A fully automatic glassware washer and method of using the same

By introducing a stabilizing mechanism and an alignment mechanism into the fully automatic glassware washing machine, and utilizing the coordinated movement of the limiting ring, rubber sheet, and pusher plate, the problem of glassware collision caused by the rotation of the spray bar is solved, achieving higher cleaning and drying efficiency and glassware integrity.

CN122164713APending Publication Date: 2026-06-09BAODING DAHENG ELECTRIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
BAODING DAHENG ELECTRIC TECH CO LTD
Filing Date
2026-04-14
Publication Date
2026-06-09

Smart Images

  • Figure CN122164713A_ABST
    Figure CN122164713A_ABST
Patent Text Reader

Abstract

This invention relates to the field of cleaning equipment technology and discloses a fully automatic glassware washing machine and its usage method. The machine includes a main body and a stabilizing mechanism installed inside the main body. The stabilizing mechanism reduces the impact of water flow on test tubes, preventing collisions. The connecting plate has a groove inside, allowing it to slide during movement. This reduces the upward pulling force on adjacent limiting rings caused by impacts, preventing them from moving properly. The limiting rings and connecting plate also reduce the risk of test tubes tilting, bumping, or breaking under water jet impact, and minimize the possibility of parts of the test tube being covered and difficult to clean due to the limiting rings. This improves the integrity of the glassware during operation of the fully automatic glassware washing machine.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention relates to the field of cleaning equipment technology, specifically to a fully automatic glassware cleaning machine and its usage method. Background Technology

[0002] Fully automatic glassware washing machines are core supporting equipment in scientific research and testing, biomedicine, food quality inspection, environmental monitoring and other scenarios. They can achieve standardized and automated cleaning and drying of glassware, replace manual labor to improve efficiency, ensure cleanliness consistency, reduce glassware breakage and experimental errors, strengthen the foundation of experimental data accuracy and industry compliance, promote the intelligent and green upgrading of laboratories, support the construction of scientific and technological self-reliance, industrial quality upgrading and public safety guarantee system, and are an indispensable basic support equipment for scientific and technological innovation and high-quality development. Most fully automatic glassware washing machines currently rely on an internally rotating spray bar to rinse the glassware in the basket. After rinsing, the machine automatically starts the drying program to complete the cleaning operation. Because the spray bar rotates continuously, the position of the water outlet at the top of the spray bar changes constantly, and the impact point of the water flow on the glassware also changes accordingly. This makes it easy for the glassware to collide with the basket under the impact of the water flow, resulting in damage to the glassware and reducing the integrity of the glassware during the operation of the fully automatic glassware washing machine. Summary of the Invention

[0003] The purpose of this invention is to provide a fully automatic glassware washing machine and its usage method to solve the problems mentioned in the background art.

[0004] To solve the above-mentioned technical problems, the present invention is achieved through the following technical solution: This invention relates to a fully automatic glassware washing machine, comprising a main body and further comprising: The stabilizing mechanism is installed inside the main body. Its operation can reduce the impact of the cleaning water flow on the test tubes. The alignment mechanism is installed on top of the stabilizing mechanism. The operation of the alignment mechanism can reduce the possibility of asynchrony during the operation of the stabilizing mechanism.

[0005] Furthermore, the main body includes: The cleaning component is located inside the main body. The operation of the cleaning component can spray water to clean the test tube. Placement component, which is set on top of the cleaning component.

[0006] Furthermore, stabilizing institutions include: The sliding component is located on top of the placement component, and its operation can stabilize the test tube. A water removal component is located on top of the sliding component.

[0007] Furthermore, the alignment mechanism includes: Synchronization component, which is installed on the side wall of the water removal component; The separation component, located on top of the synchronization component, reduces contact between the test tube and the synchronization component when the test tube is inserted.

[0008] Furthermore, the cleaning assembly includes two water inlet pipes disposed inside the main body, the two water inlet pipes being symmetrically distributed around the main body; One of the water inlet pipes is fixedly connected to the bottom inner wall of the main body, and the other water inlet pipe is fixedly connected to the top inner wall of the main body; A water inlet pipe is fixedly connected to the top of the water inlet pipe, and two placement baskets are set between the two water inlet pipes. The placement baskets are evenly distributed around the main body, and the placement baskets are slidably connected to the inner wall of the main body.

[0009] Furthermore, the placement assembly includes several fixing rods fixedly connected to the bottom inner wall of the placement basket, and the fixing rods are evenly distributed with respect to the water spray pipes; Several stabilizing columns are fixedly connected to the top of the fixed rod, and the stabilizing columns are evenly distributed to place the basket. A placement cylinder is fixedly connected to the back of the stabilizing column, and the bottom of the placement cylinder is fixedly connected to the top of the fixing rod. A baffle plate is installed at the top of the placement cylinder, and the inside of the baffle plate is fixedly connected to the outer surface of the stabilizing column.

[0010] Furthermore, the sliding assembly includes a limiting ring slidably connected to the outer surface of the stabilizing column, and a connecting plate is provided between adjacent limiting rings, with the connecting plate rotatably connected to the side wall of the limiting ring; The connecting plate has a sliding groove inside; The water removal component includes several rubber sheets set on the top of the limiting ring, with the rubber sheets arranged in groups of four and symmetrically distributed around the stabilizing column. One set of rubber sheets at the bottom is fixedly connected to the top of the limiting ring, and another set of rubber sheets is fixedly connected to the bottom of the blocking plate; The sidewall of the rubber sheet is fixedly connected with several teeth, which are evenly distributed around the rubber sheet. The bottom rubber sheet is curled at the end furthest from the limiting ring, and the top rubber sheet is curled at the end furthest from the blocking plate.

[0011] Furthermore, the synchronization component includes a sliding block slidably connected to the side wall of the rubber sheet, a triangular block fixedly connected inside the sliding block, and four connecting pieces arranged between the two sets of sliding blocks, with the four connecting pieces distributed circumferentially around the limiting ring. The top of the connecting piece is fixedly connected to the bottom of the top sliding block, and the bottom of the connecting piece is fixedly connected to the top of the bottom sliding block. The connecting piece is made of rubber.

[0012] Furthermore, the separation assembly includes four contact pieces fixedly connected to the inner wall of the baffle plate, the four contact pieces being circumferentially distributed around the limiting ring; A push plate is fixedly connected to the bottom of the contact piece, and both the contact piece and the push plate are made of rubber.

[0013] Furthermore, a fully automatic glassware washing machine, the method comprising the following steps: S1: Place test tubes: When using, the staff first put the test tubes to be cleaned into the placement tube inside the placement basket. After the test tubes are placed, push the placement basket into the main body. S2: Start the mechanism: Close the main body's hatch and turn on the power. At this time, the main body heats the internal water flow. The hot water is transported to the spray pipe through the inlet pipe and sprayed out. The spray pipe rotates under the reaction force generated by the high-pressure water column. Some of the water flow will enter the test tube through the internal channel of the placement cylinder. S3: Cleaning complete: The simultaneous operation of two water spray pipes reduces cleaning dead spots. After cleaning, the main body dries the internal test tubes, thus completing the test tube cleaning process.

[0014] The present invention has the following beneficial effects: 1. In this invention, when the water jet directly impacts the bottom of the limiting ring, the limiting ring slides upward under the impact of the water flow. The movement of the limiting ring drives the adjacent limiting rings to move synchronously through the setting of the connecting plate. Since the connecting plate has a sliding groove inside, it can slide to a certain extent when the connecting plate moves, thereby reducing the upward pulling force on the adjacent limiting rings under the impact of the limiting ring, which would prevent them from moving normally. The setting of the limiting ring and the connecting plate can reduce the possibility of test tubes tilting and breaking under the impact of the water jet, and reduce the possibility of parts of the test tube being covered and difficult to clean due to the setting of the limiting ring, thereby improving the integrity of the glassware during the operation of the fully automatic glassware washing machine.

[0015] 2. In this invention, the limiting ring slides downwards after the impact disappears. Simultaneously, the rubber sheet in contact with the test tube surface provides a downward pushing force to the limiting ring when the bottom pushing force disappears. Due to the reset of the limiting ring and the rubber sheet, and the water droplets remaining on the outer surface of the test tube after cleaning, a water film may form in the gap between the rubber sheet and the test tube. When the rubber sheet pushes the limiting ring downwards, the part of its top that was squeezed and curled will reset due to the disappearance of pressure. The reset of the top of the rubber sheet will provide an outward traction force to the water film between the rubber sheet and the test tube, reducing the presence of the water film between the rubber sheet and the test tube, thereby improving the drying efficiency of the fully automatic glassware washing machine during drying.

[0016] 3. In this invention, when the limiting ring is reset, the triangular block inside the sliding block will contact and squeeze the teeth on the side wall of the rubber sheet. At this time, the rubber sheet will vibrate under the squeezing action of the teeth and the triangular block. The vibration of the rubber sheet will shake off the water droplets on the surface of the rubber sheet, thereby accelerating the removal speed of the water film in the gap. Due to the setting of the sliding block and the connecting piece, the impact of the water jet sprayed from the top water pipe on the rubber sheet when it rotates is reduced. This may cause the bottom rubber sheet and the top rubber sheet to curl together and deviate in contact position when they come into contact, thereby improving the consistency of the rubber sheet running direction during the operation of the fully automatic glassware washing machine.

[0017] 4. In this invention, when the sliding block moves upward under the push of the limiting ring, the top sliding block will push the pushing plate. The movement of the pushing plate will cause the contact plate to deform again in the direction away from the test tube. At this time, the contact plate will gradually move away from the surface of the test tube under the push of the pushing plate, thereby maintaining the cleaning force of the water flow on the surface of the test tube. Due to the setting of the contact plate and the pushing plate, the problem of the rubber sheet not being able to deform normally after being driven by the test tube is reduced, and the stability of the rubber sheet movement is improved when the fully automatic glassware washing machine is in operation.

[0018] Of course, any product implementing this invention does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. 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 the present invention; Figure 2 This is a schematic diagram of the main body of the invention; Figure 3 This is a schematic diagram of the overall partial structure of the present invention; Figure 4 For the present invention Figure 3 Enlarged diagram of A in the middle; Figure 5 This is a schematic diagram of the sliding component of the present invention; Figure 6 This is a schematic diagram of the water removal component of the present invention; Figure 7 This is a partial anatomical diagram of the synchronization component of the present invention; Figure 8 This is a schematic diagram of the separation component of the present invention; Figure 9 This is a flowchart of the method of using the present invention.

[0021] The attached diagram lists the components represented by each number as follows: In the diagram: 1. Main body; 11. Cleaning component; 111. Water inlet pipe; 112. Water spray pipe; 113. Placement basket; 12. Placement component; 121. Fixing rod; 122. Stabilizing column; 123. Placement cylinder; 124. Baffle plate; 2. Stabilizing mechanism; 21. Sliding component; 211. Limiting ring; 212. Connecting plate; 213. Slide groove; 22. Water removal component; 221. Rubber sheet; 222. Tooth; 3. Alignment mechanism; 31. Synchronization component; 311. Sliding block; 312. Triangular block; 313. Connecting piece; 32. Separation component; 321. Contact piece; 322. Pushing piece. Detailed Implementation

[0022] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0023] Please see Figure 1 - Figure 9 As shown, the present invention is a fully automatic glassware washing machine, including a main body 1, and further comprising: Stabilizing mechanism 2 is installed inside the main body 1. The operation of stabilizing mechanism 2 can reduce the collision of test tubes when subjected to the impact of the cleaning water flow. Alignment mechanism 3 is installed on top of stabilization mechanism 2. The operation of alignment mechanism 3 can reduce the possibility of asynchrony during operation of stabilization mechanism 2.

[0024] Entity 1 includes: The cleaning component 11 is located inside the main body 1. The operation of the cleaning component 11 can spray water to clean the test tube. Placement component 12 is positioned on top of cleaning component 11.

[0025] Stabilizing agency 2 includes: The sliding component 21 is located on top of the placement component 12, and the operation of the sliding component 21 can stabilize the test tube. Water removal component 22 is disposed on top of sliding component 21.

[0026] Alignment mechanism 3 includes: Synchronization component 31 is disposed on the side wall of water removal component 22; Separation component 32 is located on top of synchronization component 31. The operation of separation component 32 can reduce contact between the test tube and synchronization component 31 when the test tube is inserted.

[0027] The cleaning assembly 11 includes two water inlet pipes 111 disposed inside the main body 1, and the two water inlet pipes 111 are symmetrically distributed about the main body 1. One of the water inlet pipes 111 is fixedly connected to the bottom inner wall of the main body 1, and the other water inlet pipe 111 is fixedly connected to the top inner wall of the main body 1. A water inlet pipe 111 is fixedly connected to a water spray pipe 112. Two placement baskets 113 are set between the two water spray pipes 112. The placement baskets 113 are evenly distributed around the main body 1. The placement baskets 113 are slidably connected to the inner wall of the main body 1. First, the staff puts the test tubes to be cleaned into the placement cylinders 123 inside the placement baskets 113. After the test tubes are placed, the placement baskets 113 are pushed into the main body 1, the hatch of the main body 1 is closed, and the power is turned on.

[0028] The placement component 12 includes a plurality of fixing rods 121 fixedly connected to the bottom inner wall of the placement basket 113, and the plurality of fixing rods 121 are evenly distributed with respect to the water spray pipes 112; Several stabilizing columns 122 are fixedly connected to the top of the fixing rod 121, and the several stabilizing columns 122 are evenly distributed to place the basket 113; A placement cylinder 123 is fixedly connected to the back of the stabilizing column 122, and the bottom of the placement cylinder 123 is fixedly connected to the top of the fixing rod 121. A baffle plate 124 is provided on the top of the placement cylinder 123. The interior of the baffle plate 124 is fixedly connected to the outer surface of the stabilizing column 122. Some water will enter the test tube through the internal channel of the placement cylinder 123. The water spray pipe 112 rotates under the reaction force generated by the high-pressure water column. The simultaneous operation of the two water spray pipes 112 can reduce cleaning dead corners.

[0029] The sliding assembly 21 includes a limiting ring 211 that is slidably connected to the outer surface of the stabilizing column 122, and a connecting plate 212 is provided between adjacent limiting rings 211. The connecting plate 212 is rotatably connected to the side wall of the limiting ring 211. The connecting plate 212 has a sliding groove 213 inside; The water removal component 22 includes several rubber sheets 221 disposed on the top of the limiting ring 211, with the rubber sheets 221 arranged in groups of four and symmetrically distributed around the stabilizing column 122. One set of rubber sheets 221 at the bottom is fixedly connected to the top of the limiting ring 211, and another set of rubber sheets 221 is fixedly connected to the bottom of the baffle plate 124. The sidewall of the rubber sheet 221 is fixedly connected with a number of teeth 222, and the teeth 222 are evenly distributed around the rubber sheet 221. The bottom rubber sheet 221 is curled at the end away from the limiting ring 211, and the top rubber sheet 221 is curled at the end away from the blocking plate 124. The movement of the connecting plate 212 will cause the limiting rings 211 on both sides to slide upward on the stabilizing column 122. When the limiting rings 211 move upward, the rubber sheet 221 will deform to a certain extent, thereby covering the test tube to stabilize it.

[0030] Synchronization component 31 includes a sliding block 311 slidably connected to the side wall of rubber sheet 221. A triangular block 312 is fixedly connected inside the sliding block 311. Four connecting pieces 313 are arranged between the two sets of sliding blocks 311. The four connecting pieces 313 are circumferentially distributed with the limiting ring 211 as the center. The top of the connecting piece 313 is fixedly connected to the bottom of the top sliding block 311, and the bottom of the connecting piece 313 is fixedly connected to the top of the bottom sliding block 311. The connecting piece 313 is made of rubber. When the sliding blocks 311 approach each other, the connecting piece 313 between them will deform first, and the middle part of the connecting piece 313 will move towards the test tube. The deformed part of the connecting piece 313 will squeeze the contact point of the rolled rubber sheet 221.

[0031] The separation assembly 32 includes four contact pieces 321 fixedly connected to the inner wall of the baffle plate 124, and the four contact pieces 321 are circumferentially distributed around the limiting ring 211. A pusher plate 322 is fixedly connected to the bottom of the contact piece 321. Both the contact piece 321 and the pusher plate 322 are made of rubber. The deformation of the contact piece 321 will drive the pusher plate 322 at the bottom to move synchronously. The bottom of the pusher plate 322 will contact the tooth 222 and generate a certain pushing force.

[0032] A fully automatic glassware washing machine, the method comprising the following steps: S1: Place test tubes: When using, the staff first put the test tubes to be cleaned into the placement tube 123 inside the placement basket 113. After the test tubes are placed, the placement basket 113 is pushed into the main body 1. S2: Start the machinery: Close the hatch of the main body 1 and turn on the power. At this time, the main body 1 heats the internal water flow. The hot water is transported to the spray pipe 112 through the water inlet pipe 111 and sprayed out. The spray pipe 112 rotates under the reaction force generated by the high pressure water column. Some of the water flow will enter the test tube through the internal channel of the placement cylinder 123. S3: Cleaning complete: The simultaneous operation of the two water spray pipes 112 can reduce cleaning dead spots. After cleaning, the main body 1 dries the internal test tubes, thus completing the test tube cleaning process.

[0033] In use, the staff first place the test tubes to be cleaned onto the placement cylinder 123 inside the placement basket 113. After the test tubes are placed, the placement basket 113 is pushed into the main body 1, the hatch of the main body 1 is closed, and the power is turned on. At this time, the main body 1 heats the internal water flow. The hot water is delivered to the spray pipe 112 through the water inlet pipe 111 and sprayed out. Some of the water flow will enter the test tube through the internal channel of the placement cylinder 123. The spray pipe 112 rotates under the reaction force generated by the high-pressure water column. The simultaneous operation of the two spray pipes 112 can reduce the cleaning dead corners. After cleaning, the main body 1 dries the internal test tubes, thus completing the test tube cleaning process.

[0034] When the water spray pipe 112 sprays out a high-pressure water jet and rotates, the rotation of the water spray pipe 112 causes the water jet to impact the bottom of the connecting plate 212 located at the top of the bottom water spray pipe 112. The impact of the water flow causes the connecting plate 212 to move upward. The movement of the connecting plate 212 causes the limiting rings 211 on both sides to slide upward on the stabilizing column 122. When the limiting rings 211 move upward, the rubber sheet 221 will deform to a certain extent, thereby covering the test tube to stabilize it. At the same time, due to the upward movement of the limiting rings 211, the test tube that was originally covered by the limiting rings 211 is exposed. Meanwhile, the water flow impacting the connecting plate 212 will be diverted to both sides by the arc-shaped setting of the connecting plate 212 to re-rinse the part of the test tube that was originally covered. When the water jet directly impacts the bottom of the connecting plate 212, the water flow will be diverted to both sides to re-rinse the part of the test tube that was originally covered. When the limiting ring 211 is at the bottom, it will slide upward under the impact of the water flow. The movement of the limiting ring 211 will drive the adjacent limiting rings 211 to move synchronously through the setting of the connecting plate 212. Since the connecting plate 212 has a sliding groove 213 inside, it can slide to a certain extent when the connecting plate 212 moves, thereby reducing the upward pulling force on the adjacent limiting rings 211 under the impact of the limiting rings 211, which would prevent them from moving normally. The setting of the limiting rings 211 and the connecting plate 212 can reduce the possibility of test tubes tilting and breaking under the impact of the water column, and reduce the possibility of test tubes being covered and difficult to clean due to the setting of the limiting rings 211, thereby improving the integrity of the glassware during the operation of the fully automatic glassware washing machine.

[0035] When the limiting ring 211 moves upward, it drives the top rubber sheet 221 to move upward. When the rubber sheet 221 contacts the bottom rubber sheet 221 of the top baffle plate 124, the two rubber sheets 221, under the pushing force of the limiting ring 211 and the blocking effect of the top baffle plate 124, move closer to and contact the outer surface of the test tube. At the same time, the ends of the rubber sheets 221 that are close to each other will continue to roll up in the rolling direction under the guidance of their own curling, the blocking effect of the outer surface of the test tube, and the pushing force of the bottom limiting ring 211. While the rubber sheets 221 are curling, they will contact and stabilize the test tube. When the water flow at the bottom moves away under the rotation of the spray pipe 112, the limiting ring 211 will slide downward after the impact disappears. Meanwhile, the rubber sheet 221 in contact with the test tube surface will provide a downward pushing force to the limiting ring 211 when the bottom pushing force disappears. Due to the reset of the limiting ring 211 and the rubber sheet 221, and the water droplets remaining on the outer surface of the test tube after cleaning, a water film may form in the gap between the rubber sheet 221 and the test tube. When the limiting ring 211 is pushed downward, the part of the rubber sheet 221 that was squeezed and curled at the top will reset due to the disappearance of pressure. The reset of the top of the rubber sheet 221 will provide an outward traction force to the water film between the rubber sheet 221 and the test tube, reducing the presence of the water film between the rubber sheet 221 and the test tube, thereby improving the drying efficiency of the fully automatic glassware washing machine during drying.

[0036] When the limiting ring 211 moves upward, causing the rubber sheets 221 to approach each other and begin to curl, the sliding block 311 slides on the side wall of the rubber sheet 221. When the limiting ring 211 and the baffle plate 124 approach each other, the two sliding blocks 311 move synchronously. When the sliding blocks 311 approach each other, the connecting piece 313 between them deforms first, and the middle part of the connecting piece 313 moves towards the test tube. The deformed part of the connecting piece 313 squeezes the contact point of the curled rubber sheet 221. At this time, the curled part at the top of the rubber sheet 221 curls again under the pressure of the connecting piece 313, thereby increasing the rotational force when the curled part of the rubber sheet 221 returns to its original position, thus improving the ability to clean the water film in the gap. At the same time, the synchronous movement of the sliding block 311 and the connecting piece 313 can limit the unnecessary deformation when the rubber sheet 221 contacts each other and curls up. To maintain stability, when the limiting ring 211 is reset, the triangular block 312 inside the sliding block 311 will contact and squeeze the teeth 222 on the side wall of the rubber sheet 221. At this time, the rubber sheet 221 will vibrate under the squeezing action of the teeth 222 and the triangular block 312. The vibration of the rubber sheet 221 will shake off the water droplets on the surface of the rubber sheet 221, thereby accelerating the removal speed of the gap water film. Due to the setting of the sliding block 311 and the connecting piece 313, the impact of the water jet sprayed out by the top water spray pipe 112 on the rubber sheet 221 when it rotates is reduced. This may cause the part of the bottom rubber sheet 221 and the top rubber sheet 221 that are curled to contact to deviate from the contact position, thereby improving the consistency of the running direction of the rubber sheet 221 during the operation of the fully automatic glassware washing machine.

[0037] When the test tube is inserted, the curvature of the contact piece 321 initially corrects the position of the test tube. As the test tube continues to be inserted, the bottom of the test tube presses against the contact piece 321. Under this pressure, the contact piece 321 deforms downwards. This deformation causes the bottom pushing piece 322 to move synchronously. The bottom of the pushing piece 322 contacts the teeth 222, generating a pushing force. At this time, the rubber sheet 221 rotates slightly away from the test tube, thus reducing the contact between the bottom of the test tube and the curled part of the rubber sheet 221 on the top of the baffle plate 124 when the test tube is inserted, and causing... When the curled part is open, as the sliding block 311 moves upward under the push of the limiting ring 211, the top sliding block 311 will push the pushing piece 322. The movement of the pushing piece 322 will cause the contact piece 321 to deform again in the direction away from the test tube. At this time, the contact piece 321 will gradually move away from the surface of the test tube under the push of the pushing piece 322, thereby maintaining the cleaning force of the water flow on the surface of the test tube. Due to the setting of the contact piece 321 and the pushing piece 322, the problem that the subsequent deformation of the rubber piece 221 cannot proceed normally after being driven by the test tube is reduced, and the stability of the movement of the rubber piece 221 during the operation of the fully automatic glassware washing machine is improved.

[0038] The preferred embodiments of the present invention disclosed above are merely illustrative of the invention. These preferred embodiments do not exhaustively describe all details, nor do they limit the invention to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of the invention, thereby enabling those skilled in the art to better understand and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A fully automatic glassware washing machine, comprising a main body (1), characterized in that, Also includes: Stabilizing mechanism (2), which is installed inside the main body (1), can reduce the collision of test tubes when subjected to the impact of the cleaning water flow; Alignment mechanism (3) is installed on top of stabilization mechanism (2). The operation of alignment mechanism (3) can reduce the asynchronous operation of stabilization mechanism (2).

2. The fully automatic glassware washing machine according to claim 1, characterized in that: The main body (1) includes: The cleaning component (11) is located inside the main body (1). The operation of the cleaning component (11) can spray water to clean the test tube. Placement component (12) is disposed on top of cleaning component (11).

3. The fully automatic glassware washing machine according to claim 2, characterized in that: The stabilizing mechanism (2) includes: The sliding component (21) is disposed on top of the placement component (12), and the operation of the sliding component (21) can stabilize the test tube; A water removal component (22) is disposed on top of the sliding component (21).

4. The fully automatic glassware washing machine according to claim 3, characterized in that: The alignment mechanism (3) includes: Synchronization component (31), wherein the synchronization component (31) is disposed on the side wall of the water removal component (22); A separation component (32) is disposed on top of a synchronization component (31). The operation of the separation component (32) can reduce contact between the test tube and the synchronization component (31) when the test tube is inserted.

5. The fully automatic glassware washing machine according to claim 4, characterized in that: The cleaning assembly (11) includes two water inlet pipes (111) disposed inside the main body (1), and the two water inlet pipes (111) are symmetrically distributed with the main body (1) as the center; One of the water inlet pipes (111) is fixedly connected to the bottom inner wall of the main body (1), and the other water inlet pipe (111) is fixedly connected to the top inner wall of the main body (1); The top of the water inlet pipe (111) is fixedly connected to a water spray pipe (112), and two placement baskets (113) are arranged between the two water spray pipes (112). The placement baskets (113) are evenly distributed around the main body (1), and the placement baskets (113) are slidably connected to the inner wall of the main body (1).

6. The fully automatic glassware washing machine according to claim 5, characterized in that: The placement assembly (12) includes a plurality of fixing rods (121) fixedly connected to the bottom inner wall of the placement basket (113), and the plurality of fixing rods (121) are equidistantly distributed with respect to the water spray pipes (112); The top of the fixed rod (121) is fixedly connected to several stabilizing columns (122), which are evenly distributed to place the basket (113); The back of the stabilizing column (122) is fixedly connected to a placement cylinder (123), and the bottom of the placement cylinder (123) is fixedly connected to the top of the fixing rod (121). A baffle plate (124) is provided on the top of the placement cylinder (123), and the interior of the baffle plate (124) is fixedly connected to the outer surface of the stabilizing column (122).

7. The fully automatic glassware washing machine according to claim 6, characterized in that: The sliding assembly (21) includes a limiting ring (211) slidably connected to the outer surface of the stabilizing column (122), and a connecting plate (212) is provided between adjacent limiting rings (211), and the connecting plate (212) is rotatably connected to the side wall of the limiting ring (211). The connecting plate (212) has a sliding groove (213) inside; The water removal component (22) includes several rubber sheets (221) disposed on the top of the limiting ring (211), and the several rubber sheets (221) are arranged in groups of four symmetrically distributed around the stabilizing column (122). One set of rubber sheets (221) at the bottom is fixedly connected to the top of the limiting ring (211), and another set of rubber sheets (221) is fixedly connected to the bottom of the baffle plate (124); The sidewall of the rubber sheet (221) is fixedly connected with a plurality of teeth (222), and the plurality of teeth (222) are equidistantly distributed with respect to the rubber sheet (221); The bottom rubber sheet (221) is curled at one end away from the limiting ring (211), and the top rubber sheet (221) is curled at one end away from the blocking plate (124).

8. The fully automatic glassware washing machine according to claim 7, characterized in that: The synchronization component (31) includes a sliding block (311) slidably connected to the side wall of the rubber sheet (221), a triangular block (312) is fixedly connected inside the sliding block (311), and four connecting pieces (313) are arranged between the two sets of sliding blocks (311), with the four connecting pieces (313) distributed circumferentially around the limiting ring (211). The top of the connecting piece (313) is fixedly connected to the bottom of the top sliding block (311), and the bottom of the connecting piece (313) is fixedly connected to the top of the bottom sliding block (311).

9. A fully automatic glassware washing machine according to claim 5, characterized in that: The separation component (32) includes four contact pieces (321) fixedly connected to the inner wall of the baffle plate (124), and the four contact pieces (321) are circumferentially distributed around the limiting ring (211); A pusher piece (322) is fixedly connected to the bottom of the contact piece (321).

10. A method of using a fully automatic glassware washing machine, characterized in that: The method of using a fully automatic glassware washing machine as described in claim 6 includes the following steps: S1: Place test tubes: When using, the staff first put the test tubes to be cleaned into the placement tube (123) inside the placement basket (113). After the test tubes are placed, the placement basket (113) is pushed into the main body (1). S2: Start the machinery: Close the hatch of the main body (1) and start the power. At this time, the main body (1) heats the internal water flow. The hot water is transported to the spray pipe (112) through the inlet pipe (111) and sprayed out. The spray pipe (112) rotates under the reaction force generated by the high pressure water column. Some of the water flow will enter the test tube through the internal channel of the placement cylinder (123). S3: Cleaning complete: The simultaneous operation of two water spray pipes (112) can reduce cleaning dead angles. After cleaning, the main body (1) dries the internal test tubes, thus completing the test tube cleaning process.