CN203346285U - Spherical middle supporting subject particle separation device for vacuum glass - Google Patents

Abstract

The utility model discloses a spherical middle supporting subject particle separation device for vacuum glass. The device comprises a base and a distributor, wherein a plurality of accommodating grooves are formed at intervals in an upper plane of the base; the distributor is provided with a stock bin and arranged on the upper plane of the base, and can slide along the upper plane of the base; and the spherical middle supporting subject particles in the stock bin are supported on the upper plane of the base. According to the spherical middle supporting subject particle separation device, the base provided with the accommodating cavity and the distributor are arranged, so that the spherical middle supporting subject particles are separated conveniently, convenience is provided for a vacuum glass middle supporting subject distribution head to capture particles, each adsorption port of the distribution head can avoid the phenomenon of particle adsorption missing and the phenomenon of excessive particle adsorption as well, and a condition is created for the efficient production of the vacuum glass.

Description

The spherical intermediate supports fine particle separating device of vacuum glass

Technical field

The utility model relates to a kind of device for separating one by one as the spheroidal particle of vacuum glass middle support.

Background technology

The structure of the existing vacuum glass of being made by two sheet glass as shown in Figure 1 and Figure 2, comprises between glass 2, hermetic seal edge fit 1, intermediate supports 4, two sheet glass 2 and is supported and formed vacuum layer 3 after periphery is by 1 hermetic seal of sealing-in limit by intermediate supports 4 arrays.

Vacuum glass also can be made by the glass more than three, correspondingly, wherein will comprise plural vacuum layer 3.

Above-mentioned vacuum glass, when making, at first is deployed to intermediate supports 4 arrays on the upper surface of lower sheet glass 2, then upper sheet glass 2 is placed on intermediate supports 4 arrays to the finally surrounding hermetic seal by vacuum layer 3 by sealing-in limit 1.It should be noted that, while on glass 2, bleeding point not being set, above-mentioned making processes need be carried out in vacuum chamber; While on glass 2, being provided with bleeding point, can after the sealing-in that completes sealing-in limit 1, by bleeding point, vacuum layer 3 be vacuumized, and, reaching required vacuum tightness rear enclosed bleeding point, complete the making of vacuum glass.

The applicant has disclosed a kind of method and system that lay of vacuum glass middle support in the Chinese patent application of No. 201010508405.8, and the method adopts the negative-pressure adsorption principle realization to the crawl of middle upholder and lays.During crawl, gripping head reaches the hopper place of depositing intermediate supports, utilizes negative pressure that several intermediate supports are adsorbed onto on several suction port on gripping head one by one, then, then intermediate supports is carried to glass to be laid place is laid.

Intermediate supports 4 in vacuum glass can be spherical, can be column, can be also other suitable shapes.The spheroidal particle of take is example as intermediate supports, and the diameter of spheroidal particle only has a few tenths of a mm usually.Because the particle diameter of the particulate as intermediate supports is very little, thereby while adopting aforesaid method to be laid, occasional occurs that a suction port absorption has two, the phenomenon of even a plurality of particulates, and affects normally laying of intermediate supports.

The utility model content

The deficiency existed for prior art, the purpose of this utility model is to provide the spherical intermediate supports fine particle separating device of a kind of vacuum glass, utilize this device by spherical intermediate supports particulate one after a separation, laying head by vacuum glass middle support again captures, both improve the crawl efficiency that lays head, eliminated again the problem that the suction port occasional adsorbs a plurality of particulates on head that lays in the past existed.

For achieving the above object, the spherical intermediate supports fine particle separating device of the utility model vacuum glass comprises pedestal and distributor; Described pedestal is with on ，Gai Shang plane, upper plane, being arranged at intervals with several storage tanks, and each storage tank can only an accommodating described spherical intermediate supports particulate; Described distributor is with the feed bin of lower ending opening, and distributor slidably is placed on the described upper plane of described pedestal by its feed bin lower end, spherical intermediate supports particulate in the distributor feed bin the lower ending opening place of feed bin be bearing in described on plane, so that when the storage tank of distributor from pedestal slips over, the spherical intermediate supports particulate in its feed bin can fall into storage tank automatically.

Further, the cylindrical trough that described storage tank is the vertical described upper plane of axis, its diameter and the degree of depth are all suitable with the diameter of described spherical intermediate supports particulate.

Further, the degree of depth of described cylindrical trough is identical with the diameter of described spherical intermediate supports particulate.

Further, described storage tank is joined and is formed by spherical bottom and cylindrical upper section, wherein, described spherical diameter is not less than the diameter of described spherical intermediate supports particulate, the vertical described upper plane of the axis of described cylindrical upper section, the diameter of the diameter of cylindrical upper section and spherical intermediate supports particulate is suitable.

Further, described spherical diameter is identical with the diameter of described cylindrical upper section.

Further, the row or column of the intermediate supports array in the corresponding vacuum glass to be produced of described several storage tanks or partial array or whole array are arranged.

Further, described feed bin is the cylindric of lower end opening.

Further, described feed bin lower end is open, and the cross section near its end portion is strip, the length of this strip is greater than the length of the row or column of vertical described distributor travel direction in the array that described several storage tanks arrange, so that distributor is along on described pedestal during planar movement, can be simultaneously to insert described spherical intermediate supports particulate in all storage tanks of a row or column of process.

Further, the lower ending opening of described tubular feed bin is strip, the length of this strip is greater than the length of the row or column of vertical described distributor travel direction in the array that described several storage tanks arrange, so that described distributor is along on described pedestal during planar movement, can be simultaneously to insert described spherical intermediate supports particulate in all storage tanks of a row or column of process.

Further, described pedestal is tabular.

Further, described tripping device also is provided with cylinder or the oil cylinder for driving described distributor to slide along described pedestal, described cylinder or oil cylinder be fixed on the relatively-stationary support of pedestal on, the piston rod of cylinder or oil cylinder is connected with distributor, and slides along the upper flatness and reciprocator of pedestal by the telescopic drive distributor of piston rod.

The separation that the utility model utilization has realized spherical intermediate supports particulate easily with pedestal and the distributor of storage tank, for laying head crawl particulate, vacuum glass middle support provides convenience, make each suction port that lays head neither can leak the suction particulate simultaneously, can many adsorbent particles yet, guaranteed laying smoothly of vacuum glass middle support.

Utilize cylinder or oil cylinder to drive distributor along planar slide on pedestal, both simple in structure, realize again the automatization of tripping device work, thereby created condition for apply the utility model tripping device on the production line of streamline operration.

The accompanying drawing explanation

Fig. 1 is existing vacuum glass structural representation;

Fig. 2 is vacuum glass vertical view in Fig. 1;

The sectional structure schematic diagram that Fig. 3 is the utility model tripping device embodiment 1;

The vertical view that Fig. 4 is tripping device in Fig. 3;

Fig. 5 is the second section form schematic diagram that in Fig. 4, distributor 7 is analysed and observe by A-A in figure;

The sectional structure schematic diagram that Fig. 6 is the utility model tripping device embodiment 2;

The vertical view that Fig. 7 is tripping device in Fig. 6;

Fig. 8 is piston rod 10 and distributor 7 connecting portion decomposing state schematic diagram in Fig. 6;

Fig. 9 is Fig. 8 vertical view.

Embodiment

Below in conjunction with accompanying drawing explanation the utility model.

embodiment 1

As shown in Figure 3, Figure 4, the spherical intermediate supports fine particle separating device of the utility model vacuum glass comprises pedestal 5 and distributor 7.Pedestal 5 consists of flat board, be arranged at intervals with several storage tanks 6 on it on plane, each storage tank 6 can only an accommodating spherical intermediate supports particulate 4, and several storage tanks 6 are arranged in array, this array is identical with intermediate supports 4 arrays (referring to Fig. 1, Fig. 2) in vacuum glass to be produced.

The cylindrical trough that storage tank 6 is plane on the vertical pedestal 5 of axis; the slightly larger in diameter of cylindrical trough is in the diameter of spherical intermediate supports particulate 4; the degree of depth of cylindrical trough is identical or bigger with the diameter of spherical intermediate supports particulate 4, so that the spherical intermediate supports particulate 4 of inserting in cylindrical trough can not stop that distributor 7 normally slides along plane on pedestal 5.

Distributor 7 is the open tubular in lower end, and its cross section is rectangle, and this rectangular length is greater than the length of the row in storage tank 6 arrays.Distributor 7 slidably is placed on the upper plane of pedestal 5 by its lower end, spherical intermediate supports particulate 4 in distributor 7 is bearing on the upper plane of pedestal 5, like this, when distributor 7 along planar slide on pedestal 5, and when the storage tank 6, the spherical intermediate supports particulates 4 in distributor 7 can fall into storage tank 6 automatically.

As shown in Figure 4, because the length of distributor 7 is greater than the length be listed as in storage tank 6 arrays, thereby when distributor 7 is slided from scheming right side direction left side, can be simultaneously to all storage tanks 6 in row that slip over are mid-, enter spherical intermediate supports particulate 4.

Make distributor 7 along planar slide on pedestal 5, both can realize manually, also can have been driven by devices such as cylinder or mechanical arms.

The length of distributor 7 also can be less than the length of a row or column in storage tank 6 arrays, now, in order to all storage tanks 6 are mid-, to enter spherical intermediate supports particulate 4, need to make distributor 7 move back and forth repeatedly on plane on pedestal 5, so that the sliding scale of distributor 7 covers storage tank 6 used.

The cylindrical trough of storage tank 6 in adopting above-mentioned example, also can be joined and be formed by spherical bottom and cylindrical upper section, certainly, the diameter of cylindrical upper section be larger than the diameter of spherical intermediate supports particulate 4 equally, so that particulate 4 can be inserted smoothly; The diameter of spherical bottom is not less than or the diameter that equals cylindrical upper section all can.

Pedestal 5, except adopting flat board, also can adopt other shape, as long as with the upper plane that storage tank 6 can be set.

Special needs to be pointed out is, so-called pedestal 5 refers to upper plane on the upper surface of pedestal 5 with the plane for storage tank 6 is set.Except upper plane, other parts of pedestal 5 upper surfaces can be arbitrary shapes.So, can not " pedestal is with upper plane " be interpreted as to the upper surface of pedestal only has plane unilaterally.

And, when limit by condition, when the intermediate supports array of the upper plane of pedestal 5 in can not corresponding vacuum glass to be produced arranges storage tank 6 array, a row or column that also can corresponding intermediate supports array or number row or ordered series of numbers are arranged storage tank 6.

In addition, distributor 7 can be also cylindric.

Distributor 7 can also be as shown in Figure 5, the lower end that holds the feed bin of spherical intermediate supports particulate 4 at it arranges the strip opening, as long as make the length of strip opening be greater than the length of the row or column of storage tank 6 arrays, can be at distributor 7 along on pedestal 5 during planar movement, can be simultaneously to all storage tanks 6 in a row or column are mid-, enter spherical intermediate supports particulate 4, to guarantee the efficiency of inserting of particulate 4.

embodiment 2

Fig. 6-Figure 9 shows that in the utility model the embodiment when distributor drive unit is set, in this embodiment, the upper planar slide that distributor 7 is driven along pedestal 5 by cylinder or oil cylinder 8.

The tubular feed bin that distributor 7 is open with lower end, distributor 7 slidably is placed on the upper plane of pedestal 5 by its feed bin lower end, spherical intermediate supports particulate 4 in distributor 7 feed bins is bearing on the upper plane of pedestal 5, so that, when distributor 7 also passes through storage tank 6 along planar slide on pedestal 5, the spherical intermediate supports particulate 4 in distributor 7 feed bins can fall into storage tank 6 automatically.

The cross section of distributor 7 feed bins is rectangle, this rectangular length is greater than the length of the row in storage tank 6 arrays, like this, when distributor 7 moves along the direction of the row in storage tank 6 arrays, distributor 7 can enter spherical intermediate supports particulate 4 to all storage tanks 6 in row of process are mid-.

Cylinder or oil cylinder 8 are fixed on support 9, and support 9 both can directly be fixed on pedestal 5, and also pedestal 5 is installed separately relatively, as long as relative with pedestal 5 fixing.Piston rod 10 and the distributor 7 of cylinder or oil cylinder 8 join, the telescopic drive distributor 7 that cylinder or oil cylinder 8 utilize its piston rod 10 slides along the upper flatness and reciprocator of pedestal 5, and completes thus to all storage tanks 6 in storage tank 6 arrays are mid-and enter spherical intermediate supports particulate 4.

The piston rod 10 that Fig. 8, Fig. 9 are cylinder or oil cylinder 8 and the local structure schematic diagram of distributor 7 connecting portions.As shown in FIG., piston rod 10 ends, with a bulb 10-1, correspondingly, are provided with a Connection Block 71 matched with bulb 10-1 on distributor 7.

Using the upper plane of pedestal 5 as horizontal plane, Connection Block 71 consists of two vertically extending L-type sidewalls, form two vertically extending passage 71-1,71-2 between two L-type sidewalls, wherein, the size of the cross section of passage 71-1 left and right directions in Fig. 9 and the bulb 10-1 of piston rod 10 are suitable, size and the piston rod 10 of the cross section of passage 71-2 above-below direction in Fig. 9 are suitable, and the size sufficiently long of passage 71-2 left and right directions in Fig. 9.Like this, after being fitted in the passage 71-1 on Connection Block 71 by the bulb 10-1 of piston rod 10, both allowed bulb 10-1 to move up and down along passage 71-1, allow piston rod 10 relatively to have a down dip on Connection Block 71 in the vertical direction, make bulb 10-1 and passage 71-1 in the situation that the gap of the left and right directions in Fig. 9 is as far as possible little again, guaranteeing that distributor 7 and piston rod 10 are servo-actuated.Passage 71-2 on Connection Block 71 matches by the shaft with piston rod 10, utilizes the above-below direction of 10 pairs of distributors 7 of piston rod in Fig. 9 to be limited.

Syndeton in Fig. 8, Fig. 9, guaranteed the upper planar slide of 10 driving distributors 7 of piston rod along pedestal 5, and can not make the lower surface of distributor 7 feed bins leave plane on pedestal 5, simultaneously, also the slip of distributor 7 played to guide effect.

It is more than preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (11)

1. the spherical intermediate supports fine particle separating device of vacuum glass, is characterized in that, comprises pedestal and distributor; Described pedestal is with on ，Gai Shang plane, upper plane, being arranged at intervals with several storage tanks, and each storage tank can only an accommodating described spherical intermediate supports particulate; Described distributor is with the feed bin of lower ending opening; Described distributor slidably is placed on the described upper plane of described pedestal by its feed bin lower end, spherical intermediate supports particulate in feed bin feed bin lower ending opening place be bearing in described on plane, when the storage tank with convenient distributor from pedestal slips over, the spherical intermediate supports particulate in its feed bin can fall into storage tank automatically.

2. tripping device as claimed in claim 1, is characterized in that, the cylindrical trough that described storage tank is the vertical described upper plane of axis, and its diameter and the degree of depth are all suitable with the diameter of described spherical intermediate supports particulate.

3. tripping device as claimed in claim 2, is characterized in that, the degree of depth of described cylindrical trough is identical with the diameter of described spherical intermediate supports particulate.

4. tripping device as claimed in claim 1, it is characterized in that, described storage tank is joined and is formed by spherical bottom and cylindrical upper section, wherein, described spherical diameter is not less than the diameter of described spherical intermediate supports particulate, the vertical described upper plane of the axis of described cylindrical upper section, the diameter of the diameter of cylindrical upper section and spherical intermediate supports particulate is suitable.

5. tripping device as claimed in claim 4, is characterized in that, described spherical diameter is identical with the diameter of described cylindrical upper section.

6. tripping device as claimed in claim 1, is characterized in that, the row or column of the intermediate supports array in the corresponding vacuum glass to be produced of described several storage tanks or partial array or whole array are arranged.

7. tripping device as claimed in claim 1, is characterized in that, described feed bin is the cylindric of lower end opening.

8. tripping device as claimed in claim 1, it is characterized in that, the tubular that described feed bin lower end is open, and the cross section near its end portion is strip, the length of this strip is greater than the length of the row or column of vertical described distributor travel direction in the array that described several storage tanks arrange, so that distributor is along on described pedestal during planar movement, can be simultaneously to insert described spherical intermediate supports particulate in all storage tanks of a row or column of process.

9. tripping device as claimed in claim 1, it is characterized in that, the lower ending opening of described feed bin is strip, the length of this strip is greater than the length of the row or column of the vertical described distributor travel direction in the array that described several storage tanks arrange, so that described distributor is along on described pedestal during planar movement, can be simultaneously to insert described spherical intermediate supports particulate in all storage tanks of a row or column of process.

10. tripping device as claimed in claim 1, is characterized in that, described pedestal is tabular.

11. tripping device as claimed in claim 1, it is characterized in that, described tripping device also is provided with cylinder or the oil cylinder for driving described distributor to slide along described pedestal, described cylinder or oil cylinder be fixed on the relatively-stationary support of pedestal on, the piston rod of cylinder or oil cylinder is connected with distributor, and slides along the upper flatness and reciprocator of pedestal by the telescopic drive distributor of piston rod.

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