CN220128081U - Water meter case intelligent nut planting and assembling device - Google Patents

Abstract

The utility model relates to an intelligent nut planting and assembling device for a water meter shell, which comprises a base, wherein a nut implanting device, a screw feeding device and a vibration material tray for placing nuts are arranged on a panel of the base; the nut implanting device comprises an assembling table, wherein the assembling table is connected with a panel of the base through supporting legs, a placing through hole for embedding the base meter is formed in the middle of the assembling table, and an ejection mechanism for pushing the base meter out of the placing through hole is arranged below the placing through hole; the assembly table is provided with a base table positioning mechanism and two groups of nut loading mechanisms, and the base table positioning mechanism is matched with one group of nut loading mechanisms. The utility model ensures that the nut installation, the screw installation and the screw screwing are all mechanical operations, thereby greatly improving the production efficiency and reducing the labor intensity of workers.

Description

Water meter case intelligent nut planting and assembling device

Technical Field

The utility model relates to the technical field of water meter processing, in particular to a water meter shell intelligent nut planting and assembling device.

Background

The patent application with the application number of 2019108903235 is provided by the national patent office under 2019.09.20 by the unit mother company, and comprises a meter head with a controller and a plurality of base tables connected with the meter head, wherein the plurality of base tables are detachably connected; each base meter comprises a meter shell, and one, two or more water pipelines which are integrally formed with the meter shell are arranged in the meter shell; one end of the watchcase is detachably connected with a water diversion pipe, a first plug corresponding to each water conveying pipeline is arranged on the water diversion pipe, and each first plug is correspondingly connected and communicated with one water conveying pipeline; the other end of the watchcase is detachably connected with the water pipe connecting seat.

In the production and processing process of the water meter, each base meter is required to be assembled with the meter shell and the meter cover, nuts are required to be installed into the meter shell during assembly, then screws are installed onto the meter cover, and the meter shell and the meter cover are fixedly and firmly assembled through the cooperation of the screws and the nuts. The original assembly mode is manual operation, namely nut installation, screw installation and screw screwing are all manual operation of workers, production efficiency is low, and long-time work labor intensity is high.

Based on the technical problem, the technical staff of the company special organization designs and develops, proposes a water meter housing intelligent nut planting and assembling device, so that nut installation, screw installation and screw screwing are all mechanical operations, the production efficiency is greatly improved, and the labor intensity of workers is reduced. At present, the technology has made products and is put into use in factories, and the use effect is very ideal.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an intelligent nut planting and assembling device for a water meter shell.

The utility model is realized by the following technical scheme that the intelligent nut planting and assembling device for the water meter shell comprises a base, wherein a nut implanting device, a screw feeding device and a vibration tray for placing nuts are arranged on a panel of the base; the nut implanting device comprises an assembling table, wherein the assembling table is connected with a panel of the base through supporting legs, a placing through hole for embedding the base meter is formed in the middle of the assembling table, and an ejection mechanism for pushing the base meter out of the placing through hole is arranged below the placing through hole; the assembly table is provided with a base table positioning mechanism and two groups of nut loading mechanisms, and the base table positioning mechanism is matched with one group of nut loading mechanisms.

Preferably, each set of nut loading mechanism comprises a transverse conveying groove and a longitudinal conveying groove, wherein the transverse conveying groove is arranged on the top surface of the assembly table, the longitudinal conveying groove is vertical to and communicated with the transverse conveying groove, a sliding block capable of sliding along the transverse conveying groove is arranged in the transverse conveying groove, a storage notch for accommodating nuts is formed in the sliding block, a feed inlet corresponding to the storage notch is formed in the assembly table, and the feed inlet is connected with the vibration material tray; nuts conveyed by the vibration material tray reach the storage notch through the feeding hole. The assembly table is provided with a first driving mechanism for driving the sliding block to move; the longitudinal conveying groove is internally provided with a push plate for pushing the nut in the accommodating notch to move along the longitudinal conveying groove, and the assembly table is provided with a second driving mechanism for driving the push plate to move.

Preferably, the base meter positioning mechanism comprises a limiting plate, an internal channel for the limiting plate to move is arranged in the assembly table, the internal channel is communicated with the placing through hole, and a third driving mechanism for driving the limiting plate to tightly prop against the base meter is arranged on the assembly table; the limiting plate is provided with a transverse guide groove and a longitudinal guide groove which is vertical to and communicated with the transverse guide groove, and the longitudinal guide groove is positioned below one of the longitudinal conveying grooves and is communicated with the longitudinal conveying groove; when the limiting plate advances to the right position, the transverse guide groove is positioned below one of the transverse conveying grooves and communicated with the transverse conveying groove.

Preferably, the first driving mechanism is a first cylinder, a cylinder body of the first cylinder is fixed with the assembly table, a push rod of the first cylinder is fixed with the sliding block, the sliding block is driven by the first cylinder to displace, and the storage notch is opposite to the feeding port in the sliding block moving process, so that the nut enters the storage notch.

Preferably, the second driving mechanism is a second cylinder, a cylinder body of the second cylinder is fixed with the assembly table, a push rod of the second cylinder is fixed with the push plate, the push plate is driven by the second cylinder to realize the displacement of the push plate, after the sliding block advances in place, the accommodating notch and the longitudinal conveying groove are positioned on the same straight line, and at the moment, the nut at the accommodating notch can be pushed forwards through the moving push plate and is arranged in the watchcase.

Preferably, the third driving mechanism is a third cylinder, the cylinder body of the third cylinder is fixed with the assembly table, and the push rod of the third cylinder is connected with the limiting plate. And under the drive of the third cylinder, the limiting plate moves along the internal channel and is propped against the base table to fix the base table.

Preferably, the ejection mechanism comprises a mounting seat connected with the assembly table, a cylinder body of the ejection cylinder is fixed with the mounting seat, a push rod of the ejection cylinder is connected with the supporting plate, and the base table is placed on the supporting plate and can be carried by the supporting plate to move out of the placement through hole.

Preferably, the screwing device is an air blowing type automatic screw machine, the air blowing type automatic screw machine is of an existing structure, and screws can be implanted into the watch cover through the air blowing type automatic screw machine to finish screwing operation.

Preferably, in order to facilitate equipment transfer, walking wheels are arranged at the bottom of the base, so that the equipment is convenient to push to move.

The beneficial effects of the utility model are as follows:

the utility model ensures that the nut installation, the screw installation and the screw screwing are all mechanical operations, thereby greatly improving the production efficiency and reducing the labor intensity of workers. At present, the technology has made products and is put into use in factories, and the use effect is very ideal.

Drawings

FIG. 1 is a perspective view of the general assembly of the present utility model;

FIG. 2 is a perspective view of the screw mounting device of the present utility model;

FIG. 3 is a perspective view of the nut implanting device of the present utility model in a forward-placed state;

FIG. 4 is a perspective view showing the nut implanting device of the present utility model in an inverted state;

fig. 5 is a schematic view of a partial enlarged structure at a in fig. 3:

fig. 6 is a schematic view of a partially enlarged structure at B in fig. 3:

FIG. 7 is a perspective view of a pusher plate of the present utility model;

FIG. 8 is a perspective view of a limiting plate of the present utility model;

FIG. 9 is a perspective view of a slider of the present utility model;

1. the device is implanted to base, 2, shake charging tray, 3, nut, 4, go up screw device, 5, the walking wheel, 6, the assembly bench, 7, the supporting leg, 8, the base table, 9, the mount pad, 10, ejecting cylinder, 11, the layer board, 12, place the through-hole, 13, limiting plate, 14, vertical guide slot, 15, vertical conveying groove, 16, horizontal guide slot, 17, horizontal conveying groove, 18, slider, 19, accomodate the breach, 20, feed inlet, 21, first cylinder, 22, third cylinder, 23, second cylinder, 24, push pedal, 25, nut.

Detailed Description

In order to clearly illustrate the technical characteristics of the scheme, the scheme is explained below through a specific embodiment.

As shown in fig. 1-9, the utility model comprises a base 1, a nut implantation device 3, an upper screw device 4 and a vibration material tray 2 for placing a nut 25 are arranged on a panel of the base 1, and the vibration material tray 2 is of an existing structure.

As shown in fig. 3, the nut implanting device 3 includes an assembling table 6, the assembling table 6 is connected with a panel of the base 1 through supporting legs 7, a placing through hole 12 for embedding the base table 8 is provided in the middle of the assembling table 6, and an ejection mechanism for pushing the base table 8 out of the placing through hole 12 is provided below the placing through hole 12. The assembly table 6 is provided with a base gauge positioning mechanism and two groups of screw loading mechanisms, and the base gauge positioning mechanism is matched with one group of screw loading mechanisms.

As shown in fig. 5 and 6, each nut loading mechanism comprises a transverse conveying groove 17 arranged on the top surface of the assembly table 6 and a longitudinal conveying groove 15 perpendicular to and communicated with the transverse conveying groove 17, a sliding block 18 capable of sliding along the transverse conveying groove 17 is arranged in the transverse conveying groove 17, a storage notch 19 for accommodating a nut 25 is arranged on the sliding block 18, a feed inlet 20 corresponding to the storage notch 19 is arranged on the assembly table 6, the feed inlet 20 is connected with the vibration material tray 2, and the nut 25 conveyed by the vibration material tray 2 reaches the storage notch 19 through the feed inlet 20. A first drive mechanism for driving the movement of the slider 18 is provided on the mounting table 6. A push plate 24 for pushing the nut 25 in the receiving notch 19 to move along the longitudinal conveying groove 15 is provided in the longitudinal conveying groove 15, and a second driving mechanism for driving the push plate 24 to move is provided on the mounting table 6.

As shown in fig. 5, the base gauge positioning mechanism includes a limiting plate 13, an internal channel for moving the limiting plate 13 is provided in the assembly table 6, the internal channel is communicated with the placement through hole 12, and a third driving mechanism for driving the limiting plate 13 to tightly prop against the base gauge 8 is provided on the assembly table 6. The limiting plate 13 is provided with a transverse guide groove 16 and a longitudinal guide groove 14 which is perpendicular to and communicated with the transverse guide groove 16, and the longitudinal guide groove 14 is positioned below one of the longitudinal conveying grooves 15 and is communicated with the longitudinal conveying groove 15. When the limiting plate 13 is advanced into position, the transverse guide groove 16 is positioned below one of the transverse conveying grooves 17 and is communicated with the transverse conveying groove 17.

In this embodiment, the first driving mechanism is a first cylinder 21, a cylinder body of the first cylinder 21 is fixed with the assembly table 6, a push rod of the first cylinder 21 is fixed with the slide block 18, displacement of the slide block 18 is achieved under the driving of the first cylinder 21, and the storage notch 19 is opposite to the feed inlet 20 in the moving process of the slide block 18, so that the nut 25 enters the storage notch 19.

In this embodiment, the second driving mechanism is a second air cylinder 23, the cylinder body of the second air cylinder 23 is fixed with the assembly table 6, the push rod of the second air cylinder 23 is fixed with the push plate 24, displacement of the push plate 24 is realized under the driving of the second air cylinder 23, after the sliding block 18 advances in place, the accommodating notch 19 and the longitudinal conveying groove 15 are located on the same straight line, and at this time, the nut 25 at the accommodating notch 19 can be pushed forward and put into the watchcase by the moving push plate 24.

In this embodiment, the third driving mechanism is a third cylinder 22, a cylinder body of the third cylinder 22 is fixed with the assembly table 6, and a push rod of the third cylinder 22 is connected with the limiting plate 13. The limiting plate 13 moves along the internal channel and is propped against the base table 8 under the drive of the third air cylinder 22 to fix the base table 8.

In this embodiment, as shown in fig. 4, the ejection mechanism includes a mounting seat 9 connected to the assembly table 6, a cylinder body of an ejection cylinder 10 is fixed to the mounting seat 9, a push rod of the ejection cylinder 10 is connected to a supporting plate 11, and the base table 8 is placed on the supporting plate 11 and can be carried out of the placement through hole 12 by the supporting plate 11.

In this embodiment, the screwing device 4 is an air blowing type automatic screw machine, and the air blowing type automatic screw machine is of an existing structure, and screws can be implanted into the watch cover and screwing operation can be completed through the air blowing type automatic screw machine.

In this embodiment, in order to facilitate the equipment transfer, a travelling wheel 5 is installed at the bottom of the base 1, so as to facilitate the equipment movement.

When the nut positioning mechanism is specifically used, the base table 8 to be fixedly connected is placed in the placing through hole 12, the base table 8 is lifted by the supporting plate 11 of the ejection mechanism, and the matching action process of the base table positioning mechanism and one group of nut loading mechanisms is as follows: under the drive of the third driving mechanism, the limiting plate 13 moves along the internal channel and abuts against the base table 8 to fix the base table 8, at this time, the longitudinal guide groove 14 is located below one of the longitudinal conveying grooves 15 and is communicated with the longitudinal conveying groove 15, and the transverse guide groove 16 is located below one of the transverse conveying grooves 17 and is communicated with the transverse conveying groove 17. The nut 25 conveyed by the vibration material tray 2 reaches the storage notch 19 through the feed port 20, the sliding block 18 slides along the transverse conveying groove 17 under the drive of the first air cylinder 21, then the sliding block 18 enters the transverse guide groove 16, after the sliding block 18 advances in place, the storage notch 19 and the longitudinal conveying groove 15 are positioned on the same straight line, at the moment, the nut 25 at the storage notch 19 can be pushed forward along the longitudinal guide groove 14 and is put into the watchcase through the push plate 24 moving along the longitudinal conveying groove 15, and after the nut 25 is planted, the push plate 24 and the sliding block 18 are retracted to the original position successively. The other set of nuts 25 are loaded into the mechanism as follows: the nut 25 conveyed by the vibration material tray 2 reaches the accommodating notch 19 through the feed inlet 20, the sliding block 18 slides along the transverse conveying groove 17 under the drive of the first air cylinder 21, after the sliding block 18 advances in place, the accommodating notch 19 and the longitudinal conveying groove 15 are positioned on the same straight line, at the moment, the nut 25 at the accommodating notch 19 can be pushed forward and put into the watchcase through the push plate 24 moving along the longitudinal conveying groove 15, and after the nut 25 is planted, the push plate 24 and the sliding block 18 are retracted to the original position successively. After the two sets of nuts 25 are put into the mechanism and the nuts 25 are planted, the screws can be planted into the watch cover through the air blowing type automatic screw machine, and screwing operation is completed. After the assembly is completed, the limiting plate 13 returns to the original position, the supporting plate 11 of the ejection cylinder 10 ejects the base table 8 out of the placement through hole 12, and a worker takes down the base table 8 to complete the operation.

The utility model ensures that the installation of the nut 25, the installation of the screw and the screwing are all mechanical operations, thereby greatly improving the production efficiency and reducing the labor intensity of workers. At present, the technology has made products and is put into use in factories, and the use effect is very ideal.

Of course, the above description is not limited to the above examples, and the technical features of the present utility model that are not described may be implemented by or by using the prior art, which is not described herein again; the above examples and drawings are only for illustrating the technical scheme of the present utility model and not for limiting the same, and the present utility model has been described in detail with reference to the preferred embodiments, and it should be understood by those skilled in the art that changes, modifications, additions or substitutions made by those skilled in the art without departing from the spirit of the present utility model and the scope of the appended claims.

Claims (9)

1. Water gauge shell intelligence nut plants assembly quality, its characterized in that: the device comprises a base, wherein a nut implantation device, a screw mounting device and a vibration tray for placing nuts are arranged on a panel of the base; the nut implanting device comprises an assembling table, wherein the assembling table is connected with a panel of the base through supporting legs, a placing through hole for embedding the base meter is formed in the middle of the assembling table, and an ejection mechanism for pushing the base meter out of the placing through hole is arranged below the placing through hole; the assembly table is provided with a base table positioning mechanism and two groups of nut loading mechanisms, and the base table positioning mechanism is matched with one group of nut loading mechanisms.

2. The water meter housing intelligent nut planting assembly device of claim 1, wherein: each group of nut loading mechanisms comprises a transverse conveying groove and a longitudinal conveying groove, wherein the transverse conveying groove is arranged on the top surface of the assembly table, the longitudinal conveying groove is vertical to and communicated with the transverse conveying groove, a sliding block capable of sliding along the transverse conveying groove is arranged in the transverse conveying groove, a storage notch for accommodating nuts is formed in the sliding block, a feed inlet corresponding to the storage notch is formed in the assembly table, and the feed inlet is connected with the vibration material tray; the assembly table is provided with a first driving mechanism for driving the sliding block to move; the longitudinal conveying groove is internally provided with a push plate for pushing the nut in the accommodating notch to move along the longitudinal conveying groove, and the assembly table is provided with a second driving mechanism for driving the push plate to move.

3. The water meter housing intelligent nut planting assembly device of claim 2, wherein: the base meter positioning mechanism comprises a limiting plate, an internal channel for the limiting plate to move is arranged in the assembly table, the internal channel is communicated with the placing through hole, and a third driving mechanism for driving the limiting plate to tightly prop against the base meter is arranged on the assembly table; the limiting plate is provided with a transverse guide groove and a longitudinal guide groove which is vertical to and communicated with the transverse guide groove, and the longitudinal guide groove is positioned below one of the longitudinal conveying grooves and is communicated with the longitudinal conveying groove; when the limiting plate advances to the right position, the transverse guide groove is positioned below one of the transverse conveying grooves and communicated with the transverse conveying groove.

4. The water meter housing intelligent nut planting assembly device of claim 2, wherein: the first driving mechanism is a first air cylinder, the cylinder body of the first air cylinder is fixed with the assembly table, and the push rod of the first air cylinder is fixed with the sliding block.

5. The water meter housing intelligent nut planting assembly device of claim 2, wherein: the second driving mechanism is a second air cylinder, the cylinder body of the second air cylinder is fixed with the assembly table, and the push rod of the second air cylinder is fixed with the push plate.

6. A water meter housing intelligent nut planting assembly device as defined in claim 3, wherein: the third driving mechanism is a third air cylinder, the cylinder body of the third air cylinder is fixed with the assembly table, and the push rod of the third air cylinder is connected with the limiting plate.

7. The water meter housing intelligent nut planting assembly device of claim 1, wherein: the ejection mechanism comprises an installation seat connected with the assembly table, a cylinder body of the ejection cylinder is fixed with the installation seat, a push rod of the ejection cylinder is connected with the supporting plate, and the base table is placed on the supporting plate and can be carried by the supporting plate to move out of the placement through hole.

8. The water meter housing intelligent nut planting assembly device of claim 1, wherein: the screwing device is an air blowing type automatic screwing machine.

9. The water meter housing intelligent nut planting assembly device of claim 1, wherein: the bottom of the base is provided with a travelling wheel.