CN110685572A

CN110685572A - Cabinet door sealing structure

Info

Publication number: CN110685572A
Application number: CN201911128117.7A
Authority: CN
Inventors: 文海龙; 贺锡; 何佳芬; 黄小宝
Original assignee: Good Air Technology Development Ltd
Current assignee: Chengdu Best Technology Co ltd
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2020-01-14
Anticipated expiration: 2039-11-18
Also published as: CN110685572B

Abstract

The invention discloses a cabinet door sealing structure which comprises a door frame, a cabinet door arranged parallel to the end face of the door frame and a cabinet door pre-tightening plate installed on the door frame in a sliding mode along the vertical direction, wherein a cabinet door is arranged on one side, close to the door frame, of the cabinet door pre-tightening plate in a sliding mode along the direction perpendicular to the end face of the door frame, and a pushing pre-tightening assembly used for pushing the cabinet door is further arranged between one side, close to the door frame, of the cabinet door pre-tightening plate; the sliding door has the advantages that the sealing ring is partially rubbed when the cabinet door slides, the sealing ring is positively pressed when the cabinet door slides to be aligned with the opening of the cabinet body, the sealing effect is ensured, meanwhile, the deformation of the sealing ring is avoided, and the service life of the sealing ring is greatly prolonged.

Description

Cabinet door sealing structure

Technical Field

The invention belongs to the technical field of cabinet body structures, and particularly relates to a cabinet door sealing structure.

Background

The prior cabinet body structures such as the cabinet body or the disinfection cabinet need to ensure that the cabinet body keeps a good sealing state when corresponding sealing or disinfection work is carried out. Especially want to guarantee the sealed between cabinet door and the cabinet body, now generally set up the sealing washer through the opening part at the cabinet body, then compress tightly the sealing washer when closing through the cabinet door and realize sealing. However, when the existing sliding-mounted cabinet door is closed, the cabinet door needs to be slid to a position aligned with the opening of the cabinet body in advance, then the cabinet door is closed, and in the sliding process of the cabinet door, the closed side of the cabinet door is always in a contact state with the sealing ring. In order to guarantee the leakproofness between cabinet door and the cabinet body, laminating is inseparable between cabinet door and the cabinet body open-ended sealing washer usually, and this just leads to traditional cabinet door can lead to the fact very big frictional force to the sealing washer of cabinet body opening part when sliding, opens frequently at the cabinet door and closes and carry out gliding in-process, will lead to the sealing washer frequently to dredge the friction and lead to warping or drop, and then influences the leakproofness between cabinet door and the cabinet body. Therefore, the invention discloses a cabinet door sealing structure, which aims at solving the problems that the traditional cabinet door sealing structure causes great friction to a sealing ring at an opening of a cabinet body in the sliding process, so that the sealing ring is deformed and falls off and the sealing performance is insufficient.

Disclosure of Invention

The invention aims to provide a cabinet door sealing structure, which ensures that a cabinet door is not in contact friction with a sealing ring at an opening of a cabinet body in the process of sliding the cabinet door to be aligned with the opening of the cabinet body, and the cabinet door positively compresses the sealing ring after the cabinet door is aligned with the opening of the cabinet body, so that the deformation of the sealing ring is effectively avoided while the sealing effect is ensured, and the service life of the sealing ring is greatly prolonged.

The invention is realized by the following technical scheme:

the utility model provides a cabinet door seal structure, includes door frame and the cabinet door that is on a parallel with the setting of door frame terminal surface, still includes along vertical direction slidable mounting the cabinet door pretension board on the door frame, one side that cabinet door pretension board is close to the door frame is provided with the cabinet door along the direction slip of perpendicular to door frame terminal surface, still be provided with the top that is used for pushing away the cabinet door between one side that cabinet door pretension board is close to the door frame and the cabinet door and push away the pretension.

The working principle is as follows:

one side of door frame is provided with the cabinet body, the vertical slip of the opening that corresponds the cabinet body on the door frame is provided with cabinet door pretension board, cabinet door pretension board moves the cabinet door and corresponds two stations respectively for closing the door station and opening the door station on the door frame in synchronous vertical slip, the station of opening the door is the cabinet door and accompanies the cabinet door pretension board to slide to not sheltering from the position of cabinet body opening completely, the station of closing the door is the cabinet door and accompanies the cabinet door pretension board to slide to the position of lining up with cabinet body opening, the cabinet door is opening the door station and is closing the door between the station when sliding. External force is exerted through the manual work or external drive devices such as driving motor drive cabinet door pretension board promptly the cabinet door is synchronous to slide to the station of closing the door from the station of opening the door along vertical direction, and when the cabinet door opened the door and closed the door and slide between the station, the cabinet door can be guaranteed to slide the in-process can not take place the friction with the sealing washer in the clearance that leaves between the terminal surface of one side that is close to the cabinet body and the sealing washer of cabinet body opening part, avoids the sealing washer to receive frictional deformation. When the cabinet door slides to the door closing station along with the cabinet door pretension plate and aligns with the opening of the cabinet body, the cabinet door receives spacing no longer to continue sliding, and the cabinet door in the spacing state is pushed away along the direction perpendicular to the end face of the door frame by the pushing pretension assembly, so that the cabinet door compresses the sealing ring at the opening of the cabinet body forward, and the closing and sealing of the cabinet body are realized. When the cabinet door needs to be opened, the cabinet door tightly compressing the sealing ring at the opening of the cabinet body is pulled out through external force, so that the cabinet door is close to one side of the opening of the sealing box and separated from the sealing ring, then the cabinet door pre-tightening plate is driven to slide along the direction of the door closing station pointing to the door opening station, and then the cabinet door is driven to slide to the door opening station from the door closing station, and the opening of the cabinet body is realized.

In order to better realize the invention, the pushing pre-tightening assembly comprises a pushing spring, a pushing block and a linkage spring, the pushing block is arranged on one side of the door frame pre-tightening plate close to the door frame through the pushing spring along the direction vertical to the end face of the door frame, one end of the pushing block close to the door frame is provided with a pushing inclined plane, and the door is provided with a pressed inclined groove corresponding to the pushing inclined plane of the pushing block; the bottom end of the cabinet door pre-tightening plate is connected with the lower end of the cabinet door through a vertically arranged linkage spring.

The pushing inclined plane and the compressed chute are inclined towards the direction close to the opening of the cabinet body along the direction of the door-closing station, the cabinet door pre-tightening plate slides to the door-closing station from the door-opening station due to the connection of the linkage spring, and then the cabinet door is driven to slide to the door-closing station from the door-opening station synchronously, namely, in the process of sliding to the door-closing station from the door-opening station, the relative position of the cabinet door pre-tightening plate and the cabinet door is kept unchanged, namely, the relative position between the pushing block on the cabinet door pre-tightening plate and the compressed chute on the cabinet door is kept unchanged, and the pushing block does not extrude the compressed chute at. And the cabinet door slides to the in-process of closing the door station from the station of opening the door, leaves the clearance between the sealing washer of the opening part of the cabinet door preliminary body, and the friction with the sealing washer when avoiding the cabinet door to slide leads to the sealing washer to warp. The cabinet door is limited when sliding to the door closing station and can not slide continuously and is in a state of aligning with the opening of the cabinet body. And the cabinet door pretension plate continues to slide under the effect of external force, the linkage spring is compressed, the cabinet door pretension plate continues to slide relative to the cabinet door at the moment, and then the compression chute on the top push block and the cabinet door is driven to slide relatively, so that the top push inclined plane on the end of the top push block extrudes the compression chute, the top push spring enables the top push block to be in a top push state all the time, the top push block further pushes the cabinet door to be close to the opening of the cabinet body along the direction perpendicular to the end face of the door frame, and the cabinet door is enabled to positively compress the. When the cabinet door is opened, the cabinet door pretightening plate is driven by external force to slide along the direction of the door closing station pointing to the door opening station, at the moment, the linkage spring gradually recovers from a compression state, in the process of recovering from the linkage spring, reverse relative sliding occurs between the ejector block and the pressed inclined plane, at the moment, the ejector block does not extrude the pressed inclined plane any more, at the moment, the cabinet door can be separated from the cabinet body along the direction principle of the end face of the door frame under the action of external force, so that the cabinet door does not compress the sealing ring and leaves a gap between the cabinet door and the sealing. Then the cabinet door pretension plate continues to slide along the direction that the door closing station points to the door opening station, and then drives the cabinet door to slide from the door closing station to the door opening station through the linkage spring, so that the cabinet door is opened.

In order to better realize the invention, a door closing limiting plate is further arranged on the door frame corresponding to the bottom end of the door.

After the cabinet door slides to the door closing station and aligns with the opening of the cabinet body, the bottom end of the cabinet door contacts with the limiting surface of the cabinet door closing limiting plate and is limited so as not to continuously slide, and the cabinet door is positioned.

In order to better realize the invention, a linear slide rail is further arranged on the door frame along the vertical direction, a slide block is arranged on the linear slide rail in a sliding manner, and the slide block is connected with one end of a cabinet door pre-tightening plate through a sliding connecting piece.

In order to better realize the invention, further, a sliding column is arranged on the sliding connecting piece along the direction vertical to the end surface of the door frame, and one end of the cabinet door is sleeved on the sliding column in a sliding manner; a return spring is also arranged between the sliding connecting piece and the cabinet door.

When the cabinet door is closed, the cabinet door is pushed towards the direction close to the opening of the cabinet body by the pushing block, the cabinet door slides along the direction vertical to the end face of the door frame along the sliding column, and meanwhile, the reset spring is compressed. When the cabinet door was opened, after the top ejector pad no longer extruded the pressurized chute, reset spring from compression state reconversion this moment, and then drive the cabinet door and keep away from cabinet body opening along the direction of perpendicular to door frame terminal surface along the slip post and remove, realize the separation of cabinet door sealing washer in advance.

In order to better realize the invention, a safety limit plate is arranged at the bottom end of the cabinet door in a sliding manner along the vertical direction, a safety travel switch is further arranged at the bottom end of the cabinet door, and the detection end of the safety travel switch is in contact with the top of the safety limit plate.

Safety limit plate's bottom supports through safety travel switch's sense end when not receiving ambient pressure, and when the cabinet door slides, in case safety limit plate's bottom receives the pressurized that blocks of external object, safety limit plate slides along the direction that vertical direction orientation is close to the cabinet door this moment, and then extrudees safety travel switch's sense end, and safety travel opens this moment and can in time point out the cabinet door and appear blocking.

In order to better realize the invention, further, a safety fixing piece is arranged at the bottom end of the cabinet door, a guide post is arranged at the bottom of the safety fixing piece along the vertical direction, and one end of the safety limit plate is slidably sleeved on the guide post.

In order to better realize the invention, the cabinet door pre-tightening device further comprises a sliding driving device, and a driving end of the sliding driving device is connected with one end of the cabinet door pre-tightening plate and is used for driving the cabinet door pre-tightening plate to slide along the vertical direction.

In order to better implement the invention, further, the sliding driving device comprises a synchronous belt component arranged on the door frame along the vertical direction and a driving motor for driving the synchronous belt component, and a synchronous belt in the synchronous belt component is connected with one end of a cabinet door pretightening plate.

In order to better realize the invention, a top travel switch and a bottom travel switch are further arranged on the door frame along the vertical direction and respectively correspond to the upper end face and the lower end face of the cabinet door pretensioning plate.

Compared with the prior art, the invention has the following advantages and beneficial effects:

(1) according to the invention, the cabinet door is driven to slide between the door opening station and the door closing station by the cabinet door pretightening plate, and a gap is reserved between the cabinet door and the opening of the cabinet body when the cabinet door slides, so that the sealing ring at the opening of the cabinet body is prevented from being rubbed when the cabinet door slides, the deformation of the sealing ring is effectively avoided, and the service time of the sealing ring is prolonged; meanwhile, when the cabinet door slides to a door closing station, the pushing pre-tightening assembly pushes the cabinet door along a direction vertical to the end face of the door frame, so that the cabinet door positively compresses a sealing ring at the opening of the cabinet body, and the sealing effect is good;

(2) according to the invention, the pushing block with the pushing inclined plane is arranged on one side, close to the cabinet door, of the cabinet door pre-tightening plate, and the pressing chute is arranged on one side, close to the cabinet door pre-tightening plate, of the cabinet door, corresponding to the pushing inclined plane on the pushing block; when the cabinet door slides to the door closing station and is limited, the cabinet door pre-tightening plate continuously slides and drives the pushing block to extrude the pressed chute, and then the cabinet door is pushed along the direction vertical to the end face of the door frame, so that the cabinet door positively compresses the sealing ring at the opening of the cabinet body, and good sealing is ensured;

(3) the pushing pre-tightening assembly is a pushing block and a pressed chute which are matched with each other, the pushing of the cabinet door is realized in a mechanical matching mode, and the pushing of the cabinet door by parts such as an air cylinder, an oil cylinder and the like is replaced, so that the control is simpler and more convenient, and the pushing of the cabinet door is more reliable;

(4) according to the invention, the safety travel switch and the safety limit plate are arranged at the bottom of the cabinet door, once the safety limit plate is extruded by the outside, the safety travel switch is extruded, and then the safety travel switch sends a signal to the sliding driving device to stop the sliding driving device in time, so that the cabinet door is prevented from being impacted by foreign objects or clamping the foreign objects when the cabinet door is closed.

Drawings

FIG. 1 is a schematic view of the opened state of the cabinet door of the present invention;

FIG. 2 is a schematic view of a closed state of a cabinet door according to the present invention;

FIG. 3 is a partial enlarged view of a closed state of the cabinet door;

FIG. 4 is a partially enlarged view of the opened state of the cabinet door;

FIG. 5 is a side view of the closed state of the cabinet door;

FIG. 6 is a side view of the cabinet door in an open state;

fig. 7 is a schematic view of a cabinet door pretensioning plate and the installation of the cabinet door.

Wherein: 1-a door frame; 2-cabinet door; 3-cabinet door pretightening plate; 4-pushing pre-tightening component; 5-a slide drive; 11-a linear slide rail; 12-a slide block; 13-a sliding connection; 14-a return spring; 41-pushing spring; 42-pushing the pushing block; 43-a linkage spring; 51-a timing belt assembly; 52-a drive motor; 01-safety limit plate; 02-safety travel switch; 03-cabinet door closing limiting plate.

Detailed Description

Example 1:

the cabinet door sealing structure of the embodiment is shown in fig. 1 and fig. 2, and includes a door frame 1 and a cabinet door 2 parallel to the end face of the door frame, and further includes a cabinet door pre-tightening plate 3 slidably mounted on the door frame 1 along the vertical direction, one side of the cabinet door pre-tightening plate 3 close to the door frame 1 is slidably provided with the cabinet door 2 along the direction perpendicular to the end face of the door frame, and a pushing pre-tightening assembly 4 for pushing the cabinet door 2 is further arranged between one side of the cabinet door pre-tightening plate 3 close to the door frame 1 and the cabinet door 2.

Door frame 1 includes the stand of two parallel alignment settings, connects through the spreader between the same section of two stands and constitutes frame construction, and one side of door frame 1 is provided with the cabinet body. The two sides of the cabinet door pre-tightening plate 3 are respectively connected with the upright posts on the two sides of the door frame 1 in a sliding manner, so that the cabinet door pre-tightening plate 3 slides on the door frame 1 along the vertical direction. One side of the cabinet door pretension plate 3 close to the cabinet body is provided with a cabinet door 2 in a sliding manner along the direction vertical to the end face of the door frame, and the cabinet door 2 is arranged corresponding to the opening of the cabinet body. The cabinet door 2 slides along the vertical direction along with the cabinet door pre-tightening plate 3, and can slide along the direction vertical to the end face of the door frame through the cabinet door 2. The cabinet door 2 corresponds to a door opening station and a door closing station when sliding. One side of the cabinet door 2 close to the opening of the cabinet body is a sealing side and a gap is reserved between the sealing side and the sealing ring at the opening of the cabinet body, and the side opposite to the sealing side of the cabinet door 2 is a connecting side connected with the cabinet door pre-tightening plate 3.

The cabinet door 2 and the cabinet door pretightening plate 3 are in the station of opening the door at ordinary times, when the cabinet door 2 needs to be closed, external force is applied through the manual work or the cabinet door pretightening plate 3 is driven by external driving devices such as a driving motor to slide from the station of opening the door towards the station of closing the door, the cabinet door pretightening plate 3 synchronously drives the cabinet door 2 to slide from the station of opening the door towards the station of closing the door along the synchronous orientation of vertical direction, the cabinet door 2 does not rub with the sealing ring at the opening of the cabinet. When the cabinet door 2 slides to the station of closing the door, the cabinet door 2 receives spacing can not continue to slide, pushes away the direction removal that pretension subassembly 5 pushed away the cabinet door 2 and is close to the cabinet body opening along the direction of perpendicular to door frame terminal surface this moment, compresses tightly the sealing washer of cabinet body opening part until the sealed side of cabinet door 2, realizes that the cabinet door closes. When the cabinet door 2 needs to be opened, the cabinet door 2 is kept away from the opening of the cabinet body along the direction perpendicular to the end face of the door frame through external force, so that the sealing side of the cabinet door 2 is separated from the sealing ring, then the cabinet door pre-tightening plate 3 is driven to slide along the direction of the door closing station pointing to the door opening station, and then the cabinet door 2 is driven to slide towards the door opening station, so that the opening of the cabinet door 2 is realized.

Example 2:

the embodiment is further optimized on the basis of embodiment 1, as shown in fig. 1 to 6, the pushing pre-tightening assembly 4 includes a pushing spring 41, a pushing block 42 and a linkage spring 43, the pushing block 42 is installed on one side of the cabinet door pre-tightening plate 3 close to the door frame 1 along a direction perpendicular to the end surface of the door frame through the pushing spring 41, one end of the pushing block 42 close to the door frame 1 is provided with a pushing inclined surface, and a pressure inclined groove is arranged on the cabinet door 2 corresponding to the pushing inclined surface of the pushing block 42; the bottom end of the cabinet door pre-tightening plate 3 is connected with the lower end of the cabinet door 2 through a vertically arranged linkage spring 43.

The lower end of the cabinet door 2 is provided with a lug which protrudes horizontally, and the bottom end of the cabinet door pre-tightening plate 3 is connected with the lug at the lower end of the cabinet door 2 through a linkage spring 43 which is arranged vertically.

The pressure chute and the pushing inclined plane are inclined along the direction of the door closing station pointing to the door opening station and towards the direction close to the opening of the cabinet body. When the cabinet door pre-tightening plate 3 drives the cabinet door 2 to slide from the door opening station to the door closing station through the linkage spring 43, the relative position between the cabinet door pre-tightening plate 3 and the cabinet door 2 is unchanged due to the elastic force of the linkage spring 43, and the position between the pushing inclined plane at the end of the pushing block 42 and the pressed chute is unchanged relatively in the process, namely the pushing block 42 does not extrude the pressed chute. Receive spacing unable continuation slip when the station of closing the door when cabinet door 2 slides to closing the door, and cabinet door pretension board 3 continues to slide along the directional direction of closing the door station of opening the door of station under the effect of external force, linkage spring 43 compresses this moment, and then drive and take place relative motion between top ejector pad 42 and the pressurized chute, this moment top ejector pad 42 is close to the pressurized chute on cabinet body opening extrusion cabinet door 2 along the direction of perpendicular to cabinet door 2 terminal surface, and then drive cabinet door 2 and be close to cabinet body opening along the direction of perpendicular to cabinet door terminal surface, compress tightly the realization cabinet door 2 and close up to the sealing washer of cabinet door 2's sealed side with cabinet body opening. The pushing spring 41 ensures that the pushing block 42 is always in a pushing state, and ensures that the cabinet door 2 effectively compresses the sealing ring.

When needing to open the door, drive cabinet door pretension board 3 through external force and slide along the directional direction that opens the door station of closing the door station, at this in-process, linkage spring 43 is from behind the compression state reconversion, and then drive cabinet door 2 and accompany cabinet door pretension board 3 and slide towards the station that opens the door, the top push away inclined plane of ejector pad 42 at this moment keeps away from the pressurized chute gradually, after the top push away inclined plane on the ejector pad 42 no longer extrudees the pressurized chute, accessible external force separates the direction and the sealing washer of cabinet door 2 edge perpendicular to door frame terminal surface, then cabinet door pretension board 3 continues to drive cabinet door 2 and move towards the station that opens the door, realize opening of.

Other parts of this embodiment are the same as embodiment 1, and thus are not described again.

Example 3:

the embodiment is further optimized on the basis of the

above embodiment

1 or 2, and as shown in fig. 3 and 4, a door closing limiting plate 03 is disposed on the door frame 1 corresponding to the bottom end of the door 2.

The limiting plate 03 is closed to the cabinet door and passes through the mounting screw on door frame 1, and the cabinet door closes the bottom setting that limiting plate 03 corresponds the cabinet door 2 that is in the station of closing the door, and when cabinet door 2 slided to the station of closing the door, the terminal surface of cabinet door 2's bottom received spacingly with the spacing face contact that limiting plate 03 was closed to the cabinet door, and cabinet door 2 can not continue to slide this moment and realize the location.

The rest of this embodiment is the same as

embodiment

1 or 2, and therefore, the description thereof is omitted.

Example 4:

the present embodiment is further optimized on the basis of any one of the above embodiments 1 to 3, as shown in fig. 7, a linear slide rail 11 is arranged on the door frame 1 along the vertical direction, a slide block 12 is slidably arranged on the linear slide rail 11, and the slide block 12 is connected with one end of the cabinet door pre-tightening plate 3 through a sliding connection member 13.

The stand of door frame 1's both sides is close to and installs linear slide rail 11 respectively along vertical direction on one side of the cabinet body through the slide rail mount pad, it is provided with slider 12 to slide on the linear slide rail 11, slider 12 is close to through screw installation sliding connection 13 on one side of cabinet door pretension board 3, sliding connection 13 is close to and is provided with the stopper of T shape on one side of cabinet door pretension board 3, the stopper that corresponds the T shape on one side of cabinet door pretension board 3 is close to sliding connection 13 is provided with vertical sliding tray, the length of sliding tray is greater than the length of stopper. Meanwhile, one side of the upper end and the lower end of the cabinet door 2, which is close to the sliding connecting piece 13, is connected with the sliding connecting piece 13 in a sliding manner through a sliding column arranged in a direction vertical to the end face of the door frame.

When the cabinet door pre-tightening plate 3 slides to the door closing station from the door opening station, the position between the cabinet door pre-tightening plate 3 and the cabinet door 2 is relatively unchanged due to the self elastic action of the linkage spring 43, at the moment, the cabinet door 2 slides synchronously along with the cabinet door pre-tightening plate 3, and the T-shaped limiting block and the sliding groove on the cabinet door pre-tightening plate 3 do not slide relatively. When the cabinet door 2 slides to the door closing station and is limited, the cabinet door pre-tightening plate 3 continues to slide to compress the linkage spring 43, so that the T-shaped limiting block and the sliding groove in the cabinet door pre-tightening plate 3 slide relatively to each other, and the cabinet door pre-tightening plate 3 and the cabinet door 2 slide relatively to each other.

Other parts of this embodiment are the same as any of embodiments 1 to 3, and thus are not described again.

Example 5:

in this embodiment, a further optimization is performed on the basis of any one of the embodiments 1 to 4, as shown in fig. 7, a sliding column is arranged on the sliding connecting piece 13 along a direction perpendicular to the end surface of the door frame, and one end of the cabinet door 2 is slidably sleeved on the sliding column; a return spring 14 is also arranged between the sliding connecting piece 13 and the cabinet door 2.

The sliding connecting piece 13 is provided with a sliding column along the direction perpendicular to the end face of the door frame on the side away from the cabinet body, a sliding hole is formed in the end of the cabinet door 2 corresponding to the sliding column, and the end of the cabinet door 2 is in sliding fit with the sliding column through the sliding hole, so that the cabinet door 2 slides on the sliding column along the direction perpendicular to the end face of the door frame. Meanwhile, the outer side of the sliding column is coaxially sleeved with a return spring 14, and two ends of the return spring 14 are respectively connected with one side of the sliding connecting piece 13 far away from the cabinet body and one side of the cabinet door 2 close to the cabinet body.

When cabinet door 2 received the extrusion of top ejector pad 42, cabinet door 2 slided along the slip post orientation near cabinet body open-ended direction this moment, and reset spring 14 compresses simultaneously, because when cabinet door 2 closed, top ejector pad 42 was in the state of the tight cabinet door 2 in top all the time, consequently when cabinet door 2 was in the closed condition, reset spring 14 was also in the compression state all the time. When the pushing block 42 no longer pushes the cabinet door 2, the return spring 14 is restored from the compressed state and drives the cabinet door 2 to move along the sliding column towards the direction away from the opening of the cabinet body, so that the separation of the cabinet door 2 from the sealing ring at the opening of the cabinet body is realized.

Other parts of this embodiment are the same as any of embodiments 1 to 4, and thus are not described again.

Example 6:

the embodiment is further optimized on the basis of any one of the embodiments 1 to 5, as shown in fig. 7, a safety limit plate 01 is arranged at the bottom end of the cabinet door 2 in a sliding manner along the vertical direction, a safety travel switch 02 is further arranged at the bottom end of the cabinet door 2, and the detection end of the safety travel switch 02 is in contact with the top of the safety limit plate 01.

At cabinet door 2 slip in-process, in case the bottom terminal surface of safety limiting plate 01 receives external force extrusion, show promptly that there is the foreign object to block on cabinet door 2's the slip route, safety limiting plate 01 pressurized this moment and the orientation is close to the direction slip of cabinet door 2, and then extrudees safety travel switch 02's sense terminal, and safety travel switch 02 feeds back the signal to slip drive arrangement 5, makes slip drive arrangement 5 in time stop, effectively protects cabinet door 2 and foreign object collision.

Other parts of this embodiment are the same as any of embodiments 1 to 5, and thus are not described again.

Example 7:

this embodiment is further optimized on the basis of any one of above-mentioned embodiments 1-6, the bottom of cabinet door 2 is provided with safety fixing spare, safety fixing spare's bottom is provided with the guide post along vertical direction, the one end slip cover of safety limiting plate 01 is established on the guide post.

Safety fixing parts are installed at two ends of the bottom of the cabinet door 2 respectively through screws, guide posts are arranged at the bottom of each safety fixing part along the vertical direction, guide holes are formed in two ends of each safety limiting plate 01 corresponding to the guide posts respectively, and the safety limiting plates 01 are connected with the guide posts in a sliding fit mode, so that the safety limiting plates 01 can be installed in the bottom of the cabinet door 2 along the vertical direction.

Other parts of this embodiment are the same as any of embodiments 1 to 6, and thus are not described again.

Example 8:

the present embodiment is further optimized on the basis of any one of the above embodiments 1 to 7, and further includes a sliding driving device 5, wherein a driving end of the sliding driving device 5 is connected to one end of the cabinet door pre-tightening plate 3 and is used for driving the cabinet door pre-tightening plate 3 to slide in the vertical direction.

The sliding driving device 5 is used for driving the cabinet door pre-tightening plate 3 to slide back and forth between the door opening station and the door closing station along the vertical direction. The sliding driving device 5 may adopt any one of a synchronous belt driving device, a linear screw driving device and a linear air cylinder driving device, and it should be further explained that the stroke of the driving end of the sliding driving device 5 is greater than or equal to the stroke of the cabinet door pre-tightening plate 3 sliding back and forth between the door opening station and the door closing station.

Other parts of this embodiment are the same as any of embodiments 1 to 7, and thus are not described again.

Example 9:

the present embodiment is further optimized based on any one of the above embodiments 1 to 8, as shown in fig. 1 and 2, the sliding driving device 5 includes a timing belt assembly 51 vertically disposed on the door frame 1 and a driving motor 52 for driving the timing belt assembly 51, and a timing belt in the timing belt assembly 51 is connected to one end of the door pretensioning plate 3.

Synchronous belt subassembly 51 includes the transmission shaft, synchronous pulley, the hold-in range, door frame 1's top is provided with driving motor 52, driving motor 52's output shaft passes through the shaft coupling and is connected with the transmission shaft, the upper and lower both ends of door frame 1's stand rotate respectively and install synchronous pulley, the synchronous pulley suit of upper end is on the transmission shaft, the synchronous pulley at upper and lower both ends passes through synchronous belt drive and connects, one side of hold-in range is passed through the cardboard and is connected with the one end of cabinet door pretension board 3. Drive the transmission shaft through driving motor 52 and rotate, and then drive synchronous pulley and rotate, synchronous pulley and then drive the synchronous belt and remove along vertical direction, and the synchronous belt and then drive cabinet door pretension board 3 and slide along vertical direction. It should be noted that, the movement of the synchronous belt forms a stroke which is greater than or equal to the back-and-forth sliding of the cabinet door pre-tightening plate 3 between the door opening station and the door closing station.

Other parts of this embodiment are the same as any of embodiments 1 to 8, and thus are not described again.

Example 10:

in this embodiment, a further optimization is performed on the basis of any one of the embodiments 1 to 9, and a top travel switch and a bottom travel switch are respectively arranged on the door frame 1 along the vertical direction and correspond to the upper end surface and the lower end surface of the cabinet door pretensioning plate 3.

The top travel switch and the bottom travel switch are respectively arranged corresponding to the limit positions of the cabinet door pre-tightening plate 3 when sliding between the door opening station and the door closing station. The top travel switch and the bottom travel switch are both connected with the sliding driving device 5, when the top or the bottom of the cabinet door pre-tightening plate 3 touches the top travel switch or the bottom travel switch, the top travel switch or the bottom travel switch sends a signal to the sliding driving device 5 in real time, so that the sliding driving device 5 stops in time, and the cabinet door pre-tightening plate 3 is prevented from sliding over.

Other parts of this embodiment are the same as any of embodiments 1 to 9, and thus are not described again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications and equivalent variations of the above embodiments according to the technical spirit of the present invention are included in the scope of the present invention.

Claims

1. The utility model provides a cabinet door seal structure, includes door frame (1) and cabinet door (2) that are on a parallel with the setting of door frame terminal surface, its characterized in that still includes along vertical direction slidable mounting cabinet door pretension board (3) on door frame (1), one side that cabinet door pretension board (3) are close to door frame (1) is slided along the direction of perpendicular to door frame terminal surface and is provided with cabinet door (2), still be provided with between one side that cabinet door pretension board (3) are close to door frame (1) and cabinet door (2) and push away the top that is used for pushing away cabinet door (2) and push away pretension subassembly (4.

2. The cabinet door sealing structure according to claim 1, wherein the pushing pre-tightening assembly (4) comprises a pushing spring (41), a pushing block (42) and a linkage spring (43), the pushing block (42) is mounted on one side of the cabinet door pre-tightening plate (3) close to the door frame (1) along a direction perpendicular to the end face of the door frame through the pushing spring (41), one end of the pushing block (42) close to the door frame (1) is provided with a pushing inclined surface, and a pressure inclined groove is formed in the cabinet door (2) corresponding to the pushing inclined surface of the pushing block (42); the bottom end of the cabinet door pre-tightening plate (3) is connected with the lower end of the cabinet door (2) through a vertically arranged linkage spring (43).

3. The cabinet door sealing structure according to claim 2, wherein a cabinet door closing limiting plate (03) is arranged on the door frame (1) corresponding to the bottom end of the cabinet door (2).

4. A cabinet door sealing structure according to any one of claims 1-3, characterized in that a linear slide rail (11) is arranged on the door frame (1) along the vertical direction, a slide block (12) is slidably arranged on the linear slide rail (11), and the slide block (12) is connected with one end of the cabinet door pretensioning plate (3) through a sliding connecting piece (13).

5. A cabinet door sealing structure according to claim 4, characterized in that a sliding column is arranged on the sliding connecting piece (13) along a direction perpendicular to the end face of the door frame, and one end of the cabinet door (2) is slidably sleeved on the sliding column; and a return spring (14) is also arranged between the sliding connecting piece (13) and the cabinet door (2).

6. The cabinet door sealing structure according to claim 1, wherein a safety limit plate (01) is slidably arranged at the bottom end of the cabinet door (2) along a vertical direction, a safety travel switch (02) is further arranged at the bottom end of the cabinet door (2), and a detection end of the safety travel switch (02) is in contact with the top of the safety limit plate (01).

7. The cabinet door sealing structure according to claim 6, wherein a safety fixing member is arranged at the bottom end of the cabinet door (2), a guide post is arranged at the bottom of the safety fixing member along the vertical direction, and one end of the safety limiting plate (01) is slidably sleeved on the guide post.

8. A cabinet door sealing structure according to any one of claims 1-3, further comprising a sliding driving device (5), wherein a driving end of the sliding driving device (5) is connected with one end of the cabinet door pretensioning plate (3) and is used for driving the cabinet door pretensioning plate (3) to slide along the vertical direction.

9. The cabinet door sealing structure according to claim 8, wherein the sliding driving device (5) comprises a synchronous belt assembly (51) arranged on the door frame (1) along the vertical direction and a driving motor (52) for driving the synchronous belt assembly (51), and a synchronous belt in the synchronous belt assembly (51) is connected with one end of the cabinet door pretensioning plate (3).

10. The cabinet door sealing structure according to claim 1, wherein a top travel switch and a bottom travel switch are respectively arranged on the door frame (1) along the vertical direction corresponding to the upper end face and the lower end face of the cabinet door pretensioning plate (3).