CN216845856U - Sealing edge structure of baffle plate and processing device - Google Patents

Abstract

The utility model discloses a sealed limit structure of baffling board, include: the first support edge and the second support edge are arranged at the outer edge of the baffle plate at intervals along the thickness direction of the baffle plate, the first support edge and the second support edge are used for contacting the inner wall of the barrel of the evaporator, a V-shaped groove is formed between the first support edge and the second support edge, and the V-shaped groove is formed by machining a forming turning tool; the utility model also discloses a processingequipment of baffling board, include: the turning mechanism and the pressing mechanism are arranged at intervals and are used for turning the sealing edge of the baffle plate on the pressing mechanism. The sealing edge structure can improve the positioning stability of the baffle plate and improve the bending resistance of the sealing edge of the baffle plate; through the processing device of the baffle plate, the sealing edge structure of the baffle plate can be processed and formed at one time, and the processing efficiency is greatly improved.

Description

Sealing edge structure of baffle plate and processing device

Technical Field

The utility model relates to an evaporimeter field, in particular to sealed limit structure and processingequipment of baffling board.

Background

The baffle plate is one of important components in a dry evaporator and is mainly used for fixing a heat exchange tube and baffling a medium introduced into an evaporator shell, the baffle plate is usually in tight fit with the inner wall of a cylinder of the evaporator so as to realize stable positioning, and the contact part of the baffle plate and the inner wall of the cylinder is sealed.

SUMMERY OF THE UTILITY MODEL

The application solves the problems that the sealing edge of the existing baffle plate is unstable in positioning and easy to break through providing a sealing edge structure of the baffle plate.

The embodiment of the application provides a seal edge structure of baffling board, includes: the first support edge and the second support edge are arranged on the periphery of the edge of the baffle plate at intervals, and the first support edge and the second support edge are used for contacting with the inner wall of the cylinder of the evaporator.

When the sealing variable structure of the baffle plate works, the baffle plate is supported by the first supporting edge and the second supporting edge, so that the positioning stability and the bending resistance of the baffle plate are improved.

On the basis of the technical scheme, the embodiment of the application can be further improved as follows:

further: and a V-shaped groove is formed between the first supporting edge and the second supporting edge. The beneficial effect of this step: the V-shaped groove can be formed by one-step machining through the forming lathe tool, so that a structure of a first supporting edge and a second supporting edge is formed, and machining efficiency is greatly improved.

This application is still through providing the processingequipment of baffling board for with the quick machine-shaping of the sealed limit structure of baffling board.

The embodiment of the application provides a processingequipment of baffling board, includes:

a pressure holding mechanism, the pressure holding mechanism comprising:

a seat assembly for positioning a baffle;

the driving assembly is in contact with the support assembly or is connected with the support assembly, and the driving assembly is used for driving the support assembly to rotate;

turning mechanism, turning mechanism includes:

the tool rest assembly and the support assembly are arranged at intervals;

the forming turning tool is connected to the tool rest assembly and used for machining the sealing edge of the deflector;

the tool rest assembly is used for positioning the forming turning tool and changing the distance between the forming turning tool and the support assembly.

When the machining device for the baffle plate works, the baffle plate is installed on the support assembly, the driving group drives the baffle plate to rotate, meanwhile, the tool rest assembly drives the forming turning tool to gradually approach to the rotating baffle plate, the outer periphery of the baffle plate is turned by the forming turning tool, and the sealing edge structure can be machined in a one-step forming mode.

On the basis of the technical scheme, the embodiment of the application can be further improved as follows:

further: the seat assembly includes: the rotary table is mounted on the rotary shaft, the rotary table is used for placing the baffle plate, and the pressing mechanism is connected to the rotary shaft and used for positioning the baffle plate on the rotary table. The beneficial effect of this step: the baffle plate is supported by the turntable, and is stably pressed and held above the turntable by the pressing and holding mechanism, so that the baffle plate is positioned.

Further: the pressure holding mechanism further comprises: the pressing plate is arranged above the rotary table, the pressing cap is connected to the rotary shaft, and the pressing cap is used for applying pressure to the pressing plate. The beneficial effect of this step: the structure is easy to install and disassemble, and meanwhile, the pressing force of the pressing plate on the flow plate is convenient to adjust.

Further: the drive assembly includes: the first motor is used for driving the rotating shaft to rotate.

Further, the method comprises the following steps: the drive assembly further includes: and the transmission mechanism is arranged between the first motor and the rotating shaft.

Further, the method comprises the following steps: the tool holder assembly comprises: the guide rail and the rotary table are arranged at intervals, and the tool rest is arranged on the guide rail in a sliding mode.

Further: the tool holder assembly further comprises: the adjusting piece is connected with the tool rest and used for adjusting the position of the tool rest on the guide rail.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the sealing edge structure can improve the positioning stability of the baffle plate and improve the bending resistance of the sealing edge of the baffle plate;

2. through the processing device of the baffle plate, the sealing edge structure of the baffle plate can be processed and formed at one time, and the processing efficiency is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a seal edge configuration of a prior art baffle;

FIG. 2 is a schematic structural diagram according to the first embodiment;

fig. 3 is a schematic structural diagram of the second embodiment.

Wherein, 1 supports the first edge, 2 supports the second edge, 3 baffling boards, 4 cylinders, 5V-shaped grooves;

6, a pressing mechanism, 601 a support assembly, 602 a driving assembly, 603 a support, 604 a rotating shaft, 605 a rotating table, 606 a pressing plate, 607 a pressing cap, 608 a motor I, 609 a gear I and 610 a gear II;

7 turning mechanism, 701 tool rest assembly, 702 formed turning tool, 703 guide rail, 704 tool rest, 705 workbench, 706 sliding plate, 707 sliding block, 708 adjusting piece, 709 motor II, 710 lead screw nut and 711 lead screw support.

Detailed Description

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integral; the mechanical connection can be realized by selecting a proper connection mode in the prior art, such as welding, riveting, threaded connection, bonding, pin connection, key connection, elastic deformation connection, buckle connection, interference connection and injection molding; or an electrical connection, transmitting energy or signals by electricity; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Example one

As shown in fig. 2, a seal edge structure of a baffle plate comprises: the supporting edge I1 and the supporting edge II 2 are arranged at the outer edge of the baffle plate 3 at intervals along the thickness direction of the baffle plate 3, the supporting edge I1 and the supporting edge II 2 are used for contacting with the inner wall of the barrel body 4 of the evaporator, a V-shaped groove 5 is formed between the supporting edge I1 and the supporting edge II 2, and the V-shaped groove 5 is formed by machining a forming turning tool.

The stability that the sealed limit supported has been improved greatly through supporting limit one 1 and supporting limit two 2 to support through two positions, improved holistic bending resistance, the leakproofness has also obtained the promotion.

Example two

As shown in fig. 3, a machining apparatus for a baffle plate includes: the turning device comprises a pressing and holding mechanism 6 and a turning mechanism 7, wherein the pressing and holding mechanism 6 is used for pressing and holding the baffle plate 3, and the turning mechanism 7 and the pressing and holding mechanism 6 are arranged at intervals and are used for turning the sealing edge of the baffle plate 3 on the pressing and holding mechanism 6.

As shown in fig. 3, the pressure holding mechanism 6 includes: a support assembly 601 and a driving assembly 602, wherein the support assembly 601 is used for positioning the baffle 3, the driving assembly 602 is in contact with the support assembly 601 or is connected with the support assembly 601, and the driving assembly 602 is used for driving the support assembly 601 to rotate.

As shown in fig. 3, the stand assembly 601 includes: the support 603 is connected to the ground, the rotating shaft 604 is rotatably connected to the support 603 along the vertical direction, the rotating shaft 605 is arranged and mounted on the rotating shaft 604 along the horizontal direction, the upper surface of the rotating shaft 605 is used for placing the baffle plate 3, a through hole is formed in the center of the baffle plate 3, the rotating shaft 604 is inserted into the through hole, and the pressing mechanism 6 is connected to the rotating shaft 604 and used for positioning the baffle plate 3 on the rotating shaft 605.

As shown in fig. 3, the holding-down mechanism 6 further includes: the clamp plate 606, press the cap 607, the clamp plate 606 sets up in revolving stage 605 top, the clamp plate 606 is cylindrical structure and has seted up jack one along its axis, the pivot 604 is inserted and is located jack one, the pivot 604 upper end is the screw thread end, press the cap 607 to be the columnar structure, press the terminal surface seted up screw hole under the cap 607, screw thread end threaded connection is in the screw hole, thereby make to press the cap 607 to connect in pivot 604, baffling board 3 sets up between revolving stage 605 and clamp plate 606, press the cap 607 to be used for exerting decurrent pressure to the clamp plate 606, thereby the clamp plate 606 compresses tightly baffling board 3 in revolving stage 605 upper surface.

As shown in fig. 3, the pressure holding mechanism 6 further includes: the first rubber pad and the second rubber pad are connected to the upper surface of the rotary table 605, the second rubber pad is connected to the lower surface of the pressing plate 606, and the probability of abrasion between contact surfaces is reduced through the first rubber pad and the second rubber pad.

As shown in fig. 3, the driving assembly 602 includes: the first motor 608 is used for driving the rotating shaft 604 to rotate, the first motor 608 may specifically adopt motors such as a servo motor and a speed reduction motor, and the first motor 608 may drive the rotating shaft 604 to rotate on the bracket 603 in two ways, one of which is that the first motor 608 is directly connected with the rotating shaft 604, for example, directly connected with the lower end of the rotating shaft 604 through a coupler, so that the first motor 608 drives the rotating shaft 604 to rotate; secondly, transmit power to the pivot 604 through drive mechanism, drive mechanism can adopt gear drive, and is specific, drive mechanism includes: the first gear 609 and the second gear 610, the first gear 609 is connected to an output shaft of the first motor 608, the second gear 610 is connected to the lower end of the rotating shaft 604, the first gear 609 is meshed with the second gear 610, and power of the first motor 608 is transmitted to the rotating shaft 604 through the first gear 609, so that the rotating shaft 604 is driven to rotate.

As shown in fig. 3, the turning mechanism 7 includes: the tool post 704 comprises a tool post 704 component 701 and a formed turning tool 702, wherein the tool post 704 component 701 and the support component 601 are arranged at intervals, the formed turning tool 702 is connected to the tool post 704 component 701, and the formed turning tool 702 is used for machining the sealing edge of the deflector plate 3.

As shown in FIG. 3, tool post 704 assembly 701 comprises: guide rail 703, knife rest 704, workstation 705, guide rail 703 installs in workstation 705, and guide rail 703 and revolving stage 605 interval set up, and knife rest 704 sets up in guide rail 703 in a sliding manner, specifically, knife rest 704 subassembly 701 still includes: a sliding plate 706 and a sliding plate 707, the tool post 704 is arranged on the sliding plate 706, and the sliding plate 707 is arranged at the lower end of the sliding plate 706 and is arranged on the guide rail 703 in a sliding way.

As shown in fig. 3, tool post 704 assembly 701 further comprises: adjusting member 708, adjusting member 708 is connected with tool post 704 and is used for adjusting the position of tool post 704 on guide rail 703, specifically, adjusting member 708 includes: the second motor 709, the screw nut 710 and the screw support 711, the second motor 709 adopts a servo motor, the second motor 709 is installed on the workbench 705, the screw support 711 is installed on the workbench 705, a screw rod in the screw nut 710 is rotatably installed on the screw support 711 and connected with an output shaft of the second motor 709, the nut in the screw nut 710 is connected with the sliding plate 706, and the sliding plate 706 is driven by the second motor 709 to slide on the guide rail 703, so that the distance between the formed turning tool 702 and the baffle plate 3 is adjusted.

When the machining device for the baffle plate works, the baffle plate 3 and the pressing plate 606 are inserted into the rotating shaft 604 in sequence, the pressing cap 607 is screwed on, the pressing plate 606 is pressed through the pressing cap 607, the baffle plate 3 is stably positioned on the rotary table 605, the driving assembly 602 drives the rotating shaft 604 to rotate, namely, the baffle plate 3 rotates, the sliding plate 706 is driven by the motor II 709 to move towards the rotary table 605, namely, the forming turning tool 702 moves towards the periphery of the baffle plate 3, and the forming turning tool 702 performs turning on the periphery of the baffle plate 3 to form a sealing edge structure.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (9)

1. A seal edge structure for a baffle plate, comprising: the first supporting edge and the second supporting edge are arranged on the periphery of the edge of the baffle plate at intervals, and the first supporting edge and the second supporting edge are used for being in contact with the inner wall of the barrel of the evaporator.

2. The seal edge structure of claim 1, wherein a V-shaped groove is formed between the first support edge and the second support edge.

3. A baffle plate machining apparatus, comprising:

a pressure holding mechanism, the pressure holding mechanism comprising:

a seat assembly for positioning a baffle;

the driving assembly is in contact with the support assembly or is connected with the support assembly, and the driving assembly is used for driving the support assembly to rotate;

turning mechanism, turning mechanism includes:

the tool rest assembly and the support assembly are arranged at intervals;

the forming turning tool is connected to the tool rest assembly and used for machining the sealing edge of the deflector;

the tool rest assembly is used for positioning the forming turning tool and changing the distance between the forming turning tool and the support assembly.

4. The processing apparatus as set forth in claim 3, wherein the pedestal assembly comprises: the rotary table is mounted on the rotary shaft, the rotary table is used for placing the baffle plate, and the pressing mechanism is connected to the rotary shaft and used for positioning the baffle plate on the rotary table.

5. The processing apparatus as set forth in claim 4, wherein the holding-down mechanism further comprises: the pressing plate is arranged above the rotary table, the pressing cap is connected to the rotary shaft, and the pressing cap is used for applying pressure to the pressing plate.

6. The processing apparatus as set forth in claim 4, wherein the drive assembly comprises: the first motor is used for driving the rotating shaft to rotate.

7. The processing apparatus as in claim 6, wherein the drive assembly further comprises: and the transmission mechanism is arranged between the first motor and the rotating shaft.

8. The machining device of claim 4, wherein the tool holder assembly comprises: the guide rail and the rotary table are arranged at intervals, and the tool rest is arranged on the guide rail in a sliding mode.

9. The tooling apparatus of claim 8 wherein said tool holder assembly further comprises: the adjusting piece is connected with the tool rest and used for adjusting the position of the tool rest on the guide rail.

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