of the second guide pipe 7n parallels with total bar 5, the middle part vertical connection of the second guide pipe 7n and guide plate 7m.

Web member is spun away from that middle side part region of bed die 3 by pipe connecting 7c and homonymy side form 2a, and axis, the homonymy side form 2a of pipe connecting 7c pass through the sectional elevation at its length direction center, the common vertical plane of axis of bed die 3.

The X that support is fixed on the upside of panel 1a by leveling board 7i and fastening piece locates to the outside, corresponding side near homonymy side form 2a, and the common vertical plane of axis of the vertical medullary ray of the first oval hole 7j, bed die 3.

Guide plate 7m reclines near that side of web member mutually with the first vertical plate 7g, and guide plate 7m is located in the short transverse of the first vertical plate 7g by the fastening piece running through itself and the first oval hole 7j, second guide pipe 7n, the first guide pipe 7d coaxial line, the connection position of the second guide pipe 7n and guide plate 7m and the first oval hole 7j just to and communicate.

Fluted roller shaft 7p runs through the second oval hole 7k and is fixed on the second vertical plate 7h by fastening piece, fluted roller shaft 7p, the axis perpendicular of the second guide pipe 7n, the working zone of fluted roller shaft 7p is in the first vertical plate 7g, in the 90 degree of angle spaces formed between second vertical plate 7h, on the working zone that sheave 7q is installed in rotation on fluted roller shaft 7p and the conduit 7r of sheave 7q and the first oval hole 7j face, fluted roller shaft 7p is apart from the height of panel 1a, the specification size of sheave 7q and conduit 7r, be enough to make the axis extended line of the second guide pipe 7n and the tangent state of bottom institute Cheng Yuancheng of conduit 7r, in other words, make the second wireline 7a between web member, rope body between the bottom of described conduit 7r is in the horizontality being parallel to panel 1a.

Spring 7s is socketed with the first guide pipe 7d and the second guide pipe 7n respectively, and the two ends of spring 7s and block 7b, guide plate 7m close contact, spring 7s adopts pressure spring, the intensity of each spring 7s, guarantee when foot board 4 is from pedal force, be enough to make this equipment can be in the state of mold closing.

Region, the stage casing load of each second wireline 7a is placed in the conduit 7r of homonymy sheave 7q, and conduit 7r plays friction and guide effect.

One end of each second wireline 7a passes the first oval hole 7j of homonymy successively, guide plate 7m, second guide pipe 7n, spring 7s, first guide pipe 7d, through hole 7e enters in pipe connecting 7c, and connected with homonymy block 7b by trip bolt 7f, the other end of each second wireline 7a wears down the leveling board 7i of homonymy successively, panel 1a is also connected by the same side of snap close with total bar 5, like this, one end of each second wireline 7a is connected away from that side of bed die 3 with homonymy side form 2a, wear panel 1a under the other end of each second wireline 7a to be connected with the same side of total bar 5, each extended line of second wireline 7a one end and the intersect vertical axis of bed die 3.

The length of each second wireline 7a, when being enough to make this equipment be in mold closing state, two the second wireline 7a are in the state lifting total bar 5, and total bar 5 is positioned at its highest position.

The principle of work of this equipment is:

The pin of operative employee firmly steps on foot board 4, because the first wireline 6 to be connected between the region, stage casing of foot board 4, total bar 5, so total bar 5 can be driven to move downward by snap close;

For the control unit of each side form 2a homonymy, one end of corresponding second wireline 7a is by trip bolt 7f, homonymy block 7b connects away from that side of bed die 3 with homonymy side form 2a, the other end of corresponding second wireline 7a is connected by the same side of snap close with total bar 5, region, the stage casing load of corresponding second wireline 7a is placed in the conduit 7r of homonymy sheave 7q, like this, while total bar 5 moves downward, two the second wireline 7a take turns the guiding of 7q by respective side slot, the side form 2a of corresponding side will be pulled respectively, the side form 2a of corresponding side to be moved and away from bed die 3 (the spring 7s pressurized of corresponding side along two line slideway 1b by straight-line guide rail slide block 1c, assemble stronger bounce), two side form 2a realize opening mould in the state that is separated from each other,

The pin of operative employee stops trampling foot board 4, two spring 7s of both sides will discharge bounce, the side form 2a of corresponding side will be promoted respectively, the side form 2a of corresponding side is moved and close bed die 3 along two line slideway 1b by straight-line guide rail slide block 1c, two side form 2a can meet at bed die 3 place and closely be combined, two side form 2a in automatically reseting immediately, closure state realizes mold closing;

So repeat above operation, two side form 2a can be made to continue and cyclically realize opening mould, mold closing.

The foregoing is only preferred embodiment of the present utility model, only in order to explain the utility model, be not used for limiting protection domain of the present utility model; If do not depart from spirit and scope of the present utility model, the utility model is modified or equivalent to replace, in the middle of the protection domain that all should be encompassed in the utility model claim.

Claims (4)

1. glass teapot kettle body Semiautomatic heating blow molding equipment, comprise rectangular-shaped hollow frame, two side forms, foot boards that structure is identical, there is horizontally disposed rectangular panel the upside of frame, setting the orthogonal length direction of panel and width in any one party to for X to and other direction is Y-direction, two side forms are higher than panel, foot board is positioned at frame, it is characterized in that:

This equipment also comprises total bar, the first wireline, two control units that structure is identical, lower than panel, the top be located at along panel X to horizontally disposed total bar in frame, foot board is hinged on the bottom in frame, the axis at hinge point place parallels with total bar, the position of foot board is corresponding in position with the region, stage casing of total bar, first wireline is connected between the region, stage casing of foot board, total bar, and each control unit at least comprises the second wireline;

On the upside of panel, the outside place, relative both sides of Y-direction is respectively provided with one along panel X to horizontally disposed line slideway, and two line slideways are parallel to each other and contour, each line slideway all have two straight-line guide rail slide blocks;

The middle part of panel is provided with horizontally disposed and higher than the bed die of panel, and a control unit, a side form, bed die, another side form, another control unit is successively along the X of panel to layout, each side form load is placed on corresponding two straight-line guide rail slide blocks of two line slideways, a side form, another side form is arranged symmetrically with relative to bed die, a control unit of a side form homonymy, another control unit of another side form homonymy is arranged symmetrically with relative to bed die, one end of each second wireline connects with homonymy side form that side away from bed die, wear panel under the other end of each second wireline to be connected with the same side of total bar,

When this equipment is in mold closing state, bed die coordinates with two side forms respectively, surrounds vertically to settle Glass tubing and make shaping glass tubes be the chamber of glass teapot kettle body by heating blow between three.

2. glass teapot kettle body Semiautomatic heating blow molding equipment according to claim 1, is characterized in that:

Described total bar is positioned at the central region place along panel Y-direction, and foot board is positioned at the either side outside place along panel Y-direction;

Each side form is through the sectional elevation at its length direction center, the common vertical plane of axis of bed die.

3. glass teapot kettle body Semiautomatic heating blow molding equipment according to claim 2, is characterized in that:

Described each control unit also comprises web member, spring, support, guide, fluted roller shaft, sheave;

Web member comprises horizontally disposed square block, the middle part in block height direction has the through hole that axis parallels with total bar, the vertical spinning trip bolt of end face of block, the thread end of trip bolt puts in through hole, on block along panel X to side have horizontal-extending and be shaped with externally threaded circular connecting pipe, on block along panel X to opposite side have circle first guide pipe of horizontal-extending, the first guide pipe, through hole, pipe connecting successively coaxial line are communicated with;

Support comprises the first vertical plate, the second vertical plate, leveling board, the normal of the first vertical plate parallels with total bar, normal and total bar of the second vertical plate are perpendicular, a side of the first vertical plate short transverse connects with a side of the second vertical plate short transverse, and the angle between two plates be 90 degree, the second vertical plate is away from bed die, leveling board connects with the lower end of two plates respectively, the middle part of the first vertical plate short transverse has the first oval hole vertically arranged, the middle part of the second vertical plate short transverse has the second oval hole vertically arranged;

Guide comprises guide plate, horizontally disposed circle second guide pipe vertically arranged, and the axis of the second guide pipe parallels with total bar, the middle part vertical connection of the second guide pipe and guide plate;

Web member is spun by pipe connecting and homonymy side form that middle side part region away from bed die, and the axis of pipe connecting, homonymy side form are through the sectional elevation at its length direction center, the common vertical plane of axis of bed die;

Support is fixed on X on the upside of panel by leveling board and fastening piece and locates to the outside, corresponding side near homonymy side form, and the common vertical plane of the axis of the vertical medullary ray in the first oval hole, bed die;

Guide plate reclines mutually with the first vertical plate that side near web member, and guide plate is located in the short transverse of the first vertical plate by the fastening piece running through itself and the first oval hole, second guide pipe, the first guide pipe coaxial line, the connection position of the second guide pipe and guide plate and the first oval hole just to and communicate;

Fluted roller shaft runs through the second oval hole and is fixed on the second vertical plate by fastening piece, the axis perpendicular of fluted roller shaft, the second guide pipe, the working zone of fluted roller shaft is in 90 degree of angle spaces being formed between the first vertical plate, the second vertical plate, on the working zone that sheave is arranged on fluted roller shaft and the conduit of sheave and the first oval hole faces, fluted roller shaft, apart from the specification size of the height of panel, sheave and conduit, is enough to make the axis extended line of the second guide pipe and the tangent state of bottom institute Cheng Yuancheng of conduit;

Spring is socketed with the first guide pipe and the second guide pipe respectively, and the two ends of spring and block, guide plate close contact, the intensity of each spring, guarantees when foot board is from pedal force, is enough to make this equipment can be in the state of mold closing;

Region, the stage casing load of each second wireline is placed in the conduit of homonymy sheave; One end of each second wireline passes the first oval hole of homonymy successively, guide plate, the second guide pipe, spring, the first guide pipe, through hole are entered in pipe connecting, and connected with homonymy block by trip bolt; The other end of each second wireline wears down the leveling board of homonymy successively, panel is connected with the same side of total bar;

The length of each second wireline, when being enough to make this equipment be in mold closing state, two the second wireline are in the state lifting total bar, and total bar is positioned at its highest position.

4. according to the glass teapot kettle body Semiautomatic heating blow molding equipment according to any one of claims 1 to 3, it is characterized in that: described each side form is placed on corresponding two straight-line guide rail slide blocks of two line slideways by glass base plate stacked up and down, die bottom plate load.