CN218904132U - Integrated workbench - Google Patents
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- CN218904132U CN218904132U CN202223042160.1U CN202223042160U CN218904132U CN 218904132 U CN218904132 U CN 218904132U CN 202223042160 U CN202223042160 U CN 202223042160U CN 218904132 U CN218904132 U CN 218904132U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model relates to the technical field of screen printing processing, and discloses an integrated workbench. The integrated workbench comprises a bearing table, two bearing clamping mechanisms and a driving mechanism, wherein the two bearing clamping mechanisms are oppositely arranged on the bearing table along the X direction, each bearing clamping mechanism comprises a bearing component and a clamping component, each bearing component can bear and fix one end of a net frame, each clamping component is connected with each bearing component and can clamp one end of a steel sheet on each bearing component, the driving mechanism is arranged on the bearing table, and the driving mechanism can drive the two bearing clamping mechanisms to move towards each other or towards the back along the X direction so as to bear the net frame or tension the steel sheet. The integrated workbench disclosed by the utility model can be used for supporting the steel sheet fixed on the screen frame and directly clamping and tensioning the bare steel sheet, so that a tensioning jig does not need to be manually conveyed, the manpower requirement is reduced, and the production efficiency is improved.
Description
Technical Field
The utility model relates to the technical field of screen printing processing, in particular to an integrated workbench.
Background
In the SMT (Surface Mount Technology surface mount technology) field, printing is usually performed using a screen plate, wherein the screen plate includes a screen frame and a steel screen fixed on the screen frame, and holes of a preset pattern are formed in the steel screen. In the screen printing plate manufacturing process, there are two main processing modes generally, one is to adhere a steel sheet to a screen frame with a screen, cut off the screen, and then place the whole screen on a workbench of a laser cutting device to cut holes with preset patterns on the steel sheet by laser. Secondly, tensioning the steel sheet through a tensioning jig, lifting the steel sheet to a workbench of a laser cutting and cutting device, lifting the tensioning jig from the workbench after the laser cutting device cuts a preset pattern hole on the steel sheet, and adhering the cut steel sheet to a net frame. For the second type of screen printing plate manufacturing mode, tensioning jig is often heavier, and the manual work is to workstation transport tensioning jig, not only is high to the manpower demand, and production efficiency is low.
Therefore, an integrated table is needed to solve the above technical problems.
Disclosure of Invention
The utility model aims to provide an integrated workbench which can not only support steel sheets fixed on a screen frame, but also directly clamp and tension bare steel sheets, so that a tensioning jig does not need to be manually carried, the manpower requirement is reduced, and the production efficiency is improved.
To achieve the purpose, the utility model adopts the following technical scheme:
an integrated table comprising:
a carrying platform;
the two bearing clamping mechanisms are oppositely arranged on the bearing table along the X direction, each bearing clamping mechanism comprises a bearing component and a clamping component, each bearing component can bear and fix one end of a net frame, and each clamping component is connected with each bearing component and can clamp one end of a steel sheet on each bearing component;
the driving mechanism is arranged on the bearing table and can drive the two bearing clamping mechanisms to move oppositely or backwards along the X direction so as to bear the net frame or tension the steel sheet.
As an alternative, the support assembly comprises a support plate, and the clamping assembly comprises:
the clamping plate is arranged on the upper side of the bearing plate, one end of the clamping plate along the X direction is connected with the bearing plate, and the other end of the clamping plate and the bearing plate form a gap for inserting the steel sheet;
and the operating piece is penetrated through the clamping plate and is movably connected with the bearing plate, and the operating piece can drive the other end of the clamping plate to approach the bearing plate along the Z direction so as to clamp the steel sheet.
As an alternative, the support assembly further comprises a cushioning member wrapped around the other end of the clamping plate and adapted to abut the steel sheet.
As an alternative, the clamping assembly includes a plurality of operating members, and the plurality of operating members are spaced apart along the Y direction.
As an alternative, the support assembly comprises:
the support piece is connected with the output end of the driving mechanism and comprises a bearing plate and a mounting plate which are sequentially arranged at intervals up and down;
the supporting piece is arranged between the mounting plate and the supporting plate and is used for supporting the net frame;
and the lifting driving piece is connected with the mounting plate and can drive the bearing piece to be close to the bearing plate along the Z direction, so that the net frame is clamped between the bearing piece and the bearing plate.
As an alternative, the support assembly comprises a plurality of said supports, a plurality of said supports being spaced apart along the Y-direction.
As an alternative, the support assembly further comprises a roller in rotational engagement with the support member and disposed on the upper side of the mounting plate, the roller being configured to guide the movement of the frame in the Y direction onto the support member.
As an alternative, the driving mechanism includes:
a rotation driving source arranged on the bearing table;
the input end of the first transmission assembly is connected with the output end of the rotary driving source, the first transmission assembly comprises two output ends, the two bearing clamping mechanisms are respectively correspondingly connected with the two output ends of the first transmission assembly, and the rotary driving source can enable the two output ends of the first transmission assembly to drive the two bearing clamping mechanisms to be close to or far away from each other.
As an alternative, the first transmission assembly includes:
the screw rod extends along the X direction, a first thread section and a second thread section are respectively arranged at two ends of the screw rod along the X direction, the rotation directions of the first thread section and the second thread section are opposite, and the rotary driving source can drive the screw rod to rotate;
the first nut and the second nut are respectively connected with the two bearing clamping mechanisms and are respectively in threaded fit with the first threaded section and the second threaded section.
As an alternative scheme, the driving mechanism includes two first transmission components, two first transmission components set up along the Y direction interval, the driving mechanism still includes second transmission component, second transmission component's input with the output of rotary drive source is connected, second transmission component includes two outputs, two outputs of second transmission component are connected with two first transmission component's input respectively.
The utility model has the beneficial effects that:
the integrated workbench comprises a bearing table, two bearing clamping mechanisms and a driving mechanism, wherein on one hand, the bearing assemblies of the two bearing clamping mechanisms can respectively bear and fix two ends of a net frame, so that bearing of steel sheets fixed on the net frame is realized, and the driving mechanism drives the two bearing clamping mechanisms to move oppositely or relatively so as to adjust the distance between the two bearing clamping mechanisms, and further, fixing of different net frames is realized. On the other hand, the clamping assemblies of the two bearing mechanisms can clamp the two ends of the steel sheet on the corresponding bearing assemblies respectively, and at the moment, the driving mechanism drives the two bearing clamping mechanisms to move in opposite directions, so that the clamping and tensioning of the bare steel sheet can be realized. The integrated workbench disclosed by the utility model can be used for supporting the steel sheet fixed on the screen frame, can directly clamp and tension the bare steel sheet, does not need to additionally arrange and manually carry a tensioning jig, reduces the manpower requirement and improves the production efficiency.
Drawings
FIG. 1 is a schematic view of an integrated stage according to an embodiment of the present utility model;
fig. 2 is an enlarged view at a in fig. 1;
fig. 3 is a schematic view of a part of an integrated table according to another embodiment of the present utility model.
In the figure:
1. a carrying platform;
2. a bearing clamping mechanism;
21. a clamping assembly; 211. a clamping plate; 212. an operating member; 213. a buffer member;
22. a support assembly; 221. a support; 2211. a mounting plate; 2212. a bearing plate; 2213. a first connection plate; 2214. an extension plate; 222. a support; 223. a lifting driving member; 224. a roller;
23. a second connecting plate;
3. a driving mechanism; 31. a rotation driving source; 32. a first transmission assembly; 321. a screw rod; 3211. a first thread segment; 3212. a second thread segment; 322. a first nut; 323. a second nut; 33. a second transmission assembly; 331. a driving wheel; 332. driven wheel; 333. an intermediate wheel;
4. a guide mechanism; 41. a linear guide rail; 42. a sliding block.
Detailed Description
The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present utility model are shown in the drawings.
In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.
In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.
In the description of the present embodiment, the terms "upper", "lower", "right", etc. orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.
In fig. 1, the X-direction and the Y-direction represent two mutually perpendicular horizontal directions, and the Z-mode represents the vertical direction. As shown in fig. 1-3, the present embodiment provides an integrated workbench, which includes a carrying table 1, two supporting and clamping mechanisms 2 and a driving mechanism 3. Wherein two bearing fixture 2 are set up on plummer 1 relatively along X direction, and every bearing fixture 2 includes bearing subassembly 22 and clamping assembly 21, and bearing subassembly 22 can support and fix the one end of frame (not shown), and clamping assembly 21 is connected with bearing subassembly 22 and can press from both sides the one end of steel sheet on bearing subassembly 22, and actuating mechanism 3 sets up on plummer 1, and actuating mechanism 3 can drive two bearing fixture 2 and move in opposite directions or back along X direction to bearing frame or tensioning steel sheet.
When the integrated workbench of the embodiment supports the steel sheets fixed on the net frame, the supporting members 22 of the two supporting and clamping mechanisms 2 can respectively support and fix two ends of the net frame, and the driving mechanism 3 drives the two supporting and clamping mechanisms 2 to move away from each other or relatively so as to adjust the distance between the two supporting members 22, thereby realizing fixation of net frames with different sizes. When the integrated workbench supports and tightens the bare steel sheet (namely the steel sheet which is independently arranged), the clamping assemblies 21 of the two bearing mechanisms respectively clamp the two ends of the steel sheet along the X direction on the corresponding bearing assemblies 22, and at the moment, the driving mechanism 3 drives the two bearing clamping mechanisms 2 to move away from each other, so that the clamping and tightening of the bare steel sheet can be realized. The integrated workbench disclosed by the utility model can be used for supporting the steel sheet fixed on the screen frame, can directly clamp and tension the bare steel sheet, does not need to additionally arrange and manually carry a tensioning jig, reduces the manpower requirement and improves the production efficiency.
As shown in fig. 1 and 2, the bearing assembly 22 comprises a supporting member 221, a bearing member 222 and a lifting driving member 223, wherein the supporting member 221 is connected with an output end of the driving mechanism 3, the supporting member 221 comprises a bearing plate 2212 and a mounting plate 2211 which are sequentially arranged at intervals, the bearing member 222 is arranged between the mounting plate 2211 and the bearing plate 2212 and is used for bearing a net frame, the lifting driving member 223 is connected with the mounting plate 2211, and the lifting driving member 223 can drive the bearing member 222 to approach the bearing plate 2212 along the Z direction so as to clamp the net frame between the bearing member 222 and the bearing plate 2212. When placing the screen frame on the integrated workbench, the user pushes the screen frame along the Y direction, so that two ends of the screen frame are respectively positioned between the bearing plates 2212 and the mounting plates 2211 of the two bearing clamping mechanisms 2 and supported on the bearing pieces 222 at the corresponding ends, and at the moment, the lifting driving pieces 223 at the two ends drive the bearing pieces 222 at the corresponding ends to move upwards, so that the two ends of the screen frame are clamped between the corresponding bearing pieces 222 and the corresponding bearing plates 2212 along the up-down direction, and reliable support and fixation of the screen frame are realized.
In this embodiment, as shown in fig. 2, the supporting member 221 further includes a first connection plate 2213, the first connection plate 2213 connects the mounting plate 2211 and the carrier plate 2212, and the first connection plate 2213 is disposed perpendicular to the X direction. Further, the supporting member 221 further includes an extending plate 2214, the extending plate 2214 is connected with the mounting plate 2211 and is disposed opposite to the first connecting plate 2213, alternatively, the whole supporting member 221 may be integrally formed by bending a sheet metal material, which is convenient for forming and has high structural strength. Preferably, in this embodiment, the lifting driving member 223 may be a cylinder, wherein the cylinder is connected to the lower side of the mounting plate 2211, and the output end of the cylinder passes through the mounting plate 2211 upward and is connected to the supporting member 222.
Preferably, as shown in fig. 1, the support assembly 22 includes a plurality of supports 222 and a corresponding number of elevation drives 223, wherein the plurality of supports 222 are spaced apart along the Y-direction, and each elevation drive 223 is capable of driving an elevation motion of a corresponding support 222. Through the cooperation of a plurality of bearing pieces 222 and lifting drive piece 223, can make each position of net frame along the Y direction by steady support, and finally by a plurality of bearing pieces 222 and bearing plate 2212 clamp, guarantee the accuracy of net frame fixed position.
Preferably, as shown in fig. 1 and 2, the bearing assembly 22 further comprises a roller 224, the roller 224 is rotatably engaged with the supporting member 221 and disposed on the upper side of the mounting plate 2211, and the roller 224 causes a rolling engagement between the frame and the supporting member 221 during the user pushing the frame into the supporting members 221 at both ends in the Y direction, thereby guiding the frame to move more smoothly in the Y direction between the mounting plate 2211 and the bearing plate 2212 and supported on the respective bearing member 222. This embodiment provides for more effort-saving handling of the frame on the support assembly 22 by providing the rollers 224. Specifically, as shown in fig. 2, both ends of the roller 224 in the X direction are rotatably supported on the first connection plate 2213 and the extension plate 2214, respectively. Preferably, as shown in FIG. 1, each of the support assemblies 22 includes a plurality of rollers 224, the plurality of rollers 224 being spaced apart along the Y-direction. In this embodiment, the supporting members 222 and the rollers 224 are alternately arranged along the Y direction, and in other embodiments, the specific arrangement of the rollers 224 is not limited.
Preferably, as shown in fig. 1 and 2, the clamping assembly 21 includes a clamping plate 211 and an operating member 212, wherein the clamping plate 211 is disposed at an upper side of the carrier 2212, one end of the clamping plate 211 in the X direction is connected to the carrier 2212, the other end forms a gap for inserting a steel sheet with the carrier 2212, the operating member 212 is penetrated through the clamping plate 211 and movably connected to the carrier 2212, and when a user operates the operating member 212, the operating member 212 can drive one end of the clamping plate 211, which is not connected to the carrier 2212, to approach the carrier 2212 in the Z direction to clamp the steel sheet. In this embodiment, the clamping plate 211 includes a horizontal plate and two vertical plates respectively connected to two ends of the horizontal plate along the X direction, the two vertical plates are all perpendicular to the X direction, one of the vertical plates is connected with the support plate 2212, and a gap is formed between the other vertical plate and the support plate 2212.
In this embodiment, the operating member 212 may be a bolt, wherein the bolt passes through the clamping plate 211 along the Z direction, the support plate 2212 is provided with a threaded hole or is fixed with a nut, and the bolt is in threaded engagement with the threaded hole or the nut, when the bolt is rotated, the bolt presses the clamping plate 211 along the Z direction, so that a steel sheet inserted between the clamping plate 211 and the support plate 2212 can be clamped. Preferably, as shown in fig. 1, the clamping assembly 21 includes a plurality of operating members 212, the plurality of operating members 212 being spaced apart along the Y-direction. The steel sheet can be clamped at each position in the Y direction by providing a plurality of operating members 212.
Preferably, as shown in fig. 1 and 2, the support assembly 22 further comprises a buffer member 213, wherein the buffer member 213 is wrapped around the clamping plate 211 at one end for clamping the steel sheet, and the buffer member 213 is configured to prevent stress concentration on one side of the steel sheet, which is used for contacting the clamping plate 211, so as to prevent the steel sheet from being crushed or pressed into an indentation. In this embodiment, the buffer member 213 is a strip-shaped structure extending along the Y direction, and the cross section of the buffer member 213 is U-shaped, and the buffer member 213 covers the vertical plate forming a gap with the support plate 2212.
Preferably, as shown in fig. 1 and 3, the driving mechanism 3 includes a rotary driving source 31 and a first transmission assembly 32, wherein the rotary driving source 31 is disposed on the carrying platform 1, an input end of the first transmission assembly 32 is connected with an output end of the rotary driving source 31, the first transmission assembly 32 includes two output ends, the two bearing clamping mechanisms 2 are respectively connected with the two output ends of the first transmission assembly 32 correspondingly, and the rotary driving source 31 enables the two output ends of the first transmission assembly 32 to drive the two bearing clamping mechanisms 2 to approach or separate from each other. In this embodiment, by providing the first transmission assembly 32, the opposite and backward movements of the two bearing clamping mechanisms 2 are realized by one driving source, so that the number of driving sources is reduced, the cost of the integrated workbench is reduced, and the displacement amounts of the two bearing clamping mechanisms 2 can be kept consistent.
As shown in fig. 1 and 3, in this embodiment, the rotary driving source 31 is a motor, the first transmission assembly 32 includes a screw rod 321, a first nut 322 and a second nut 323, where the screw rod 321 extends along the X direction, two ends of the screw rod 321 along the X direction are respectively provided with a first threaded section 3211 and a second threaded section 3212, the first threaded section 3211 and the second threaded section 3212 are opposite in rotation direction, the first nut 322 and the second nut 323 are respectively in threaded engagement with the first threaded section 3211 and the second threaded section 3212, the first nut 322 and the second nut 323 form two output ends of the first transmission assembly 32, and the two bearing clamping mechanisms 2 are respectively connected with the first nut 322 and the second nut 323, so that when the motor drives the screw rod 321 to rotate, the first nut 322 and the second nut 323 respectively move along opposite directions, that is, opposite movement and backward movement are achieved. Optionally, as shown in fig. 1, the support 221 of the holding fixture 2 is connected to the first nut 322 or the second nut 323 by a second connecting plate 23. The screw rod 321 is connected with the bearing table 1 through a bearing seat.
Preferably, as shown in fig. 1, the driving mechanism 3 includes two first transmission assemblies 32, the two first transmission assemblies 32 are arranged at intervals along the Y direction, as shown in fig. 3, the driving mechanism 3 further includes a second transmission assembly 33, an input end of the second transmission assembly 33 is connected with an output end of the rotary driving source 31, the second transmission assembly 33 includes two output ends, and two output ends of the second transmission assembly 33 are respectively connected with the input ends of the two first transmission assemblies 32. On the one hand, by arranging the two first transmission assemblies 32, the bearing clamping mechanism 2 has two stress points along the Y direction in the movement process, so that the movement errors of the two ends of the bearing clamping mechanism 2 along the Y direction are avoided; on the other hand, by arranging the second transmission assembly 33, the two first transmission assemblies 32 can be driven by one rotary driving source 31, so that the number of integrated workbench driving sources is further reduced, and the manufacturing cost is reduced.
Specifically, as shown in fig. 3, the second transmission assembly 33 includes a driving wheel 331, two driven wheels 332, and a flexible member (not shown) wound around the driving wheel 331 and the two driven wheels 332. The driving wheel 331 is movably connected to the rotary driving source 31, and the driven wheels 332 are respectively connected to the two output ends of the second transmission assembly 33, and the driven wheels 332 are respectively connected to the screw rods 321 of the first transmission assemblies 32. When the rotary driving source 31 drives the driving wheel 331 to rotate, the driving wheel 331 drives the two driven wheels 332 to rotate through the flexible member, and the two driven wheels 332 drive the two screw rods 321 to rotate respectively, so that the first nut 322 and the second nut 323 on the screw rod 321 move towards each other or away from each other with the two supporting and clamping mechanisms 2. Alternatively, the drive pulley 331 and the driven pulley 332 are sprocket wheels, respectively, in which case the flexible member is a chain. In other embodiments, the driving pulley 331 and the driven pulley 332 may be provided as pulleys, in which case the flexible member is a belt. Preferably, as shown in fig. 3, the second transmission assembly 33 further includes an intermediate wheel 333, the intermediate wheel 333 is disposed between the driving wheel 331 and the driven wheel 332, and the flexible member is wound around the intermediate wheel 333, and the flexible member is ensured to be in a tensioned state by providing the intermediate wheel 333, so as to ensure reliable transmission.
Preferably, as shown in fig. 1, the integrated table further comprises a guiding mechanism 4 arranged between the carrying table 1 and the holding and holding mechanism 2, the guiding mechanism 4 extending in the X-direction and being used for guiding the movement of the holding and holding mechanism 2. Alternatively, as shown in fig. 1 and 3, the guide mechanism 4 includes a linear guide 41 and two sliders 42, wherein the linear guide 41 is provided on the carrying table 1 and extends in the X-direction, both sliders 42 are slidably fitted with the linear guide 41, each slider 42 is connected with one of the holding jigs 2, and specifically, the sliders 42 are connected with the holding jigs 2 by the second connection plate 23. Preferably, the integrated workbench comprises two guide mechanisms 4, the two guide mechanisms 4 are distributed at intervals along the Y direction, and the two guide mechanisms 4 are arranged to enable the movement of the bearing clamping mechanism 2 to be smoother and smoother.
It is to be understood that the foregoing examples of the utility model are provided for the purpose of illustration only and are not intended to limit the scope of the utility model, which is defined by the claims, since modifications in both the detailed description and the application scope of the utility model will become apparent to those skilled in the art upon consideration of the teachings of the utility model. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.
Claims (10)
1. An integrated table comprising:
a carrying platform (1);
the two bearing clamping mechanisms (2) are oppositely arranged on the bearing table (1) along the X direction, the bearing clamping mechanisms (2) comprise bearing assemblies (22) and clamping assemblies (21), the bearing assemblies (22) can bear and fix one ends of the net frames, and the clamping assemblies (21) are connected with the bearing assemblies (22) and can clamp one ends of the steel sheets on the bearing assemblies (22);
the driving mechanism (3) is arranged on the bearing table (1), and the driving mechanism (3) can drive the two bearing clamping mechanisms (2) to move oppositely or backwards along the X direction so as to bear the net frame or tension the steel sheet.
2. An integrated table as claimed in claim 1, wherein said support assembly (22) comprises a support plate (2212), said clamping assembly (21) comprising:
a clamping plate (211) arranged on the upper side of the bearing plate (2212), wherein one end of the clamping plate (211) along the X direction is connected with the bearing plate (2212), and the other end of the clamping plate is connected with the bearing plate (2212) to form a gap for inserting the steel sheet;
and the operating piece (212) is penetrated through the clamping plate (211) and is movably connected with the bearing plate (2212), and the operating piece (212) can drive the other end of the clamping plate (211) to approach the bearing plate (2212) along the Z direction so as to clamp the steel sheet.
3. An integrated table as claimed in claim 2, wherein said support assembly (22) further comprises a buffer (213), said buffer (213) being wrapped around said other end of said clamping plate (211) and adapted to abut said steel plate.
4. An integrated table according to claim 2, wherein the clamping assembly (21) comprises a plurality of operating members (212), the plurality of operating members (212) being spaced apart along the Y-direction.
5. An integrated table as claimed in claim 1, wherein said support assembly (22) comprises:
the support piece (221) is connected with the output end of the driving mechanism (3), and the support piece (221) comprises a bearing plate (2212) and a mounting plate (2211) which are sequentially arranged at intervals up and down;
a support (222) disposed between the mounting plate (2211) and the support plate (2212) and configured to support the frame;
and the lifting driving piece (223) is connected with the mounting plate (2211), and the lifting driving piece (223) can drive the supporting piece (222) to be close to the supporting plate (2212) along the Z direction so that the net frame is clamped between the supporting piece (222) and the supporting plate (2212).
6. The integrated table of claim 5, wherein the support assembly (22) includes a plurality of the supports (222), the plurality of supports (222) being spaced apart along the Y-direction.
7. The integrated table of claim 5, wherein the carriage assembly (22) further comprises a roller (224), the roller (224) being in rotational engagement with the support (221) and disposed on an upper side of the mounting plate (2211), the roller (224) being configured to guide the movement of the frame in the Y-direction onto the carriage (222).
8. An integrated table according to any one of claims 1-7, wherein the drive mechanism (3) comprises:
a rotation drive source (31) provided on the carrying table (1);
the first transmission assembly (32) is connected with the output end of the rotary driving source (31) in the input end, the first transmission assembly (32) comprises two output ends, the two bearing clamping mechanisms (2) are respectively correspondingly connected with the two output ends of the first transmission assembly (32), and the rotary driving source (31) can enable the two output ends of the first transmission assembly (32) to drive the two bearing clamping mechanisms (2) to be close to or far away from each other.
9. The integrated table of claim 8, wherein the first drive assembly (32) comprises:
the screw rod (321) extends along the X direction, a first threaded section (3211) and a second threaded section (3212) are respectively arranged at two ends of the screw rod (321) along the X direction, the rotation directions of the first threaded section (3211) and the second threaded section (3212) are opposite, and the rotary driving source (31) can drive the screw rod (321) to rotate;
the first nut (322) and the second nut (323) are respectively connected with the two bearing clamping mechanisms (2) and are respectively in threaded fit with the first threaded section (3211) and the second threaded section (3212).
10. An integrated table as claimed in claim 8, wherein the drive mechanism (3) comprises two first transmission assemblies (32), the two first transmission assemblies (32) being arranged at intervals along the Y-direction, the drive mechanism (3) further comprises a second transmission assembly (33), an input of the second transmission assembly (33) being connected to an output of the rotary drive source (31), the second transmission assembly (33) comprising two outputs, the two outputs of the second transmission assembly (33) being connected to the inputs of the two first transmission assemblies (32), respectively.
Priority Applications (1)
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CN202223042160.1U CN218904132U (en) | 2022-11-16 | 2022-11-16 | Integrated workbench |
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CN202223042160.1U CN218904132U (en) | 2022-11-16 | 2022-11-16 | Integrated workbench |
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CN218904132U true CN218904132U (en) | 2023-04-25 |
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CN202223042160.1U Active CN218904132U (en) | 2022-11-16 | 2022-11-16 | Integrated workbench |
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