CN207987033U - Low-pressure holding device for glass container positioning - Google Patents

Abstract

The utility model is more particularly to a kind of low-pressure holding device for glass container positioning；Including upper adjustment disk, lower adjustment disk and adjusting block, the bottom of upper adjustment disk is equipped with constant velocity spiral sliding rail, lower adjustment disk radially opens that there are three the guide grooves of equal angles distribution, negative pressure cavity includes the tapered portion being located in lower adjustment disk and the cylindrical portion for being integrally provided on lower adjustment disk top, and the inner wall of cylindrical portion is equipped with screw thread；Main sucker is located at the center of lower adjustment disk, and auxiliary sucker is uniformly distributed around main sucker；The lower end of adjusting block is connected with positioning claw；Positioning claw is made of threaded rod and nut, and the one end of threaded rod far from adjusting block is cambered surface；Use this programme for glass container positioning low-pressure holding device have can the unlimited only pedestal of locating bodies structure for the glass container of symmetrical structure, while negative pressure cavity volume greatly i.e. strong adsorption force the advantages of.

Description

Low-pressure holding device for glass container positioning

Technical field

The utility model is related to a kind of devices for glass container positioning, and in particular to one kind is positioned for glass container Low-pressure holding device.

Background technology

In recent years, China's glass industry is quickly grown, and quality significantly improves, and kind also dramatically increases, and glass container is One of them.Due to glass container 1 needed when port is cut while rotation while to need cut place carry out high temperature sintering after, then into Row cutting, and it is precision machining, it needs to use special positioning device.Currently used positioning device is as shown in Figure 1, include The bottom of upper adjustment disk 5, lower adjustment disk 8 and adjusting block 4, upper adjustment disk 5 is equipped with constant velocity spiral sliding rail, and lower adjustment disk 8 is radial to be opened There is a guide groove, the upper end of adjusting block 4 is equipped with and the matched arc convex of constant velocity spiral sliding rail and can be slided along guide groove.It lowers The sucker 4 that section disk circle centre position is equipped with the negative pressure cavity 6 of straight tube structure and is communicated with the vacuum cavity, by reducing the sky in cavity Gas makes the bottom of glass container be adsorbed in the lower surface of lower adjustment disk 8.Adjusting block 4 is equipped with along the radially-arranged top of lower adjustment disk Bar 3, the one end of mandril 3 far from adjusting block are connected with top plate 2.

But when the only bottom for needing positioning as shown in Figure 2 is symmetrical structure, the glass that remaining chamber wall is unsymmetric structure When glass container, since 2 area of top plate is excessive, then bottom can not be positioned；It is hierarchic structure when positioning chamber wall as shown in Figure 3 Glass container when, due to need manually by taking object folder that the glass container of high temperature is caught in several top plates 2 upwards between, at this time It is slid into along top plate it is required that worker adjusts ladder part outstanding, once otherwise ladder protrusion and some top plate dislocation phase Support, may result in glass container from take object press from both sides in fall off.And 6 volume of negative pressure cavity at lower adjustment disk is small, can not adsorb weight compared with Big glass container, can only positioning base is higher or the glass container of tubular, otherwise will occur not enough to cause due to suction Glass container falls, too big using limitation.

Utility model content

The utility model be intended to provide it is a kind of can the unlimited only pedestal of locating bodies structure be symmetrical structure glass container, together When negative pressure cavity volume strong adsorption force greatly the low-pressure holding device for glass container positioning.

The low-pressure holding device for glass container positioning in this programme, including upper adjustment disk, lower adjustment disk and adjusting The bottom of block, upper adjustment disk is equipped with constant velocity spiral sliding rail, and lower adjustment disk is radially opened there are three the guide groove for waiting angles distribution, adjusted The upper end of block is equipped with and the matched arc convex of constant velocity spiral sliding rail and can be slided along guide groove；It is set at the center of lower adjustment disk There are sucker, the top of lower adjustment disk to be equipped with the vacuum cavity being connected to sucker, the negative pressure cavity includes being located in lower adjustment disk The inner wall of tapered portion and the cylindrical portion for being integrally provided on lower adjustment disk top, the cylindrical portion is equipped with screw thread；The sucker includes master Sucker and auxiliary sucker, the main sucker is located at the center of lower adjustment disk, auxiliary sucker around main sucker in multiple ring-types and It is equidistant uniformly distributed；The main hole sucting diameter be 7.5mm-8.5mm, auxiliary hole sucting diameter be 2mm-3mm, main sucker and assist sucker at It is integrally formed with annular boss；The adjusting block is L-type structure, and the lower end of adjusting block is connected with positioning claw；The positioning card Pawl is made of threaded rod and nut, and threaded rod is clamped with adjusting block, and the one end of threaded rod far from adjusting block is cambered surface.

The utility model has the advantages that：1, since negative pressure cavity includes the tapered portion being located in lower adjustment disk and is integrally provided on down The cylindrical portion on adjustment disk top makes full use of the volume of lower adjustment disk, under conditions of not changing largest circumference shared by sucker, increases Add the volume of negative pressure cavity, and then the suction of generation is made to increase, prevents if the larger glass container of the isostructural weight of cydariform is because inhaling Power is not enough fallen；2, be located at due to main sucker at the center of lower adjustment disk, auxiliary sucker around main sucker in multiple cyclic annular and Equidistant uniformly distributed, auxiliary sucker can make suction be distributed on glass container bottom, more firm when glass container being made to position；3, due to master It is integrally formed with annular boss at sucker and auxiliary sucker, which can guarantee and the close patch in the bottom of glass container part It closes, prevents some sucker from influencing suction due to the bottom with glass container has the gap；4, since positioning claw is by threaded rod and spiral shell Mother's composition, can not only increase its orientable glass container diameter, can also be finely adjusted, so that positioning is more acurrate；And The pedestal of glass container can also be positioned, use scope is extensive.

Further, the adjusting block include the adjustment portion slided along guide groove and with lower adjusting dish axle to parallel connection The cross section in portion, the adjustment portion is I-shaped, and interconnecting piece is located at positioning claw clamping, the arc convex in adjustment portion； The guide groove is hierarchic structure, and the wider notch of guide groove is located at the end face that lower adjustment disk is equipped with sucker, so that adjusting block Adjustment portion and lower adjustment disk be equipped with sucker end face in same plane, prevent that glass container bottom is hindered to paste with lower adjustment disk It closes.

Further, there are six the arc convex, which is distributed along guide groove length direction；Upper adjustment disk Constant velocity spiral sliding rail is two circles to three circles, when the rotation of upper adjustment disk makes adjusting block slide, even if constant velocity spiral sliding rail is not complete All standing is also at least engaged with the constant velocity spiral sliding rail of upper adjustment disk there are two arc convex, can be protected in the lower part of upper adjustment disk It is sensitive to demonstrate,prove adjusting block sliding.The difficulty of processing and processing cost for both having reduced adjustment disk in this way, nor affect on the spirit of adjusting block Activity.

Further, the interconnecting piece is equipped with four pairs of arc bayonets, which is adapted with threaded rod.In this way its The glass container of positioning is not limited by the height of bottom, and adaptability is more extensive.

Further, the auxiliary sucker is in four annular distributions around main sucker, since the minimum ring-type of diameter successively There are four uniformly distributed, six, ten, 12 auxiliary suckers, auxiliary sucker can be made radially to be interspersed, ensure suction point Cloth is uniform.

Further, the main hole sucting diameter is preferably 8mm, and auxiliary hole sucting diameter is preferably 2.5mm.

Further, the upper surface of the upper adjustment disk is fan toothing close to side, be integrally formed on upper adjustment disk and its The cylindrical portion outer wall clearance fit of coaxial sleeve, the sleeve and negative pressure cavity；Stop screw is threadedly coupled with sleeve wall and edge Sleeve offsets radially across sleeve wall and cylindrical portion outer wall.

Description of the drawings

Fig. 1 is the structural schematic diagram of the prior art；

Fig. 2 is the glass appearance that the prior art can not position that only bottom is symmetrical structure, remaining chamber wall is unsymmetric structure The schematic diagram of device；

Fig. 3 is the schematic diagram that the prior art is not easy the glass container that positioning vessel wall is hierarchic structure；

Fig. 4 is upward view of the utility model for the low-pressure holding device of glass container positioning；

Fig. 5 is that low-pressure holding device of the utility model for glass container positioning looks up angle schematic diagram；

Fig. 6 is explosive view of the utility model for the low-pressure holding device of glass container positioning；

Fig. 7 is the utility model for the lower adjusting dish structure figure in the low-pressure holding device of glass container positioning；

Fig. 8 is the utility model for the lower adjustment disk sectional view in the low-pressure holding device of glass container positioning；

Fig. 9 is the enlarged drawing of A in Fig. 8；

Figure 10 is the utility model for the adjusting block structural diagram in the low-pressure holding device of glass container positioning；

Figure 11 is that adjusting block of the utility model in the low-pressure holding device of glass container positioning is matched with positioning claw Close structure chart；

Figure 12 is the utility model for the upper adjusting dish structure figure in the low-pressure holding device of glass container positioning；

Figure 13 be the utility model for glass container positioning low-pressure holding device positioning only bottom be symmetrical structure, its Covolume wall is the schematic diagram of unsymmetric structure glass container；

Figure 14 is that low-pressure holding device positioning vessel wall of the utility model for glass container positioning is hierarchic structure glass The schematic diagram of glass container.

In figure, 1 is glass container, and 2 be top plate, and 3 be mandril, and 4 be adjusting block, and 41 be arc convex, and 42 be adjustment portion, 43 It is arc bayonet for interconnecting piece, 44,5 be upper adjustment disk, and 51 be constant velocity spiral sliding rail, and 6 be negative pressure cavity, and 61 be cylindrical portion, and 62 are Tapered portion, 7 be sucker, and 71 be main sucker, and 72 be auxiliary sucker, and 73 be annular boss, and 8 be lower adjustment disk, and 9 be positioning claw, 91 be threaded rod, and 92 be nut, and 93 be cambered surface, and 10 be guide groove, and 11 be fan toothing, and 12 be sleeve.

Specific implementation mode

Utility model will be further described in detail below with reference to the attached drawings and specific embodiments：

For glass container positioning low-pressure holding device,

Embodiment one, as shown in Figs. 4-6, including upper adjustment disk 5, lower adjustment disk 8 and adjusting block 4, the bottom of upper adjustment disk 5 Portion is equipped with constant velocity spiral sliding rail 51.

Multiple suckers 7 are equipped at the center of lower adjustment disk 8, which includes main sucker 71 and auxiliary sucker 72.Such as Fig. 7 Shown in 9, main sucker 71 is located at the center of lower adjustment disk 8, and auxiliary sucker 72 is around main sucker 71 in multiple cyclic annular and equidistant Uniformly distributed, the auxiliary sucker 72 so arranged can make suction be distributed on 1 bottom of glass container, more steady when glass container 1 being made to position Gu.It is integrally formed with annular boss 73 at main sucker 71 and auxiliary sucker 72, it is ensured that close with the part of 1 bottom of glass container Fitting.The top of lower adjustment disk 8 is equipped with 6 body of negative pressure cavity being connected to sucker 7, which includes being located in lower adjustment disk 8 Tapered portion 62 and the cylindrical portion 61 for being integrally provided on 8 top of lower adjustment disk, make full use of the volume of lower adjustment disk 8, are not changing suction Under conditions of largest circumference shared by hole 7, increase the volume of negative pressure cavity 6, and then the suction of generation is made to increase.The inner wall of cylindrical portion 61 Equipped with screw thread.It is opened there are three the guide groove 10 of equal angles distribution along 8 radial direction of lower adjustment disk, which is hierarchic structure, is led The notch wider to slot 10 is located at the end face that lower adjustment disk 8 is equipped with sucker 7.

Adjusting block 4 is L-type structure, adjusting block 4 include the adjustment portion 42 slide along guide groove 10 and with the axial direction of lower adjustment disk 8 Parallel interconnecting piece 43.It is integrally formed in adjustment portion 42 and 51 matched arc convex 41 of constant velocity spiral sliding rail, adjustment portion 42 Cross section be I-shaped and can be slided along guide groove 10.Positioning claw 9 is made of threaded rod 91 and nut 92, and threaded rod 91 is remote One end from adjusting block 4 is cambered surface 93.Threaded rod 91 is clamped with interconnecting piece 43.The upper surface of upper adjustment disk 5 is fan close to side Toothing 11 is integrally formed with coaxial sleeve 12 on upper adjustment disk 5,61 outer wall of cylindrical portion of the sleeve 12 and negative pressure cavity 6 Clearance fit.Stop screw is threadedly coupled with sleeve wall and the outer wall phase along sleeve 12 radially across sleeve wall and cylindrical portion 61 It supports.

Embodiment two, in the case where not influencing the flexibility ratio of adjusting block 4, is raised as shown in Figure 10,11,12 to reduce The difficulty of processing and processing cost of disk 5 are saved, the arc convex 41 in adjustment portion 42 is set as six, and the arc convex 41 is along guide groove 10 length directions are distributed.The constant velocity spiral sliding rail 51 of upper adjustment disk 5 is equipped with two circles half.When the rotation of upper adjustment disk 5 makes adjusting block 4 slide When dynamic, it also can guarantee and at least engaged with the constant velocity spiral sliding rail 51 of upper adjustment disk 5 there are two arc convex 41, do not influence adjusting block 4 slidings are sensitive.The glass container 1 positioned in order to prevent is limited to the height of bottom, and four pairs of arc cards are equipped on interconnecting piece 43 Mouth 44, the arc bayonet 44 are adapted with threaded rod 91.Distance of the threaded rod 91 apart from lower adjustment disk 8 can be adjusted as needed, Adaptability is more extensive.Remaining technical characteristic is identical as embodiment one.

Embodiment three, even if auxiliary sucker 72 is radially interspersed, auxiliary is inhaled to ensure that suction is evenly distributed Hole 72 around main sucker 71 in four cyclic annular setting distributions, start to be evenly distributed with successively since minimum cyclic annular of diameter there are four, six, ten A, 12 auxiliary suckers 72.To reach optimum efficiency, preferably main 71 a diameter of 8mm of sucker assists sucker 72 a diameter of 2.5mm.Remaining technical characteristic is identical as embodiment one.

When needing to position the glass container 1 that only bottom is symmetrical structure, remaining chamber wall is unsymmetric structure, such as scheme Shown in 13, threaded rod 91 is connected in the arc bayonet 44 of lower adjustment disk 8, threaded rod 91 is adjusted by rotating nuts 92 Length after, you can position the bottom of the glass container 1.When the chamber wall of positioning is the glass container 1 of hierarchic structure, such as scheme Shown in 14, since the one end of threaded rod 91 far from adjusting block 4 is cambered surface 93, keep the positioning end of the glass container 1 directly sliding as simultaneously By on absorption and lower adjustment disk 8.Will not there is a situation where dislocation offset and cause glass container 1 from take object press from both sides in fall off.

Above-described is only the embodiments of the present invention, and the common sense such as well known concrete structure and characteristic are herein in scheme It does not describe excessively.It should be pointed out that for those skilled in the art, in the premise for not departing from the utility model structure Under, several modifications and improvements can also be made, these should also be considered as the scope of protection of the utility model, these are not all interfered with The effect and patent practicability that the utility model is implemented.

Claims (7)

1. for the low-pressure holding device of glass container positioning, including upper adjustment disk, lower adjustment disk and adjusting block, upper adjustment disk Bottom is equipped with constant velocity spiral sliding rail, and lower adjustment disk is radially opened there are three the guide groove for waiting angles distribution, and the upper end of adjusting block is equipped with With the matched arc convex of constant velocity spiral sliding rail and can be slided along guide groove；It is equipped with sucker at the center of lower adjustment disk, lowers The top of section disk is equipped with the vacuum cavity being connected to sucker, it is characterised in that：The negative pressure cavity includes being located in lower adjustment disk The inner wall of tapered portion and the cylindrical portion for being integrally provided on lower adjustment disk top, the cylindrical portion is equipped with screw thread；The sucker includes master Sucker and auxiliary sucker, the main sucker is located at the center of lower adjustment disk, auxiliary sucker around main sucker in multiple ring-types and It is equidistant uniformly distributed；The main hole sucting diameter be 7.5mm-8.5mm, auxiliary hole sucting diameter be 2mm-3mm, main sucker and assist sucker at It is integrally formed with annular boss；The adjusting block is L-type structure, and the lower end of adjusting block is connected with positioning claw；The positioning card Pawl is made of threaded rod and nut, and threaded rod is clamped with adjusting block, and the one end of threaded rod far from adjusting block is cambered surface.

2. the low-pressure holding device according to claim 1 for glass container positioning, it is characterised in that：The adjusting block Include the adjustment portion slided along guide groove and with lower adjusting dish axle to parallel interconnecting piece, the cross section of the adjustment portion is I-shaped Shape, interconnecting piece are located at positioning claw clamping, the arc convex in adjustment portion；The guide groove is hierarchic structure, guide groove Wider notch is located at the end face that lower adjustment disk is equipped with sucker.

3. the low-pressure holding device according to claim 2 for glass container positioning, it is characterised in that：The arc is convex There are six rising, which is distributed along guide groove length direction；The constant velocity spiral sliding rail of upper adjustment disk is two circles to three circles.

4. the low-pressure holding device according to claim 2 for glass container positioning, it is characterised in that：The interconnecting piece Four pairs of arc bayonets are equipped with, which is adapted with threaded rod.

5. the low-pressure holding device according to claim 1 for glass container positioning, it is characterised in that：The auxiliary is inhaled Hole is in four annular distributions around main sucker, start to be evenly distributed with successively since minimum cyclic annular of diameter there are four, six, ten, 12 A auxiliary sucker.

6. the low-pressure holding device according to claim 5 for glass container positioning, it is characterised in that：The main sucker Diameter is preferably 8mm, and auxiliary hole sucting diameter is preferably 2.5mm.

7. the low-pressure holding device according to claim 1 for glass container positioning, it is characterised in that：The upper adjusting The upper surface of disk is fan toothing close to side, and coaxial sleeve, the sleeve and negative pressure are integrally formed on upper adjustment disk The cylindrical portion outer wall clearance fit of chamber；Stop screw is threadedly coupled with sleeve wall and along sleeve radially across sleeve wall and cylindrical portion Outer wall offsets.