CN213024479U - Digital production efficiency management system - Google Patents

Abstract

The utility model relates to the technical field of production management, and discloses a digital production efficiency management system, which comprises an on-site monitoring module, a man-hour monitoring module, a production plan module, a data processing module and an on-site monitoring module; the monitoring system is used for monitoring the working condition of the site in real time and inputting the working condition to the data processing system for storage. A man-hour monitoring module; the system is used for recording the total working hours consumed in each working time period and inputting the total working hours into the data processing module for storage. A production planning module; the production plan in each working time period is made and stored in the data processing module. The data processing module calculates the production efficiency in the corresponding time period according to the production plan completed in each working time period and the data transmitted by the man-hour monitoring system, wherein the field monitoring module comprises monitoring cameras arranged at all stations in a workshop, and the man-hour monitoring system comprises a card punch. The utility model discloses the convenience monitors production efficiency, helps improving production efficiency.

Description

Digital production efficiency management system

Technical Field

The utility model relates to a production management technical field especially relates to digital production efficiency management system.

Background

At present, in the production work of an enterprise, the production efficiency is an important index for judging the production condition of the enterprise, the calculation mode of the production efficiency is that the task amount completed in a corresponding time period is divided by all the labor hours consumed for completing the task, and at the present stage, a system capable of intelligently managing the production efficiency does not exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a digital production efficiency management system to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the digital production efficiency management system comprises an on-site monitoring module, a man-hour monitoring module, a production plan module and a data processing module.

A field monitoring module; the monitoring system is used for monitoring the working condition of the site in real time and inputting the working condition to the data processing system for storage.

A man-hour monitoring module; the system is used for recording the total working hours consumed in each working time period and inputting the total working hours into the data processing module for storage.

A production planning module; the production plan in each working time period is made and stored in the data processing module.

The data processing module calculates the production efficiency in the corresponding time period according to the production plan completed in each working time period and the data transmitted by the man-hour monitoring system.

Further, the on-site monitoring module comprises monitoring cameras arranged at all stations in the workshop.

Further, the man-hour monitoring system comprises a card punching machine, wherein workers participating in production record the man-hours participating in the corresponding time period through the card punching machine, and the card punching machine is arranged in each process in production so as to record and store the man-hours consumed in each process.

Furthermore, the production planning system comprises a work planning board and a terminal device in signal connection with the work planning board, and the work tasks completed within the time period are manually recorded.

Furthermore, the data processing module comprises a workbench and a terminal management server arranged on the workbench, and the terminal management server is used for recording, analyzing and processing the data acquired by each module.

Further, still including patrolling and examining the module, patrol and examine the portable handheld terminal of module a plurality of, handheld terminal passes through bluetooth or WIFI communication with terminal management server and is connected, makes things convenient for the managers of enterprise to implement and looks over this production efficiency management system.

Further, handheld terminal includes the boxlike shell of rectangle, protection machanism is all installed to four corners of the length direction of shell, protection machanism includes fly leaf, dog, intermediate lamella, and the fly leaf is L type plate-like, establishes the slot in and, and two notch departments of slot all fix the stopper, and the intermediate lamella is equipped with two, and the slot both sides are inserted respectively to the one end of two intermediate lamellas, the fixed dog in the inner of intermediate lamella, the outer end of intermediate lamella is fixed with the end plate, and the part of end plate is located the side of shell, and the side that has the shell passes through positioning mechanism to be connected.

Furthermore, the positioning mechanism comprises a pin groove arranged on the shell, a return spring and an elastic pin arranged in the pin groove, the inner end of the elastic pin is connected with the return spring, the outer end of the elastic pin extends out of the pin groove, and a positioning groove matched with the outer end of the elastic pin is formed in the side surface of the end plate.

Furthermore, the inner ends of the two movable plates are connected through a middle spring, and the tail end of the end plate is provided with a round angle.

The utility model has the advantages that:

the utility model provides a production efficiency system can monitor the production condition in every time quantum, makes things convenient for managers real time monitoring.

The utility model provides a shell, four corners of shell all set up protection machanism, and protection machanism can protect its whole not receive the damage when the shell drops to easy to assemble dismantlement between fly leaf and intermediate lamella and the shell in the protection machanism, so that change after damaging.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a schematic diagram of the shell proof structure of the present invention;

FIG. 3 is a perspective view of the housing structure of the present invention;

fig. 4 is an enlarged view of fig. 2 a according to the present invention;

FIG. 5 is an enlarged view of the point B of FIG. 2

In the figure: the locking device comprises a shell 1, a movable plate 21, a stop 211, a middle plate 22, a slot 221, a limit block 222, an end plate 23, a middle spring 25, a round corner 231, a positioning groove 232, a positioning mechanism 3, an elastic pin 31, a pin groove 32 and a return spring 33.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the digital production efficiency management system includes an on-site monitoring module, a man-hour monitoring module, a production planning module, and a data processing module.

A field monitoring module; the monitoring system is used for monitoring the working condition of the site in real time and inputting the working condition to the data processing system for storage.

A man-hour monitoring module; the system is used for recording the total working hours consumed in each working time period and inputting the total working hours into the data processing module for storage.

A production planning module; the production plan in each working time period is made and stored in the data processing module.

The data processing module calculates the production efficiency in the corresponding time period according to the production plan completed in each working time period and the data transmitted by the man-hour monitoring system.

Further, the on-site monitoring module comprises monitoring cameras arranged at all stations in the workshop.

Further, the man-hour monitoring system comprises a card punching machine, wherein workers participating in production record the man-hours participating in the corresponding time period through the card punching machine, and the card punching machine is arranged in each process in production so as to record and store the man-hours consumed in each process.

Furthermore, the production planning system comprises a work planning board and a terminal device in signal connection with the work planning board, and the work tasks completed within the time period are manually recorded.

Furthermore, the data processing module comprises a workbench and a terminal management server arranged on the workbench, and the terminal management server is used for recording, analyzing and processing the data acquired by each module.

Further, still including patrolling and examining the module, patrol and examine the portable handheld terminal of module a plurality of, handheld terminal passes through bluetooth or WIFI communication with terminal management server and is connected, makes things convenient for the managers of enterprise to implement and looks over this production efficiency management system.

Referring to fig. 2-5, further, the handheld terminal includes a rectangular box-shaped housing 1, a protection mechanism is installed at four corners of the housing 1 in the length direction, the protection mechanism includes a movable plate 21, a stopper 211 and an intermediate plate 22, the movable plate 21 is in an L-shaped plate shape and is provided with a slot 221 inside, two slot openings of the slot 221 are fixed with a stopper 222, the intermediate plate 22 is provided with two blocks, one end of each of the two intermediate plates 22 is inserted into two sides of the slot 221, the stopper 211 is fixed at the inner end of the intermediate plate 22, an end plate 23 is fixed at the outer end of the intermediate plate 22, and the end plate 23 is located on the side surface of the housing 1 and is connected with the side surface of the housing 1 through a positioning mechanism 3.

Furthermore, the positioning mechanism includes a pin slot 32 formed on the housing 1, a return spring 33 and an elastic pin 31 disposed in the pin slot 32, an inner end of the elastic pin 31 is connected to the return spring 33, an outer end of the elastic pin 31 extends out of the pin slot 32, and a positioning slot 232 matched with the outer end of the elastic pin 31 is formed in a side surface of the end plate 23.

Further, the inner ends of the two movable plates 21 are connected by an intermediate spring 25, and the end of the end plate 23 has a rounded corner 231.

The shell 1 that this scheme provided, four corners of shell 1 all set up protection machanism, and protection machanism can protect its whole not receive the damage when the shell drops to easy to assemble dismantlement between fly leaf 21 in the protection machanism and intermediate lamella and the shell, so that damage the back and change.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Digital production efficiency management system, its characterized in that: the system comprises an on-site monitoring module, a man-hour monitoring module, a production planning module and a data processing module;

a field monitoring module; the system is used for monitoring the field working condition in real time and inputting the field working condition to the data processing system for storage;

a man-hour monitoring module; the system is used for recording the total working hours consumed in each working time period and inputting the total working hours into the data processing module for storage;

a production planning module; the system is used for making a production plan in each working time period and storing the production plan in the data processing module;

the data processing module calculates the production efficiency in the corresponding time period according to the production plan completed in each working time period and the data transmitted by the man-hour monitoring system.

2. The digital production efficiency management system according to claim 1, wherein: the on-site monitoring module comprises monitoring cameras arranged at all stations in a workshop.

3. The digital production efficiency management system according to claim 1, wherein: the man-hour monitoring system comprises a card punching machine, wherein workers participating in production record the man hours participating in the corresponding time period through the card punching machine, and the card punching machine is arranged in each process in production so as to record and store the man hours consumed in each process.

4. The digital production efficiency management system according to claim 1, wherein: the production planning system comprises a work planning board and a terminal device in signal connection with the work planning board, and the work tasks completed in a time period are manually recorded.

5. The digital production efficiency management system according to claim 1, wherein: the data processing module comprises a workbench and a terminal management server arranged on the workbench, and the terminal management server is used for recording, analyzing and processing the data acquired by each module.

6. The digital production efficiency management system according to claim 5, wherein: still including patrolling and examining the module, patrol and examine the portable handheld terminal of module a plurality of, handheld terminal passes through bluetooth or WIFI communication with terminal management server and is connected, makes things convenient for the administrator of enterprise to implement and looks over this production efficiency management system.

7. The digital production efficiency management system according to claim 6, wherein: handheld terminal includes box-like shell (1) of rectangle, safeguard mechanism is all installed to four corners of the length direction of shell (1), safeguard mechanism includes fly leaf (21), dog (211), intermediate lamella (22), and fly leaf (21) are L type plate-like, establishes slot (221) in and, and two notch departments of slot (221) all fix stopper (222), and intermediate lamella (22) are equipped with two, and slot (221) both sides are inserted respectively to the one end of two intermediate lamellas (22), and the inner fixed dog (211) of intermediate lamella (22), the outer end of intermediate lamella (22) is fixed with end plate (23), and the part of end plate (23) is located the side of shell (1) and has the side of shell (1) to pass through positioning mechanism (3) and connect.

8. The digital production efficiency management system according to claim 7, wherein: the positioning mechanism comprises a pin groove (32) formed in the shell (1), a return spring (33) and an elastic pin (31) which are arranged in the pin groove (32), the inner end of the elastic pin (31) is connected with the return spring (33), the outer end of the elastic pin (31) extends out of the pin groove (32), and a positioning groove (232) matched with the outer end of the elastic pin (31) is formed in the side surface of the end plate (23).

9. The digital production efficiency management system according to claim 7, wherein: the inner ends of the two movable plates (21) are connected through a middle spring (25), and the tail end of the end plate (23) is provided with a round angle (231).

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