CN115999867B - Electric heating multipoint glue curing and drying kiln - Google Patents

Abstract

The invention relates to an electric heating multipoint glue curing drying kiln, which belongs to the technical field of drying kilns and aims at solving the problems that a bonding part of a mechanical structure cannot be pressed and bonded in a glue curing process easily due to the fact that a curing bonding effect is not formed before glue is placed in the drying kiln, so that the glue bonding quality is greatly influenced.

Description

Electric heating multipoint glue curing and drying kiln

Technical Field

The invention relates to the technical field of drying kilns, in particular to an electric heating multipoint glue curing drying kiln.

Background

The drying kiln is a large-scale drying device used in industrial production, and has wide application in the production of cement industry, metallurgical industry, wood drying, glue drying, brick and tile drying and the like. Because the splicing installation among a plurality of mechanical mechanisms is carried out through glue and is fixed, in order to achieve the effect of glue drying rapidly, a drying kiln is generally adopted for high-temperature drying and curing.

At present, the mechanical structure is usually directly placed in a drying kiln after glue is coated, and the drying kiln is sealed and started, so that the drying and curing of the glue can be realized, but the glue is placed in the drying kiln before the curing and bonding effects are not formed, so that the bonding position of the mechanical structure can not be pressed and bonded in the glue curing process easily, the glue bonding quality is greatly influenced, and the using effect is poor.

Aiming at the problems, an electric heating multipoint glue curing drying kiln is provided.

Disclosure of Invention

The invention aims to provide a drying kiln which adopts the device to work, thereby solving the problems that the bonding part of a mechanical structure cannot be pressed and bonded in the glue curing process easily because the curing and bonding effects are not formed before the glue is placed in the drying kiln in the background, the glue bonding quality is greatly influenced and the using effect is poor.

In order to achieve the above purpose, the present invention provides the following technical solutions: the electric heating multipoint glue curing drying kiln comprises a kiln body and a supporting base fixedly installed on the bottom surface of the kiln body, wherein a controller is installed at the top of the kiln body, electric heaters are respectively installed on the inner walls of the top surface and the middle parts of the side surfaces of an inner cavity of the kiln body, the electric heaters are electrically connected with the controller, a plugging door is installed on the front surface of the kiln body, a plurality of placing frames are fixedly arranged on the outer wall of the inner side of the plugging door, driving columns are inserted and slidably installed at the inner ends of the placing frames, a placing plate is slidably installed at the middle part of each placing frame, and a clamping assembly is installed at the middle part of each placing frame;

the sealing door comprises a sealing door main body and sealing gaskets fixedly arranged on the outer walls of the inner side of the sealing door main body, and sliding frames are respectively fixedly arranged on the outer walls of the two ends of the inner side of the lower end of the sealing door main body; the clamping assembly comprises an air compressing telescopic column, a first air inlet telescopic column and a second air inlet telescopic column which are respectively embedded into inner cavities at two ends of the middle of the placing frame, an electric clamping mechanism is fixedly arranged at the output end of the first air inlet telescopic column, a rotary clamping mechanism is fixedly arranged at the output end of the second air inlet telescopic column, and the electric clamping mechanism and the rotary clamping mechanism are correspondingly arranged.

Further, bottom sliding grooves are respectively arranged at two sides of the bottom surface of the inner cavity of the kiln body, arc-shaped sliding ways are respectively arranged on the inner walls of the two sides of the inner cavity of the bottom sliding grooves, a heat insulation layer is arranged in the inner cavity of the periphery of the kiln body, and two sides of the inner side end of the sliding frame are respectively arranged in the arc-shaped sliding ways in a sliding manner through a plurality of balls.

Further, the placing frame comprises a connecting mother block and a connecting sub block arranged at the inner end of the connecting mother block, the connecting mother block is fixedly connected with the connecting sub block through a concave frame, and two ends of the concave frame are respectively and fixedly arranged at the inner ends of the bottom surfaces of the connecting mother block and the connecting sub block.

Further, be provided with the bi-pass spout on the one side lower extreme outer wall of connecting female block inner, be provided with first abnormal hole in the opposite side inner chamber of connecting female block inner, be provided with the lateral wall spout on the both ends outer wall of concave frame inboard respectively, and be the intercommunication setting between bi-pass spout and the lateral wall spout, be provided with first L type hole in the outer end inner chamber of concave frame, be provided with the second L type hole in the inner chamber of concave frame, and be linked together between first L type hole and the second L type hole and the flexible post that presses gas respectively, be provided with the bi-pass mounting groove on the outer end bottom surface of connector block, and be provided with the through-slide on the inner lower extreme outer wall of connector block, and drive the one end slip setting of post in the through-slide, and one side department of connector block inner chamber is provided with the second abnormal hole, the other end and the second inner hole of second L type hole are linked together, the second abnormal hole is linked together with the flexible post afterbody that presses gas.

Further, the driving column comprises a sliding column and a clamping mechanism embedded in an inner cavity at one end of the sliding column, and a pressurizing sleeve is fixedly arranged on the outer wall at one end of the sliding column.

Further, be provided with the income recess on the one end middle part outer wall of slip post, be provided with protruding slide hole on the top surface and the bottom surface of income recess inner chamber other end respectively, joint mechanism is including promoting interior pole and the promotion groove of setting up on promoting interior pole other end top surface and bottom surface respectively, the surface setting that one end portion of pole was the protrusion pressurization cover in promoting, and be provided with first slope spout on the both sides inside of promotion groove inner chamber respectively, slide in the inner chamber of promotion groove and be provided with the joint lug, and the inner both sides department of joint lug is installed on first slope spout through the ball respectively.

Further, place the board including placing board main part and fixed mounting and place the restriction slider of board main part one end one side department, and restriction slider slip setting is in the bi-pass spout, and the one side department fixed mounting who places the board main part other end has the drive slider, and drives the slider slip setting in the bi-pass mounting groove.

Further, a pushing groove is formed in the outer wall of the other end of the driving sliding block, second inclined sliding grooves are formed in the inner walls of the two sides of the inner cavity of the pushing groove respectively, and two sides of one end of the sliding column are mounted on the second inclined sliding grooves respectively through balls.

Further, the output end fixed mounting of the flexible post that compresses gas is on the bottom surface that drives the slider, and electronic clamping mechanism includes well connecting block and fixed mounting in the motor of well connecting block inner chamber, inserts movable mounting on the outer wall of one end middle part of well connecting block and has the rotation hold-down bar, and the output end fixed mounting of motor is on the rotation hold-down bar, rotates the flexible post that pushes away of hold-down bar including connecting sleeve and one end through reset spring slidable mounting in the connecting sleeve inner chamber, and the other tip fixed mounting that stretches out and draws back the post has the pressure strip.

Further, the rotary clamping mechanism comprises a middle pushing block and a rotary pressing rod with one end inserted into the outer wall of the middle part of the other side of the middle pushing block, and the composition and the connection mode of each structure in the rotary pressing rod are the same as those of each structure in the rotary pressing rod.

Compared with the prior art, the invention has the following beneficial effects: the structure to be processed is placed on the placing plate, the clamping of the gluing part of the mechanical structure can be automatically realized by pushing the blocking door, the setting ensures that an operator only needs to place the mechanical structure in the whole operation process, the blocking door is closed, the automatic clamping effect can be realized, multiple effects can be simultaneously completed by one action, the operation efficiency is improved, the glue bonding quality is ensured, and the use is convenient.

Drawings

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic diagram of a kiln body perspective structure of the invention;

FIG. 3 is a schematic overall cross-sectional view of the present invention;

FIG. 4 is a cross-sectional view of a kiln body of the present invention;

FIG. 5 is a schematic plan view of a closure door according to the present invention;

FIG. 6 is a cross-sectional view of a rack of the present invention;

FIG. 7 is a schematic cross-sectional view of a clamping assembly of the present invention;

FIG. 8 is a schematic cross-sectional view of a portion of a driving post according to the present invention;

FIG. 9 is a cross-sectional view of a placement plate of the present invention;

FIG. 10 is a cross-sectional view of a middle connecting block of the present invention;

FIG. 11 is a schematic perspective view of a rotary hold-down bar of the present invention;

fig. 12 is a cross-sectional view of a middle pusher block of the present invention.

In the figure: 1. a kiln body; 11. a bottom chute; 12. an arc-shaped slideway; 13. a thermal insulation layer; 2. a support base; 3. a controller; 4. an electric heater; 5. plugging a door; 51. a plugging door body; 52. a sealing gasket; 53. a carriage; 6. a placing rack; 61. connecting the mother blocks; 611. a two-way chute; 612. a first malformed bore; 62. a concave frame; 621. a side wall chute; 622. a second L-shaped aperture; 623. a first L-shaped aperture; 63. connecting the sub-blocks; 631. a two-way mounting groove; 632. penetrating the sliding hole; 633. a second malformed bore; 7. driving the column; 71. a sliding column; 711. a receiving groove; 712. a protruding slide hole; 72. a clamping mechanism; 721. pushing the inner rod; 722. a pushing groove; 723. a first inclined chute; 724. a clamping convex block; 73. a pressurizing sleeve; 8. placing a plate; 81. placing a plate main body; 82. a limit slider; 83. driving the sliding block; 831. pressing down the pushing groove; 832. a second inclined chute; 9. a clamping assembly; 91. a compressed air telescopic column; 92. a first intake telescoping column; 93. a second intake telescoping column; 94. an electric clamping mechanism; 941. a middle connecting block; 942. a motor; 943. rotating the pressing rod; 9431. a connecting sleeve; 9432. a telescopic push column; 9433. a return spring; 9434. a compacting plate; 95. a rotary clamping mechanism; 951. a middle pushing block; 952. the pressing rod is rotated.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problems that the glue is placed in the drying kiln before the curing and bonding effects are formed, so that the bonding part of the mechanical structure cannot be pressed and bonded in the curing process of the glue easily, the bonding quality of the glue is greatly affected, and the using effect is poor, as shown in fig. 1-8, the following preferable technical scheme is provided:

the utility model provides an electrical heating multipoint mode glue solidification dry kiln, including kiln body 1 and fixed mounting support base 2 on kiln body 1 bottom surface, controller 3 is installed at the top of kiln body 1, and install electric heater 4 on the inner chamber top surface of kiln body 1 and the side middle part inner wall respectively, and electric connection between electric heater 4 and the controller 3, shutoff door 5 is installed in the front of kiln body 1, arrange fixed mounting has a plurality of racks 6 on the inboard outer wall of shutoff door 5, the inner tip of rack 6 inserts slidable mounting and drives post 7, the mid-portion department slidable mounting of rack 6 has place board 8, and the mid-portion department of rack 6 installs clamping assembly 9.

The sealing door 5 comprises a sealing door main body 51 and sealing gaskets 52 fixedly arranged on the inner side outer wall of the sealing door main body 51, and sliding frames 53 are respectively fixedly arranged on the outer walls of the inner side two ends of the lower end of the sealing door main body 51.

The clamping assembly 9 comprises a compressed air telescopic column 91, a first air inlet telescopic column 92 and a second air inlet telescopic column 93 which are respectively embedded into inner cavities at two ends of the middle of the placing frame 6, wherein an electric clamping mechanism 94 is fixedly installed at the output end of the first air inlet telescopic column 92, a rotary clamping mechanism 95 is fixedly installed at the output end of the second air inlet telescopic column 93, and the electric clamping mechanism 94 and the rotary clamping mechanism 95 are correspondingly arranged.

The bottom sliding grooves 11 are respectively arranged at two sides of the bottom surface of the inner cavity of the kiln body 1, the arc-shaped sliding ways 12 are respectively arranged on the inner walls of the two sides of the inner cavity of the bottom sliding grooves 11, the heat insulation layer 13 is arranged in the outer peripheral inner cavity of the kiln body 1, and the two sides of the inner side end of the sliding frame 53 are respectively arranged in the arc-shaped sliding ways 12 in a sliding manner through a plurality of balls.

The placing frame 6 comprises a connecting mother block 61 and a connecting sub-block 63 arranged at the inner end of the connecting mother block 61, the connecting mother block 61 and the connecting sub-block 63 are fixedly connected through a concave frame 62, and two ends of the concave frame 62 are respectively fixedly arranged at the inner ends of the bottom surfaces of the connecting mother block 61 and the connecting sub-block 63.

The inner side of the connecting mother block 61 is provided with a double-pass chute 611 on the outer wall of the lower end at one side, the inner cavity at the other side is provided with a first malformation inner hole 612, the first malformation inner hole 612 is communicated with the tail of the first air inlet telescopic column 92, the outer walls at the two ends of the inner side of the concave frame 62 are respectively provided with a side wall chute 621, the double-pass chute 611 and the side wall chute 621 are communicated, the inner cavity at the outer end of the concave frame 62 is provided with a first L-shaped hole 623, the inner cavity at the inner end of the concave frame 62 is provided with a second L-shaped hole 622, the first L-shaped hole 623 and the second L-shaped hole 622 are respectively communicated with the air inlet telescopic column 91, the other end of the first L-shaped hole 623 is communicated with the first malformation inner hole 612, the outer bottom surface of the connecting sub-block 63 is provided with a double-pass mounting groove 631, the outer wall at the lower end of the inner end of the connecting sub-block 63 is provided with a through slide hole 632, one end of the driving column 7 is slidingly arranged in the through slide hole 632, one side of the inner cavity of the connecting sub-block 63 is provided with a second malformation inner hole 633, the other end of the second L-shaped hole 622 is communicated with the second malformation inner hole 633, and the other end of the second malformation inner hole 633 is communicated with the second air inlet telescopic column 93.

The driving column 7 comprises a sliding column 71 and a clamping mechanism 72 embedded and installed in an inner cavity at one end of the sliding column 71, and a pressurizing sleeve 73 is fixedly installed on the outer wall at one end of the sliding column 71.

The middle outer wall of one end of the sliding column 71 is provided with a receiving groove 711, the top surface and the bottom surface of the other end of the inner cavity of the receiving groove 711 are respectively provided with a protruding sliding hole 712, the clamping mechanism 72 comprises a pushing inner rod 721 and pushing grooves 722 respectively arranged on the top surface and the bottom surface of the other end of the pushing inner rod 721, one end of the pushing inner rod 721 is arranged on the surface of the protruding pressurizing sleeve 73, the inner parts of the two sides of the inner cavity of the pushing groove 722 are respectively provided with a first inclined sliding groove 723, a clamping convex block 724 is slidably arranged in the inner cavity of the pushing groove 722, and the two sides of the inner end of the clamping convex block 724 are respectively arranged on the first inclined sliding groove 723 through balls.

Specifically, through the arrangement of the clamping mechanism 72 on the sliding column 71, after the operator places the mechanical structure coated with glue on the placing plate 8, the sliding column 71 can not be pressed into the penetrating sliding hole 632 under the arrangement of the convex sliding holes 712 of the clamping convex blocks 724 respectively, thereby facilitating the placing effect of the structure to be processed.

Further, when the operator places the glue mechanical structure to be heated on the placing plate 8, the plugging door 5 can be pushed, the placing frame 6 is driven by the plugging door 5 to move towards the inner cavity of the kiln body 1 until one end of the pushing inner rod 721 contacts the inner wall of the inner cavity of the kiln body 1, at this time, the pushing inner rod 721 can be driven to slide towards the inner cavity of the accommodating groove 711 under the extrusion pushing of the inner wall of the inner cavity of the kiln body 1, under the limiting action of the first inclined sliding groove 723, the clamping convex block 724 can be driven to be retracted into the inner cavity of the pushing groove 722 in a decibel manner, the sliding column 71 can lose the clamping action, can slide towards the penetrating sliding hole 632, thereby driving the placing plate 8 to move downwards, and in the process of moving downwards the placing plate 8, the air compressing telescopic column 91 can be simultaneously extruded, by setting the volume of the air telescopic column 91 to be larger than the sum volume of the first air telescopic column 92 and the second air telescopic column 93, the compressed air telescopic columns 91 respectively press the internal air into the first air inlet telescopic column 92 and the second air inlet telescopic column 93, so that the first air inlet telescopic column 92 and the second air inlet telescopic column 93 can be respectively driven to extend, the electric clamping mechanism 94 is driven, the mechanical structure is pressed and fixed by the rotary clamping mechanism 95, after the mechanical structure is continuously pushed, the separation between the placing plate 8 and the mechanical structure can be realized after the mechanical structure is clamped, the glue is heated and solidified by the electric heater 4, the arrangement not only realizes the pressing and fixing of the joint of the mechanical structure in the glue heating process, but also realizes the automatic clamping effect by only placing the mechanical structure and closing the sealing door 5 in the whole operation process, and can simultaneously complete multiple effects by one action, the operation efficiency is improved, and the processing quality is ensured.

In order to solve the technical problem of how to heat the glue more uniformly and thereby improve the drying and curing efficiency, as shown in fig. 5-12, the following preferred technical scheme is provided:

the placing plate 8 comprises a placing plate main body 81 and a limiting slide block 82 fixedly installed at one side of one end of the placing plate main body 81, the limiting slide block 82 is slidably arranged in the double-pass chute 611, a driving slide block 83 is fixedly installed at one side of the other end of the placing plate main body 81, and the driving slide block 83 is slidably arranged in the double-pass installation groove 631.

The other end outer wall of the driving sliding block 83 is provided with a pushing groove 831, and two side inner walls of the inner cavity of the pushing groove 831 are respectively provided with a second inclined sliding groove 832, and two sides of one end of the sliding column 71 are respectively arranged on the second inclined sliding grooves 832 through balls.

The output end fixed mounting of the compressed air telescopic column 91 is on the bottom surface that drives the slider 83, electronic clamping mechanism 94 includes well connecting block 941 and fixed mounting in the motor 942 of well connecting block 941 inner chamber, insert movable mounting on the outer wall of the one end middle part of well connecting block 941 and rotate the hold-down bar 943, and the output end fixed mounting of motor 942 is on rotating the hold-down bar 943, rotate the hold-down bar 943 and include connecting sleeve 9431 and one end pass through reset spring 9433 slidable mounting in the flexible push column 9432 of connecting sleeve 9431 inner chamber, and the other end fixed mounting of flexible push column 9432 has the pressure strip 9434, the surface of pressure strip 9434 is unsmooth setting.

The rotary clamping mechanism 95 includes a middle push block 951 and a rotary pressing rod 952 having one end inserted into an outer wall of the middle portion of the other side of the middle push block 951, and the composition and connection of each structure in the rotary pressing rod 952 are the same as those of each structure in the rotary pressing rod 943.

Specifically, when the sliding column 71 slides towards the through sliding hole 632, the placing plate 8 is driven to move downwards under the limiting action of the second inclined sliding groove 832, in this process, when the electric clamping mechanism 94 and the rotating clamping mechanism 95 move towards the position of the structure to be processed respectively, the pressing plate 9434 contacts the surface of the mechanical structure, and the clamping of the mechanical structure is realized through the elastic force of the return spring 9433, after the placing plate 8 automatically separates the mechanical structure, an operator can drive the rotating pressing rod 943 to rotate through starting the motor 942, and the movable connection of the rotating pressing rod 952 on the middle pushing block 951 can drive the mechanical structure to rotate integrally, so that the full-direction heating and curing of the glue bonding part can be realized, multiple effects can be simultaneously completed through one action, the placing plate 8 can not influence the rotation of the mechanical structure on the premise of guaranteeing the placing, the glue heating and curing effect and the curing efficiency are improved, and the use is convenient.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an electrical heating multipoint mode glue solidification drying kiln, includes kiln body (1) and fixed mounting support base (2) on kiln body (1) bottom surface, its characterized in that: the device is characterized in that a controller (3) is arranged at the top of the kiln body (1), electric heaters (4) are respectively arranged on the top surface of an inner cavity of the kiln body (1) and the inner wall of the middle of the side surface of the kiln body, the electric heaters (4) are electrically connected with the controller (3), a plugging door (5) is arranged on the front surface of the kiln body (1), a plurality of placing frames (6) are fixedly arranged on the inner side outer wall of the plugging door (5), driving columns (7) are inserted and slidably arranged at the inner end parts of the placing frames (6), a placing plate (8) is slidably arranged at the middle part of the placing frames (6), and a clamping assembly (9) is arranged at the middle part of the placing frames (6); the sealing door (5) comprises a sealing door main body (51) and sealing gaskets (52) fixedly arranged on the outer walls of the inner side of the sealing door main body (51), and sliding frames (53) are respectively fixedly arranged on the outer walls of the two inner sides of the lower end of the sealing door main body (51); the clamping assembly (9) comprises an air compressing telescopic column (91), a first air inlet telescopic column (92) and a second air inlet telescopic column (93) which are respectively embedded into inner cavities at two ends of the middle of the placing frame (6), wherein an electric clamping mechanism (94) is fixedly arranged at the output tail end of the first air inlet telescopic column (92), a rotary clamping mechanism (95) is fixedly arranged at the output tail end of the second air inlet telescopic column (93), and the electric clamping mechanism (94) and the rotary clamping mechanism (95) are correspondingly arranged; the placing frame (6) comprises a connecting parent block (61) and a connecting sub-block (63) arranged at the inner end of the connecting parent block (61), the connecting parent block (61) and the connecting sub-block (63) are fixedly connected through a concave frame (62), and two ends of the concave frame (62) are respectively fixedly arranged at the inner ends of the bottom surfaces of the connecting parent block (61) and the connecting sub-block (63); a double-pass chute (611) is arranged on the outer wall of the lower end of one side of the inner end of the connecting parent block (61), a first malformation inner hole (612) is arranged in the inner cavity of the other side of the inner end of the connecting parent block (61), and the first malformation inner hole (612) is communicated with the tail part of the first air inlet telescopic column (92); side wall sliding grooves (621) are respectively formed in the outer walls of the two ends of the inner side of the concave frame (62), the two-way sliding grooves (611) are communicated with the side wall sliding grooves (621), a first L-shaped hole (623) is formed in the inner cavity of the outer end of the concave frame (62), a second L-shaped hole (622) is formed in the inner cavity of the inner end of the concave frame (62), the first L-shaped hole (623) and the second L-shaped hole (622) are respectively communicated with the compressed air telescopic column (91), and the other end part of the first L-shaped hole (623) is communicated with the first malformation inner hole (612); be provided with bi-pass mounting groove (631) on the outer end bottom surface of connection sub-piece (63), and be provided with on the inner lower extreme outer wall of connection sub-piece (63) and run through slide hole (632), and drive the one end slip setting of post (7) in running through slide hole (632), and the one side department of connection sub-piece (63) inner chamber is provided with second abnormal shape hole (633), and the other tip and the second abnormal shape hole (633) of second L type hole (622) are linked together, and second abnormal shape hole (633) are linked together with second flexible post (93) afterbody of admitting air.

2. An electrically heated multipoint glue curing kiln according to claim 1, wherein: bottom sliding grooves (11) are respectively arranged at two sides of the bottom surface of the inner cavity of the kiln body (1), arc-shaped sliding ways (12) are respectively arranged on the inner walls of the two sides of the inner cavity of the bottom sliding grooves (11), a heat insulation layer (13) is arranged in the outer peripheral inner cavity of the kiln body (1), and two sides of the inner side end of the sliding frame (53) are respectively arranged in the arc-shaped sliding ways (12) in a sliding mode through a plurality of balls.

3. An electrically heated multipoint glue curing kiln according to claim 1, wherein: the driving column (7) comprises a sliding column (71) and a clamping mechanism (72) embedded and installed in an inner cavity at one end of the sliding column (71), and a pressurizing sleeve (73) is fixedly installed on the outer wall at one end of the sliding column (71).

4. An electrically heated multipoint glue curing kiln according to claim 3, wherein: the outer wall of the middle part of one end of the sliding column (71) is provided with a receiving groove (711), and the top surface and the bottom surface of the other end of the inner cavity of the receiving groove (711) are respectively provided with a convex sliding hole (712); the clamping mechanism (72) comprises a pushing inner rod (721) and pushing grooves (722) respectively arranged on the top surface and the bottom surface of the other end of the pushing inner rod (721), one end of the pushing inner rod (721) is arranged on the surface of the protruding pressurizing sleeve (73), first inclined sliding grooves (723) are respectively arranged on the inner sides of the inner cavity of the pushing groove (722), clamping protruding blocks (724) are slidably arranged in the inner cavity of the pushing groove (722), and the two sides of the inner end of the clamping protruding blocks (724) are respectively arranged on the first inclined sliding grooves (723) through balls.

5. An electrically heated multipoint glue curing kiln according to claim 4, wherein: placing board (8) including placing board main part (81) and fixed mounting in place restriction slider (82) of board main part (81) one end one side department, and restriction slider (82) slip setting is in bi-pass chute (611), and the one side department fixed mounting who places the board main part (81) other end has drive slider (83), and drives slider (83) slip setting in bi-pass mounting groove (631).

6. An electrically heated multipoint glue curing kiln according to claim 5, wherein: the outer wall of the other end of the driving sliding block (83) is provided with a pushing groove (831), the inner walls of the two sides of the inner cavity of the pushing groove (831) are respectively provided with a second inclined sliding groove (832), and two sides of one end of the sliding column (71) are respectively arranged on the second inclined sliding grooves (832) through balls.

7. An electrically heated multipoint glue curing kiln according to claim 6, wherein: the output end of the compressed air telescopic column (91) is fixedly arranged on the bottom surface of the driving sliding block (83), the electric clamping mechanism (94) comprises a middle connecting block (941) and a motor (942) fixedly arranged in the inner cavity of the middle connecting block (941), a rotary compression rod (943) is movably inserted into the outer wall of the middle part of one end of the middle connecting block (941), and the output end of the motor (942) is fixedly arranged on the rotary compression rod (943); the rotary compression rod (943) comprises a connecting sleeve (9431) and a telescopic push column (9432) of which one end is slidably arranged in the inner cavity of the connecting sleeve (9431) through a return spring (9433), and a compression plate (9434) is fixedly arranged at the other end part of the telescopic push column (9432).

8. An electrically heated multipoint glue curing kiln according to claim 7, wherein: the rotary clamping mechanism (95) comprises a middle pushing block (951) and a rotary pressing rod (952) with one end inserted into the outer wall of the middle part of the other side of the middle pushing block (951), and the composition and the connection mode of each structure in the rotary pressing rod (952) are the same as those of each structure in the rotary pressing rod (943).