CN216939332U - Beat spiral shell device - Google Patents

Abstract

The application discloses beat spiral shell device, beat spiral shell device including the glue box and beat the spiral shell subassembly, the glue box is used for placing glue, beat spiral shell subassembly with the adjacent setting of glue box. The screwing component can take the screw and stretch the screw into the glue box so that the screw dips the glue. In the related art, a set of dispensing assemblies is usually separately arranged, the dispensing assemblies glue the middle points of the threaded holes, and then screws are locked in the threaded holes, so as to realize screw connection of parts to be processed. Need not to set up alone and glue the subassembly in this application embodiment, before the lock was paid the screw, beat the spiral shell subassembly and stretch into the glue box with the screw and dip in glue. And the screw adhered with the glue is locked in the threaded hole, so that the screw connection of the part to be processed is realized. Compare in the scheme among the correlation technique, beat spiral shell device in this application embodiment need not to set up some glue assemblies, can reduce the cost of beating spiral shell device.

Description

Beat spiral shell device

Technical Field

The application belongs to the laser instrument field, especially relates to beat spiral shell device.

Background

Lasers are widely used in industrial, medical, communication and military fields, and with the wide application of lasers, the demand of related optical devices is increasing. The pumping source is a core component of the optical fiber laser, and comprises a base, wherein the base is processed so as to connect parts such as a chip, a prism, a collimating mirror, a reflecting mirror, a cover plate and the like with the base in a certain sequence. In the production process, the pumping source base needs to be connected with the cover plate through screws, and in the related art, the screw driving device has the problem of high cost.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a beat spiral shell device, can reduce the cost of beating the spiral shell device.

The embodiment of the application provides a beat spiral shell device, beat spiral shell device includes:

the glue box is used for placing glue;

beat spiral shell subassembly, with the glue box is adjacent to be set up, beat spiral shell subassembly can take the screw and will the screw stretches into in the glue box, so that the screw dips in get glue.

Optionally, the screw comprises:

the screwing component can adsorb the screw head to take the screw;

the double-screw bolt, with the spiral shell head is connected, beat spiral shell subassembly can with the double-screw bolt stretches into in the glue box, so that part the double-screw bolt dips in get glue.

Optionally, the screwing device further includes:

the arrangement device is connected with the glue box and used for storing the screws, and the screwing component can take the screws from the arrangement device.

Optionally, the screwing assembly further includes:

the liquid level sensor is connected with the glue box and used for detecting the glue liquid level in the glue box;

and the glue supplementing assembly is connected with the glue box and the liquid level sensor and can supplement the glue into the glue box according to the glue liquid level.

Optionally, the glue replenishing assembly includes:

the glue storage container is used for storing glue and is communicated with the glue box;

and the power element is communicated with the glue storage container, and the power element can transfer the glue in the glue storage container into the glue box.

Optionally, the glue box is provided with a first opening and a second opening, the screw driving component extends the screw into the glue box through the first opening, the glue supplementing component is communicated with the glue box through the second opening, and the area of the first opening is larger than that of the second opening.

Optionally, the screwing assembly includes:

a suction nozzle capable of sucking the screw;

the electric screwdriver rod is arranged opposite to the suction nozzle and can lock and pay the screw in the part to be processed.

Optionally, the screwing assembly further includes:

the bracket is connected with the suction nozzle and the electric screwdriver rod;

the driving piece is connected with the support, and the driving piece can drive the suction nozzle and the screwdriver rod to move through the support.

Optionally, the driving member includes:

the first driving mechanism is connected with the support and can drive the support to move along a first direction, so that the screw extends into the glue box or is drawn out of the glue box.

Optionally, the driving member further includes:

the second driving mechanism is connected with the first driving mechanism, the glue box and the part to be processed are arranged along a second direction, the second driving mechanism can drive the first driving mechanism to move along the second direction, and the first direction and the second direction are provided with preset included angles.

In the embodiment of the application, beat the spiral shell device and include the glue box and beat the spiral shell subassembly, the glue box is used for placing glue, beat the spiral shell subassembly with the adjacent setting of glue box. The screwing assembly can take a screw and stretch the screw into the glue box, so that the screw can be dipped in the glue. In the related art, a set of dispensing assemblies is usually separately arranged, the dispensing assemblies glue the middle points of threaded holes, and then screws are locked in the threaded holes, so as to realize screw connection of parts to be processed. Need not to set up alone and glue the subassembly in this application embodiment, before the screw is paid in the lock, beat the spiral shell subassembly and stretch into the screw and dip in glue in the glue box. And the screw adhered with the glue is locked in the threaded hole, so that the screw connection of the part to be processed is realized. Compare in the scheme among the correlation technique, beat spiral shell device in this application embodiment need not to set up some glue assemblies, can reduce the cost of beating spiral shell device.

Drawings

The technical solutions and advantages of the present application will be apparent from the following detailed description of specific embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a screwing device provided in an embodiment of the present application.

Fig. 2 is a schematic diagram of the screw dipping in glue in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of an aligner, a glue box and a glue supplement set in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of the glue box in the embodiment of the present application.

FIG. 5 is a schematic structural diagram of the suction nozzle, the screwdriver rod and the bracket in the embodiment of the present application.

Fig. 6 is a schematic structural diagram of a screwing assembly in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Lasers are widely used in industrial, medical, communication and military fields, and with the wide application of lasers, the demand of related optical devices is increasing. The pumping source is a core component of the optical fiber laser, and comprises a base, wherein the base is processed so as to connect parts such as a chip, a prism, a collimating mirror, a reflecting mirror, a cover plate and the like with the base in a certain sequence. In the production process, the pumping source base needs to be connected with the cover plate through screws, and in the related art, the screw driving device has the problem of high cost.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a screwing device according to an embodiment of the present disclosure. The screwing device 100 comprises a glue box 2 and a screwing assembly 1, wherein the glue box 2 is used for placing glue, and the screwing assembly 1 can take out a screw 6. Beat spiral shell subassembly 1 with glue box 2 adjacent setting, beat spiral shell subassembly 1 take behind the screw 6 can with screw 6 stretches into in the glue box 2, so that screw 6 dips in get glue.

It can be understood that a certain gap also exists at the screw connection position, and the screw and the threaded hole can be tightly connected by using the glue, so that the outside impurities are prevented from polluting the inside of the pump source. In the subsequent aging test, the use of the glue can also avoid the expansion of the screw due to heating as much as possible. Therefore, applying glue between the screw and the threaded hole is a very important step in screw attachment. In the related art, the pump source base and the cover plate are usually connected by screws, and a set of dispensing assemblies is usually separately arranged in the process of sealing the pump source. The dispensing assembly generally includes a glue cartridge, a cartridge holder, and a moving module, and further needs to be assembled and installed, and a software program is provided to control the dispensing assembly and the screwing assembly. The dispensing assembly firstly dispenses glue in the threaded hole, and the screw assembly locks and pays a screw in the threaded hole so as to realize screw connection of parts to be processed. It can be appreciated that in the related art, the dispensing assembly increases the material, assembly and design costs of the screwing step.

Then need not to set up alone and glue the subassembly in this application embodiment, before the screw 6 is paid in the lock, beat spiral shell subassembly 1 and stretch into the glue box 2 with screw 6 and dip in glue. Glue is adhered to the screw 6, and then the screw 6 is locked in the threaded hole, so that the screw 6 of the part to be processed is connected. Compare the scheme in the correlation technique, beat spiral shell device 100 in the embodiment of this application need not to set up some glue assemblies, utilizes a glue box 2 and dips in this step of glue, can realize filling the glue between screw 6 and the screw hole, can reduce the cost of beating spiral shell device 100.

Referring to fig. 2, fig. 2 is a schematic diagram illustrating a screw dipping glue according to an embodiment of the present disclosure. The screw 6 comprises a screw head 61 and a stud 62, and the screwing component 1 can adsorb the screw head 61 to take the screw 6. The stud 62 is connected with the screw head 61, and the screwing assembly 1 can extend the stud 62 into the glue box 2, so that part of the stud 62 is dipped with the glue. It should be noted that the gap between the threaded hole and the screw 6 is small, so that too much glue should not be dipped. If the glue amount is too much, problems such as glue overflow will occur, which will affect the beauty of the pump source. When the overflow glue is too much, the subsequent normal use of the pumping source may be affected. Therefore, when dipping glue, only a part of the stud 62 needs to be coated with glue. Illustratively, the extending direction of the stud 62 is perpendicular to the glue level in the glue box 2, the stud 62 vertically extends into the glue, the glue can be adhered to the stud 62, and the depth of the stud 62 extending into the glue is smaller than the length of the stud 62. The specific penetration depth is determined according to the thread profile, the stud length and the product requirements, and is not limited herein.

As shown in fig. 1, the screwing device 100 further includes an aligner 5, the aligner 5 is connected to the glue box 2, the aligner 5 is used for storing the screws 6, and the screwing assembly 1 can take the screws 6 from the aligner 5. It should be noted that the aligner 5 can align the screws 6 individually to avoid stacking the screws 6 so that the screwing assembly 1 can quickly take the screws 6. The arrangement device 5 is connected with the glue box 2, and after the screw assembly 1 is screwed and the screw 6 is taken, the screw 6 can be stretched into the glue box 2 to dip glue without moving too long distance.

Referring to fig. 3, fig. 3 is a schematic structural diagram of an aligner, a glue box and a glue replenishing assembly in an embodiment of the present application. Beat spiral shell subassembly 1 and still include level sensor 4 and glue and supply subassembly 3, level sensor 4 is connected with glue box 2, level sensor 4 is used for detecting the glue liquid level in glue box 2. The glue supplementing assembly 3 is connected with the glue box 2 and the liquid level sensor 4, and the glue supplementing assembly 3 can supplement the glue into the glue box 2 according to the glue liquid level. It will be appreciated that the dipping of the screw 6 by the glue will gradually consume the glue in the glue cartridge 2, so that the glue level in the glue cartridge 2 gradually decreases. When the glue level drops to a certain degree, the screw 6 cannot be dipped in the glue. Therefore, when the liquid level of the glue drops to the preset threshold value, the glue in the glue box 2 needs to be supplemented in time, and the situation that the screw 6 cannot be dipped in the glue is avoided.

The glue replenishing assembly 3 comprises a glue storage container 32 and a power element 33, wherein the glue storage container 32 is used for storing glue, and the power element 33 can provide power for the glue. Store up glue container 32 with glue box 2 intercommunication, power component 33 is connected with store up glue container 32, glue box 2, power component 33 can with store up in the glue container 32 glue shift to in the glue box 2. Illustratively, the power element 33 may be a glue pump, one end of which is connected to the glue box 2 through a connecting pipe 31, and the other end of which is connected to the glue storage container 32. When the liquid level sensor 4 detects that the liquid level of the glue in the glue box 2 is lower than the preset value, the glue pump works to continuously inject the glue in the glue storage container 32 into the glue box 2. The glue box 2 can also be provided with a highest liquid level value, and when the liquid level sensor 4 detects that the liquid level of the glue reaches the highest liquid level, the glue pump stops working to stop injecting the glue into the glue box 2. Of course, the power element 33 may be an air cylinder, which applies pressure to the glue storage container 32 to squeeze the glue in the glue storage container 32 into the glue cartridge 2, and the specific structure of the power element 33 is not limited herein.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a glue box in an embodiment of the present application. The glue box 2 is provided with a first opening 21 and a second opening 23, the screw driving component 1 extends the screw 6 into the glue box 2 through the first opening 21, the glue supplementing component 3 is communicated with the glue box 2 through the second opening 23, and the area of the first opening 21 is larger than that of the second opening 23. It should be noted that the first opening 21 is relatively large, so that the screwing device 100 can conveniently and smoothly extend the screw 6 into the glue box 2. However, if the glue is exposed to the air and is easily cured, if the glue in the glue box 2 is too much, the glue in the glue box 2 may be cured or semi-cured, and the screw 6 may not be dipped with the glue or may be difficult to lock. Consequently, set the area of second opening 23 to be less than the area of first opening 21, glue box 2 is the infundibulate, can effectively reduce glue box 2's volume, and then reduces the volume of glue in glue box 2, avoids glue to take place to solidify in glue box 2.

Referring to fig. 5, fig. 5 is a schematic structural view of a suction nozzle, a screwdriver rod and a bracket according to an embodiment of the present disclosure. The screwing assembly 1 comprises a suction nozzle 15 and a screwdriver rod 14, wherein the suction nozzle 15 can suck the screw 6. The electric screwdriver rod 14 is arranged opposite to the suction nozzle 15, and the electric screwdriver rod 14 can lock the screw 6 in the part to be processed. The suction nozzle 15 can suck the screw head 61, the screwdriver rod 14 can abut against the screw head 61, the screwdriver rod 14 can rotate along the axis of the screwdriver rod, the screwdriver rod 14 can move linearly along the second direction Y, and the screw 6 is locked in the part to be machined.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a screwing assembly in an embodiment of the present application. The screwing assembly 1 further comprises a bracket 16 and a driving piece 13, the bracket 16 is connected with the suction nozzle 15 and the screwdriver rod 14, and the bracket 16 enables the suction nozzle 15 and the screwdriver rod 14 to be integrated. The driving piece 13 with the support 16 is connected, the driving piece 13 can pass through the support 16 drive the suction nozzle 15 the electric screwdriver rod 14 motion, and then the realization is got the screw 6, is dipped in glue, is beaten the continuous operation of screw 6. Illustratively, the driving member 13 drives the suction nozzle 15 to reach the aligner 5 to suck the screws 6 in the aligner 5, the driving member 13 drives the suction nozzle 15 to move to the glue box 2 and extend the screws 6 into the glue box 2 to dip glue, and the driving member 13 can also transfer the screws 6 dipped with glue to the part to be processed so that the screws 6 are locked with the threaded holes.

The driving member 13 further includes a first driving mechanism 131, the first driving mechanism 131 is connected to the bracket 16, and the first driving mechanism 131 can drive the bracket 16 to move along the first direction Z. Illustratively, the first direction Z is a vertical direction, and when taking the screw 6, the first driving mechanism 131 drives the suction nozzle 15 to move downwards along the first direction Z, so that the suction nozzle 15 can suck the screw 6; the first driving mechanism 131 then drives the suction nozzle 15 to move upward in the first direction Z to lift the suction nozzle 15 to remove the screw 6 from the aligner 5. When dipping glue, the first driving mechanism 131 drives the suction nozzle 15 to move downwards along the first direction Z so that the screw can extend into the glue box 2 to dip glue, and then the first driving mechanism 131 drives the suction nozzle 15 to move upwards along the first direction Z so that the screw can be drawn out of the glue box 2. When the screw 6 is locked, the first driving mechanism 131 can drive the suction nozzle 15 to move downwards along the first direction Z, so that the distance between the screw 6 and the part to be processed is a preset distance, and the screwdriver rod 14 works to lock the screw 6 in the part to be processed. Subsequently, the first driving mechanism 131 moves upward in the first direction Z to lift the suction nozzle 15 and the electric batch bar 14.

The driving member 13 further includes a second driving mechanism 132, the second driving mechanism 132 is connected to the first driving mechanism 131, the glue box 2 and the part to be processed are arranged along the second direction Y, the second driving mechanism 132 can drive the first driving mechanism 131 to move along the second direction Y, and the first direction Z and the second direction Y have a preset included angle.

For example, the second direction Y may be perpendicular to the first direction Z, and the aligner 5, the glue cartridge 2, and the part to be processed are sequentially arranged along the second direction Y. The second driving mechanism 132 can drive the support 16 to move along the second direction Y, so that the electric batch rod 14 and the suction nozzle 15 can move along the second direction Y in sequence. The suction nozzle 15 moves to the arranger 5 to take the screw 6, then the second driving mechanism 132 drives the suction nozzle 15 and the screwdriver rod 14 to move to the glue box 2 so that the screw 6 can be dipped with glue, and finally the second driving mechanism 132 drives the suction nozzle 15 and the screwdriver rod 14 to move to the part to be processed so that the screw 6 can be driven into the part to be processed. It can be understood that the moving direction of the second driving mechanism 132 is consistent with the arrangement direction of the components, the route is reasonable, and the operation efficiency is high.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

The screw driving device provided by the embodiment of the present application is described in detail above, and a specific example is applied in the description to explain the principle and the implementation of the present application, and the description of the above embodiment is only used to help understanding the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A snail driving device, characterized in that it comprises:

the glue box is used for placing glue;

beat spiral shell subassembly, with the glue box is adjacent to be set up, beat the spiral shell subassembly can take the screw and will the screw stretches into in the glue box, so that the screw dips in glue to the screw lock that will dip in behind the glue is paid in waiting to process the part.

2. The screw driving apparatus according to claim 1, wherein the screw comprises:

the screwing component can adsorb the screw head to take the screw;

the double-screw bolt, with the spiral shell head is connected, beat spiral shell subassembly can with the double-screw bolt stretches into in the glue box, so that part the double-screw bolt dips in get glue.

3. The screwing device according to claim 2, further comprising:

the arrangement device is connected with the glue box and used for storing the screws, and the screwing component can take the screws from the arrangement device.

4. The snail apparatus according to any one of claims 1 to 3, wherein the snail assembly further comprises:

the liquid level sensor is connected with the glue box and used for detecting the glue liquid level in the glue box;

and the glue supplementing assembly is connected with the glue box and the liquid level sensor and can supplement the glue in the glue box according to the glue liquid level.

5. The screwing device of claim 4 wherein said glue refill assembly comprises:

the glue storage container is used for storing glue and is communicated with the glue box;

and the power element is communicated with the glue storage container and can transfer the glue in the glue storage container into the glue box.

6. The screwing device according to claim 4, wherein said glue cartridge is provided with a first opening through which said screwing assembly extends said screw into said glue cartridge and a second opening through which said glue replenishing assembly communicates with said glue cartridge, the area of said first opening being larger than the area of said second opening.

7. The screwing device according to any one of claims 1 to 3, wherein said screwing assembly comprises:

a suction nozzle capable of sucking the screw;

the electric screwdriver rod is arranged opposite to the suction nozzle and can lock and pay the screw in the part to be processed.

8. The screw driving apparatus according to claim 7, wherein the screw driving assembly further comprises:

the bracket is connected with the suction nozzle and the electric screwdriver rod;

the driving piece is connected with the support, and the driving piece can drive the suction nozzle and the screwdriver rod to move through the support.

9. The screwing device of claim 8 wherein said drive member comprises:

the first driving mechanism is connected with the support and can drive the support to move along a first direction, so that the screw extends into the glue box or is drawn out of the glue box.

10. The screwing device of claim 9 wherein said drive member further comprises:

the second driving mechanism is connected with the first driving mechanism, the glue box and the part to be processed are arranged along a second direction, the second driving mechanism can drive the first driving mechanism to move along the second direction, and the first direction and the second direction are provided with preset included angles.

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