CN215234273U - Test equipment with ozone device - Google Patents

Abstract

The utility model discloses a take testing equipment of ozone device, including the proof box shell, the front end swing joint of proof box shell has sealing door, the fixed ozone manufacturing box that is provided with of lower extreme of proof box shell, the inside of proof box shell is provided with the test chamber, the equal fixed welding in both sides of test chamber bottom has five card dress boards, the both sides of card dress board all run through and transversely are provided with the cartridge groove, the both sides in cartridge groove are run through and are installed the cartridge board, the inside at cartridge board outside both ends is provided with the installation cavity, the inside upper end of installation cavity is run through and is provided with and presses the stock. The utility model discloses an insert installation PCB board in the cartridge inslot, insert installation plug-in board in the cylinder jack, the cartridge groove has certain fixed action to the PCB board on horizontal, and the cartridge cooperation between plug-in board and the cylinder jack can be better carry out the ascending fixing of vertical side to the PCB board simultaneously.

Description

Test equipment with ozone device

Technical Field

The utility model relates to an ozone test equipment technical field specifically is a take test equipment of ozone device.

Background

With the rapid development of social economy, the technology of the ozone test equipment technology on the aging test is increasingly wide, and the main ozone making technology of the ozone aging test device comprises the following steps: electrolytic methods, nuclear radiation methods, ultraviolet rays, plasma, corona discharge methods, and the like. The ozone generator is widely applied to produce ozone by oxidizing air or pure oxygen in an electric discharge way. That is, high energy interactive current is applied to oxygen in air to ionize oxygen molecules into ozone. Ozone is naturally formed from diatomic oxygen by electron emission or exposure to ultraviolet radiation. Industrially, the product is obtained by silent discharge with dry air or oxygen gas using an alternating voltage of 5-25 kv. In addition, ozone can be produced by electrolyzing dilute sulfuric acid at low temperature or by heating liquid oxygen.

However, the existing ozone-carrying device is complex to the test object, especially to the fixing of the PCB, and the structure of most of the devices is a bolt and nut fixing structure, so that the PCB is not easy to be fixed quickly and effectively, and the working efficiency of workers is reduced. Thus, the existing requirements are not met, and for this, a test device with an ozone device is proposed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a take testing equipment of ozone device to the belt ozone device that provides among the above-mentioned background art of solution is especially comparatively complicated to the fixed of PCB board to the test object, because of most structures are bolt and nut fixed knot structure, this is unfavorable for carrying out quick effectual fixing to the PCB board, has slowed down staff's work efficiency scheduling problem.

In order to achieve the above object, the utility model provides a following technical scheme: a test device with an ozone device comprises a test box shell, wherein the front end of the test box shell is movably connected with a sealing door, an ozone manufacturing box is fixedly arranged at the lower end of the test box shell, a test chamber is arranged inside the test box shell, five clamping plates are fixedly welded at two sides of the bottom end of the test chamber, inserting grooves are transversely formed in the two sides of each clamping plate in a penetrating manner, inserting plates are mounted at two sides of each inserting groove in a penetrating manner, mounting cavities are arranged inside two ends of the outer side of each inserting plate, pressing long rods are arranged at the upper ends inside the mounting cavities in a penetrating manner, movable abutting plates are fixedly welded at the lower ends of the pressing long rods, connecting columns are fixedly welded in the middles of the lower ends of the movable abutting plates, stretching springs A are fixedly arranged on the peripheries of the connecting columns, and movable long cavities are transversely formed in the penetrating manner at the lower ends of the mounting cavities, the fixed welding of the one end of the long intracavity portion of activity has the spring B that stretches, the fixed movable chamber that is provided with of lower extreme of installation cavity, the cartridge board surface is close to the both sides of middle department and all is provided with the spacing groove, spacing inslot fixing clip is equipped with the spacer pin, the fixed welding of middle department of spacer pin one side has the connection dead lever, the fixed welding of lower extreme of spliced pole has the activity ejector pad, one side movable mounting of activity ejector pad has driven movable block, one side of driven movable block is provided with the incision inclined plane, one side of activity ejector pad is provided with the chamfer inclined plane, the incision inclined plane on the driven movable block and the chamfer inclined plane of activity ejector pad one side are through laminating clearance fit.

Preferably, the hinge is fixedly installed at the rear end of one side of the sealing door, and the test box shell is movably connected with the sealing door through the hinge.

Preferably, a control side plate is fixedly welded on one side of the test box shell and the ozone manufacturing box, and a control panel is fixedly arranged at the front end of the control side plate.

Preferably, a supporting metal column is fixedly welded in the middle of the upper end of the clamping plate, and the two clamping plates are fixedly welded and connected through the supporting metal column.

Preferably, the extension spring A and the movable abutting plate are located in the installation cavity, the periphery of the bottom end of the installation cavity and the movable abutting plate are fixedly welded and connected through the extension spring A, cylindrical insertion holes are formed in two sides of the insertion groove in a penetrating mode, and the insertion plate is located in the cylindrical insertion holes.

Preferably, the extension spring B and the driven movable block are both positioned in the movable long cavity, and the end face of one side of the movable long cavity is fixedly welded with the driven movable block through the extension spring B.

Preferably, the fixed welding at both ends of connecting the dead lever has the fixed axle, connect through fixed axle welded connection between dead lever and spacer pin, the driven movable block, through connecting the fixed welded connection of dead lever between spacer pin and the driven movable block.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses an insert installation PCB board in the cartridge groove, insert installation inserting plate in the cylinder jack, the cartridge groove has certain fixed action to PCB board in horizontal, the cartridge cooperation between inserting plate and the cylinder jack can be better carry out the fixed of vertical side to PCB board simultaneously, through setting up the spacing groove at the surface of inserting plate, make the spacer pin carry out the fixed of vertical side with inserting plate through the fixed cooperation with the spacing groove, driven movable block can be through the fixed cartridge of the stretching elasticity on the extension spring B of one side fixed welding to connecting dead lever and spacer pin to cartridge plate one side, this can make the firm fixing of spacer pin in the spacing groove, thereby improve the fixed action to inserting plate;

2. the utility model discloses a fixed installation cavity that sets up in the both sides that clamp the board, the upper end activity of installation cavity sets up the activity and supports the board, the activity is supported the board and can be difficult for deviating from in the installation cavity with pressing the stock fixing clip dress, press the stock through the activity support board and stretch spring A fixed weld connection, stretch spring A's elasticity can make the stock of pressing that takes place the displacement resume the normal position, the activity support board lower extreme fixed weld's spliced pole can with activity ejector pad fixed connection installation cavity and stretch the activity chamber that spring B lower extreme set up can make the activity ejector pad have certain downstream space, thereby the activity of spliced pole and activity ejector pad has been improved.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is an overall front view partially cut-away view of the present invention;

FIG. 3 is an enlarged view of the point A in FIG. 2 according to the present invention;

fig. 4 is an enlarged view of the present invention at B in fig. 3;

fig. 5 is an enlarged view of C in fig. 4 according to the present invention.

In the figure: 1. a control side plate; 2. a test chamber housing; 3. an ozone production tank; 4. a control panel; 5. a test chamber; 6. clamping a plate; 7. a board is inserted; 8. supporting the metal posts; 9. a sealing door; 10. inserting the slots; 11. pressing the long rod; 12. a movable resisting plate; 13. a mounting cavity; 14. extending the spring A; 15. a limiting groove; 16. a spacing pin; 17. connecting a fixed rod; 18. a movable cavity; 19. a movable long cavity; 20. extending the spring B; 21. connecting columns; 22. a movable push block; 23. a driven movable block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1 to 5, the present invention provides an embodiment: a test device with an ozone device comprises a test box shell 2, the front end of the test box shell 2 is movably connected with a sealing door 9, the lower end of the test box shell 2 is fixedly provided with an ozone manufacturing box 3, a test chamber 5 is arranged inside the test box shell 2, two sides of the bottom end of the test chamber 5 are fixedly welded with five clamping plates 6, two sides of each clamping plate 6 are transversely provided with an inserting groove 10 in a penetrating way, two sides of each inserting groove 10 are provided with inserting plates 7 in a penetrating way, two ends outside each inserting plate 7 are internally provided with mounting cavities 13, the upper end inside each mounting cavity 13 is provided with a pressing long rod 11 in a penetrating way, the lower end of each pressing long rod 11 is fixedly welded with a movable abutting plate 12, the middle of the lower end of each movable abutting plate 12 is fixedly welded with a connecting column 21, the periphery of each connecting column 21 is fixedly provided with a tension spring A14, the lower end of each mounting cavity 13 is transversely provided with a movable long cavity 19 in a penetrating way, one end inside each movable long cavity 19 is fixedly welded with a tension spring B20, the fixed movable chamber 18 that is provided with of lower extreme of installation cavity 13, the both sides that the cartridge board 7 surface is close to middle department all are provided with spacing groove 15, the spacer pin 16 is equipped with to the fixing clip in spacing groove 15, the fixed welding of middle department of spacer pin 16 one side has connection dead lever 17, the fixed welding of lower extreme of spliced pole 21 has movable ejector pad 22, one side movable mounting of movable ejector pad 22 has driven movable block 23, one side of driven movable block 23 is provided with the incision inclined plane, one side of movable ejector pad 22 is provided with the chamfer inclined plane, the incision inclined plane on the driven movable block 23 and the chamfer inclined plane of movable ejector pad 22 one side are through laminating clearance fit.

Furthermore, a hinge is fixedly installed at the rear end of one side of the sealing door 9, and the test box shell 2 is movably connected with the sealing door 9 through the hinge.

Through adopting above-mentioned technical scheme, the rear end hinge of sealing door 9 one side is favorable to sealing door 9's movable switch.

Further, a control side plate 1 is fixedly welded on one side of the test box shell 2 and the ozone manufacturing box 3, and a control panel 4 is fixedly arranged at the front end of the control side plate 1.

Through adopting above-mentioned technical scheme, control panel 4 is favorable to carrying out flow control to ozone manufacturing box 3.

Furthermore, a supporting metal column 8 is fixedly welded in the middle of the upper end of the clamping plate 6, and the two clamping plates 6 are fixedly welded and connected through the supporting metal column 8.

Through adopting above-mentioned technical scheme, support metal column 8 can support to be connected between two chucking boards 6.

Further, extension spring A14 and activity are supported board 12 and are all located installation cavity 13, and the fixed welded connection through extension spring A14 is supported between board 12 around installation cavity 13 bottom and the activity, and the both sides of cartridge groove 10 all run through and are provided with the cylinder jack, and cartridge board 7 is located the cylinder jack.

By adopting the technical scheme, the extension spring A14 is beneficial to the up-and-down reciprocating motion of the movable resisting plate 12.

Furthermore, the extension spring B20 and the driven movable block 23 are both positioned in the movable long cavity 19, and the end surface of one side of the movable long cavity 19 is fixedly welded with the driven movable block 23 through the extension spring B20.

By adopting the technical scheme, the extension spring B20 can enable the driven movable block 23 to transversely reciprocate.

Further, fixed shafts are fixedly welded at two ends of the connecting fixed rod 17, the connecting fixed rod 17 is connected with the limiting pin 16 and the driven movable block 23 in a welded mode through the fixed shafts, and the limiting pin 16 is connected with the driven movable block 23 in a fixed welded mode through the connecting fixed rod 17.

By adopting the technical scheme, the connecting fixing rod 17 can be fixedly connected with the limiting pin 16 and the connecting fixing rod 17, so that force transmission is facilitated.

The working principle is as follows: when the fixing device is used, a PCB is inserted and installed in the insertion groove 10, then the insertion plate 7 is inserted and installed in the cylindrical jack, the insertion groove 10 has a certain fixing effect on the PCB in the transverse direction, meanwhile, the insertion fit between the insertion plate 7 and the cylindrical jack can better fix the PCB in the vertical direction, the limiting groove 15 is formed in the outer surface of the insertion plate 7, the insertion plate 7 is fixed in the vertical direction through the fixed fit between the limiting pin 16 and the limiting groove 15, the driven movable block 23 can fix and insert the connecting fixing rod 17 and the limiting pin 16 to one side of the insertion plate 7 through the stretching elastic force of the stretching spring B20 fixedly welded to one side, the limiting pin 16 can be firmly fixed in the limiting groove 15, and the fixing effect on the insertion plate 7 is improved; the installation cavity 13 is fixedly arranged at two sides of the clamping plate 6, the movable resisting plate 12 is movably arranged at the upper end of the installation cavity 13, the movable resisting plate 12 can fixedly clamp the long pressing rod 11 in the installation cavity 13 and is not easy to fall off, the long pressing rod 11 is fixedly welded with the stretching spring A14 through the movable resisting plate 12, the elastic force of the stretching spring A14 can enable the long pressing rod 11 which is displaced to be recovered to the original position, the connecting column 21 fixedly welded at the lower end of the movable resisting plate 12 can be fixedly connected with the movable push block 22, when a worker presses the long pressing rod 11 downwards, the connecting column 21 presses the movable push block 22 downwards, one side of the movable push block 22 and one side inclined surface of the driven movable block 23 are movably installed in an attaching mode, the direction of the downward vertical movement of the movable push block 22 is converted into the lateral movement of the driven movable block 23 to one side, so that the driven movable block 23 drives the connecting fixed rod 17 to be pulled to one side, at this time, the connecting fixing rod 17 drives the limit pin 16 to unload from the limit groove 15 on the insertion plate 7, thereby finishing the limit fixing of the insertion plate 7; when the pressing long rod 11 is loosened, the stretching force of the stretching spring B20 is used for reinserting and installing the limiting pin 16 connected with one end of the fixed rod 17 in the limiting groove 15 by pushing the driven movable block 23, and the series of arrangement is beneficial to quick unloading and limiting fixing of the inserting plate 7, so that the PCB can be quickly unloaded and installed; when the PCB is fixed in the test chamber 5 in the test box shell 2, the sealing door 9 is closed, the ozone manufacturing box 3 is opened, ozone enters the sealing door 9, and the control panel 4 can be pressed to adjust the test on the inner side of the test box shell 2.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a take testing equipment of ozone device, includes proof box shell (2), its characterized in that: the ozone production test device is characterized in that a sealing door (9) is movably connected to the front end of a test box shell (2), an ozone production box (3) is fixedly arranged at the lower end of the test box shell (2), a test chamber (5) is arranged in the test box shell (2), five clamping plates (6) are fixedly welded to two sides of the bottom end of the test chamber (5), inserting grooves (10) are transversely arranged on two sides of each clamping plate (6) in a penetrating manner, inserting plates (7) are installed on two sides of each inserting groove (10) in a penetrating manner, installation cavities (13) are arranged in two ends of the outer side of each inserting plate (7), a pressing long rod (11) is arranged at the upper end of the interior of each installation cavity (13) in a penetrating manner, a movable abutting plate (12) is fixedly welded to the lower end of each pressing long rod (11), and a connecting column (21) is fixedly welded to the middle of the lower end of each movable abutting plate (12), the telescopic spring A (14) is fixedly arranged around the connecting column (21), the lower end of the mounting cavity (13) transversely penetrates through the movable long cavity (19), the telescopic spring B (20) is fixedly welded at one end inside the movable long cavity (19), the movable cavity (18) is fixedly arranged at the lower end of the mounting cavity (13), limiting grooves (15) are respectively formed in two sides of the surface of the inserting plate (7) close to the middle, limiting pins (16) are fixedly clamped in the limiting grooves (15), connecting fixing rods (17) are fixedly welded at the middle of one side of each limiting pin (16), a movable push block (22) is fixedly welded at the lower end of the connecting column (21), a driven movable block (23) is movably arranged on one side of the movable push block (22), a notch inclined plane is arranged on one side of the driven movable block (23), and a chamfer inclined plane is arranged on one side of the movable push block (22), the notch inclined plane on the driven movable block (23) is in fit with the chamfer inclined plane on one side of the movable push block (22) in a movable manner through fitting.

2. The testing equipment with ozone device as claimed in claim 1, wherein: the rear end of one side of the sealing door (9) is fixedly provided with a hinge, and the test box shell (2) is movably connected with the sealing door (9) through the hinge.

3. The testing equipment with ozone device as claimed in claim 1, wherein: a control side plate (1) is fixedly welded on one side of the test box shell (2) and one side of the ozone manufacturing box (3), and a control panel (4) is fixedly arranged at the front end of the control side plate (1).

4. The testing equipment with ozone device as claimed in claim 1, wherein: the middle of the upper end of each clamping plate (6) is fixedly welded with a supporting metal column (8), and the two clamping plates (6) are fixedly welded and connected through the supporting metal columns (8).

5. The testing equipment with ozone device as claimed in claim 1, wherein: the stretching spring A (14) and the movable abutting plates (12) are located in the installation cavity (13), the periphery of the bottom end of the installation cavity (13) and the movable abutting plates (12) are fixedly welded and connected through the stretching spring A (14), cylindrical jacks are formed in the two sides of the insertion groove (10) in a penetrating mode, and the insertion plate (7) is located in the cylindrical jacks.

6. The testing equipment with ozone device as claimed in claim 1, wherein: the extension spring B (20) and the driven movable block (23) are both located in the movable long cavity (19), and the end face of one side of the movable long cavity (19) is fixedly connected with the driven movable block (23) through the extension spring B (20) in a welding mode.

7. The testing equipment with ozone device as claimed in claim 1, wherein: the fixed welding in both ends of connecting dead lever (17) has the fixed axle, connect between dead lever (17) and spacer pin (16), driven movable block (23) through fixed axle welded connection, through connecting dead lever (17) fixed welded connection between spacer pin (16) and the driven movable block (23).

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