Split hand-held express sheet pasting device
The split-type handheld express waybill applicator utilizes components such as a detachable handle, guide plate, and rolling plate to achieve efficient separation of the express waybill from the backing paper, solving the problems of low applicability and unsuitability of existing technologies, and improving operational flexibility and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TAIQIAN COUNTY JINPENG MACHINERY MANUFACTURING CO LTD
- Filing Date
- 2025-08-13
- Publication Date
- 2026-06-16
AI Technical Summary
The current express delivery label pasting process is inefficient, especially when dealing with large volumes of business, which increases the workload of couriers. In addition, existing automated equipment is bulky and expensive, making it unsuitable for small express delivery outlets or mobile operation scenarios.
Design a split-type handheld express waybill applicator, including a storage compartment, a guiding mechanism, a waybill dispensing mechanism, and a waybill splitting mechanism. Through components such as a detachable handle, a guide plate, and a rolling plate, it can achieve efficient separation and application of the express waybill from the backing paper.
It improves labeling efficiency, reduces the workload of couriers, lowers maintenance costs, and is suitable for flexible operation in different scenarios.
Smart Images

Figure CN224361564U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of express packaging auxiliary technology, and in particular to a split-type handheld express waybill applicator for handheld operation. Background Technology
[0002] In current express delivery labeling operations, most methods involve manually tearing off and pasting the labels. This method is inefficient, especially when the volume of express deliveries is high, as couriers need to spend a significant amount of time tearing off and pasting labels, increasing their workload. While some automated labeling equipment can improve efficiency, it is usually bulky and expensive, making it unsuitable for smaller express delivery outlets or scenarios requiring mobile operations. For example, large automated labeling machines are typically fixed on the assembly line in express processing centers, failing to meet the labeling needs of couriers when picking up packages or working in different locations. Utility Model Content
[0003] The purpose of this utility model is to provide a split-type handheld express waybill label applicator in order to solve the above-mentioned problems.
[0004] This utility model achieves the above objectives through the following technical solutions:
[0005] A split-type handheld express delivery label applicator comprises a storage compartment, a guiding mechanism, a label dispensing mechanism, and a label splitting mechanism. The storage compartment is used to stack and store express delivery labels, and its bottom is equipped with a handle for easy handheld operation. A guiding mechanism is located at one end of the storage compartment to guide the express delivery labels outwards. Below the guiding mechanism is a detachable label dispensing mechanism, forming a movable channel with the guiding mechanism to press the label's backing paper and pull it out. Above the guiding mechanism is the label splitting mechanism, through which the express delivery label passes. When the end of the label passes the end of the label splitting mechanism, the label and backing paper begin to separate under the pull of the label dispensing mechanism, realizing the split-type label applicator operation. The split design combined with handheld operation allows couriers to use it flexibly in various scenarios, without being restricted by location. The collaborative work of each mechanism achieves efficient separation of the express delivery label and backing paper, improving label applicator efficiency and reducing the workload of couriers.
[0006] Preferably, the handle is detachably connected to the storage compartment, making it convenient to replace the handle according to actual needs. If the handle is damaged, it can be easily replaced, reducing maintenance costs. Alternatively, handles of different shapes and materials can be replaced according to the courier's usage habits to improve user comfort.
[0007] Preferably, the bottom of the storage compartment is provided with a slot, and the upper part of the handle is provided with a plate. The plate is pushed into the slot to secure the handle to the lower part of the storage compartment. The connection method is simple in structure, easy to operate, and can quickly complete the installation and removal of the handle. The connection is also stable, ensuring that the handle will not easily fall off during use.
[0008] Preferably, the guiding mechanism includes a guide plate, which is inclinedly arranged at the end of the storage compartment, and the end of the guide plate near the center of the storage compartment is provided with an arc-shaped guide surface to allow the express waybill to pass quickly through the arc-shaped guide surface, thereby guiding and accelerating the movement of the waybill; the inclined guide plate helps the waybill and the backing paper to separate more easily when the express waybill passes through, and the arc-shaped guide surface allows the waybill to pass through more smoothly and quickly, reducing jamming, ensuring stable delivery of the waybill, and improving the efficiency of order processing.
[0009] Preferably, two locking blocks are symmetrically arranged above the guide plate and on the storage compartment. Each locking block has a locking groove for securing the order splitting mechanism. This provides a stable installation position for the order splitting mechanism, ensuring that the position of the order splitting mechanism is fixed during operation, thereby ensuring the accuracy and stability of the waybill separation.
[0010] Preferably, the card slot extends through one end of the card block and the adjacent side of that end, communicating with the outside. A U-shaped limiting area is formed between the card slots of the two corresponding card blocks, and the order separation mechanism is inserted into the limiting area. The U-shaped limiting area limits the order separation mechanism from three directions, further enhancing the stability of the order separation mechanism installation, preventing displacement during use, and ensuring the smooth progress of the waybill separation work.
[0011] Preferably, the order sorting mechanism includes a transparent pressure plate, with its two sides respectively inserted into the two slots, and a gap is left between the transparent pressure plate and the guide plate for the express delivery slip to pass through; the transparent pressure plate allows the courier to observe the separation of the slip, and the gap design ensures that the slip can pass through smoothly and achieves effective separation of the slip and the backing paper when it passes the end of the order sorting mechanism.
[0012] Preferably, the order dispensing mechanism includes a rolling plate, which is fixed to the end of the storage compartment. A toggle element is movably disposed on the rolling plate. The toggle element presses against the bottom paper of the express delivery label, and as the toggle element rotates, it pushes the bottom paper of the express delivery label outward from the outlet between the rolling plate and the storage compartment. The friction between the toggle element and the bottom paper drives the bottom paper to pass through, thereby pulling the bottom paper and cooperating with the order separation mechanism to complete the separation of the label and the bottom paper, improving the labeling efficiency.
[0013] Preferably, the actuating component includes a silicone roller, which is movably sleeved on a roller shaft. The two ends of the roller shaft are respectively inserted into the connecting holes opened on both sides of the rolling plate, and the silicone roller is exposed at the front end of the rolling plate.
[0014] Preferably, plugs are provided on both sides of the rolling plate, and sockets corresponding to the plugs are opened on both sides of the storage compartment, and the plugs are inserted into the sockets; this connection method facilitates the installation and disassembly of the rolling plate, and can be quickly replaced when the rolling plate or the actuating component fails, reducing maintenance time and costs.
[0015] The beneficial effects of this utility model are as follows:
[0016] This utility model adopts a split handheld design, which makes it convenient for couriers to operate flexibly in different scenarios. There is no need to use large equipment in a fixed position. The collaborative work of the order issuing mechanism and the order splitting mechanism realizes the rapid separation of the express waybill and the backing paper. Compared with manually tearing the waybill, it greatly improves the efficiency of labeling and reduces the workload of couriers.
[0017] The handle and storage compartment, as well as the order dispensing mechanism and storage compartment, are all detachably connected. When a component is damaged, it can be easily and quickly replaced, reducing equipment maintenance costs and extending the equipment's service life. At the same time, the detachable installation method of the order dispensing mechanism also makes it easy to adjust or replace express waybills of different sizes.
[0018] When using this utility model, the operator picks up the label applicator and brings it close to the package to be labeled. The label dispensing mechanism consists of a set of transmission components with silicone rollers. The rollers rotate to generate friction, which drives the label forward. When it moves to the label separating mechanism, the label is separated from the backing paper. Appropriate pressure is applied to the label to the surface of the package to ensure that the label is firmly and flatly attached. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0020] Figure 1 This is a schematic diagram of the overall structure of this utility model (the silicone roller is not shown).
[0021] Figure 2 This is an exploded view of the overall structure of this utility model (the silicone roller is not shown).
[0022] The annotations in the attached figures are explained as follows:
[0023] 1. Storage compartment; 2. Handle; 3. Rolling plate; 4. Guide plate; 5. Curved guide surface; 6. Locking block; 7. Connecting hole. Detailed Implementation
[0024] The following is in conjunction with the appendix Figure 1-2 The technical solution of this utility model will be further explained below:
[0025] like Figure 1 and Figure 2 As shown, a split-type handheld express delivery label applicator includes a storage compartment 1, in which express delivery labels are stacked. A handle 2 is located at the bottom of the storage compartment 1. That is, folded express delivery labels are placed in the storage compartment 1, with excess backing paper from the labels protruding outwards through the guide mechanism and label dispensing mechanism on the storage compartment 1. The handle 2 at the bottom of the storage compartment 1 allows the operator to grip it, press the actuating element against the express package, and push or pull the label applicator backward. The actuating element moves the express delivery label forward until it separates and is exposed. Appropriate pressure is then applied to stick the label onto the surface of the package.
[0026] It should be noted that the storage compartment 1 is rectangular or cuboid in shape to facilitate the stacking of waybills. In this embodiment, the front end of the storage compartment 1 is an inclined surface. Its dimensions are determined based on the common size of waybills and the expected number of waybills to be stored, generally with a length of 20-30 cm, a width of 15-20 cm, and a height of 5-10 cm. The storage compartment 1 can be made of plastic, such as polypropylene (PP) or polycarbonate (PC). Reinforcing ribs can also be installed inside the storage compartment 1 to enhance its structural strength and prevent deformation due to long-term use or external pressure.
[0027] In some embodiments, such as Figure 1 and Figure 2 As shown, the handle 2 is detachably connected to the storage compartment 1. This detachable connection allows for easy replacement of the handle 2 with different shapes or materials to suit the usage habits of different delivery personnel. For example, a smaller, easier-to-grip handle 2 can be used for delivery personnel with smaller hands; for delivery personnel who need to use the device for extended periods, a handle 2 with anti-slip pads or an ergonomic design can be used to improve comfort. Furthermore, when the handle 2 is damaged, it can be replaced promptly without replacing the entire storage compartment 1, reducing maintenance costs.
[0028] Among them, such as Figure 1 and Figure 2As shown, the storage compartment 1 has a slot at its bottom, and the handle 2 has an insert plate at its upper part. The insert plate is pushed into the slot to secure the handle 2 to the lower part of the storage compartment 1. That is, when installing the handle 2, align the insert plate with the slot and push it in forcefully to ensure the insert plate is fully inserted. When disassembling, apply reverse force to pull the insert plate out of the slot. The design of the slot and insert plate is the same as the design of the locking block 6 in this application, i.e., two locking blocks 6 are provided at the bottom of the storage compartment 1, each with a slot. A U-shaped limiting area is formed between the two slots. Insert plates extend outward from both sides of the handle 2, and the insert plates are inserted into their corresponding slots.
[0029] It should be noted that a spring-loaded latch can also be installed between the slot and the insert plate. After the insert plate is inserted into the slot, the spring-loaded latch will automatically lock, enhancing the connection's strength. Alternatively, a threaded connection can be used, with threads installed on both the insert plate and the slot, allowing the connection to be achieved by rotating the insert plate.
[0030] Specifically, such as Figure 1 and Figure 2 As shown, a guiding mechanism is provided at one end of the storage compartment 1 to allow the express delivery label to pass through the guiding mechanism. In other words, the guiding mechanism is used to orderly and stably transfer the express delivery label outwards, while simultaneously cooperating with the label issuing mechanism and the label separating mechanism to separate the label's backing paper and label.
[0031] The guiding mechanism includes a guide plate 4, which is inclinedly arranged at the end of the storage compartment 1. An arc-shaped guide surface 5 is provided at one end of the guide plate 4 near the center of the storage compartment 1 to allow the express delivery slip to pass quickly through the arc-shaped guide surface 5. In other words, the express delivery slip moves smoothly upwards along the arc-shaped guide surface 5, while the guide plate 4 is inclined upwards towards the exit direction. The express delivery slip passes through the guide plate 4 at an inclined upwards. When the express delivery slip reaches the end of the slip-splitting mechanism, it helps the bottom paper of the express delivery slip to quickly bend downwards under the action of the slip-out mechanism. At this time, the panel still maintains a forward-moving state due to inertia, thereby separating the bottom paper from the cotton board.
[0032] It should be noted that the tilt angle of guide plate 4 is generally between 30° and 60°. The curvature of the arc-shaped guide surface 5 is designed according to the flexibility and speed requirements of the express waybill, with a radius of curvature between 3 and 5 cm, ensuring that the waybill can pass smoothly through the arc-shaped guide surface 5 and reducing jamming. The guide plate 4 can be made of smooth plastic or thin metal sheet, such as stainless steel sheet, to reduce friction when the waybill passes through.
[0033] Among them, such as Figure 2As shown, two locking blocks 6 are symmetrically arranged above the guide plate 4 and on the storage compartment 1. Each locking block 6 has a locking slot for securing the order-separating mechanism. In other words, the order-separating mechanism is secured to the storage compartment 1 by using the locking slots on the two locking blocks 6 to limit its movement. This makes installation and disassembly convenient; during installation, the order-separating mechanism is simply inserted into the locking slot, and during disassembly, it is pulled out of the locking slot.
[0034] The card slot extends through one end of the card block 6 and the adjacent side of that end, communicating with the outside. A U-shaped limiting area is formed between the card slots of two corresponding card blocks 6, and the order separation mechanism is inserted into the limiting area. That is, after the order separation mechanism is inserted into the U-shaped limiting area, the three surfaces of the U-shaped limiting area respectively restrict and support the two sides and one end of the order separation mechanism, so that the order separation mechanism is stably fixed on the storage compartment 1, preventing the order separation mechanism from shifting due to vibration or external force during use, ensuring the smooth operation of the order separation work, and improving the reliability of order separation.
[0035] Elastic pads can be installed inside the U-shaped limiting area to increase the clamping force on the order-separating mechanism and improve the limiting effect; alternatively, a positioning pin and a positioning hole can be used to set positioning pins and positioning holes on the order-separating mechanism and the storage compartment 1 respectively, to further improve the positioning accuracy of the order-separating mechanism.
[0036] Specifically, such as Figure 2 As shown, the order dispensing mechanism is located below the guide mechanism and is detachably mounted at the end of the storage compartment 1. A movable channel is formed between the order dispensing mechanism and the guide mechanism to press the bottom paper of the express delivery label and drive the bottom paper through the order dispensing mechanism. In other words, a detachable order dispensing mechanism is provided at the front end of the storage compartment 1. After the express delivery label passes over the guide plate 4, when it passes the end of the order separation mechanism, the bottom paper of the express delivery label begins to separate from the label. After passing through the movable channel between the guide plate 4 and the order dispensing mechanism, the bottom paper is pushed out of the order dispensing mechanism by the mechanism.
[0037] Among them, such as Figure 2 As shown, the order dispensing mechanism includes a rolling plate, which is fixed to the end of the storage compartment 1. A actuating element is movably mounted on the rolling plate, pressing the bottom paper of the express delivery form. As the actuating element rotates, it pushes the bottom paper outward from the outlet between the rolling plate and the storage compartment 1. In other words, the rolling plate is fixed to the end of the storage compartment 1, the actuating element presses the bottom paper, and the rotation generates friction, causing the bottom paper to pass outward from the outlet between the rolling plate and the storage compartment 1.
[0038] In other words, the rotating actuating component comes into contact with the backing paper and generates friction. Under the action of friction, the backing paper is driven to pass through the outlet between the rolling plate and the storage compartment 1, while the waybill moves. In conjunction with the waybill separation mechanism, the waybill and the backing paper are gradually separated. This waybill labeler is not only suitable for labeling express waybills, but can also be used for labeling logistics labels.
[0039] It should be noted that in this embodiment, the rolling plate can be adjustable, and the distance between the rolling plate and the storage compartment 1 can be adjusted to accommodate different thicknesses of the base paper; the actuating component can be a combination of multiple rollers to increase the contact area with the base paper and improve the traction effect.
[0040] Furthermore, the shape of the rolling plate is generally adapted to the shape of the end of storage compartment 1, and its width is slightly larger than the size of the end of storage compartment 1 to facilitate installation and disassembly. The thickness of the rolling plate is between 5 and 10 mm to ensure that it has sufficient strength to support the actuating parts and withstand the tension of the backing paper.
[0041] Among them, such as Figure 2 As shown, the actuating component includes a silicone roller, which is movably fitted onto a roller shaft. Both ends of the roller shaft pass through connecting holes 7 on both sides of the rolling plate 3, with the silicone roller exposed at the front end of the rolling plate 3. In other words, the silicone roller is fitted onto the roller shaft, with both ends of the roller shaft inserted into the connecting holes 7 of the rolling plate. The exposed silicone roller allows for rotation under external power (such as a courier manually pulling the label applicator backward). When the silicone roller rotates, it moves the backing paper due to friction with the backing paper.
[0042] It should be noted that the silicone rollers and rollers are a complete set, and silicone rollers of different diameters can also be installed on the rolling plate 3.
[0043] In some embodiments, plugs are provided on both sides of the rolling plate 3, and corresponding sockets are provided on both sides of the storage compartment 1. The plugs are inserted into the sockets. That is, the plugs on both sides of the rolling plate are inserted into the sockets on both sides of the storage compartment 1, and the rolling plate is fixed to the end of the storage compartment 1 by the limiting effect of the sockets on the plugs. During installation, since the rolling plate 3 is made of plastic, the rolling plate 3 can be slightly pried open to enlarge it. One end of the plug is aligned with the socket and inserted. After releasing the rolling plate 3, the other end of the plug is squeezed into the corresponding socket to ensure that the plug is fully inserted into the socket. During disassembly, similarly, one side of the rolling plate 3 is pried open with a little force, and one end of the plug is pulled out of the socket to quickly remove the rolling plate 3.
[0044] It should be noted that quick-connect plugs can also be used, which allow for quick connection and disconnection of the plug and socket by pressing or rotating; magnetic plugs can also be used, which use magnetic force to connect and are more convenient to operate, but it is necessary to ensure that the magnetic attraction is strong enough to prevent the rolling plate from falling off.
[0045] Specifically, such as Figure 2 As shown, the order splitting mechanism is located above the guiding mechanism. The express delivery label extends outward from the gap between the guiding mechanism and the order splitting mechanism. When the end of the express delivery label passes the end of the order splitting mechanism, the backing paper and the label of the express delivery label begin to separate under the traction of the order dispensing mechanism. In other words, a sorting mechanism is inserted above the guide plate 4 and onto the storage compartment 1. The sorting mechanism is inserted into the slot of the corresponding card block 6. The express delivery label passes through the gap between the guide plate 4 and the sorting mechanism. The redundant backing paper in the express delivery label passes through the movable channel between the silicone roller and the storage compartment 1, and then passes out through the opening between the rolling plate 3 and the storage compartment 1. By pulling the label applicator, the silicone roller rotates, causing the backing paper to pass downwards. At the same time, the backing paper causes the subsequent express delivery labels to move through the gap between the sorting mechanism and the guide plate 4. When the end of the express delivery label reaches the end position of the sorting mechanism and the guide plate 4, the backing paper is bent downwards quickly under the drive of the silicone roller, while the label remains in a forward-moving state under the pressure of the sorting mechanism, thereby separating the backing paper and the label of the express delivery label.
[0046] The order-separating mechanism includes a transparent pressure plate, with its two sides respectively inserted into the two slots. A gap is left between the transparent pressure plate and the guide plate 4 for the express delivery waybill to pass through. In other words, the transparent pressure plate is fixed in the slots, while the gap between it and the guide plate 4 allows the waybill to pass through. As the waybill passes through the gap, the backing paper quickly bends downwards, and under the pressure of the transparent pressure plate, the waybill continues to move forward, gradually separating from the backing paper.
[0047] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.
Claims
1. A split-type handheld express delivery label applicator, characterized in that, include: Storage compartment (1), in which express waybills are stacked and stored, and a handle (2) is provided at the bottom of the storage compartment (1). A guiding mechanism is provided at one end of the storage compartment (1) for the express waybill to pass out through the guiding mechanism; The order issuing mechanism is located below the guide mechanism and is detachably disposed at the end of the storage compartment (1). An active channel is formed between the order issuing mechanism and the guide mechanism for pressing the bottom paper of the express delivery form and driving the bottom paper to pass out from the inside of the order issuing mechanism. And a sorting mechanism, which is located above the guide mechanism. The express waybill passes out through the gap between the guide mechanism and the sorting mechanism. When the end of the express waybill passes the end of the sorting mechanism, the backing paper and the waybill begin to separate under the traction of the order dispensing mechanism.
2. The split-type handheld express waybill label applicator as described in claim 1, characterized in that, The handle (2) is detachably connected to the storage compartment (1).
3. The split-type handheld express waybill label applicator as described in claim 2, characterized in that, The storage compartment (1) has a slot at the bottom and the handle (2) has an insert plate at the top. The insert plate is pushed into the slot to secure the handle (2) to the lower part of the storage compartment (1).
4. The split-type handheld express waybill label applicator as described in claim 1, characterized in that, The guiding mechanism includes a guide plate (4), which is inclinedly arranged at the end of the storage compartment (1), and an arc-shaped guide surface (5) is provided at one end of the guide plate (4) near the center of the storage compartment (1) so that the express waybill can quickly pass through the arc-shaped guide surface (5).
5. The split-type handheld express waybill label applicator as described in claim 4, characterized in that, Two locking blocks (6) are symmetrically arranged above the guide plate (4) and on the storage compartment (1). The two locking blocks (6) are respectively provided with locking slots for securing the single-piece mechanism.
6. The split-type handheld express waybill label applicator as described in claim 5, characterized in that, The slot passes through one end of the card block (6) and the adjacent side of that end, and communicates with the outside. A U-shaped limiting area is formed between the slots of the two corresponding card blocks (6), and the single-slot mechanism is inserted into the limiting area.
7. The split-type handheld express waybill label applicator as described in claim 6, characterized in that, The order sorting mechanism includes a transparent pressure plate, with its two sides respectively inserted into the two slots, and a gap is left between the transparent pressure plate and the guide plate (4) for the express delivery waybill to pass through.
8. The split-type handheld express waybill label applicator as described in claim 1, characterized in that, The order issuing mechanism includes a rolling plate, which is fixed to the end of the storage compartment (1). A toggle is movably provided on the rolling plate. The toggle presses the bottom paper of the express delivery form, and as the toggle rotates, it moves the bottom paper of the express delivery form outward from the outlet between the rolling plate and the storage compartment (1).
9. The split-type handheld express waybill label applicator as described in claim 8, characterized in that, The actuating component includes a silicone roller, which is movably sleeved on a roller. Both ends of the roller pass through the connecting holes (7) opened on both sides of the rolling plate (3), and the silicone roller is exposed at the front end of the rolling plate (3).
10. The split-type handheld express waybill label applicator as described in claim 8 or 9, characterized in that, The rolling plate (3) is provided with plugs on both sides, and the storage compartment (1) is provided with sockets on both sides corresponding to the plugs, and the plugs are inserted into the sockets.