CN112976219A - Medium density fiberboard hot press molding equipment - Google Patents

Abstract

The invention provides medium-density fiberboard hot-press forming equipment, which comprises a hot-press device, a supporting seat, a placing mechanism and a connecting piece, wherein the placing mechanism comprises a base, a driving device, a distance sensor, two height limiting assemblies, a bearing assembly, a discharging box, a supporting plate, a pushing assembly and a handle, the discharging box is provided with a mounting table and a discharging groove, the mounting table is positioned on one side of the discharging box, the pushing assembly is provided with a sliding column, the mounting table is provided with the placing groove, the pushing assembly is provided with a convex block, the bearing assembly comprises a supporting piece, an elastic piece and a buffer piece, the supporting piece is provided with a fixing column, and the driving device rotates to drive the bearing assembly to slide up and down relative to; this medium density fiberboard hot briquetting equipment is convenient for the workman to operate, design benefit, and is rationally distributed, has shortened the board process of getting of medium density fiberboard after the hot pressing is accomplished, has improved workman's production efficiency, has solved the scarce problem in market of this type of equipment.

Description

Medium density fiberboard hot press molding equipment

Technical Field

The invention relates to the field of hot pressing machinery, in particular to hot pressing forming equipment for a medium-density fiberboard.

Background

The medium density fiberboard is an artificial board prepared by mechanically separating and chemically treating wood or plant fibers, adding an adhesive, a waterproof agent and the like, and then molding at high temperature and high pressure; the structure of the medium-density fiberboard is more uniform than that of natural wood, and the problems of decay, worm damage and the like are also avoided; because the surface of the medium-density fiber board is flat, various decorative surfaces are easy to stick, and the manufactured furniture is more beautiful;

at present, most manufacturers produce medium-density fiberboards by a dry method, and the dry method production process comprises the steps of mixing dry fibers with glue, paving by airflow and then performing hot-press molding by hot-press equipment; the adjustable range of the thickness of the medium-density fiberboard produced by the dry method is large, the two surfaces of the produced fiberboard are smooth, but the investment of production equipment is particularly large, so that the production equipment is scarce in the market;

therefore, it is necessary to provide a medium density fiberboard hot press forming device to solve the problem of the shortage of such devices in the market.

Disclosure of Invention

In order to solve the problems, the invention provides a medium-density fiberboard hot-press forming device to solve the problem that the device is scarce in the market.

The invention is realized by the following technical scheme:

the invention provides medium-density fiberboard hot-press forming equipment, which comprises a hot-press device, a supporting seat, a placing mechanism and a connecting piece, wherein the hot-press device is fixedly connected with the supporting seat, the placing mechanism is positioned at one side of the supporting seat, the hot-press device is positioned above the placing mechanism, one part of the connecting piece is fixedly connected with the supporting seat, the other part of the connecting piece is fixedly connected with the placing mechanism, the hot-press device can press towards the placing mechanism, the placing mechanism comprises a base, a driving device, a distance sensor, two height limiting components, a bearing component, a material discharging box, a supporting plate, a pushing piece and a handle, the base is fixedly connected with the connecting piece, the distance sensor is fixedly connected with the base and faces towards the bearing component, the two height limiting components are respectively and fixedly connected with the base, the driving device is fixedly connected with the base, a rotating shaft of the driving device penetrates through the base and is movably connected with the bearing assembly, the driving device is positioned between the two height limiting assemblies, the discharging box penetrates through the bearing assembly and is fixedly connected with the base, the bearing assembly is movably connected with the discharging box, an installation platform and a discharging groove are arranged on the discharging box, the installation platform is positioned on one side of the discharging box, a sliding column is arranged on the pushing piece, the sliding column penetrates through the installation platform and is movably connected with the installation platform, the handle is fixedly connected with the sliding column, the handle is far away from the discharging groove, a placing groove is arranged on the installation platform, a convex block is arranged on the pushing piece, the convex block is contained in the placing groove and is abutted against the installation platform, and the bearing assembly comprises a supporting piece, Elastic component and buffer, support piece runs through blow-down box and part extend to in the blow-down box, the backup pad accept in the blow-down box and with support piece fixed connection, the last fixed column that is equipped with of support piece, the fixed column runs through the elastic component and with bolster swing joint, elastic component one end with the support piece butt, the elastic component other end with the bolster butt, drive arrangement with distance sensor respectively with the hot press unit electricity is connected, drive arrangement rotates and can drive accept the subassembly for the blow-down box slides from top to bottom, thereby drives the backup pad is in slide in the blow-down box.

Furthermore, the supporting piece is provided with a bearing plate, the bearing plate is partially contained in the discharging groove, and the bearing plate is fixedly connected with the supporting plate.

Furthermore, a first mounting hole is formed in the bearing plate, a second mounting hole is formed in the supporting plate, and the first mounting hole is aligned with the second mounting hole.

Further, the placing mechanism comprises a locking member, and the locking member penetrates through the second mounting hole and is partially accommodated in the first mounting hole.

Further, be equipped with in the backup pad and dodge the groove, dodge the groove with the second mounting hole switches on, retaining member part accept in dodge the inslot, placement mechanism includes the filling member, the filling member accept in dodge the inslot and with the retaining member butt.

Furthermore, a prying groove is formed in the filling piece, and the prying groove is communicated with the avoiding groove.

Furthermore, limit for height the subassembly and include first limit for height piece, a plurality of second limit for height piece and cushion, first limit for height piece, a plurality of second limit for height piece with the cushion stacks gradually, first limit for height piece with base fixed connection.

Furthermore, a clamping groove is formed in the first height limiting block, a clamping plate is arranged on the base, and the clamping plate is partially contained in the clamping groove.

Furthermore, a first sliding groove is formed in the first height limiting block, a sliding boss and a second sliding groove are formed in the second height limiting block, the sliding boss is contained in the first sliding groove, and the cushion block is partially contained in the second sliding groove.

Furthermore, a plurality of anti-skid protrusions are arranged on the mounting table and are sequentially arranged in the placing groove, and the anti-skid protrusions are abutted to the protruding blocks.

The invention has the beneficial effects that:

the invention provides medium-density fiberboard hot-press forming equipment, which comprises a hot-press device, a supporting seat, a placing mechanism and a connecting piece, wherein the hot-press device is fixedly connected with the supporting seat, the placing mechanism is positioned on one side of the supporting seat, the hot-press device is positioned above the placing mechanism, one part of the connecting piece is fixedly connected with the supporting seat, the other part of the connecting piece is fixedly connected with the placing mechanism, the hot-press device can press towards the placing mechanism, the placing mechanism comprises a base, a driving device, a distance sensor, two height-limiting components, a bearing component, a discharging box, a supporting plate, a pushing piece and a handle, the base is fixedly connected with the connecting piece, the distance sensor is fixedly connected with the base and faces the bearing component, the two height-limiting components are respectively and fixedly connected with the base, the driving device is fixedly connected with the base, a rotating, the receiving assembly is arranged on the discharging box, the mounting table and the discharging groove are arranged on the discharging box, the mounting table is positioned on one side of the discharging box, the sliding column is arranged on the pushing piece, the sliding column penetrates through the mounting table and is movably connected with the mounting table, the handle is fixedly connected with the sliding column, the handle is far away from the discharging groove, the mounting table is provided with a placing groove, the pushing piece is provided with a convex block, the convex block is accommodated in the placing groove and is abutted against the mounting table, the receiving assembly comprises a supporting piece, an elastic piece and a buffer piece, the supporting piece penetrates through the discharging box and partially extends into the discharging groove, the supporting plate is accommodated in the discharging groove and is fixedly connected with the supporting piece, the supporting piece is provided with a fixing column, the fixing column penetrates through the elastic piece and is movably connected with the buffer piece, one end of the elastic piece is abutted against the buffer piece, the other end of the, the driving device rotates to drive the bearing assembly to slide up and down relative to the discharging box, so that the supporting plate is driven to slide in the discharging box; before hot pressing materials, firstly, a layer of protective film is padded on a supporting plate, then materials to be hot pressed are flatly paved on the protective film, after the materials are hot pressed, a driving device rotates to drive a bearing component to push upwards, so that the materials to be hot pressed are pushed out of a discharging groove, a buffering component and an elastic component can prevent a supporting component from colliding with the discharging groove, when the materials to be hot pressed are conveyed to the surface of the discharging groove and are flush with the surface of the supporting plate and the surface of the discharging groove, a worker can push the materials to be hot pressed out by pushing a pushing component through a handle, the pushed materials to be hot pressed can be pushed to external conveying equipment by the inertia, the driving device drives the bearing component to slide downwards after stopping for a preset time, so that the supporting plate is accommodated in the discharging groove again, the worker can lay the protective film again and place the materials to be hot pressed, a distance sensor can constantly calculate the distance between the bearing component and a, the height limiting component not only can limit the downward movement of the bearing component, but also has the function of regulating and controlling the thickness and the size of the material; in conclusion, the medium-density fiberboard hot-press forming equipment is convenient for workers to operate, ingenious in design and reasonable in layout, shortens the board taking process of the medium-density fiberboard after hot pressing is completed, improves the production efficiency of the workers, and solves the problem that the equipment is scarce in the market.

Drawings

FIG. 1 is an exploded view of a thermal press forming apparatus for medium density fiberboard according to the present invention;

FIG. 2 is a schematic overall view of a thermal press forming apparatus for medium density fiberboard according to the present invention;

FIG. 3 is a schematic view of a receiving assembly of the apparatus for hot press forming of medium density fiberboard according to the present invention;

FIG. 4 is a schematic view of a support member of the thermal press forming apparatus for medium density fiberboard provided in the present invention;

FIG. 5 is a cross-sectional view of a height-limiting assembly of the thermal compression molding apparatus for medium density fiberboard provided in the present invention;

FIG. 6 is an exploded view of a height-limiting assembly of the thermal compression molding apparatus for medium density fiberboard according to the present invention;

FIG. 7 is a schematic view of a support plate of the apparatus for hot press forming medium density fiberboard in accordance with the present invention;

FIG. 8 is a schematic view of a discharging box of the medium density fiberboard hot press molding equipment provided by the invention;

FIG. 9 is a schematic view of a pusher of the apparatus for hot press forming of medium density fiberboard of the present invention;

FIG. 10 is a schematic view of a base of a thermal press forming apparatus for forming a medium density fiberboard according to the present invention;

FIG. 11 is a schematic view of a filling member of the thermal compression molding apparatus for medium density fiberboard according to the present invention;

fig. 12 is a partially enlarged view of reference character a in fig. 8.

Detailed Description

In order to more clearly and completely explain the technical scheme of the invention, the invention is further explained with reference to the attached drawings.

Referring to fig. 1-12, the present invention provides a medium density fiberboard hot press forming apparatus, including a hot press device 1, a supporting seat 2, a placing mechanism 3 and a connecting member 4, the hot press device 1 is fixedly connected to the supporting seat 2, the placing mechanism 3 is located at one side of the supporting seat 2, the hot press device 1 is located above the placing mechanism 3, one portion of the connecting member 4 is fixedly connected to the supporting seat 2, the other portion of the connecting member 4 is fixedly connected to the placing mechanism 3, the hot press device 1 can be pressed toward the placing mechanism 3, the placing mechanism 3 includes a base 31, a driving device 32, a distance sensor 33, two height limiting components 34, a receiving component 35, a material placing box 36, a supporting plate 37, a pushing member 38 and a handle 39, the base 31 is fixedly connected to the connecting member 4, the distance sensor 33 is fixedly connected to the base 31 and faces the receiving component 35, the two height limiting components, the driving device 32 is fixedly connected with the base 31, a rotating shaft of the driving device 32 penetrates through the base 31 and is movably connected with the receiving component 35, the driving device 32 is positioned between the two height limiting components 34, the discharging box 36 penetrates through the receiving component 35 and is fixedly connected with the base 31, the receiving component 35 is movably connected with the discharging box 36, the discharging box 36 is provided with a mounting platform 361 and a discharging groove 362, the mounting platform 361 is positioned on one side of the discharging box 36, the pushing component 38 is provided with a sliding column 381, the sliding column 381 penetrates through the mounting platform 361 and is movably connected with the mounting platform 361, the handle 39 is fixedly connected with the sliding column 381, the handle 39 is far away from the discharging groove 362, the mounting platform 361 is provided with a placing groove 3611, the pushing component 38 is provided with a convex block 382, the convex block 382 is accommodated in the placing groove 3611 and is abutted against the mounting platform 361, the receiving component 35 comprises a supporting member 351, an elastic member 352 and a buffer 353, the supporting member 351, the supporting plate 37 is accommodated in the discharging groove 362 and fixedly connected with the supporting piece 351, the supporting piece 351 is provided with a fixing column 3511, the fixing column 3511 penetrates through the elastic piece 352 and is movably connected with the buffering piece 353, one end of the elastic piece 352 is abutted against the supporting piece 351, the other end of the elastic piece 352 is abutted against the buffering piece 353, the driving device 32 and the distance sensor 33 are respectively electrically connected with the hot pressing device 1, and the driving device 32 rotates to drive the accommodating component 35 to slide up and down relative to the discharging box 36, so that the supporting plate 37 is driven to slide in the discharging groove 362.

In the present embodiment:

the hot press device 1 is used for hot press molding of materials placed on the supporting plate 37, a control console convenient for workers to operate is arranged on the hot press device 1, a driving module is arranged in the control console, a data processing module and a main control module are arranged on the control console, a button is arranged on the control console, the driving module and the data processing module are respectively electrically connected with the main control module, the button is electrically connected with the main control module, the driving module is electrically connected with the driving device, the data processing module receives data returned by the distance sensor 33 in real time and feeds back the data to the main control module, the main control module is responsible for regulating and controlling the operation of the hot press device 1, the workers can press the button to issue corresponding instructions to the main control module, and the main control module;

the supporting seat 2 is used for providing a supporting structure for the hot-pressing device 1;

the placing mechanism 3 is used for providing a hot pressing position for the material to be hot pressed;

the base 31 is used for providing a stable supporting structure for the placing mechanism 3;

the driving device 32 is a stepping motor, a rotating shaft of the driving device is provided with a screw rod for transmission, a supporting piece 351 in the receiving assembly 35 is provided with a transmission hole matched with the screw rod, and the rotating shaft of the driving device 32 rotates to drive the receiving assembly 35 to slide up and down relative to the material discharge box 36;

the distance sensor 33 is an infrared distance sensor and is used for measuring the distance between the bearing component 35 and the base 31 and feeding back the data of the distance to the hot-pressing device 1;

the height limiting assemblies 34 are 2 in number and are all used for limiting the lowest height of the receiving assembly 35 when falling;

the receiving assembly 35 is used for providing a supporting structure for the supporting plate 37 and pushing the hot-pressed materials out of the material accommodating groove 362;

the support 351 is used to provide a stable support structure for the support plate 37;

the fixing post 3511 is used for providing a supporting structure for the buffer 353 and providing a placing structure for the elastic element 352;

the elastic member 352 is a spring for providing a support with a certain elastic force to the buffer member 353;

the buffer 353 is made of rubber and is used for preventing the support 351 from colliding with the discharge box 36 when the receiving assembly 35 moves upwards;

the discharge box 36 is used for providing a placing position for the materials to be hot-pressed;

the mounting platform 361 is used for providing a mounting structure for the pushing piece 38, so that the pushing piece 38 can be movably connected with the discharging box 36;

the placement groove 3611 is used for providing a placement space for the bump 382;

the material discharge groove 362 is used for providing a placing space for the supporting plate 37 and the material to be hot-pressed;

the support plate 37 is used for providing a placing structure for the materials to be hot-pressed;

the pushing piece 38 is used for pushing the materials subjected to hot pressing from the surface of the discharging box 36 to an external conveying device;

the sliding column 381 is used for providing a sliding support for the pushing member 38;

the protruding block 382 is used for providing a structure for clamping the mounting table 361 for the pushing member 38, when materials are hot-pressed, the pushing member 38 needs to be placed close to the mounting table 361, at this time, the protruding block 382 is accommodated in the placing groove 3611, and the pushing member 38 cannot easily slide out;

the handle 39 is used to provide a pushing structure for the worker;

the connecting piece 4 is used for firmly fixing the base 31 on the placing mechanism 3 on the supporting seat 2, and the connecting piece 4 is fixed on the supporting seat 2 through an external bolt and then fixed on the base 31 through the external bolt;

specifically, before hot-pressing the material, a protective film is padded on the supporting plate 37, then the material to be hot-pressed is flatly laid on the protective film, the hot-pressing device 1 is started to hot-press the material, after the hot-pressing of the material is completed, the driving device 32 rotates to drive the receiving assembly 35 to push upwards, so that the hot-pressed material is pushed out of the discharging groove 362, the buffer member 353 and the elastic member 352 can prevent the support member 351 from colliding with the discharging box 36, when the hot-pressed material is sent to the surface of the discharging box 36 and the supporting plate 37 is flush with the surface of the discharging box 36, a worker can push the pushing member 38 by using the handle 39 to push the hot-pressed material out, the pushed inertia can push the hot-pressed material to an external conveying device, the driving device 32 drives the receiving assembly 35 to slide downwards after staying for a preset time, so that the supporting plate 37 is accommodated in the discharging groove 362 again, a worker can lay the protective film again and put the materials to be hot-pressed, the distance sensor 33 can constantly calculate the distance between the bearing component 35 and the base 31, and the height limiting component 34 can limit the bearing component 35 to move downwards and has the function of regulating and controlling the thickness and the size of the materials;

in conclusion, the medium-density fiberboard hot-press forming equipment is convenient for workers to operate, ingenious in design and reasonable in layout, shortens the board taking process of the medium-density fiberboard after hot pressing is completed, improves the production efficiency of the workers, and solves the problem that the equipment is scarce in the market.

Furthermore, a bearing plate 3512 is convexly arranged on the supporting member 351, part of the bearing plate 3512 is accommodated in the feeding groove 362, and the bearing plate 3512 is fixedly connected with the supporting plate 37; the bearing plate 3512 is provided with a first mounting hole 35121, the support plate 37 is provided with a second mounting hole 371, and the first mounting hole 35121 is aligned with the second mounting hole 371; the placing mechanism 3 comprises a locking member 301, wherein the locking member 301 penetrates through the second mounting hole 371 and is partially accommodated in the first mounting hole 35121; the supporting plate 37 is provided with an avoiding groove 372, the avoiding groove 372 is communicated with the second mounting hole 371, the locking member 301 is partially accommodated in the avoiding groove 372, the placing mechanism 3 comprises a filling member 302, and the filling member 302 is accommodated in the avoiding groove 372 and is abutted against the locking member 301; the packing member 302 is provided with a prying groove 3021, and the prying groove 3021 is communicated with the avoiding groove 372.

In the present embodiment:

the receiving plate 3512 is used to provide a supporting structure for the supporting member 37, and also provides a structure for the supporting member 37 to be connected to the supporting member 351;

the number of the first mounting holes 35121 is 4, all are threaded holes, the number of the second mounting holes 371 is 4, all are through holes, the locking member 101 penetrates through the second mounting holes 371 and is screwed into the first mounting hole 35121, and the supporting plate 37 is locked on the bearing plate 3512;

the number of the avoiding grooves 372 is 4, and the avoiding grooves are used for providing a placing space for the locking member 101 and the filling member 302;

the number of the locking members 301 is 4, and the locking members 301 are fastening screws matched with the first mounting holes 35121 and used for locking and fixing the support plate 37 on the bearing plate 3512;

a total of 4 filling elements 302, all intended to fill the avoidance groove 372, making the support plate 37 more flat;

prying slot 3021 is used to provide a location for the filler piece 302 to be easily pried by a worker using an external tool;

specifically, after the worker installs the supporting plate 37 on the bearing plate 3512, the worker presses the filling piece 302 into the avoiding groove 372, so that the surface of the filling piece 302 is flush with the supporting plate 37, the supporting plate 37 is more flat at the moment, and the bottom of the material is prevented from bulging after hot pressing.

Further, the height limiting assembly 34 includes a first height limiting block 341, a plurality of second height limiting blocks 342 and a cushion block 343, the first height limiting block 341, the plurality of second height limiting blocks 342 and the cushion block 343 are stacked in sequence, and the first height limiting block 341 is fixedly connected with the base 31; a clamping groove 3411 is arranged on the first height limiting block 341, a clamping plate 311 is arranged on the base 31, and part of the clamping plate 311 is accommodated in the clamping groove 3411; the first height-limiting block 341 is provided with a first sliding groove 3412, the second height-limiting block 342 is provided with a sliding boss 3421 and a second sliding groove 3422, the sliding boss 3421 is accommodated in the first sliding groove 3412, and the block 343 is partially accommodated in the second sliding groove 3422.

In the present embodiment:

the first height limiting block 341 is used for providing a supporting structure for the second height limiting block 342;

the card slot 3411 is used for providing a space for placing the card 311;

the first sliding groove 3412 is used to provide a space for placing the sliding projection 3421;

the second height limiting blocks 342 are 4 in the height limiting assembly 34, 4 second height limiting blocks 342 can be used separately or in combination with different numbers, the height of each second height limiting block 342 is a measure for measuring the thickness dimension of the medium-density fiberboard during production, and the thickness dimension of the medium-density fiberboard during production is determined by the number of the second height limiting blocks 342 stacked and is also used for providing a supporting structure for the cushion block 343;

the sliding boss 3421 is used for providing a structure for the second height-limiting block 342 to connect with the first height-limiting block 341;

the second sliding groove 3422 is used for providing a space for placing the cushion block 343;

the cushion block 343 is a rubber member for providing a buffering structure when the receiving assembly 34 moves downward;

the clamping plate 311 is used to fix the first height limiter 341 on the base.

Further, a plurality of anti-slip protrusions 3612 are arranged on the mounting platform 361, the plurality of anti-slip protrusions 3612 are sequentially arranged, the plurality of anti-slip protrusions 3612 are all accommodated in the accommodating groove 3611, and the anti-slip protrusions 3612 abut against the protruding blocks 382.

In the present embodiment:

the anti-slip protrusions 3612 serve to increase the friction force of the protruding blocks 382 on the pushing member 38 with the mount 361, so that the pushing member 38 can be firmly fixed to the mount 361 when the hot press apparatus 1 is in operation.

Of course, the present invention may have other embodiments, and based on the embodiments, those skilled in the art can obtain other embodiments without any creative effort, and all of them are within the protection scope of the present invention.

Claims (10)

1. A medium density fiberboard hot-press forming device is characterized by comprising a hot-press device, a supporting seat, a placing mechanism and a connecting piece, wherein the hot-press device is fixedly connected with the supporting seat, the placing mechanism is positioned on one side of the supporting seat, the hot-press device is positioned above the placing mechanism, one part of the connecting piece is fixedly connected with the supporting seat, the other part of the connecting piece is fixedly connected with the placing mechanism, the hot-press device can press towards the placing mechanism, the placing mechanism comprises a base, a driving device, a distance sensor, two height limiting components, a bearing component, a material discharging box, a supporting plate, a pushing piece and a handle, the base is fixedly connected with the connecting piece, the distance sensor is fixedly connected with the base and faces the bearing component, and the two height limiting components are respectively and fixedly connected with the base, the driving device is fixedly connected with the base, a rotating shaft of the driving device penetrates through the base and is movably connected with the bearing assembly, the driving device is positioned between the two height limiting assemblies, the discharging box penetrates through the bearing assembly and is fixedly connected with the base, the bearing assembly is movably connected with the discharging box, an installation platform and a discharging groove are arranged on the discharging box, the installation platform is positioned on one side of the discharging box, a sliding column is arranged on the pushing piece, the sliding column penetrates through the installation platform and is movably connected with the installation platform, the handle is fixedly connected with the sliding column, the handle is far away from the discharging groove, a placing groove is arranged on the installation platform, a convex block is arranged on the pushing piece, the convex block is contained in the placing groove and is abutted against the installation platform, and the bearing assembly comprises a supporting piece, Elastic component and buffer, support piece runs through blow-down box and part extend to in the blow-down box, the backup pad accept in the blow-down box and with support piece fixed connection, the last fixed column that is equipped with of support piece, the fixed column runs through the elastic component and with bolster swing joint, elastic component one end with the support piece butt, the elastic component other end with the bolster butt, drive arrangement with distance sensor respectively with the hot press unit electricity is connected, drive arrangement rotates and can drive accept the subassembly for the blow-down box slides from top to bottom, thereby drives the backup pad is in slide in the blow-down box.

2. The apparatus of claim 1, wherein the support member has a receiving plate, the receiving plate is partially received in the trough, and the receiving plate is fixedly connected to the support plate.

3. The apparatus of claim 2, wherein the receiving plate has a first mounting hole, the supporting plate has a second mounting hole, and the first mounting hole is aligned with the second mounting hole.

4. The apparatus of claim 3, wherein the placement mechanism includes a locking member that extends through the second mounting hole and is partially received in the first mounting hole.

5. The medium density fiberboard hot press molding equipment according to claim 4, wherein an avoiding groove is formed in the supporting plate, the avoiding groove is communicated with the second mounting hole, the retaining member is partially accommodated in the avoiding groove, the placing mechanism comprises a filling member, and the filling member is accommodated in the avoiding groove and abutted against the retaining member.

6. The medium-density fiberboard thermoforming equipment according to claim 5, wherein the filling member is provided with a prying groove, and the prying groove is communicated with the avoiding groove.

7. The medium-density fiberboard hot-press forming device according to claim 1, wherein the height limiting assembly comprises a first height limiting block, a plurality of second height limiting blocks and a cushion block, the first height limiting block, the plurality of second height limiting blocks and the cushion block are stacked in sequence, and the first height limiting block is fixedly connected with the base.

8. The apparatus according to claim 7, wherein the first height-limiting block is provided with a slot, the base is provided with a clamping plate, and the clamping plate is partially received in the slot.

9. The apparatus according to claim 7, wherein the first height limiting block is provided with a first sliding groove, the second height limiting block is provided with a sliding boss and a second sliding groove, the sliding boss is received in the first sliding groove, and the cushion block is partially received in the second sliding groove.

10. The apparatus according to claim 1, wherein the mounting table has a plurality of anti-slip protrusions, the anti-slip protrusions are sequentially arranged, the anti-slip protrusions are received in the receiving grooves, and the anti-slip protrusions abut against the protruding blocks.

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