CN208930654U - Anti- stress oblique top air conditioner bracket of vehicle mold - Google Patents

Abstract

The utility model belongs to injection mold technology more particularly to a kind of anti-stress oblique top air conditioner bracket of vehicle mold.The utility model, including bottom plate, moving template, solid plate and injection molding plates, dynamic model mode is connected in moving template, cover half mode is connected in solid plate, dynamic model mode and cover half mode are enclosed forming cavity, have Slanted ejecting component between bottom plate and moving template, and angle ejector rod one end is fixed on Slanted ejecting component, the other end extends to forming cavity bottom surface, and axial line and the plane where Slanted ejecting component of angle ejector rod are mutually perpendicular to.Slanted ejecting component is obliquely installed by the utility model, angle ejector rod can be vertical with Slanted ejecting component holding always in ejection process, therefore Slanted ejecting component acts on the power on angle ejector rod always along the direction of axis line of angle ejector rod in ejection process, it effectively prevent angle ejector rod itself by twisting stress, extend the service life of angle ejector rod, and the utility model structure is simple, constructs light and practical, the suitable use of large-scale promotion in the industrial production.

Description

Anti- stress oblique top air conditioner bracket of vehicle mold

Technical field

The utility model belongs to injection mold technology more particularly to a kind of anti-stress oblique top air conditioner bracket of vehicle mould Tool.

Background technique

Plastic shaping is easy, can simplify complex-shaped component processing, while the flexible deformation behavior of plastic components It can protect vehicle and occupant, and plastic corrosion resistant corrosion is strong, Local Damaged will not corrode, plastics are also convenient for recycling, have Very high price advantage, just because of plastics have above-mentioned excellent comprehensive performance, plastics increasingly by the favor of automobile industry, Application on automobile is extended from internal and external ornament part to body outer skin and functional parts, if injecting products are with smaller Shallower barb mechanism often realizes the demoulding of injecting products by the way of angle ejector rod ejection, but angle ejector rod is in ejection process The problem of middle body of rod itself needs to bear a twisting stress, is easy to cause angle ejector rod to fracture in this way generation.

For example, Chinese utility model patent disclose it is a kind of applied to mold Slanted ejecting component [application number: 201520842314.6], which includes front module and rear module, and the top of the rear module is equipped with preceding mould Block is equipped with mode in the rear module, and the mode is embedded in rear module, and the top of the mode is equipped with and mode The oblique top being halved together, is equipped with connecting rod in the rear module, and the connecting rod, which upwardly extends, to be worn mode and extend in oblique top, described The top of connecting rod is mutually fixed with oblique top.

The utility model is compact-sized, can promote processing efficiency, improves product quality, but it still has the above problem.

Utility model content

The purpose of this utility model is in view of the above-mentioned problems, providing a kind of anti-stress oblique top air conditioner bracket of vehicle mold.

In order to achieve the above objectives, the utility model uses following technical proposal:

A kind of anti-stress oblique top air conditioner bracket of vehicle mold successively includes bottom plate, moving template, solid plate and injection molding plates, moves It is connected with dynamic model mode in template, cover half mode is connected in solid plate, dynamic model mode and cover half mode enclose shape At forming cavity, injection molding plates are equipped with injection hole, and injection hole is connected by injection molding channel with forming cavity, the bottom plate and moving template Between there is Slanted ejecting component, angle ejector rod one end is fixed on Slanted ejecting component, and the other end extends to forming cavity bottom surface, the angle ejector rod Axial line and Slanted ejecting component where plane be mutually perpendicular to.

In above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold, the Slanted ejecting component includes the first oblique top plate and second Oblique top plate, the first oblique top plate are pressed on bottom plate, and the second oblique top plate is pressed on the first oblique top plate, and angle ejector rod and first is tiltedly Top plate is fixedly connected, and the axial line of angle ejector rod is mutually perpendicular to plane where the first oblique top plate, further includes that setting is oblique first Voussoir between top plate and bottom plate, the rectangular triangle in the cross section of the voussoir, the bottom surface of voussoir are pressed on bottom plate, voussoir The bottom surface on inclined-plane and the first oblique top plate fit.

It further include the driving for being fixedly connected on moving template side wall in above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold Cylinder, driving plate is fixedly connected in the drive shaft of driving cylinder, and driving plate is bolted to connection with the first oblique top plate, Guide rod one end is fixedly connected on bottom plate, and the other end is fixedly connected on moving template, and the first oblique top plate and the second oblique top plate can The sliding close to or far from moving template occurs along guide rod, the axial line of the guide rod and the axial line of angle ejector rod are parallel.

It further include that one end is fixedly connected on the first oblique top plate in above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold Gag lever post, the other end of gag lever post extends towards moving template direction, and has gap between the end and moving template of gag lever post.

Angle α in above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold, between the bottom surface and inclined-plane of the voussoir For 10-30 degree.

In above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold, the voussoir has several, and along the first oblique top One side of plate is arranged successively.

In above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold, the two sides of the Slanted ejecting component are symmetrically arranged with mould The both ends of foot, the support block are fixedly connected with bottom plate and moving template respectively.

In above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold, the moving template and solid plate side have several Interconnected water channel hole.

It further include the heat between injection molding plates and solid plate in above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold Flowing plate, it further includes at least two branch flow passages, the tributary that the heat flux plates are interior, which to be equipped with the injection molding flow distribution plate being connected to injection molding channel, The one end in road is connected to injection molding flow distribution plate, and the other end is connected to forming cavity.

In above-mentioned anti-stress oblique top air conditioner bracket of vehicle mold, it is arranged with electric jacket plate outside the injection molding flow distribution plate, The electric heating cage plate is electrically connected with the external power supply socket being arranged in heat flux plates.

Compared with prior art, utility model has the advantages that

1, Slanted ejecting component is obliquely installed by the utility model, and angle ejector rod can be kept with Slanted ejecting component always in ejection process Vertically, therefore Slanted ejecting component acts on the power on angle ejector rod always along the direction of axis line of angle ejector rod in ejection process, effectively prevents Only angle ejector rod itself is extended the service life of angle ejector rod by twisting stress.

2, the utility model structure is simple, constructs light and practical, the suitable use of large-scale promotion in the industrial production.

Detailed description of the invention

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

Fig. 2 is the perspective view of the utility model；

Fig. 3 is the structural schematic diagram of Slanted ejecting component；

In figure: bottom plate 1, moving template 2, solid plate 3, injection molding plates 4, injection molding channel 5, Slanted ejecting component 6, angle ejector rod 7, support block 8, Water channel hole 9, heat flux plates 10, injection molding flow distribution plate 11, two branch flow passages 12, electric heating cage plate 13, external power supply socket 14, dynamic model modes 21, cover half mode 31, injection hole 41, the first oblique top plate 61, the second oblique top plate 62, voussoir 63, driving cylinder 64, driving plate 65, Guide rod 66, gag lever post 67.

Specific embodiment

The utility model is described in more detail with reference to the accompanying drawings and detailed description.

As shown in connection with fig. 1, a kind of anti-stress oblique top air conditioner bracket of vehicle mold successively includes bottom plate 1, moving template 2, cover half Plate 3 and injection molding plates 4 are connected with dynamic model mode 21 in moving template 2, cover half mode 31, dynamic model are connected in solid plate 3 Mode 21 and cover half mode 31 are enclosed forming cavity, and injection molding plates 4 are equipped with injection hole 41, and injection hole 41 passes through injection molding channel 5 It is connected with forming cavity, there is Slanted ejecting component 6,7 one end of angle ejector rod is fixed on Slanted ejecting component 6 between the bottom plate 1 and moving template 2 On, the other end extends to forming cavity bottom surface, and axial line and the 6 place plane of Slanted ejecting component of the angle ejector rod 7 are mutually perpendicular to.

The utility model, in use, moving template 2 and solid plate 3 mold, dynamic model mode 21 and cover half mode 31 are mutual at this time Fitting is enclosed forming cavity (being not drawn into figure), and melt plastic cement is from injection molding machine, by injection hole 41, then via injection molding channel In 5 injection molding chambers, after cooling and shaping, forming cavity is opened in die sinking, and the movement close to moving template 2 occurs for Slanted ejecting component 6 at this time, from And angle ejector rod 7 is driven to eject injecting products, since axial line and the 6 place plane of Slanted ejecting component of angle ejector rod 7 are mutually perpendicular to, therefore tiltedly Mandril 7 can keep vertical with Slanted ejecting component 6 always in ejection process, so that Slanted ejecting component 6 acts on tiltedly in ejection process Power on mandril 7 effectively prevent angle ejector rod 7 itself by twisting stress, extends oblique top always along the direction of axis line of angle ejector rod 7 The service life of bar 7.

In conjunction with shown in Fig. 1 and Fig. 3, the Slanted ejecting component 6 include the first oblique top plate 61 and the second oblique top plate 62, described first Oblique top plate 61 is pressed on bottom plate 1, and the second oblique top plate 62 is pressed on the first oblique top plate 61, angle ejector rod 7 and the first oblique top plate 61 It is fixedly connected, and the axial line of angle ejector rod 7 is mutually perpendicular to 61 place plane of the first oblique top plate, further includes being arranged in the first oblique top Voussoir 63 between plate 61 and bottom plate 1, the rectangular triangle in cross section of the voussoir 63, the bottom surface of voussoir 63 is pressed on bottom plate On 1, the inclined-plane of voussoir 63 and the bottom surface of the first oblique top plate 61 fit, and the stability of the first oblique top plate 61 can be improved in this way, also Driving cylinder 64 including being fixedly connected on 2 side wall of moving template, driving plate 65 are fixedly connected in the drive shaft of driving cylinder 64, And driving plate 65 is bolted to connection with the first oblique top plate 61,66 one end of guide rod is fixedly connected on bottom plate 1, the other end It is fixedly connected on moving template 2, the first oblique top plate 61 and the second oblique top plate 62 can occur along guide rod 66 close to or far from dynamic model The axial line of the sliding of plate 2, the guide rod 66 is parallel with the axial line of angle ejector rod 7, when ejection, starting driving cylinder 64, The drive shaft of driving cylinder 64 drives driving plate 65 that the movement close to moving template 2 occurs, to drive the first oblique top plate 61 and the Two oblique top plates 62 do the sliding of synchronous close moving template 2 along guide rod 66, and angle ejector rod 7 completes ejection.

It preferably, further include gag lever post 67 that one end is fixedly connected on the first oblique top plate 61, the other end of gag lever post 67 Extend towards 2 direction of moving template, and there is gap between the end of gag lever post 67 and moving template 2, gag lever post 67 can be with the first oblique top Plate 61 moves synchronously, therefore ejects and stop when gag lever post 67 is in contact with moving template 2, therefore controllable ejection distance.

Preferably, the angle α between the bottom surface and inclined-plane of the voussoir 63 is 10-30 degree, is can guarantee at angle ejector rod 7 in this way In in a suitable ejection angle.

Preferably, the voussoir 63 has several, and is arranged successively along a side of the first oblique top plate 61, in this way may be used To reduce the volume of an independent voussoir 63, facilitate the processing and installation of voussoir 63.

Referring to figs. 1 and 2, the two sides of the Slanted ejecting component 6 are symmetrically arranged with support block 8, the both ends point of the support block 8 It is not fixedly connected with bottom plate 1 and moving template 2, support block 8 is for keeping the distance between bottom plate 1 and moving template 2.

As shown in Fig. 2, the moving template 2 and 3 side of solid plate have several interconnected water channel holes 9, it was molded Cheng Zhong, water is injected or is flowed out from water channel hole 9, to control the temperature of forming cavity in injection moulding process.

It referring to figs. 1 and 2, further include heat flux plates 10 between injection molding plates 4 and solid plate 3, the heat flux plates It is equipped with the injection molding flow distribution plate 11 being connected to injection molding channel 5 in 10, further includes at least two branch flow passages 12, the one of the branch flow passage 12 End is connected to injection molding flow distribution plate 11, and the other end is connected to forming cavity, is arranged with electric jacket plate 13, institute outside the injection molding flow distribution plate 11 It states electric heating cage plate 13 to be electrically connected with the external power supply socket 14 being arranged in heat flux plates 10, can guarantee injection temperature in this way, prevent The problem of molten plastic condenses prematurely blocking runner only occurs.

The working principle of the utility model is: in use, moving template 2 and solid plate 3 mold, dynamic model mode 21 and fixed at this time Mould mode 31, which is bonded to each other, is enclosed forming cavity, and melt plastic cement is from injection molding machine, by injection hole 41, then via injection molding channel 5, it is molded in flow distribution plate 11 and 12 injection molding chamber of branch flow passage, after cooling and shaping, forming cavity, starting driving cylinder are opened in die sinking 64, the drive shaft of driving cylinder 64 drives driving plate 65 that the movement close to moving template 2 occurs, to drive 61 He of the first oblique top plate Second oblique top plate 62 does the sliding of synchronous close moving template 2 along guide rod 66, and angle ejector rod 7 completes ejection, due to angle ejector rod 7 Axial line is mutually perpendicular to 61 place plane of the first oblique top plate, thus angle ejector rod 7 in ejection process can always with the first oblique top plate 61 keep vertical, so that the first oblique top plate 61 acts on the power on angle ejector rod 7 always along the axle center of angle ejector rod 7 in ejection process Line direction effectively prevent angle ejector rod 7 itself by twisting stress, extends the service life of angle ejector rod 7

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Although bottom plate 1, moving template 2, solid plate 3, injection molding plates 4, injection molding channel 5, Slanted ejecting component is used more herein 6, angle ejector rod 7, support block 8, water channel hole 9, heat flux plates 10, injection molding flow distribution plate 11, two branch flow passages 12, electric heating cage plate 13, external electricity Source socket 14, dynamic model mode 21, cover half mode 31, injection hole 41, the first oblique top plate 61, the second oblique top plate 62, voussoir 63, driving The terms such as cylinder 64, driving plate 65, guide rod 66, gag lever post 67, but it does not exclude the possibility of using other terms.Use this A little terms are used for the purpose of being more convenient to describe and explain the essence of the utility model；It is construed as any additional Limitation is all contrary to the spirit of the present invention.

Claims (10)

1. a kind of anti-stress oblique top air conditioner bracket of vehicle mold successively includes bottom plate (1), moving template (2), solid plate (3) and note Mould plate (4), moving template (2) is interior to be connected with dynamic model mode (21), is connected with cover half mode (31) in solid plate (3), Dynamic model mode (21) and cover half mode (31) are enclosed forming cavity, and injection molding plates (4) are equipped with injection hole (41), injection hole (41) It is connected by injection molding channel (5) with forming cavity, it is characterised in that: there is oblique top group between the bottom plate (1) and moving template (2) Part (6), angle ejector rod (7) one end are fixed on Slanted ejecting component (6), and the other end extends to forming cavity bottom surface, the angle ejector rod (7) Axial line is mutually perpendicular to plane where Slanted ejecting component (6).

2. anti-stress oblique top air conditioner bracket of vehicle mold as described in claim 1, it is characterised in that: the Slanted ejecting component (6) Including the first oblique top plate (61) and the second oblique top plate (62), the first oblique top plate (61) is pressed on bottom plate (1), the second oblique top Plate (62) is pressed on the first oblique top plate (61), and angle ejector rod (7) is fixedly connected with the first oblique top plate (61), and angle ejector rod (7) Plane where axial line and the first oblique top plate (61) is mutually perpendicular to, further include setting the first oblique top plate (61) and bottom plate (1) it Between voussoir (63), the rectangular triangle in cross section of the voussoir (63), the bottom surface of voussoir (63) is pressed on bottom plate (1), The inclined-plane of voussoir (63) and the bottom surface of the first oblique top plate (61) fit.

3. anti-stress oblique top air conditioner bracket of vehicle mold as claimed in claim 2, it is characterised in that: further include being fixedly connected on The driving cylinder (64) of moving template (2) side wall, driving plate (65) are fixedly connected in the drive shaft of driving cylinder (64), and are driven Plate (65) is bolted to connection with the first oblique top plate (61), and guide rod (66) one end is fixedly connected on bottom plate (1), another End is fixedly connected on moving template (2), and the first oblique top plate (61) and the second oblique top plate (62) can be close along guide rod (66) generation Or the sliding far from moving template (2), the axial line of the guide rod (66) are parallel with the axial line of angle ejector rod (7).

4. anti-stress oblique top air conditioner bracket of vehicle mold as claimed in claim 3, it is characterised in that: further including that one end is fixed connects The gag lever post (67) on the first oblique top plate (61) is connect, the other end of gag lever post (67) extends towards moving template (2) direction, and limits There is gap between the end and moving template (2) of bar (67).

5. anti-stress oblique top air conditioner bracket of vehicle mold as claimed in claim 2, it is characterised in that: the bottom of the voussoir (63) Angle α between face and inclined-plane is 10-30 degree.

6. anti-stress oblique top air conditioner bracket of vehicle mold as claimed in claim 2, it is characterised in that: the voussoir (63) has Several, and be arranged successively along a side of the first oblique top plate (61).

7. anti-stress oblique top air conditioner bracket of vehicle mold as described in claim 1, it is characterised in that: the Slanted ejecting component (6) Two sides be symmetrically arranged with support block (8), the both ends of the support block (8) are fixedly connected with bottom plate (1) and moving template (2) respectively.

8. anti-stress oblique top air conditioner bracket of vehicle mold as described in claim 1, it is characterised in that: the moving template (2) and Solid plate (3) side has several interconnected water channel holes (9).

9. anti-stress oblique top air conditioner bracket of vehicle mold as described in claim 1, it is characterised in that: further include being located at injection molding plates (4) heat flux plates (10) between solid plate (3), the heat flux plates (10) are interior to be equipped with the injection molding point being connected to injection molding channel (5) Flowing plate (11) further includes at least two branch flow passages (12), and one end of the branch flow passage (12) is connected to injection molding flow distribution plate (11), separately One end is connected to forming cavity.

10. anti-stress oblique top air conditioner bracket of vehicle mold as claimed in claim 9, it is characterised in that: the injection molding flow distribution plate (11) it is arranged with electric jacket plate (13) outside, the electric heating cage plate (13) and the external power supply socket being arranged on heat flux plates (10) (14) it is electrically connected.