CN219264457U - Workshop partition monitoring layout structure - Google Patents

Abstract

The utility model relates to a partition monitoring layout structure of a production workshop, wherein the inner side of an outer wall of the production workshop is divided into a purifying area and a non-purifying area through a purifying isolation wall body, a monitoring table, a purifying end of purifying equipment and a main production machine body are arranged in the purifying area, a controller is arranged in the non-purifying area and is connected with a power source of a feeding auger through a wire, the power end of the feeding auger is arranged in the non-purifying area, a discharge port of the feeding auger is positioned above the main machine body in the purifying area, a power input end of the main machine body is arranged at the outer side of the outer wall of the production workshop, a discharge end of the main machine body is arranged at the outer side of the outer wall of the workshop, a feeding monitor and a discharge power monitor are respectively arranged at one side of the power end and the power input end, and the discharge power monitor are electrically connected with the monitoring table through wires; the space utilization rate of the purification workshop is greatly improved, the external heat dissipation, dust fall and noise reduction space and the non-purification adjacent treatment operation space are isolated, the pollution rate of the purification workshop is reduced, the purification efficiency is improved, and the energy consumption is saved.

Description

Workshop partition monitoring layout structure

Technical Field

The utility model relates to the field of workshop layout, in particular to a workshop partition monitoring layout structure.

Background

The purifying workshop has the characteristics of beautiful appearance, strong rigidity, good heat preservation performance and easy construction. The arc corner, door, window frame, etc. are made of special alumina section, and the ground may be epoxy self-flowing terrace or high-grade wear-resisting plastic floor. The air supply and return pipeline is made of a hot zinc-plated plate, a stainless steel frame for an efficient air supply outlet of a flame-retardant PF foaming plastic plate with good purification and heat preservation effects is attached, the air supply and return pipeline is attractive and clean, and a baking varnish aluminum plate for a punched screen plate is used. The principle of the purification workshop is as follows: the purification method comprises the steps of air flow, primary purification, humidification, heating, surface cooling, intermediate purification, fan air supply, pipeline, high-efficiency air port purification, room blowing, dust and bacteria particle removal, return air shutter, primary purification and the like. The purification mode of the purification workshop is as follows: adsorptive filtration, mechanical filtration, or electrostatic purification.

For the demand that promotes production quality and safety protection in traditional workshop, need set up the purification workshop in the workshop, traditional purification workshop setting mode is with production facility, switch board, the big equipment device that generates heat, loading attachment, the control cabinet, ejection of compact receiving device, additive material and equipment etc. all set up in the purification workshop, set up like this and need implement the overall arrangement in great space to the purification workshop, simultaneously, the equipment that generates heat and some equipment that cause dust pollution easily all in the purification workshop, implement the in-process of purifying the operation at the purification workshop, just need implement great power and purify, result in work and operating efficiency reduction, whole energy consumption is great. However, some devices must be operated and controlled in close proximity to the decontamination plant, and even require real-time monitoring of the device, if located at remote distances, which is detrimental to the operation of the production process. This disadvantage has always limited the spatial structural layout of the production plant.

Therefore, the production workshop partition monitoring layout structure has the advantages of simple structure, convenience in operation, high working and running efficiency, space saving, reduction in the area of a purification workshop, high overall longitudinal space utilization rate, convenience in monitoring and management, reasonable structural layout, energy saving, less energy consumption, and wide market prospect.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the production workshop partition monitoring layout structure which has the advantages of simple structure, convenient operation, high working and running efficiency, space saving, reduction of the area of a purification workshop, high utilization rate of the whole longitudinal space, convenient monitoring and management, reasonable structural layout, energy saving, less energy consumption, and branch office layout and control, and is used for overcoming the defects in the prior art.

The technical scheme of the utility model is realized as follows: the utility model provides a workshop subregion control overall arrangement structure, includes the workshop outer wall, the workshop outer wall inboard divide into purification zone and non-purification zone through purifying the isolation wall body, be provided with the monitor post in purification zone, purification equipment purifies end and production host computer body, install the controller in non-purification zone, the controller is connected with the power supply of pay-off auger through the wire, the power end setting of pay-off auger is in non-purification zone, the discharge gate of pay-off auger is located the host computer body top in the purification zone, the power input end setting of host computer body is in the outside of workshop outer wall, the discharge end setting of host computer body is in the outside of workshop outer wall, one side at power end and power input end is provided with pay-off monitor and ejection of compact power monitor respectively, pay-off monitor and ejection of compact power monitor pass through wire and monitor post electric connection.

The side corner position of one side of the outer wall of the production workshop is provided with an opening and closing door, a feeding transportation station guiding layer is arranged on the bottom surface of the non-purifying area corresponding to the opening and closing door, the feeding transportation station guiding layer is positioned above the ground of the non-purifying area between the power end and the outer wall of the production workshop, and the feeding transportation station guiding layer is deeply arranged from the opening and closing door position to the outer wall position of the production workshop corresponding to the opening and closing door.

The purification area be rectangle structure, the area in purification area is implemented according to the quantity and the area of host computer body and is divided, purifies isolation wall body and is linear type, L font or N font structure, purifies the inner wall fixed connection of isolation wall body's both ends and workshop outer wall, all is provided with at the upper portion and the lower part of purifying isolation wall body and keeps apart fixed plywood.

The purifying and isolating wall body on set up the auger mounting hole that is used for installing and fixed pay-off auger outer wall, auger mounting hole one side is provided with the airtight door that opens and shuts in purifying workshop, installs non-purifying area observation window on the purifying and isolating wall body of auger mounting hole top.

One side of the discharging end is provided with a purifying generating device connected with the purifying end of the purifying device, one side of the purifying generating device is provided with an electric control cabinet connected with the monitoring table, the discharge port of the feeding auger is communicated with the feed port arranged on the main machine body through a sealing connection cover.

The purification area is characterized in that a discharge end mounting hole for sleeving a discharge end is formed in the outer wall of the production workshop adjacent to the inner side of the purification area, and a purification area observation window is arranged above the discharge end mounting hole.

The discharging power monitor is arranged on the side face or the upper side of the power end, the feeding monitor is arranged on one side or the upper side of the power input end, the controller is arranged at the crossing corner position of the outer wall of the purifying isolation wall body in the non-purifying area and the inner wall of the outer wall of the production workshop, the pumping purifying fan is arranged on the outer wall of the production workshop adjacent to the non-purifying area, and the non-purifying area monitoring camera and the external monitoring camera are respectively arranged on the feeding monitor and the discharging power monitor.

The utility model has the following positive effects: according to the utility model, through simple and reasonable layout, the large heating equipment, the discharging dust generating end and the power generating end are arranged outside the purification workshop and the production workshop, meanwhile, the electric control cabinet body equipment, the feeding power end and the monitoring platform are arranged in a non-purification area in the production workshop, and the production host is arranged in the purification area, so that reasonable space layout according to factors such as equipment heating, dust raising and high noise is realized, the construction area of the purification workshop is reduced as much as possible on the premise of meeting the use requirement, the space utilization rate of the purification workshop is greatly improved, the external heat dissipation, dust reduction and noise reduction space and the non-purification adjacent treatment operation space are isolated, the pollution rate of the purification workshop is reduced, the purification efficiency is improved, and the energy consumption is saved. More importantly, in a clean shop, equipment arranged in a non-clean area and an external area can be monitored by naked eyes and monitor equipment so as to master the running condition of all the equipment in real time.

Drawings

Fig. 1 is a schematic top view of the present utility model.

FIG. 2 is a second schematic top view of the present utility model.

FIG. 3 is a third schematic top view of the present utility model.

FIG. 4 is a top view of the present utility model.

FIG. 5 is a schematic side view of the exterior of the decontamination area of the present utility model.

FIG. 6 is a schematic view of the external side structure of the purifying and isolating wall body of the present utility model.

FIG. 7 is a schematic side view of the exterior of the non-decontaminated areas of the present utility model.

Detailed Description

As shown in fig. 1, 2, 3, 4, 5, 6 and 7, a workshop partition monitoring layout structure comprises a workshop outer wall 1, the inner side of the workshop outer wall 1 is divided into a purifying area 4 and a non-purifying area 2 through a purifying isolation wall 3, a monitoring table 19, a purifying end 18 of purifying equipment and a production host body 14 are arranged in the purifying area 4, a controller 8 is arranged in the non-purifying area 2, the controller 8 is connected with a power source of a feeding auger 13 through a wire, a power end 9 of the feeding auger 13 is arranged in the non-purifying area 2, a discharge port of the feeding auger 13 is positioned above a host body 14 in the purifying area 4, a power input end 16 of the host body 14 is arranged on the outer side of the workshop outer wall 1, a discharge monitor 10 and a discharge power monitor 22 are respectively arranged on one side of the power end 9 and one side of the power input end 16, and the feeding monitor 10 and the discharge power monitor 22 are electrically connected with the monitoring table 19 through wires.

The side corner position of one side of the outer wall 1 of the production workshop is provided with an opening and closing door 7, a feeding transportation station guiding layer 5 is arranged on the bottom surface of the non-purifying area 2 corresponding to the opening and closing door 7, the feeding transportation station guiding layer 5 is positioned above the ground of the non-purifying area 2 between the power end 9 and the outer wall 1 of the production workshop, and the feeding transportation station guiding layer 5 is deeply arranged from the position of the opening and closing door 7 to the position of the outer wall 1 of the production workshop corresponding to the opening and closing door 7. The purification area 4 be rectangle structure, the area of purification area 4 is implemented according to the quantity and the area of host computer body 14 and is divided, purifies isolation wall body 3 and is linear type, L font or N font structure, purifies the both ends of isolation wall body 3 and the inner wall fixed connection of workshop outer wall 1, all is provided with at the upper portion and the lower part of purification isolation wall body 3 and keeps apart fixed plywood 27. The purifying and isolating wall body 3 is provided with an auger mounting hole 28 for mounting and fixing the outer wall of the feeding auger 13, one side of the auger mounting hole 28 is provided with a purifying workshop airtight opening and closing door 26, and a non-purifying area observation window 29 is mounted on the purifying and isolating wall body 3 above the auger mounting hole 28.

One side of the discharging end 15 is provided with a purifying generating device 20 connected with a purifying end 18 of the purifying device, one side of the purifying generating device 20 is provided with an electric control cabinet 21 connected with a monitoring table 19, and a discharging port of the feeding auger 13 is communicated with a feeding port arranged on the host body 14 through a sealing connection cover. The purification area 4 is provided with a discharge end mounting hole 24 for sleeving the discharge end 15 on the adjacent production workshop outer wall 1, and a purification area observation window 25 is arranged above the discharge end mounting hole 24. The feeding monitor 10 is arranged on the side face or the upper side of the power end 9, the discharging power monitor 22 is arranged on the side face or the upper side of the power input end 16, the controller 8 is arranged at the crossing corner position of the outer wall of the purification isolation wall body 3 in the non-purification area 2 and the inner wall of the outer wall 1 of the production workshop, the suction purification fan 6 is arranged on the outer wall 1 of the production workshop adjacent to the non-purification area 2, and the non-purification area monitoring cameras 11 and the external monitoring cameras 23 are respectively arranged on the feeding monitor 10 and the discharging power monitor 22.

When the feeding device is used, external materials are transferred to the position of the feeding transportation station guide layer 5 through transfer equipment, then the feeding port of the feeding auger 13 is subjected to real-time manual or mechanical feeding operation, and the upper part of the feeding port of the feeding auger can be communicated with the outlet position of automatic feeding or discharging equipment, so that feeding operation is realized. The purification isolation wall body 3 is arranged according to the actual demand area on the premise of ensuring the installation space of the host body 14, and the area of the purification isolation wall body 3 is reduced as much as possible during construction, so that the energy consumption is reduced in the later-stage real-time purification process.

The monitoring table 19, the purifying equipment purifying end 18 and the production host body 14 are arranged in the purifying area 4, the heat productivity of the equipment is relatively small, the actual operation of purifying and temperature control operation cannot be affected, the monitoring table 19 is arranged in a purifying workshop, the operation of monitoring and controlling all relevant equipment participating in production is monitored and controlled in real time, meanwhile, the real-time video monitoring and controlling operation of the equipment arranged outside the purifying area 4 are carried out through videos, the monitoring table 19 is used for controlling the feeding monitor 10 and the discharging power monitor 22 in real time, the opening of the power end 9 and the opening and closing of the external power input end 16 are realized, meanwhile, the monitoring table 19 is used for monitoring the external equipment in real time through the non-purifying area monitoring camera 11 and the external monitoring camera 23, the operation condition of the external equipment is mastered, the use of the purifying area observation window 25 and the non-purifying area observation window 29 is matched, the operation of the whole workshop is realized at a glance inside and outside, the operation of the post production operation is convenient, the small-area construction of the purifying workshop is guaranteed, and meanwhile, the energy conservation and environmental protection are realized, and the operation is efficient and convenient.

Claims (7)

1. The utility model provides a workshop subregion control overall arrangement structure, includes workshop outer wall (1), its characterized in that: the utility model provides a workshop outer wall (1) inboard divide into purification zone (4) and non-purification zone (2) through purifying isolation wall (3), be provided with monitor platform (19) in purification zone (4), purification equipment purification end (18) and production host computer body (14), install controller (8) in non-purification zone (2), controller (8) are connected with the power supply of pay-off auger (13) through the wire, power end (9) of pay-off auger (13) set up in non-purification zone (2), the discharge gate of pay-off auger (13) is located host computer body (14) top in purification zone (4), power input end (16) of host computer body (14) set up in the outside of workshop outer wall (1), the discharge end (15) of host computer body (14) set up in the outside of workshop outer wall (1), one side at power end (9) and power input end (16) is provided with pay-off power monitor (10) and ejection of compact power monitor (22) respectively, pay-off monitor (10) and ejection of compact power monitor (22) pass through wire and monitor platform (19) electric connection.

2. The manufacturing floor area monitoring layout structure of claim 1, wherein: the utility model provides a workshop outer wall (1) one side corner position be provided with door (7) that opens and shuts, be provided with feeding transportation station guiding layer (5) on non-clean area (2) bottom surface corresponding with door (7) that opens and shuts, feeding transportation station guiding layer (5) are located non-clean area (2) ground top between power end (9) and workshop outer wall (1), feeding transportation station guiding layer (5) are from door (7) position deepening of opening and shutting set up to the workshop outer wall (1) position that corresponds with door (7) that opens and shuts.

3. The manufacturing floor area monitoring layout structure of claim 1, wherein: the purification area (4) be rectangle structure, the area of purification area (4) is implemented according to the quantity and the area of host computer body (14) and is divided, purifies isolation wall body (3) and is linear type, L font or N font structure, purifies the both ends of isolation wall body (3) and the inner wall fixed connection of workshop outer wall (1), all is provided with at the upper portion and the lower part of purification isolation wall body (3) and keeps apart fixed plywood (27).

4. The manufacturing floor area monitoring layout structure of claim 1, wherein: the purifying and isolating wall body (3) is provided with an auger mounting hole (28) for mounting and fixing the outer wall of the feeding auger (13), one side of the auger mounting hole (28) is provided with a purifying workshop airtight opening and closing door (26), and a non-purifying area observation window (29) is mounted on the purifying and isolating wall body (3) above the auger mounting hole (28).

5. The manufacturing floor area monitoring layout structure of claim 1, wherein: one side of the discharging end (15) is provided with a purifying generating device (20) connected with a purifying end (18) of the purifying device, one side of the purifying generating device (20) is provided with an electric control cabinet (21) connected with a monitoring table (19), and a discharging hole of the feeding auger (13) is communicated with a feeding hole arranged on the host body (14) through a sealing connection cover.

6. The manufacturing floor area monitoring layout structure of claim 1, wherein: the purification device is characterized in that a discharge end mounting hole (24) for sleeving a discharge end (15) is formed in an outer wall (1) of a production workshop adjacent to the inner side of the purification area (4), and a purification area observation window (25) is arranged above the discharge end mounting hole (24).

7. The manufacturing floor area monitoring layout structure of claim 1, wherein: the feeding monitor (10) is arranged on the side face or the upper side of the power end (9), the discharging power monitor (22) is arranged on one side or the upper side of the power input end (16), the controller (8) is arranged at the crossing corner position of the outer wall of the purifying isolation wall body (3) in the non-purifying area (2) and the inner wall of the production workshop outer wall (1), the pumping purifying fan (6) is arranged on the production workshop outer wall (1) adjacent to the non-purifying area (2), and the non-purifying area monitoring camera (11) and the external monitoring camera (23) are respectively arranged on the feeding monitor (10) and the discharging power monitor (22).

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