A visual process scheduling interactive terminal for urgent order insertion

By introducing a pogo pin contact module and a self-locking wedge lock head design into the industrial scheduling interactive terminal, the problem of low maintenance efficiency of traditional motherboard modules has been solved, achieving a second-level improvement in disassembly and assembly efficiency, simplifying the operation process, and improving equipment availability.

CN224439373UActive Publication Date: 2026-06-30XIANYANG SHENGYI MASCH MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIANYANG SHENGYI MASCH MFG CO LTD
Filing Date
2025-07-29
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Traditional industrial scheduling interactive terminal equipment suffers from low efficiency in upgrading and maintaining motherboard modules. Screw fixing requires tools for disassembly and is prone to damage. Connector insertion and removal require high precision and are prone to pin damage. There is a lack of modular interface solutions that allow for second-level disassembly and assembly, self-locking, and tool-free operation.

Method used

It adopts a pogo pin contact module and a self-locking wedge lock head design. The main board module is automatically ejected by the pre-charge of the top pressure spring, and the wedge lock head is self-aligned and inserted for quick installation. Rotating the unlock button triggers the wedge lock head to disengage for quick disassembly. The pogo pin contact module is combined to achieve electrical connection.

Benefits of technology

It achieves a more than 5-fold increase in the efficiency of motherboard module disassembly and assembly within seconds, simplifies the maintenance process, and improves equipment availability and maintenance efficiency.

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Abstract

This utility model discloses a visual process scheduling interactive terminal for emergency order insertion, including a main body. A main display screen and a secondary display screen are located on the top surface of the main body. A protective cover is also provided above the top of the main body. A heat dissipation cavity is located below the main display screen. The left and right sides of the heat dissipation cavity are connected to the outside. Dustproof nets are provided at the openings on the left and right sides of the heat dissipation cavity. A heat-dissipating fan is located on the left side of the heat dissipation cavity near the dustproof net. A motherboard mounting slot with an opening to the left is located on the lower side of the heat dissipation cavity. An embedded groove is provided in the right wall of the motherboard mounting slot. The embedded groove contains a pressure spring and a symmetrically arranged pogo pin contact module. This device is a scheduling interactive terminal that allows for quick assembly and disassembly and is easy to upgrade.
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Description

Technical Field

[0001] This utility model relates to the field of production scheduling interactive terminal technology, specifically a visual process scheduling interactive terminal for urgent order insertion. Background Technology

[0002] In industrial production scheduling interactive terminal equipment, the efficiency of motherboard module upgrades and maintenance directly affects equipment availability. Traditional solutions mainly rely on screw fixing or pluggable connectors: screw fixing requires tools for disassembly, and the average time for disassembly and assembly of a single module is >2 minutes, and repeated operations can easily lead to stripped threads; although conventional pluggable connectors eliminate screws, they have drawbacks such as stringent requirements for mating accuracy (tolerance <±0.1mm), difficulty in manual alignment, and easy damage to pins. The industry urgently needs an innovative modular interface solution that integrates the three major characteristics of second-level disassembly and assembly, self-locking, and tool-free operation to overcome the dual bottlenecks of maintenance efficiency and reliability. Utility Model Content

[0003] The purpose of this invention is to provide a visual process scheduling interactive terminal for urgent order insertion, in order to overcome the above-mentioned defects in the prior art.

[0004] According to this utility model, a visual process scheduling interactive terminal for emergency order insertion includes a main body. A main display screen and a secondary display screen are located on the top surface of the main body. A protective cover is also provided above the top of the main body. A heat dissipation cavity is located below the main display screen. The left and right sides of the heat dissipation cavity are connected to the outside environment. Dustproof nets are provided at the openings on both sides of the heat dissipation cavity. A heat-dissipating fan is located on the left side of the heat dissipation cavity near the dustproof net. A motherboard mounting slot with an opening facing left is located on the lower side of the heat dissipation cavity. An embedded groove is provided in the right wall of the motherboard mounting slot. A top-pressure spring and symmetrically arranged pogo pieces are located within the embedded groove. The pin contact module includes a motherboard housing connected to the motherboard mounting slot via a transition fit. The motherboard housing has symmetrically arranged slots on its front and rear end faces. The motherboard mounting slot has symmetrically arranged inner sliding cavities on its front and rear sides. A movable block is slidably connected within each inner sliding cavity. A pressure spring is connected to the movable block on the side away from the motherboard mounting slot. A wedge-shaped locking head, extending into the motherboard mounting slot, is fixed to the side of the movable block closest to the motherboard mounting slot. The lower side of the motherboard mounting slot has an inner cavity. L-shaped slideways are symmetrically connected on the left and right sides of the inner cavity. The left L-shaped slideway is located away from the inner cavity. One side of the cavity is connected to the inner sliding cavity on the left, and the side of the L-shaped slide rail on the right away from the inner cavity is connected to the inner sliding cavity on the right. An L-shaped slide rod is slidably connected in the L-shaped slide rail. One end of the L-shaped slide rod extends into the inner cavity, and the other end extends into the inner sliding cavity and is fixedly connected to the movable block. An elliptical cam is provided in the inner cavity. A rotating rod is rotatably connected in the bottom wall of the inner cavity. The top of the rotating rod is fixedly connected to the elliptical cam, and the bottom of the rotating rod extends out of the bottom of the main body and is fixedly provided with a rotary knob. A torsion spring is also sleeved on the rotating rod.

[0005] In a further technical solution, the secondary display screen is provided with a first display area for displaying the emergency order queue, a second display area for displaying the equipment occupancy status, and a third display area for displaying a countdown warning.

[0006] A further technical solution is provided, wherein the protective cover is provided with anti-fouling transparent glass, the bottom of the protective cover is provided with a first magnet, the top end face of the main body is provided with a second magnet for adsorption and connection with the first magnet, and the protective cover is provided with corrugated anti-slip grooves at the perimeter.

[0007] In a further technical solution, a plurality of equally spaced heat dissipation holes are provided between the motherboard mounting slot and the heat dissipation cavity, a heat conduction plate is provided between the heat dissipation cavity and the main display screen, and a plurality of equally spaced heat dissipation fins are provided below the heat conduction plate.

[0008] In a further technical solution, one end of the torsion spring is fixedly connected to the rotating rod, and the other end is fixedly connected to the bottom wall of the inner cavity.

[0009] In a further technical solution, the rear end face of the main body is provided with a first button for controlling emergency order insertion, a second button for controlling pause, and a third button for calling human-machine assistance.

[0010] In a further technical solution, the main display screen, the secondary display screen, the cooling fan, the first button, the second button, and the third button are all electrically connected to the pogo pin contact module, and the pogo pin contact module is electrically connected to an external power source.

[0011] A further technical solution is that the right side of the motherboard enclosure is provided with an electrical connection module for connecting with the pogo pin contact module.

[0012] The beneficial effects of this utility model are as follows: through the pre-charge design of the top pressure spring, the motherboard module automatically pops out upon unlocking; when inserted, the slot and the lock head are self-aligned, and the top pressure spring drives the wedge lock to automatically engage, realizing "plug and lock" installation without adjustment, which improves the disassembly and assembly efficiency by more than 5 times compared with the screw fixing solution; rotating the unlock button triggers the elliptical cam, the wedge lock head instantly disengages from the slot, and the top pressure spring automatically pops out of the motherboard box, improving the disassembly efficiency. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the overall structure of a visual process scheduling interactive terminal for emergency order insertion in this utility model;

[0014] Figure 2 This is a utility model Figure 1 Sectional view of AA;

[0015] Figure 3 This is a utility model Figure 2 Sectional view of CC;

[0016] Figure 4 This is a schematic diagram of the structure of the protective cover in this utility model;

[0017] Figure 5 This is a utility model Figure 2 Sectional view of BB;

[0018] Figure 6 This is a utility model Figure 5 A sectional view of DD. Detailed Implementation

[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0020] In the description of this utility model, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0021] Reference Figure 1-6According to an embodiment of this utility model, a visual process scheduling interactive terminal for emergency order insertion includes a main body 1. A main display screen 7 and a secondary display screen 19 are provided on the top surface of the main body 1. A protective cover 8 is also provided above the top of the main body 1. A heat dissipation cavity 4 is provided below the main display screen 7. The left and right sides of the heat dissipation cavity 4 are connected to the outside. Dustproof nets 29 are provided at the openings on the left and right sides of the heat dissipation cavity 4. A heat-dissipating fan 30 is provided on the left side of the heat dissipation cavity 4 near the dustproof net 29. A motherboard mounting slot 18 with an opening to the left is provided on the lower side of the heat dissipation cavity 4. An embedded groove 2 is provided in the right wall of the motherboard mounting slot 18. A top pressure spring 10 and a pogo pin contact module 11 symmetrically arranged front and back are provided in the embedded groove 2. Through pogo pins... The spring probes within the pin contact module 11 physically contact and conduct, eliminating the need for traditional soldering or wiring harness insertion. This also addresses the pain point of frequent equipment upgrades on production lines. A motherboard housing 3 is seamlessly connected within the motherboard mounting slot 18. The front and rear end faces of the motherboard housing 3 are symmetrically provided with slots 27. The front and rear sides of the motherboard mounting slot 18 are symmetrically provided with inner sliding cavities 24. A movable block 25 is slidably connected within the inner sliding cavity 24. A pressure spring 26 is press-fitted onto the side of the movable block 25 away from the motherboard mounting slot 18. A wedge-shaped locking head 37, extending into the motherboard mounting slot 18, is fixed to the side of the movable block 25 closest to the motherboard mounting slot 18. An inner cavity 31 is located on the lower side of the motherboard mounting slot 18. L-shaped... The left-side L-shaped slide 28 is connected to the left-side inner slide cavity 24 on the side away from the inner cavity 31, and the right-side L-shaped slide 28 is connected to the right-side inner slide cavity 24 on the side away from the inner cavity 31. An L-shaped slide rod 36 is slidably connected inside the L-shaped slide 28. One end of the L-shaped slide rod 36 extends into the inner cavity 31, and the other end extends into the inner slide cavity 24 and is fixedly connected to the movable block 25. An elliptical cam 32 is provided inside the inner cavity 31. A rotating rod 33 is rotatably connected inside the bottom wall of the inner cavity 31. The top of the rotating rod 33 is fixedly connected to the elliptical cam 32, and the bottom of the rotating rod 33 extends out of the bottom of the main body 1 and is fixedly provided with a rotary knob 35. A torsion spring 34 is also sleeved on the rotating rod 33.

[0022] Beneficially or exemplaryly, the secondary display screen 19 includes a first display area 20 for displaying the emergency order queue, a second display area 21 for displaying the device occupancy status, and a third display area 22 for displaying a countdown warning. The main display screen 7 is used for focused interaction, and the secondary display screen 19 is used to provide key information.

[0023] Advantageously or exemplary, the protective cover 8 is provided with anti-fouling transparent glass 9, the bottom of the protective cover 8 is provided with a first magnet 16, the top end face of the main body 1 is provided with a second magnet 15 for adsorption and connection with the first magnet 16, and the protective cover 8 is provided with corrugated anti-slip grooves 17 around its perimeter, thereby facilitating removal and installation during cleaning.

[0024] Advantageously or exemplaryly, a plurality of equidistantly arranged heat dissipation holes 6 are provided between the motherboard mounting slot 18 and the heat dissipation cavity 4, and a heat conduction plate 5 is provided between the heat dissipation cavity 4 and the main display screen 7. A plurality of equidistantly arranged heat dissipation fins 38 are provided below the heat conduction plate 5, thereby achieving rapid heat conduction and rapid exhaust through the heat dissipation fan 30.

[0025] Advantageously or exemplary, one end of the torsion spring 34 is fixedly connected to the rotating rod 33, and the other end is fixedly connected to the bottom wall of the inner cavity 31.

[0026] Advantageously or exemplary, the rear end face of the main body 1 is provided with a first button 12 for controlling emergency order insertion, a second button 13 for controlling pause, and a third button 14 for calling human-machine assistance.

[0027] Advantageously or exemplaryly, the main display screen 7, the secondary display screen 19, the cooling fan 30, the first button 12, the second button 13, and the third button 14 are all electrically connected to the pogo pin contact module 11, and the pogo pin contact module 11 is electrically connected to an external power source.

[0028] Advantageously or exemplary, the right side of the motherboard housing 3 is provided with an electrical connection module 42 for cooperating with the pogo pin contact module 11.

[0029] During installation: the motherboard housing 3 is inserted into the motherboard mounting slot 18, so that the right end face of the motherboard housing 3 elastically abuts against the top pressure spring 10. At this time, the top pressure spring 10 is in a charged state. At the same time, the spring probe in the electrical connection module 42 and the pogo pin contact module 11 is in an elastic abutting state. At this time, the slot 27 is located opposite to the wedge lock head 37. Due to the top pressure of the top pressure spring 26 on the movable block 25, the wedge lock head 37 extends into the slot 27 to restrict the movement of the motherboard housing 3, thereby achieving a stable lock of the motherboard housing 3. At the same time, the elliptical cam 32 is subjected to the elastic force of the torsion spring 34, which moves the outer contour of the elliptical cam 32 away from the center away from the L-shaped slide bar 36. In addition, the L-shaped slide bar 36 is in an abutting state with the outer contour near the center of the elliptical cam 32.

[0030] When the motherboard enclosure 3 needs to be upgraded, by turning the knob 35, the elliptical cam 32 and the L-shaped slide bar 36 press against the movable block 25 on the L-shaped slide bar 36 to overcome the top pressure of the top spring 26. The movable block 25 moves the wedge-shaped locking head 37 away from the slot 27. At this time, the motherboard enclosure 3 is subjected to the top pressure of the top spring 10, which causes the left side of the motherboard enclosure 3 to pop out of the motherboard mounting slot 18. Then the motherboard enclosure 3 is taken out, thus realizing the disassembly and upgrade of the motherboard enclosure 3. After the motherboard enclosure 3 is upgraded, it is inserted into the motherboard mounting slot 18, so that the slot 27 and the wedge-shaped locking head 37 are aligned. The wedge-shaped locking head 37 is subjected to the top pressure of the top spring 26 again, which causes the wedge-shaped locking head 37 to extend into the slot 27, thus realizing the quick installation of the motherboard enclosure 3.

[0031] Those skilled in the art will appreciate that various modifications to the above embodiments can be made without departing from the overall spirit and concept of this utility model. All such modifications fall within the protection scope of this utility model. The protection scheme of this utility model is defined by the appended claims.

Claims

1. An emergency order-oriented visual process scheduling interactive terminal, comprising a main body (1), characterized in that: The main body (1) has a main display screen (7) and a secondary display screen (19) on its top end face. A protective cover (8) is also provided on the top of the main body (1). A heat dissipation cavity (4) is provided below the main display screen (7). The left and right sides of the heat dissipation cavity (4) are connected to the outside. Dustproof nets (29) are provided at the openings on the left and right sides of the heat dissipation cavity (4). A heat dissipation fan (30) is provided on the left side of the heat dissipation cavity (4) near the dustproof net (29). A motherboard mounting slot (18) with an opening to the left is provided on the lower side of the heat dissipation cavity (4). An embedded groove (2) is provided in the right wall of the motherboard mounting slot (18). A top pressure spring (10) and a pogo symmetrically arranged front and back are provided in the embedded groove (2). The pin contact module (11) is connected to the motherboard mounting slot (18) with a transition fit. The motherboard mounting slot (3) has symmetrical slots (27) on the front and rear end faces. The motherboard mounting slot (18) has symmetrical inner sliding cavities (24) on the front and rear sides. The inner sliding cavity (24) has a movable block (25) slidably connected to it. The movable block (25) is connected to a pressure spring (26) on the side away from the motherboard mounting slot (18). The movable block (25) is fixed with a wedge-shaped lock head (37) extending into the motherboard mounting slot (18) on the side close to the motherboard mounting slot (18). The motherboard mounting slot (18) has an inner cavity (31) on the lower side. The left and right sides of the inner cavity (31) are symmetrically connected with L-shaped slides (28). The left L-shaped slide (28) is away from the inner cavity (31). 31) One side is connected to the inner sliding cavity (24) on the left side, and the L-shaped slide (28) on the right side is connected to the inner sliding cavity (24) on the side away from the inner cavity (31). An L-shaped slide rod (36) is slidably connected in the L-shaped slide (28). One end of the L-shaped slide rod (36) extends into the inner cavity (31), and the other end extends into the inner sliding cavity (24) and is fixedly connected to the movable block (25). An elliptical cam (32) is provided in the inner cavity (31). A rotating rod (33) is rotatably connected in the bottom wall of the inner cavity (31). The top of the rotating rod (33) is fixedly connected to the elliptical cam (32). The bottom of the rotating rod (33) extends out of the bottom of the main body (1) and is fixedly provided with a rotating knob (35). A torsion spring (34) is also sleeved on the rotating rod (33).

2. The visualized procedure scheduling interactive terminal for emergency order entry according to claim 1, characterized in that: The secondary display screen (19) includes a first display area (20) for displaying the emergency order queue, a second display area (21) for displaying the equipment occupancy status, and a third display area (22) for displaying the countdown warning.

3. The visualized production scheduling interactive terminal for emergency order-oriented single production according to claim 1, characterized in that: The protective cover (8) is provided with anti-fouling transparent glass (9), the bottom of the protective cover (8) is provided with a first magnet (16), the top end face of the main body (1) is provided with a second magnet (15) for adsorption and connection with the first magnet (16), and the protective cover (8) is provided with corrugated anti-slip grooves (17) around its edges.

4. The visualized procedure scheduling interactive terminal for emergency order entry of claim 1, wherein: Multiple heat dissipation holes (6) are provided between the motherboard mounting slot (18) and the heat dissipation cavity (4), and a heat conduction plate (5) is provided between the heat dissipation cavity (4) and the main display screen (7). Multiple heat dissipation fins (38) are provided below the heat conduction plate (5).

5. The visualized procedure scheduling interactive terminal for emergency order entry of claim 1, wherein: One end of the torsion spring (34) is fixedly connected to the rotating rod (33), and the other end is fixedly connected to the bottom wall of the inner cavity (31).

6. The visualized production scheduling interactive terminal for emergency order-oriented single production according to claim 1, characterized in that: The rear end face of the main body (1) is provided with a first button (12) for controlling emergency insertion, a second button (13) for controlling pause, and a third button (14) for calling human-machine assistance.

7. The visualized procedure scheduling interactive terminal for emergency order entry of claim 1, wherein: The main display screen (7), the secondary display screen (19), the heat-dissipating fan (30), the first button (12), the second button (13), and the third button (14) are all electrically connected to the pogo pin contact module (11). At the same time, the pogo pin contact module (11) is electrically connected to an external power source.

8. The visualized procedure scheduling interactive terminal for emergency order entry of claim 1, wherein: The right side of the motherboard box (3) is provided with an electrical connection module (42) for connecting with the pogo pin contact module (11).