A post management display device
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU EMERGENCY MEDICAL COMMAND CENT
- Filing Date
- 2025-04-30
- Publication Date
- 2026-06-23
Smart Images

Figure CN224400019U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of scheduling equipment technology, and in particular to a job management display device. Background Technology
[0002] Currently, in work scenarios such as dispatch halls, the personnel composition is complex and the division of labor is detailed. There are usually more than ten types of staff working in this scenario, including communicators, commanders, deputy commanders, and dispatchers. Managers need to identify the job identities of other staff members in a timely and accurate manner in order to efficiently carry out management and dispatch work.
[0003] To facilitate management, in the complex environment of the dispatch hall, each staff member is usually given a name card so that managers can quickly identify the job titles of other staff members. However, the name card can usually only be shown on one or two sides to the managers. The angle at which the managers look at the name card is different from different positions, and the angle of display is somewhat limited. This makes it difficult or even impossible for managers to see the contents of the name card in a timely manner, affecting the speed of information transmission and thus reducing the efficiency of management and dispatch work. Utility Model Content
[0004] The purpose of this utility model is to provide a job management display device to solve the technical problem that in work scenarios such as dispatch halls, due to the limited display angle of the name cards, managers may have difficulty or even be unable to see the content on the name cards in a timely manner from certain positions, which affects the speed of information transmission and thus reduces the efficiency of management and dispatch work.
[0005] To achieve the above objectives, this utility model provides a job management display device, comprising:
[0006] A receiving box, wherein the receiving box has a first receiving cavity, and the top surface of the first receiving cavity has a first opening communicating with the first receiving cavity;
[0007] A card assembly is disposed in the receiving box. The card assembly includes a base and a display card. The base is disposed on the bottom surface of the first receiving cavity. The display card is adjustablely disposed on the base in the vertical direction. The display card includes a first display part and a second display part that are vertically arranged and connected to each other. The first display part extends in a first direction, and the second display part extends in a second direction.
[0008] The display card can be adjusted so that its top surface is higher than the top surface of the receiving box and can be stored in the first receiving cavity;
[0009] There is an angle between the first direction and the second direction.
[0010] Optionally, the base includes a first base plate, a second base plate, and an adjuster. The first base plate is fixedly disposed on the bottom surface of the first receiving cavity, and the second base plate is disposed above the first base plate. The second base plate and the first base plate are connected through the adjuster. The display card is disposed on the second base plate, and the adjuster is used to adjust the position of the second base plate in the vertical direction, thereby adjusting the position of the display card in the vertical direction.
[0011] Optionally, the adjuster includes a first pull rope, a first pulley located below the first display section, a second pulley, a first axle, a second axle, a first connecting rod, and a second connecting rod;
[0012] The first base plate has a second receiving cavity, and the top surface of the first base plate has a second opening that extends through the second receiving cavity. The first pulley and the first wheel axle are located in the second receiving cavity. The first pulley is slidably connected to the second receiving cavity along a first direction, and the first wheel axle is rotatably located on the first pulley.
[0013] The second base plate has a third receiving cavity, and the bottom surface of the second base plate has a third opening that extends through the third receiving cavity. The second pulley and the second wheel axle are located in the third receiving cavity. The second pulley is slidably connected to the third receiving cavity along a first direction, and the second wheel axle is rotatably located on the second pulley.
[0014] The bottom end of the first connecting rod is connected to the first wheel axle, the first connecting rod passes through the second opening and the third opening, and the top end of the first connecting rod abuts against the top surface of the third receiving cavity;
[0015] The top end of the second connecting rod is connected to the second axle, the second connecting rod passes through the second opening and the third opening, and the bottom end of the second connecting rod abuts against the bottom surface of the second receiving cavity;
[0016] The first pulley and the second pulley are respectively located on the same side, the top end of the first connecting rod and the bottom end of the second connecting rod are respectively located on the same side, and the middle part of the first connecting rod is rotatably connected to the middle part of the second connecting rod.
[0017] The first base plate has a first rope hole that extends through the second receiving cavity on its outer side relative to the first direction. The outer side of the receiving box has a second rope hole that extends through the receiving cavity. The second rope hole is provided corresponding to the first rope hole. One end of the first pull rope is connected to the first axle. The first pull rope passes through the first rope hole and the second rope hole. The other end of the first pull rope is located outside the receiving box.
[0018] When the first pull rope is pulled out of the receiving box, the top ends of the first pulley and the second connecting rod move closer together, and the top ends of the second pulley and the first connecting rod push the top surface of the third receiving cavity upward, causing the second bottom plate to move upward.
[0019] Optionally, the device also includes a locking plate, which is spaced apart along a first direction on one side of the receiving box. The locking plate has a third rope hole that passes through along the first direction, and the third rope hole is corresponding to the second rope hole. The top surface of the locking plate has a fourth rope hole that passes through the third rope hole and passes through the locking plate along the first direction. The adjuster also includes a locking buckle, which is located at the end of the first pull rope away from the first wheel axle. The locking buckle is used to abut against the outer side of the receiving box and the side of the locking plate away from the receiving box.
[0020] When the first pull cord passes through the third cord hole and the locking buckle abuts against the locking plate away from the side of the receiving box, the top surface of the display card is higher than the top surface of the receiving box.
[0021] Optionally, the cavity wall of the second receiving cavity is provided with a first guide groove extending along the first direction, and the two ends of the first wheel axle are respectively slidably connected to the first guide grooves on both sides.
[0022] The two side walls of the third receiving cavity are provided with second guide grooves extending along the first direction, and the two ends of the second wheel axle are respectively slidably connected to the second guide grooves on both sides.
[0023] Optionally, the adjuster further includes a first connecting frame located below the first display section. The first connecting frame is disposed within the second receiving cavity and surrounds the bottom end of the first pulley and the second connecting rod. The first wheel axle is connected to the inner side of the first connecting frame, and the first pull rope is connected to the side of the first connecting frame away from the first pulley.
[0024] Optionally, the adjuster further includes a second pull rope, a transmission wheel, a guide rod, and a third pulley, a fourth pulley, a third wheel axle, a fourth wheel axle, a third connecting rod, a fourth connecting rod, and a return spring located below the second display section;
[0025] The first base plate has a fourth receiving cavity, and the top surface of the first base plate has a fourth opening that extends through the fourth receiving cavity. The third pulley and the third wheel axle are located in the fourth receiving cavity. The third pulley is slidably connected to the fourth receiving cavity along the second direction, and the third wheel axle is rotatably located on the third pulley.
[0026] The second base plate has a fifth receiving cavity, and the bottom surface of the second base plate has a fifth opening that extends through the fifth receiving cavity. The fourth pulley and the fourth wheel axle are located in the fifth receiving cavity. The fourth pulley is slidably connected to the fifth receiving cavity along the second direction, and the fourth wheel axle is rotatably located on the fourth pulley.
[0027] The bottom end of the third link is connected to the third wheel axle, the third link passes through the fourth opening and the fifth opening, and the top end of the third link abuts against the top surface of the fifth receiving cavity;
[0028] The top end of the fourth link is connected to the fourth wheel axle, the fourth link passes through the fourth opening and the fifth opening, and the bottom end of the fourth link abuts against the bottom surface of the fourth receiving cavity;
[0029] The third pulley and the fourth pulley are respectively located on the same side, the top end of the third link and the bottom end of the fourth link are respectively located on the same side, and the middle part of the third link is rotatably connected to the middle part of the fourth link;
[0030] The fourth receiving cavity is connected to the second receiving cavity. The transmission wheel is horizontally disposed at the connection between the fourth receiving cavity and the second receiving cavity. The guide rod passes through the transmission wheel and protrudes upward from the first base plate. The guide rod is slidably connected to the second base plate in the vertical direction. The two ends of the second pull rope are respectively connected to the first wheel axle and the third wheel axle. The second pull rope is wound around the transmission wheel.
[0031] The return spring is disposed in the fourth receiving cavity. One end of the return spring is connected to the cavity surface of the fourth receiving cavity relative to the second direction and away from the transmission wheel, and the other end is connected to the third wheel shaft. The return spring applies a force to the third wheel shaft away from the transmission wheel.
[0032] When the first pulley moves toward the first rope hole, the first wheel axle pulls the second pull rope toward the first rope hole. The bottom ends of the third pulley and the fourth connecting rod move toward each other, and the top ends of the fourth pulley and the third connecting rod move toward each other. The top ends of the fourth pulley and the third connecting rod push the top surface of the fifth receiving cavity upward, causing the second bottom plate to move upward.
[0033] When the first pulley moves away from the first rope hole, the return spring pulls the third wheel shaft away from the transmission wheel, the bottom ends of the third pulley and the fourth connecting rod move away from each other, the top ends of the fourth pulley and the third connecting rod move away from each other, and the top ends of the fourth pulley and the third connecting rod push the bottom surface of the fifth receiving cavity downward, causing the second bottom plate to move downward.
[0034] Optionally, the package may also include a plurality of card components, which are spaced apart from each other in the housing, with the first display portion of each card component being parallel to the first display portion and the second display portion of each card component being parallel to the second display portion.
[0035] Optionally, the top surface of the base is provided with a card slot, the card slot is matched with the display card, and the display card is snapped into the card slot.
[0036] Optionally, the display card is provided with fluorescent powder;
[0037] And / or,
[0038] It also includes a battery, a light, a first contact, and a second contact. The light, the first contact, and the second contact are disposed on the card assembly. The light is used to illuminate the display card. One pole of the battery is connected to the light and the other pole is connected to the first contact. The light is connected to the second contact.
[0039] When the display card moves to the closed position, the top surface of the display card is higher than the top surface of the receiving box, and the first contact and the second contact are connected, so that the battery, the first contact, the second contact and the light are closed, thereby making the light illuminate.
[0040] Compared with the prior art, the advantages of this utility model embodiment of the job management display device are as follows:
[0041] In this utility model's job management display device, the receiving box has a first receiving cavity for holding a card assembly. Within the card assembly, a base is located within the first receiving cavity, and a display card is adjustablely positioned on the base. This allows the display card to be adjusted vertically. Specifically, the display card can pass through a first opening and be adjusted upwards until its top surface is higher than the top surface of the receiving box, thus displaying the content to others. It can also be adjusted downwards to be stored within the first receiving cavity, preventing damage when not in use. Furthermore, the first and second display sections on the display card extend along a first and a second direction, respectively, allowing the display card to display its content in four directions. This ensures that managers can easily see the content from all directions, guaranteeing efficient management and scheduling. Attached Figure Description
[0042] Figure 1 This is a structural schematic diagram of the job management display device of this utility model.
[0043] Figure 2 for Figure 1 A magnified view of part A in the middle.
[0044] Figure 3 This is the front view of the job management display device of this utility model.
[0045] Figure 4 This is a top view of the job management display device of this utility model.
[0046] Figure 5 for Figure 4 A cross-sectional view of BB.
[0047] Figure 6 for Figure 4 A cross-sectional view of the center CC (rotated 90° counterclockwise).
[0048] Reference numerals: 1. Receiving box; 11. First receiving cavity; 12. First opening; 13. Second rope hole; 2. Card assembly; 21. Base; 211. First base plate; 2111. Second receiving cavity; 2112. Fourth receiving cavity; 2113. First rope hole; 212. Second base plate; 2121. Third receiving cavity; 2122. Fifth receiving cavity; 2123. Second guide groove; 2124. Fourth guide groove; 213. Adjuster; 2131. First pull rope; 2132. Second pull rope; 2133. First pulley; 2134. Second pulley; 2135. Third pulley 2136, Fourth pulley; 2137, First wheel axle; 2138, Second wheel axle; 2139, Third wheel axle; 213a, Fourth wheel axle; 213b, First connecting rod; 213c, Second connecting rod; 213d, Third connecting rod; 213e, Fourth connecting rod; 213f, Locking buckle; 213g, First connecting frame; 213h, Second connecting frame; 213i, Return spring; 213j, Transmission wheel; 213k, Guide rod; 22, Display card; 221, First display section; 222, Second display section; 3, Locking plate; 31, Third rope hole; 32, Fourth rope hole. Detailed Implementation
[0049] The specific embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this utility model, but are not intended to limit its scope.
[0050] In the description of this utility model, it should be understood that the terms "top", "bottom", "inner", "outer", "circumferential", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the 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.
[0051] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. In the description of this utility model, "a plurality of" means at least two, such as two, three, etc., unless otherwise explicitly specified.
[0052] like Figures 1 to 6 As shown, this utility model discloses a job management display device, including a receiving box 1 and a card assembly 2. The receiving box 1 has a first receiving cavity 11, and the top surface of the first receiving cavity 11 has a first opening 12 communicating with the first receiving cavity 11. The card assembly 2 is disposed in the receiving box 1, and the card assembly 2 includes a base 21 and a display card 22. The base 21 is disposed on the bottom surface of the first receiving cavity 11, and the display card 22 is adjustablely disposed on the base 21 in the vertical direction. The display card 22 includes a first display part 221 and a second display part 222 that are vertically arranged and connected. The first display part 221 extends in a first direction, and the second display part 222 extends in a second direction. The display card 22 can be adjusted so that the top surface of the display card 22 is higher than the top surface of the receiving box 1 and can be stored in the first receiving cavity 11. The first direction and the second direction have an included angle.
[0053] In the above technical solution, the housing box 1 is provided with a first housing cavity 11 for accommodating the card assembly 2. In the card assembly 2, the base 21 is disposed in the first housing cavity 11, and the display card 22 is adjustablely disposed on the base 21, so that the position of the display card 22 can be adjusted in the vertical direction. Specifically, the display card 22 can pass through the first opening 12 and be adjusted upward so that the top surface of the display card 22 is higher than the top surface of the housing box 1, thereby showing the content on the display card 22 to others. It can also be adjusted downward so that it is stored in the first housing cavity 11 to prevent damage to the display card 22 when it is not needed. Furthermore, the first display part 221 and the second display part 222 on the display card 22 are respectively extended in the first direction and the second direction, so that the display card 22 can display its content in four directions, thereby enabling managers to easily see the content on the display card 22 from all directions, so as to ensure that managers can efficiently perform management and scheduling work.
[0054] The first direction and the second direction can be horizontal directions that are perpendicular to the up and down directions. The first direction and the second direction are perpendicular to each other, so that the display card 22 is in the shape of an "L". In addition, the base 21 can also be an "L" shape that fits the display card 22.
[0055] Furthermore, the base 21 includes a first base plate 211, a second base plate 212, and an adjuster 213. The first base plate 211 is fixedly disposed on the bottom surface of the first receiving cavity 11, and the second base plate 212 is disposed above the first base plate 211. The second base plate 212 and the first base plate 211 are connected through the adjuster 213. The display card 22 is disposed on the second base plate 212, and the adjuster 213 is used to adjust the position of the second base plate 212 in the vertical direction, thereby adjusting the position of the display card 22 in the vertical direction.
[0056] The first base plate 211 and the second base plate 212 are connected by an adjuster 213, which adjusts the position of the second base 21 in the vertical direction. The display card 22 located on the second base 21 moves with the second base 21.
[0057] Alternatively, the regulator 213 can be a screw, motor, piston cylinder, or other similar device.
[0058] Furthermore, the adjuster 213 includes a first pull rope 2131, a first pulley 2133 located below the first display section 221, a second pulley 2134, a first axle 2137, a second axle 2138, a first connecting rod 213b, and a second connecting rod 213c; the first base plate 211 has a second receiving cavity 2111, and the top surface of the first base plate 211 has a second opening extending through the second receiving cavity 2111; the first pulley 2133 and the first axle 2137 are disposed within the second receiving cavity 2111; the first pulley 2133 is slidably connected to the second receiving cavity 2111 along a first direction; and the first axle 2137 is rotatably disposed on the first pulley 2133. The second base plate 212 has a third receiving cavity 2121. The bottom surface of the second base plate 212 has a third opening that extends through the third receiving cavity 2121. The second pulley 2134 and the second axle 2138 are disposed within the third receiving cavity 2121. The second pulley 2134 is slidably connected to the third receiving cavity 2121 along a first direction, and the second axle 2138 is rotatably disposed on the second pulley 2134. The bottom end of the first connecting rod 213b is connected to the first axle 2137. The first connecting rod 213b passes through the second opening and the third opening, and the top end of the first connecting rod 213b abuts against the top surface of the third receiving cavity 2121. The top end of the second connecting rod 213c is connected to... At the second axle 2138, the second connecting rod 213c passes through the second opening and the third opening, and the bottom end of the second connecting rod 213c abuts against the bottom surface of the second receiving cavity 2111; the first pulley 2133 and the second pulley 2134 are correspondingly disposed on the same side, the top end of the first connecting rod 213b and the bottom end of the second connecting rod 213c are correspondingly disposed on the same side, and the middle part of the first connecting rod 213b is rotatably connected to the middle part of the second connecting rod 213c; the outer side of the first base plate 211 relative to the first direction is provided with a first rope hole 2113 penetrating into the second receiving cavity 2111, and the outer side of the receiving box 1 is provided with a second rope hole 13 penetrating into the receiving cavity, the second rope Hole 13 is provided corresponding to the first rope hole 2113. One end of the first pull rope 2131 is connected to the first wheel axle 2137. The first pull rope 2131 passes through the first rope hole 2113 and the second rope hole 13. The other end of the first pull rope 2131 is located outside the receiving box 1. When the first pull rope 2131 is pulled out of the receiving box 1, the top ends of the first pulley 2133 and the second connecting rod 213c move closer together, and the top ends of the second pulley 2134 and the first connecting rod 213b move closer together. The top ends of the second pulley 2134 and the first connecting rod 213b push the top surface of the third receiving cavity 2121 upward, causing the second bottom plate 212 to move upward.
[0059] The operator can pull the first pull rope 2131 outward to move the second base plate 212 upward, thereby moving the display card 22 upward. After the second base plate 212 moves upward, the operator releases the first pull rope 2131. Under the gravity of the second base plate 212, the top surface of the third receiving cavity 2121 presses down on the top of the second pulley 2134 and the top of the first connecting rod 213b. The tops of the first pulley 2133 and the second connecting rod 213c move away from each other, and the tops of the second pulley 2134 and the first connecting rod 213b move away from each other. The second base plate 212 moves downward, and the first pull rope 2131 is pulled into the first receiving cavity 11 by the first wheel axle 2137. The display card 22 moves downward and is stored in the first receiving cavity 11. Alternatively, the second base 21 or the display card 22 can also be moved downward and stored in the first receiving cavity 11 by manually pressing down on the second base 21 or the display card 22.
[0060] Specifically, the top ends of the first pulley 2133 and the first connecting rod 213b are located on both sides of the first direction, and the bottom ends of the second pulley 2134 and the second connecting rod 213c are located on both sides of the first direction. The first connecting rod 213b and the second connecting rod 213c are arranged in an "X" shape. Furthermore, the first pulley 2133 and the second pulley 2134 are located on the side away from the first rope hole 2113, and the top end of the first connecting rod 213b and the bottom end of the second connecting rod 213c are located on the side close to the first rope hole 2113.
[0061] Furthermore, it also includes a locking plate 3, which is spaced apart along a first direction on one side of the receiving box 1. The locking plate 3 has a third rope hole 31 that passes through along the first direction, and the third rope hole 31 is set corresponding to the second rope hole 13. The top surface of the locking plate 3 has a fourth rope hole 32 that passes through the third rope hole 31 and passes through the locking plate 3 along the first direction. The adjuster 213 also includes a locking buckle 213f, which is located at the end of the first pull rope 2131 away from the first wheel axle 2137. The locking buckle 213f is used to abut against the outer side of the receiving box 1 and the side of the locking plate 3 away from the receiving box 1. When the first pull rope 2131 passes through the third rope hole 31 and the locking buckle 213f abuts against the side of the locking plate 3 away from the receiving box 1, the top surface of the display card 22 is higher than the top surface of the receiving box 1.
[0062] The operator can hold the locking buckle 213f and pull the first pull rope 2131 outward until it is above the third rope hole 31 and the fourth rope hole 32. Then, the operator can hold the locking buckle 213f and move it downward so that the first pull rope 2131 passes through the fourth rope hole 32 from top to bottom. Then, the first pull rope 2131 is placed in the third rope hole 31. The operator releases the locking buckle 213f so that it abuts against the locking plate 3 away from the side of the receiving box 1 to lock the first pull rope 2131. This prevents the first pull rope 2131 from being pulled into the first receiving cavity 11 due to the gravity of the first base plate 211, thereby keeping the display card 22 in a position where the content can be displayed to others.
[0063] Furthermore, the cavity wall of the second receiving cavity 2111 is provided with a first guide groove extending along the first direction, and the two ends of the first wheel axle 2137 are respectively slidably connected to the first guide grooves on both sides. The two cavity walls of the third receiving cavity 2121 are provided with second guide grooves 2123 extending along the first direction, and the two ends of the second wheel axle 2138 are respectively slidably connected to the second guide grooves 2123 on both sides.
[0064] The first guide groove and the second guide groove 2123 are respectively used to ensure the accuracy of the movement of the first pulley 2133 and the second pulley 2134 along the first direction, prevent the first pulley 2133 from passing through the second opening, and prevent the second pulley 2134 from passing through the third opening.
[0065] Furthermore, the adjuster 213 also includes a first connecting frame 213g located below the first display section 221. The first connecting frame 213g is disposed in the second receiving cavity 2111 and surrounds the bottom end of the first pulley 2133 and the second connecting rod 213c. The first wheel axle 2137 is connected to the inner side of the first connecting frame 213g, and the first pull rope 2131 is connected to the side of the first connecting frame 213g away from the first pulley 2133. The first pull rope 2131 can be conveniently connected to the first wheel axle 2137 through the first connecting frame 213g.
[0066] Furthermore, the adjuster 213 also includes a second pull rope 2132, a transmission wheel 213j, a guide rod 213k, and a third pulley 2135, a fourth pulley 2136, a third wheel axle 2139, a fourth wheel axle 213a, a third connecting rod 213d, a fourth connecting rod 213e, and a return spring 213i located below the second display section 222; the first base plate 211 is provided with a fourth receiving cavity 2112, and the top surface of the first base plate 211 is provided with a fourth opening penetrating into the fourth receiving cavity 2112; the third pulley 2135 and the third wheel axle 2139 are disposed in the fourth receiving cavity 2112; the third pulley 2135 and the third wheel axle 2139 are disposed in the fourth receiving cavity 2112; the third pulley 2135 and the third wheel axle 213k ... 5. The third wheel axle 2139 is rotatably connected to the fourth receiving cavity 2112 along the second direction, and the third pulley 2135 is rotatably mounted on the third pulley 2136; the second base plate 212 has a fifth receiving cavity 2122, and the bottom surface of the second base plate 212 has a fifth opening extending through the fifth receiving cavity 2122; the fourth pulley 2136 and the fourth wheel axle 213a are located in the fifth receiving cavity 2122; the fourth pulley 2136 is slidably connected to the fifth receiving cavity 2122 along the second direction, and the fourth wheel axle 213a is rotatably mounted on the fourth pulley 2136; the bottom end of the third connecting rod 213d is connected to the third wheel axle 2135. 139, the third connecting rod 213d passes through the fourth opening and the fifth opening, and the top end of the third connecting rod 213d abuts against the top surface of the fifth receiving cavity 2122; the top end of the fourth connecting rod 213e is connected to the fourth wheel axle 213a, the fourth connecting rod 213e passes through the fourth opening and the fifth opening, and the bottom end of the fourth connecting rod 213e abuts against the bottom surface of the fourth receiving cavity 2112; the third pulley 2135 and the fourth pulley 2136 are correspondingly located on the same side, and the top end of the third connecting rod 213d and the bottom end of the fourth connecting rod 213e are correspondingly located on the same side. The middle part of d is rotatably connected to the middle part of the fourth connecting rod 213e; the fourth receiving cavity 2112 is connected to the second receiving cavity 2111; the transmission wheel 213j is horizontally disposed at the connection between the fourth receiving cavity 2112 and the second receiving cavity 2111; the guide rod 213k passes through the transmission wheel 213j and protrudes upward from the first base plate 211; the guide rod 213k is slidably connected to the second base plate 212 in the vertical direction; the two ends of the second pull rope 2132 are respectively connected to the first wheel axle 2137 and the third wheel axle 2139; the second pull rope 2132 is wound around the transmission wheel 213j.The return spring 213i is disposed in the fourth receiving cavity 2112. One end of the return spring 213i is connected to the cavity surface of the fourth receiving cavity 2112 relative to the second direction and away from the transmission wheel 213j, and the other end is connected to the third wheel shaft 2139. The return spring 213i applies a force to the third wheel shaft 2139 away from the transmission wheel 213j. When the first pulley 2133 moves toward the first rope hole 2113, the first wheel shaft 2137 pulls the second pull rope 2132 toward the first rope hole 2113. The bottom ends of the third pulley 2135 and the fourth connecting rod 213e move closer to each other, and the top ends of the fourth pulley 2136 and the third connecting rod 213d abut together. When the first pulley 2133 moves away from the first rope hole 2113, the return spring 213i pulls the third wheel axle 2139 away from the transmission wheel 213j, causing the bottom ends of the third pulley 2135 and the fourth link 213e to move away from each other, and the top ends of the fourth pulley 2136 and the third link 213d to move away from each other. The top ends of the fourth pulley 2136 and the third link 213d then push the bottom surface of the fifth cavity 2122 downwards, causing the second base plate 212 to move downwards.
[0067] Specifically, when the first pull rope 2131 pulls the first wheel shaft 2137, causing the first pulley 2133 to move towards the direction close to the first rope hole 2113, the top of the second pulley 2134 and the top of the first connecting rod 213b push one side of the second top plate upwards, and the first wheel shaft 2137 pulls one end of the second pull rope 2132 towards the direction close to the first rope hole 2113. The top of the fourth pulley 2136 and the top of the third connecting rod 213d push the other side of the second top plate upwards, causing the second bottom plate 212 to move smoothly upwards, thereby enabling the display... Card 22 moves smoothly upward; after the second base plate 212 moves upward, the operator releases the first pull rope 2131. Under the action of the gravity of the second base plate 212 and the elastic force of the return spring 213i, the second base plate 212 moves downward. The second pull rope 2132 is pulled by the third wheel axle 2139 toward the third pulley 2135, the first wheel axle 2137 is pulled by the second pull rope 2132 toward the transmission wheel 213j, and the first pull rope 2131 is pulled by the first wheel axle 2137 toward the first receiving cavity 11. The display card 22 moves downward until it is stored in the first receiving cavity 11.
[0068] In addition, the cavity wall of the fourth receiving cavity 2112 is provided with a third guide groove extending along the second direction, and the two ends of the third wheel shaft 2139 are respectively slidably connected to the third guide groove on both sides; the two cavity walls of the fifth receiving cavity 2122 are provided with a fourth guide groove 2124 extending along the second direction, and the two ends of the fourth wheel shaft 213a are respectively slidably connected to the fourth guide groove 2124 on both sides.
[0069] In addition, the adjuster 213 also includes a second connecting frame 213h located below the second display section 222. The second connecting frame 213h is disposed in the fourth receiving cavity 2112 and surrounds the bottom end of the third pulley 2135 and the fourth connecting rod 213e. The third wheel axle 2139 is connected to the inner side of the second connecting frame 213h. The second pull rope 2132 is connected to the end of the second connecting frame near the transmission wheel 213j. The return spring 213i is connected to the end of the second connecting frame 213h away from the transmission wheel 213j.
[0070] Specifically, the top ends of the third pulley 2135 and the third connecting rod 213d are located on both sides of the second direction, and the bottom ends of the fourth pulley 2136 and the fourth connecting rod 213e are located on both sides of the second direction. The third connecting rod 213d and the fourth connecting rod 213e are arranged in an "X" shape. Furthermore, the third pulley 2135 and the fourth pulley 2136 are located on the side away from the transmission wheel 213j, and the top end of the third connecting rod 213d and the bottom end of the fourth connecting rod 213e are located on the side closer to the transmission wheel 213j.
[0071] Furthermore, it also includes multiple card components 2, which are spaced apart from each other in the housing box 1. The first display portion 221 of each card component 2 is parallel, and the second display portion 222 of each card component 2 is parallel. Staff can write different content on the multiple display cards 22. When the staff member in a corresponding position changes (either the staff member's job title changes depending on the task, or the position changes and another staff member sits in that position), the previous display card 22 can be adjusted and stored in the first housing cavity 11, and the display card 22 suitable for the current situation can be raised to a position where it can be clearly displayed to others.
[0072] Furthermore, the top surface of the base 21 is provided with a slot, which is matched with the display card 22. The display card 22 is snapped into the slot to facilitate the installation and removal of the display card 22 from the base 21.
[0073] Furthermore, the display card 22 is provided with fluorescent powder so that the content on the display card 22 can be seen even in a dark environment.
[0074] Furthermore, it also includes a battery, a light, a first contact, and a second contact. The light, the first contact, and the second contact are located on the card assembly 2. The light is used to illuminate the display card 22. One pole of the battery is connected to the light, and the other pole is connected to the first contact. The light is connected to the second contact. When the display card 22 moves to the closed position, the top surface of the display card 22 is higher than the top surface of the receiving box 1. The first contact and the second contact are connected, causing the battery, the first contact, the second contact, and the light to close, thereby illuminating the light. When the display card 22 is raised, the light can illuminate the display card 22 so that others can clearly see the contents on the display card 22. In the retracted state of the display card 22, the battery power is not consumed, saving energy.
[0075] Furthermore, fixed setting and fixed connection refer to the fixed relative positional relationship of two components, including but not limited to fixing by connectors, fixing by welding, fixing by adhesive, fixing by integral molding, and fixing by snap-fit connection.
[0076] Furthermore, sliding connection and sliding setting refer to the connection between two connected components, where one component can slide along a fixed trajectory on the other component, including but not limited to connection by sliding a slider into a groove, or connection by inserting a slider into a hole whose size and profile match the slider.
[0077] Furthermore, adjustable connection and adjustable setting refer to the fact that the two connected components can be adjusted in their relative positions before being fixed, and the aforementioned adjustment and fixing process can be repeated, including but not limited to connection through elongated holes and connectors, and connection through sliding connection plus detachable connection.
[0078] Furthermore, rotatable connection and rotatable setting refer to the ability of two connected components to rotate, including but not limited to connections via bearings or clearance fits.
[0079] Furthermore, the connectors include, but are not limited to, fasteners, straps, ropes, pneumatic connectors, hydraulic connectors, flanges, Velcro, and buttons.
[0080] In summary, this utility model embodiment provides a job management display device, the technical effects of which are as follows:
[0081] In this utility model's job management display device, the receiving box 1 is provided with a first receiving cavity 11 for accommodating the card assembly 2. Within the card assembly 2, a base 21 is disposed within the first receiving cavity 11, and a display card 22 is adjustablely disposed on the base 21. This allows the display card 22 to be adjusted vertically. Specifically, the display card 22 can pass through the first opening 12 and be adjusted upwards until its top surface is higher than the top surface of the receiving box 1, thus displaying the content on the display card 22 to others. It can also be adjusted downwards to be stored within the first receiving cavity 11 to prevent damage to the display card 22 when not in use. Furthermore, the first display portion 221 and the second display portion 222 on the display card 22 extend along the first and second directions respectively, allowing the display card 22 to display its content in four directions. This ensures that managers can easily see the content on the display card 22 from all directions, guaranteeing efficient management and scheduling.
[0082] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and substitutions can be made without departing from the technical principles of the present utility model, and these improvements and substitutions should also be considered within the protection scope of the present utility model.
Claims
1. A job management display device, characterized in that, include, The container (1) has a first receiving cavity (11) inside, and the top surface of the first receiving cavity (11) has a first opening (12) communicating with the first receiving cavity (11). Card assembly (2), the card assembly (2) is disposed in the receiving box (1), the card assembly (2) includes a base (21) and a display card (22), the base (21) is disposed on the bottom surface of the first receiving cavity (11), the display card (22) is adjustablely disposed on the base (21) in the vertical direction, the display card (22) includes a first display part (221) and a second display part (222) that are vertically arranged and connected to each other, the first display part (221) extends in a first direction, and the second display part (222) extends in a second direction; The display card (22) can be adjusted so that the top surface of the display card (22) is higher than the top surface of the receiving box (1) and is stored in the first receiving cavity (11); There is an angle between the first direction and the second direction.
2. The job management display device according to claim 1, characterized in that, The base (21) includes a first base plate (211), a second base plate (212), and an adjuster (213). The first base plate (211) is fixedly disposed on the bottom surface of the first receiving cavity (11), and the second base plate (212) is disposed above the first base plate (211). The second base plate (212) and the first base plate (211) are connected by the adjuster (213). The display card (22) is disposed on the second base plate (212). The adjuster (213) is used to adjust the position of the second base plate (212) in the vertical direction, thereby adjusting the position of the display card (22) in the vertical direction.
3. The job management display device according to claim 2, characterized in that, The adjuster (213) includes a first pull rope (2131), a first pulley (2133) and a second pulley (2134) located below the first display section (221), a first wheel axle (2137), a second wheel axle (2138), a first connecting rod (213b) and a second connecting rod (213c); The first base plate (211) is provided with a second receiving cavity (2111), and the top surface of the first base plate (211) is provided with a second opening that extends through the second receiving cavity (2111). The first pulley (2133) and the first wheel axle (2137) are provided in the second receiving cavity (2111). The first pulley (2133) is slidably connected to the second receiving cavity (2111) along a first direction, and the first wheel axle (2137) is rotatably provided on the first pulley (2133). The second base plate (212) is provided with a third receiving cavity (2121), and the bottom surface of the second base plate (212) is provided with a third opening that extends through the third receiving cavity (2121). The second pulley (2134) and the second wheel axle (2138) are provided in the third receiving cavity (2121). The second pulley (2134) is slidably connected to the third receiving cavity (2121) along a first direction, and the second wheel axle (2138) is rotatably provided on the second pulley (2134). The bottom end of the first connecting rod (213b) is connected to the first axle (2137), the first connecting rod (213b) passes through the second opening and the third opening, and the top end of the first connecting rod (213b) abuts against the top surface of the third receiving cavity (2121); The top end of the second connecting rod (213c) is connected to the second axle (2138), the second connecting rod (213c) passes through the second opening and the third opening, and the bottom end of the second connecting rod (213c) abuts against the bottom surface of the second receiving cavity (2111). The first pulley (2133) and the second pulley (2134) are respectively located on the same side, the top end of the first connecting rod (213b) and the bottom end of the second connecting rod (213c) are respectively located on the same side, and the middle part of the first connecting rod (213b) is rotatably connected to the middle part of the second connecting rod (213c). The first base plate (211) has a first rope hole (2113) that extends through to the second receiving cavity (2111) on its outer side relative to the first direction. The receiving box (1) has a second rope hole (13) that extends through to the receiving cavity on its outer side. The second rope hole (13) is provided corresponding to the first rope hole (2113). One end of the first pull rope (2131) is connected to the first wheel axle (2137). The first pull rope (2131) passes through the first rope hole (2113) and the second rope hole (13). The other end of the first pull rope (2131) is located outside the receiving box (1). When the first pull rope (2131) is pulled out of the receiving box (1), the top ends of the first pulley (2133) and the second connecting rod (213c) move closer together, the top ends of the second pulley (2134) and the first connecting rod (213b) move closer together, and the top ends of the second pulley (2134) and the first connecting rod (213b) push the top surface of the third receiving cavity (2121) upward, causing the second bottom plate (212) to move upward.
4. The job management display device according to claim 3, characterized in that, It also includes a locking plate (3), which is spaced apart on one side of the receiving box (1) along a first direction. The locking plate (3) is provided with a third rope hole (31) that is connected through the first direction. The third rope hole (31) is provided in relation to the second rope hole (13). The top surface of the locking plate (3) is provided with a fourth rope hole (32) that is connected through the third rope hole (31). The fourth rope hole (32) is connected through the locking plate (3) along the first direction. The adjuster (213) also includes a locking buckle (213f), which is located at the end of the first pull rope (2131) away from the first wheel axle (2137). The locking buckle (213f) is used to abut against the outer side of the receiving box (1) and the side of the locking plate (3) away from the receiving box (1). When the first pull cord (2131) passes through the third cord hole (31) and the locking buckle (213f) abuts against the locking plate (3) away from the side of the container (1), the top surface of the display card (22) is higher than the top surface of the container (1).
5. The job management display device according to claim 3, characterized in that, The cavity wall of the second receiving cavity (2111) is provided with a first guide groove extending in a first direction, and the two ends of the first wheel axle (2137) are respectively slidably connected to the first guide grooves on both sides. The two side walls of the third receiving cavity (2121) are provided with second guide grooves (2123) extending along the first direction, and the two ends of the second wheel axle (2138) are respectively slidably connected to the second guide grooves (2123) on both sides.
6. The job management display device according to claim 3, characterized in that, The adjuster (213) further includes a first connecting frame (213g) located below the first display section (221). The first connecting frame (213g) is disposed in the second receiving cavity (2111) and surrounds the bottom end of the first pulley (2133) and the second connecting rod (213c). The first wheel axle (2137) is connected to the inner side of the first connecting frame (213g), and the first pull rope (2131) is connected to the side of the first connecting frame (213g) away from the first pulley (2133).
7. The job management display device according to claim 3, characterized in that, The regulator (213) also includes a second pull rope (2132), a transmission wheel (213j), a guide rod (213k), and a third pulley (2135), a fourth pulley (2136), a third wheel axle (2139), a fourth wheel axle (213a), a third link (213d), a fourth link (213e), and a return spring (213i) located below the second display section (222); The first base plate (211) is provided with a fourth receiving cavity (2112), and the top surface of the first base plate (211) is provided with a fourth opening that extends through the fourth receiving cavity (2112). The third pulley (2135) and the third wheel axle (2139) are provided in the fourth receiving cavity (2112). The third pulley (2135) is slidably connected to the fourth receiving cavity (2112) along the second direction, and the third wheel axle (2139) is rotatably provided on the third pulley (2135). The second base plate (212) is provided with a fifth receiving cavity (2122), and the bottom surface of the second base plate (212) is provided with a fifth opening that extends through the fifth receiving cavity (2122). The fourth pulley (2136) and the fourth wheel axle (213a) are provided in the fifth receiving cavity (2122). The fourth pulley (2136) is slidably connected to the fifth receiving cavity (2122) along the second direction, and the fourth wheel axle (213a) is rotatably provided on the fourth pulley (2136). The bottom end of the third link (213d) is connected to the third wheel axle (2139), the third link (213d) passes through the fourth opening and the fifth opening, and the top end of the third link (213d) abuts against the top surface of the fifth receiving cavity (2122). The top end of the fourth link (213e) is connected to the fourth wheel axle (213a), the fourth link (213e) passes through the fourth opening and the fifth opening, and the bottom end of the fourth link (213e) abuts against the bottom surface of the fourth receiving cavity (2112). The third pulley (2135) and the fourth pulley (2136) are respectively located on the same side, the top end of the third link (213d) and the bottom end of the fourth link (213e) are respectively located on the same side, and the middle part of the third link (213d) is rotatably connected to the middle part of the fourth link (213e). The fourth receiving cavity (2112) is connected to the second receiving cavity (2111). The transmission wheel (213j) is horizontally disposed at the connection between the fourth receiving cavity (2112) and the second receiving cavity (2111). The guide rod (213k) passes through the transmission wheel (213j) and protrudes upward from the first base plate (211). The guide rod (213k) is slidably connected to the second base plate (212) in the vertical direction. The two ends of the second pull rope (2132) are respectively connected to the first wheel axle (2137) and the third wheel axle (2139). The second pull rope (2132) is wound around the transmission wheel (213j). The return spring (213i) is disposed in the fourth receiving cavity (2112). One end of the return spring (213i) is connected to the cavity surface of the fourth receiving cavity (2112) relative to the second direction and away from the transmission wheel (213j), and the other end is connected to the third wheel shaft (2139). The return spring (213i) applies a force to the third wheel shaft (2139) away from the transmission wheel (213j). When the first pulley (2133) moves toward the first rope hole (2113), the first wheel axle (2137) pulls the second pull rope (2132) toward the first rope hole (2113), the bottom ends of the third pulley (2135) and the fourth connecting rod (213e) move closer together, the top ends of the fourth pulley (2136) and the third connecting rod (213d) move closer together, and the top ends of the fourth pulley (2136) and the third connecting rod (213d) push the top surface of the fifth receiving cavity (2122) upward, causing the second bottom plate (212) to move upward; When the first pulley (2133) moves away from the first rope hole (2113), the return spring (213i) pulls the third wheel shaft (2139) away from the transmission wheel (213j), the bottom ends of the third pulley (2135) and the fourth connecting rod (213e) move away from each other, the top ends of the fourth pulley (2136) and the third connecting rod (213d) move away from each other, and the top ends of the fourth pulley (2136) and the third connecting rod (213d) push the bottom surface of the fifth receiving cavity (2122) downward, causing the second base plate (212) to move downward.
8. The job management display device according to claim 1, characterized in that, It also includes a plurality of card components (2), which are spaced apart from each other in the housing (1). The first display portion (221) of each card component (2) is parallel to each other, and the second display portion (222) of each card component (2) is parallel to each other.
9. The job management display device according to claim 1, characterized in that, The top surface of the base (21) is provided with a card slot, and the card slot and the display card (22) are matched and set together, and the display card (22) is snapped into the card slot.
10. The job management display device according to claim 1, characterized in that, The display card (22) is equipped with fluorescent powder; And / or, It also includes a battery, a light, a first contact and a second contact, the light, the first contact and the second contact are disposed on the card assembly (2), the light is used to illuminate the display card (22), one pole of the battery is connected to the light and the other pole is connected to the first contact, and the light is connected to the second contact; When the display card (22) moves to the closed position, the top surface of the display card (22) is higher than the top surface of the housing (1), the first contact and the second contact are connected, so that the battery, the first contact, the second contact and the lamp are closed, thereby making the lamp light up.