CN216232492U - Microcrystalline glass transfer car (buggy) - Google Patents
Microcrystalline glass transfer car (buggy) Download PDFInfo
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- CN216232492U CN216232492U CN202122585781.3U CN202122585781U CN216232492U CN 216232492 U CN216232492 U CN 216232492U CN 202122585781 U CN202122585781 U CN 202122585781U CN 216232492 U CN216232492 U CN 216232492U
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Abstract
The utility model is suitable for the technical field of microcrystalline glass processing, and provides a microcrystalline glass transfer trolley which comprises a trolley frame, an opening and closing assembly and a locking assembly; the frame is provided with a plurality of brackets, one side of each bracket is provided with a baffle plate with one end hinged to the frame, and the bracket is provided with a support plate used for bearing the microcrystalline glass; the opening and closing assembly comprises a long connecting rod and a plurality of first connecting rods, the long connecting rod is hinged to the frame, one ends of the first connecting rods are hinged to the long connecting rod, and the other ends of the first connecting rods are respectively connected with the adjacent baffle plates in a sliding mode; the locking component is fixed on the long connecting rod and can clamp the long connecting rod on the frame; the utility model has the advantages of this application structure is succinct, and the operation of being convenient for can once only open or close all baffles, has simplified the complicated process that the support plate was taken, sets up the space simultaneously between adjacent support plate, has effectively guaranteed the ventilation of microcrystalline glass crystallization in-process, has guaranteed crystallization quality.
Description
Technical Field
The utility model belongs to the technical field of microcrystalline glass processing, and particularly relates to a microcrystalline glass transfer trolley.
Background
The crystallization process of the microcrystalline glass has long time, the temperature is up to over 600 ℃, the temperature rise and temperature control requirements of crystallization are high, and the crystallization furnace needs to be pressurized and blown in the industrialized crystallization process so as to improve the accuracy of temperature control and the crystallization quality. In the process, the microcrystalline glass is transported and pressurized and blown to be fixed on the carrier plate.
The layer frame of the existing transfer frame adopts a closed concave mode, and the integral carrier plate is placed in a concave groove of the layer frame. The technical scheme has inconvenient operation and low efficiency when the carrier plate is placed on the shelf or taken out; meanwhile, the structure of the transfer frame is not beneficial to heat circulation and the crystallization quality of glass, and is also not beneficial to large-scale batch production and low in production efficiency.
SUMMERY OF THE UTILITY MODEL
Aiming at the problems, the utility model provides a microcrystalline glass transfer trolley, which at least solves the problem that the carrier plate of the transfer rack and microcrystalline glass in the prior art are inconvenient to take.
The application provides a microcrystalline glass transfer trolley which comprises a trolley frame, an opening and closing assembly and a locking assembly;
the frame is provided with a plurality of brackets, the brackets are sequentially arranged along the height direction of the frame, one end of each bracket is an open end, a carrier plate is placed on each bracket and used for bearing microcrystalline glass, and the open end of each bracket is provided with a baffle, one end of the baffle is hinged to the frame;
the opening and closing assembly comprises a long connecting rod and a plurality of first connecting rods, the long connecting rods are hinged to the frame, one end of each first connecting rod is hinged to the long connecting rod, the other end of each first connecting rod is connected with the adjacent baffle in a sliding mode, the long connecting rods can slide along the height direction of the frame, and the first connecting rods drive the corresponding baffles to turn over so that the baffles close or open the opening ends of the brackets;
the locking assembly is fixedly connected to the long connecting rod, and the locking assembly can clamp the long connecting rod on the frame.
The embodiment provides a microcrystalline glass transfer trolley, utilize baffle cooperation bracket backplate to be fixed in the bracket with the support plate on, utilize the mechanism that opens and shuts that long connecting rod and first connecting rod are constituteed, can realize the synchro control to a plurality of baffles, utilize locking Assembly to fix a position long connecting rod, thereby guarantee that the baffle can stand and fix the support plate, the embodiment has guaranteed the fixed of microcrystalline glass crystallization in-process, simultaneously can also very convenient when needing to take out open all baffles simultaneously and take out the support plate, the process of taking of support plate has been simplified.
In one embodiment, the locking assembly includes a latch and a locking lug;
the locking support lug is fixed on the frame, the bolt is connected to the long connecting rod in a sliding mode, and one end of the bolt can slide into the locking support lug.
The embodiment provides a locking Assembly's concrete structure, is convenient for be fixed in the eminence with long connecting rod, guarantees that the baffle can be with the stable fixing on the bracket of support plate.
In one embodiment, the locking assembly further comprises a limiting block fixed on the frame, and the limiting block is located on one side, away from the bolt, of the locking lug.
In one embodiment, the long connecting rod is provided with a groove, and the bolt is slidably arranged in the groove.
This embodiment provides a carry out spacing structure to the bolt, the effectual condition that has prevented that the bolt from deviating from in getting into the locking journal stirrup, also can prevent simultaneously that the bolt from getting into the condition that the locking journal stirrup was not convenient for take out completely.
In one embodiment, a connecting piece is fixed on one side of the baffle plate, a sliding groove is formed in the connecting piece, and the sliding groove extends along the height direction of the frame;
one end of the first connecting rod is hinged with a sliding rotating shaft, and the sliding rotating shaft is arranged in the sliding groove in a sliding mode.
The embodiment provides a mode that utilizes keyway structure to realize that first connecting rod and baffle link to each other, and this structure is compared in direct articulated, improves the holistic smooth degree of structure, has avoided the dead point through connecting rod hinge department to lead to the not smooth condition of structure operation inadequately.
In an embodiment, the opening and closing assembly further comprises a second connecting rod, one end of the second connecting rod is hinged to the long connecting rod, and the other end of the second connecting rod is hinged to the frame.
The four-bar linkage structure that this embodiment utilized the second connecting rod to form restricts the axial motion of long connecting rod along the stand, compares in the slide rail, and the four-bar linkage can possess better stability and life under the environment of lasting high temperature, also can guarantee the smooth motion of long connecting rod.
In one embodiment, the opening and closing assembly further comprises a rotating lug and a first rotating shaft;
the rotating support lug is fixed on the frame, one end of the first rotating shaft is fixed at one end of the second connecting rod, and the other end of the first rotating shaft is hinged in the rotating support lug.
This embodiment provides a specific setting mode of second connecting rod, has still guaranteed the dismantlement and the change that the second connecting rod can be convenient when guaranteeing that the second connecting rod normally works smoothly.
In one embodiment, the opening and closing assembly further comprises a second rotating shaft and a third rotating shaft;
the second connecting rod with it is articulated each other through the second pivot between the long connecting rod, first connecting rod with it is articulated each other through the third pivot between the baffle.
In an embodiment, the frame, the bracket, the long connecting rod, the rotating lug, the first rotating shaft, the second connecting rod, the first connecting rod, the connecting piece, the sliding rotating shaft, the baffle, the bolt, the limiting block and the locking lug are all made of high-temperature-resistant stainless steel.
In an embodiment, the carrier is a graphite carrier or a silicon carbide carrier.
The inconvenient problem of taking of transport frame support plate and microcrystalline glass among the prior art of this application makes the improvement, has following beneficial effect:
1. the baffle plates are hinged to one side of each layer of the bracket, so that the carrier plate can be conveniently taken, the baffle plates are connected through the opening and closing assembly, so that the baffle plates can be opened and closed at the same time, the opening and closing of the baffle plates and the taking of the carrier plate are more convenient, and meanwhile, the baffle plates are positioned by the locking device, so that the carrier plate cannot be displaced or fall off in the crystallizing process of the microcrystalline glass;
2. the opening and closing assembly is arranged into a connecting rod transmission structure, so that the complexity of the structure is reduced, the opening and closing device can still effectively realize the transmission effect from a long connecting rod to the baffle after continuous high-temperature crystallization operation, the stability of the structure is ensured, and the structure is also ensured to have longer service life;
3. the plurality of brackets are stacked, and gaps are formed between every two adjacent brackets, so that gaps exist between every two adjacent carrier plates, air circulation is facilitated, and the crystallization quality can be effectively improved;
the utility model has the advantages of this application structure is succinct, and the operation of being convenient for can once only open or close all baffles, has simplified the complicated process that the support plate was taken, sets up the space simultaneously between adjacent support plate, has effectively guaranteed the ventilation of microcrystalline glass crystallization in-process, has guaranteed crystallization quality.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.
Fig. 1 is a schematic front view of a crystallized glass transfer vehicle according to an embodiment of the present disclosure.
Fig. 2 is a schematic sectional view at a-a in the crystallized glass transfer vehicle shown in fig. 1.
Fig. 3 is an enlarged view of the microcrystalline glass transfer car shown in fig. 1 at B.
Fig. 4 is an enlarged view of the microcrystalline glass transfer car shown in fig. 1 at C.
The designations in the figures mean:
1. a frame; 11. a bracket; 12. a baffle plate;
2. an opening and closing assembly; 21. a long connecting rod; 22. a first link; 23. a second link; 24. a connecting member; 241. a chute; 25. a sliding shaft; 26. rotating the support lug; 27. a first rotating shaft; 28. a second rotating shaft; 29. a third rotating shaft;
3. a locking assembly; 31. a bolt; 32. locking the support lug; 33. a limiting block; 34. and (4) a groove.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings, which are examples. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.
In the description of the present invention, it is to be understood that the terms "length", "width", "up", "down", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.
In order to explain the technical solution of the present invention, the following description is made with reference to the specific drawings and examples.
Referring to fig. 1 and 2, in the embodiment, a baffle plate 12 is arranged beside each layer of bracket 11, the opening and closing of a plurality of baffle plates 12 is realized through the opening and closing assembly 2, the taking steps of the carrier plate and the microcrystalline glass are simplified, and a locking device is arranged to position the plurality of baffle plates 12, so that the baffle plates 12 can position the carrier plate.
The embodiment of the application provides a microcrystalline glass transfer car (buggy), including frame 1, frame 1 is used for providing fixed basis for follow-up structure, frame 1 is the space frame structure, frame 1 specifically includes underframe and top frame, link to each other through the stand between underframe and the top frame, underframe and top frame are plane square frame structure, the underframe four corners all is fixed with the stand, the stand other end is fixed in top frame four corners, the underframe is kept away from top frame one end and still is equipped with the wheel to frame 1 removes.
Be equipped with a plurality of brackets 11 on the frame 1, a plurality of brackets 11 are located between underframe and the top frame, and a plurality of brackets 11 set gradually along frame 1 direction of height, have the space between the adjacent bracket 11, and the support plate is placed on bracket 11, and the support plate is used for bearing microcrystalline glass, and the support plate all can and air contact from top to bottom, has increased draught area to better assurance microcrystalline glass crystallization quality.
Referring to fig. 1, 2 and 3, one side of each bracket 11 is provided with a baffle plate 12, one end of each baffle plate is hinged to the vehicle frame 1, each bracket 11 is also of a planar square frame structure, guard plates are fixed on three surfaces of each bracket 11, the other surface of each bracket is hinged to the baffle plate 12, and the baffle plates 12 are matched to form a four-surface fixing structure when being turned upwards and erected, so that the carrier plate is fixed on the brackets 11, the positioning of the carrier plate is realized, and when the carrier plate needs to be taken out, the baffle plates 12 can be turned down, and the carrier plate can be pulled out along gaps at the positions of the baffle plates 12.
The microcrystalline glass transfer trolley further comprises an opening and closing assembly 2, the opening and closing assembly 2 is used for controlling the opening and closing states of the baffle plates 12, the opening and closing assembly 2 comprises a long connecting rod 21 and a plurality of first connecting rods 22, the long connecting rod 21 is connected to the trolley frame 1 in a sliding mode, one ends of the first connecting rods 22 are hinged to the long connecting rod 21, the other ends of the first connecting rods 22 are respectively connected with the adjacent baffle plates 12 in a sliding mode, the long connecting rod 21 can slide axially along the upright column, when the long connecting rod 21 is close to the top frame, namely the long connecting rod 21 is located at a high position, the baffle plates 12 are in an upward overturning state under the traction of the corresponding first connecting rods 22, the baffle plates 12 can be fixed on the brackets 11 in a matching mode with the protective plates at the moment, when the long connecting rod 21 is close to the bottom frame, namely the long connecting rod 21 is located at a low position, the baffle plates 12 lose the traction of the corresponding first connecting rods 22 and overturn downwards under the action of gravity, and a user can take the support plates out of the brackets 11 at the moment.
Be provided with two sets of subassemblies 2 that open and shut on frame 1, be provided with two long connecting rods 21 promptly, two long connecting rods 21 are located baffle 12 both sides respectively, and the both ends of every baffle 12 link to each other through first connecting rod 22 and two long connecting rods 21 respectively, and the setting can guarantee the balance and the stability of structure, the better upset of control baffle 12 of being convenient for.
The microcrystalline glass transfer trolley further comprises a locking assembly 3, the locking assembly 3 is fixed on the long connecting rod 21, the locking assembly 3 can clamp the long connecting rod 21 on the trolley frame 1, the locking assembly 3 is mainly used for fixing the long connecting rod 21 on the trolley frame 1 when the long connecting rod 21 is located at a high position, so that the long connecting rod 21 can enable the baffle plate 12 to stand up through the first connecting rod 22, the carrier plate is fixed on the bracket 11 and is prevented from sliding off, and the locking assembly 3 can be a lock with a lock head, a bolt 31 or other common locking assemblies 3.
The embodiment provides a microcrystalline glass transfer trolley, a carrier plate can be fixed on a bracket 11 by utilizing a baffle plate 12 to be matched with a bracket 11 protection plate, an opening and closing assembly 2 consisting of a long connecting rod 21 and a first connecting rod 22 can be utilized to realize synchronous control on a plurality of baffle plates 12, and the long connecting rod 21 is positioned by utilizing a locking assembly 3, so that the baffle plate 12 can stand up and fix the carrier plate.
Referring to fig. 1 and 3, in an embodiment, the opening and closing assembly 2 further includes a second connecting rod 23, one end of the second connecting rod 23 is hinged to the long connecting rod 21, and the other end of the second connecting rod 23 is hinged to the frame 1, and under the limit of the second connecting rod 23, the up-and-down movement track of the long connecting rod 21 is changed into an arc shape.
In order to ensure the stability of the up-and-down movement of the long connecting rod 21, the two ends of the long connecting rod 21 are hinged with the second connecting rods 23, and the other ends of the two second connecting rods 23 are hinged with the frame 1 to form a four-bar mechanism, so that the long connecting rod 21 has a determined movement track, and the long connecting rod 21 drives the baffle 12 to turn over through the connected first connecting rod 22.
In this embodiment, the four-bar linkage structure formed by the two second connecting bars 23 and the long connecting bar 21 cooperating with the column limits the axial movement of the long connecting bar 21 along the column, and compared with the slide rail, the four-bar linkage structure can have better stability and service life in a continuous high-temperature environment, and can also ensure the smooth movement of the long connecting bar 21.
Referring to fig. 1 and 3, in an embodiment, the opening and closing assembly 2 further includes a rotation lug 26 and a first rotation shaft 27, and the rotation lug 26 is fixed on the frame 1.
One end of first pivot 27 is fixed in the one end of second connecting rod 23, and first pivot 27 rotates and can drive second connecting rod 23 synchronous rotation, and the one end of first pivot 27 articulates in rotating journal stirrup 26, and the other end of first pivot 27 rotates and sets up in rotating journal stirrup 26, and its first pivot 27 detachably sets up in rotating journal stirrup 26 to the dismantlement and the change of second connecting rod 23 are convenient for.
This embodiment provides a specific setting mode of second connecting rod 23, has still guaranteed the dismantlement and the change that second connecting rod 23 can be convenient when guaranteeing that second connecting rod 23 normally works smoothly.
Referring to fig. 1 and 3, in an embodiment, the opening and closing assembly 2 further includes a second rotating shaft 28 and a third rotating shaft 29.
Second connecting rod 23 and long connecting rod 21 are articulated each other through second pivot 28 between, it is concrete, second pivot 28 one end articulates in second connecting rod 23 one end, the second pivot 28 other end articulates on long connecting rod 21, articulate each other through third pivot 29 between first connecting rod 22 and the baffle 12, it is concrete, third pivot 29 one end articulates in the first connecting rod 22 other end, the third pivot 29 other end articulates in baffle 12, thereby make long connecting rod 21 move and can drive baffle 12 synchronous rotation through first connecting rod 22, realize the control that long connecting rod 21 overturns baffle 12 with this.
Referring to fig. 1 and 2, in an embodiment, a connecting member 24 is fixed on one side of the baffle 12, a sliding groove 241 is formed in the connecting member 24, the connecting member 24 is fixed on two sides of the baffle 12, a sliding rotating shaft 25 is hinged to one end of the first connecting rod 22, the sliding rotating shaft 25 is slidably disposed in the sliding groove 241, specifically, one end of the sliding rotating shaft 25 is hinged to one end of the first connecting rod 22, the other end of the sliding rotating shaft 25 slides in the sliding groove 241, and the first connecting rod 22 can drive the sliding rotating shaft 25 to move synchronously, so that the baffle 12 is driven to swing through the sliding groove 241.
The embodiment provides a mode of utilizing the keyway structure to realize that first connecting rod 22 and baffle 12 link to each other, and this structure is compared in direct articulated, improves the holistic smooth degree of structure, has avoided the dead point through connecting rod hinge department to lead to the not smooth condition of structure operation inadequately.
Referring to fig. 1 and 2, in an embodiment, the sliding shaft 25 may also be a shaft sleeve, at this time, the sliding shaft 25 is sleeved outside the third shaft 29, one end of the third shaft 29 is not hinged to the baffle 12 but is disposed in the sliding groove 241, the first connecting rod 22 moves to drive the third shaft 29 to move synchronously, so as to drive the baffle 12 to swing through the sliding groove 241, and in this embodiment, the sliding shaft 25 is mainly configured to reduce friction between the third shaft 29 and the sliding groove 241.
Referring to fig. 1 and 4, in an embodiment, the locking assembly 3 includes a bolt 31 and a locking lug 32, the locking lug 32 is fixed to the frame 1, the bolt 31 is slidably connected to the long link 21, one end of the bolt 31 is slidably inserted into the locking lug 32, after the bolt 31 slides and enters the locking lug 32, the long link 21 is fixed in position and cannot move, and at this time, the bolt 31 cooperates with the locking lug 32 to fix the long link 21.
It should be noted that the latch 31 can enter the locking lug 32 only when the long link 21 is located at a high position, and at this time, the baffle 12 is turned upwards and prevents the carrier from falling, and meanwhile, under the action of the latch 31 and the locking lug 32, the long link 21 and the baffle 12 cannot move downwards due to self weight, so as to ensure that the baffle 12 can clamp and fix the carrier on the bracket 11.
The embodiment provides a specific structure of the locking assembly 3, which facilitates fixing the long connecting rod 21 at a high position and ensures that the baffle 12 can stably fix the carrier plate on the bracket 11.
Referring to fig. 1 and 4, in an embodiment, the locking assembly 3 further includes a stopper 33 fixed to the frame 1, the stopper 33 is located on a side of the locking lug 32 away from the bolt 31, and the stopper 33 is a long strip plate for limiting the bolt 31 after the bolt 31 is inserted into the locking lug 32, so as to prevent the bolt 31 from being released from the long link 21 when the bolt is too hard.
The long connecting rod 21 is provided with a groove 34, the bolt 31 is slidably arranged in the groove 34, when one end of the bolt 31 is arranged in the groove 34, the other end of the bolt 31 is exposed and cannot completely enter the groove 34, and the groove 34 is used for limiting the bolt 31 and preventing the bolt 31 from completely entering the groove 34 and being difficult to take out.
The embodiment provides a structure for limiting the plug pin 31, which effectively prevents the plug pin 31 from being pulled out of the groove 34 after entering the locking lug 32, and simultaneously prevents the plug pin 31 from completely entering the locking lug 32 and being inconvenient to take out.
In an embodiment, the frame 1, the bracket 11, the long connecting rod 21, the rotating lug 26, the first rotating shaft 27, the second connecting rod 23, the first connecting rod 22, the connecting member 24, the sliding rotating shaft 25, the baffle 12, the bolt 31, the limiting block 33 and the locking lug 32 are all made of high temperature resistant stainless steel, and because the device needs to bear microcrystalline glass in a crystallization furnace to be subjected to high temperature crystallization of the crystallization furnace, all parts in the device are made of high temperature resistant stainless steel, so that the device can still ensure stable structure and no deformation at high temperature.
Referring to fig. 1, in an embodiment, the carrier is a graphite carrier or a silicon carbide carrier, and both graphite and silicon carbide are chemically stable and high temperature resistant materials, and the use of the graphite carrier or the silicon carbide carrier can ensure that the carrier does not deform during the crystallization of the glass-ceramic, thereby affecting the uniform heating of the crystallized glass, and the stable chemical properties of the carrier also ensure that the carrier does not undergo a chemical reaction at high temperature, thereby affecting the crystallization.
The gaps between the adjacent carrier plates can improve the contact area between the microcrystalline glass and the air in the crystallization furnace, ensure the uniform heating of the microcrystalline glass and ensure the crystallization efficiency and the crystallization quality.
The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.
Claims (10)
1. The microcrystalline glass transfer trolley is characterized by comprising a trolley frame (1), an opening and closing assembly (2) and a locking assembly (3);
the frame (1) is provided with a plurality of brackets (11), the brackets (11) are sequentially arranged along the height direction of the frame (1), one end of each bracket (11) is an open end, a carrier plate is arranged on each bracket (11) and used for bearing microcrystalline glass, and the open end of each bracket (11) is provided with a baffle (12) with one end hinged to the frame (1);
the opening and closing assembly (2) comprises a long connecting rod (21) and a plurality of first connecting rods (22), the long connecting rods (21) are connected to the frame (1) in a sliding mode, one end of each first connecting rod (22) is hinged to the long connecting rod (21), the other end of each first connecting rod is connected with the adjacent baffle (12) in a sliding mode, the long connecting rods (21) can slide along the height direction of the frame (1), and the first connecting rods (22) drive the corresponding baffles (12) to turn over so that the baffles (12) close or open the opening ends of the brackets (11);
the locking assembly (3) is fixedly connected to the long connecting rod (21), and the locking assembly (3) can clamp the long connecting rod (21) on the frame (1).
2. A crystallized glass transfer trolley according to claim 1, characterized in that the locking assembly (3) comprises a bolt (31) and a locking lug (32);
the locking support lug (32) is fixed on the frame (1), the bolt (31) is connected to the long connecting rod (21) in a sliding mode, and one end of the bolt (31) can slide into the locking support lug (32).
3. The microcrystalline glass transfer trolley according to claim 2, characterized in that the locking assembly (3) further comprises a stopper (33) fixed to the frame (1), wherein the stopper (33) is located on the side of the locking lug (32) away from the bolt (31).
4. A crystallized glass transfer trolley according to claim 2 or 3, characterized in that the long connecting rod (21) is provided with a groove (34), and the bolt (31) is slidably arranged in the groove (34).
5. The microcrystalline glass transfer trolley as claimed in claim 3, wherein a connecting piece (24) is fixed on one side of the baffle (12), a sliding groove (241) is formed in the connecting piece (24), and the sliding groove (241) extends along the height direction of the trolley frame (1);
first connecting rod (22) one end articulates there is slip pivot (25), slip pivot (25) slide and locate in spout (241).
6. A microcrystalline glass transfer trolley according to claim 5, characterised in that the opening and closing assembly (2) further comprises a second connecting rod (23), one end of the second connecting rod (23) is hinged to the long connecting rod (21) and the other end is hinged to the trolley frame (1).
7. A crystallized glass transfer trolley according to claim 6, characterized in that the opening and closing assembly (2) further comprises a rotating lug (26) and a first rotating shaft (27);
the rotating support lug (26) is fixed on the frame (1), one end of the first rotating shaft (27) is fixed at one end of the second connecting rod (23), and the other end of the first rotating shaft (27) is hinged in the rotating support lug (26).
8. A crystallized glass transfer trolley according to claim 7, characterized in that the opening and closing assembly (2) further comprises a second rotating shaft (28) and a third rotating shaft (29);
the second connecting rod (23) is hinged with the long connecting rod (21) through a second rotating shaft (28), and the first connecting rod (22) is hinged with the baffle (12) through a third rotating shaft (29).
9. The microcrystalline glass transfer trolley as claimed in claim 8, wherein the frame (1), the bracket (11), the long connecting rod (21), the rotating support lug (26), the first rotating shaft (27), the second connecting rod (23), the first connecting rod (22), the connecting member (24), the sliding rotating shaft (25), the baffle (12), the bolt (31), the limiting block (33) and the locking support lug (32) are all made of high temperature resistant stainless steel.
10. The microcrystalline glass transfer trolley according to claim 1, wherein the carrier plate is a graphite carrier plate or a silicon carbide carrier plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122585781.3U CN216232492U (en) | 2021-10-26 | 2021-10-26 | Microcrystalline glass transfer car (buggy) |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122585781.3U CN216232492U (en) | 2021-10-26 | 2021-10-26 | Microcrystalline glass transfer car (buggy) |
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CN216232492U true CN216232492U (en) | 2022-04-08 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116238577A (en) * | 2023-05-11 | 2023-06-09 | 宁德时代新能源科技股份有限公司 | Loading attachment and battery monomer feeding system |
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2021
- 2021-10-26 CN CN202122585781.3U patent/CN216232492U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116238577A (en) * | 2023-05-11 | 2023-06-09 | 宁德时代新能源科技股份有限公司 | Loading attachment and battery monomer feeding system |
CN116238577B (en) * | 2023-05-11 | 2023-09-29 | 宁德时代新能源科技股份有限公司 | Loading attachment and battery monomer feeding system |
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Address after: 412200 Dongfu Industrial Park, Liling Economic Development Zone, Zhuzhou City, Hunan Province Patentee after: Hunan Qibin Electronic Glass Co.,Ltd. Address before: 412200 Dongfu Industrial Park, Liling Economic Development Zone, Zhuzhou City, Hunan Province Patentee before: LILING QIBIN ELECTRONIC GLASS Co.,Ltd. |