CN114770725A - Press-fit device for production of non-dismantling composite heat-insulation template - Google Patents

Abstract

The invention provides a pressing device for producing a non-dismantling composite heat-insulating template, belongs to the technical field of building materials, and is used for solving the technical problem that the existing non-dismantling composite heat-insulating template is difficult to lay grid cloth so that the product quality is low. The clamping device comprises two bottom plates, wherein the bottom plates are provided with supporting rods, fixed disks are fixed on the supporting rods, a rotating rod is rotatably arranged between the two fixed disks, two rotating disks are fixed on the rotating rod, a sliding pipe is slidably arranged on the rotating disks, two clamping jaws are hinged to the end part of the sliding pipe, and a telescopic mechanism and a control mechanism are arranged on the sliding pipe; the grid cloth is tensioned in the width direction and pressed on the cement layer of the non-dismantling composite heat-insulation template, rolling is not needed, the laying effect is good, and the product quality and the production efficiency are favorably improved; the sliding friction between the sliding pipe and the fixed disc can be converted into rolling friction, so that the abrasion is reduced, and the service life of the device is prolonged; prevent that equipment from blocking, improve equipment operating stability.

Description

Exempt from to tear open compression fittings for production of compound incubation template

Technical Field

The invention belongs to the technical field of building materials, relates to a pressing device, and particularly relates to a pressing device for producing a disassembly-free composite heat-insulation template.

Background

The non-dismantling composite heat-insulating template is a composite heat-insulating plate which is prefabricated in factory and plays the role of a template in cast-in-place concrete construction. The non-dismantling composite heat preservation template has the remarkable advantages of light weight, high strength, heat insulation, fire resistance, impermeability and the like, and is not only a construction template of a cast-in-place reinforced concrete structure of a heat bridge part such as a beam, a column, a shear wall, a floor slab, a roof and the like, but also a heat preservation layer of a structural heat bridge;

exempt from to tear open compound incubation template and need lay the cement layer in the both sides of insulation board in process of production, and need lay net cloth on the cement layer, increase the toughness on cement layer, prevent that the cement layer from splitting to dry and droing, current processing mode is the top of using the live-rollers to press net cloth at the cement layer, if the live-rollers too can lead to the cement layer attenuation to cement layer pressure, if the live-rollers is too little to cement layer pressure, net cloth can lead to net cloth to drop easily in not sinking into the cement layer completely, consequently this kind of processingequipment operation difficulty, and be difficult to guarantee product quality.

Based on this, we have designed a exempt from to tear open compound incubation compression fittings for template production.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a pressing device for producing a non-dismantling composite heat-insulating template, which aims to solve the technical problems that: how to make the compound incubation template of exempting from to tear open lay net cloth more portable high-efficient, improve product quality.

The purpose of the invention can be realized by the following technical scheme:

a press-fit device for producing a disassembly-free composite heat-insulation template comprises a bottom plate, wherein the number of the bottom plate is two, a sleeve is fixed on the bottom plate, a support rod is arranged at the upper end of the sleeve in a sliding manner, a hand-screwed bolt is arranged on the sleeve, a fixed disc is fixed on the support rod, a rotating rod is rotatably arranged between the two fixed discs, a driving motor for driving the rotating rod to rotate is installed on one of the fixed discs, two rotating discs which are symmetrically distributed are fixed on the rotating rod, a plurality of sliding holes which are uniformly distributed on the circumference are formed in the rotating discs, a sliding tube is slidably arranged in each sliding hole, two clamping jaws which are symmetrically distributed are hinged to the end part of the sliding tube, a telescopic mechanism for controlling the sliding tube to slide is arranged between the sliding tube and the fixed disc, a control mechanism for controlling the clamping jaws to open and close is arranged in the sliding tube, support columns are also fixed on the bottom plate, and a transverse shaft is fixed between the two support columns, the cross shaft is coiled with a piece of mesh cloth, and the clamping jaws at corresponding positions are clamped at the edge of the mesh cloth.

The working principle of the invention is as follows: when in use, the equipment stretches across the conveyer belt, then the driving motor is started, the driving motor drives the rotating rod and the two rotating disks to rotate, the rotating disks rotate, simultaneously, the sliding pipe gradually close to the gridding cloth is pushed forwards under the action of the telescopic mechanism, then the clamping jaws hinged on the sliding pipe clamp the gridding cloth under the action of the control mechanism, then the telescopic mechanism pulls the sliding pipe backwards, the gridding cloth is tensioned in the width direction through the clamping jaws on the two sides of the gridding cloth, then the same guiding effect as that of the rotating roller in the existing equipment is realized along with the rotation of the rotating disks, the gridding cloth is pressed on the cement layer of the disassembly-free composite heat-insulation template moving on the conveyer belt, the cement layer is pressed only through the gridding cloth, the gridding cloth can be sunk into the cement layer, the cement layer cannot be thinned, the product quality is improved, and after the gridding cloth is sunk into the cement layer, control mechanism opens the clamping jaw, and the sliding tube keeps away from net cloth under telescopic machanism's effect, can not influence the removal of net cloth, and a plurality of clamping jaws and sliding tube mutually support can continuous laying net cloth, and according to the height of the conveyer belt of difference, the height that can adjust the bracing piece through the hand is twisted bolt, improve equipment application scope in addition.

Telescopic machanism includes solid fixed ring and compression spring, and solid fixed ring fixes the tip at the slip pipe, and the compression spring cover is established in the slip pipe outside, and compression spring's both ends offset with solid fixed ring and rolling disc respectively, is fixed with two supporting seats on the solid fixed ring, and rotates on the supporting seat and be provided with the rotation wheel, and the side that the fixed disk is close to the rolling disc is fixed with the boss, and rotates the wheel and one side that the fixed disk is close to the rolling disc offsets.

Structure more than adopting, when the rolling disc pivoted, the sliding tube followed the rolling disc and rotates in step, and the wheel rolls along the fixed disk surface with this while rotating, reduces frictional force, when the sliding tube rotate to just to the time with the boss, the rotating wheel rolls to the boss, with the sliding tube along the slide opening promote and compress compression spring, when the sliding tube continues to rotate to keeping away from the boss, under compression spring's effect, can with the sliding tube to the direction pulling that is close to the fixed disk.

Control mechanism sets up the slider at the inside of sliding tube including sliding, set up the chute of two symmetric distributions on the slider, be fixed with the connecting plate on the clamping jaw, and the end fixing of connecting plate has the fixed axle, the fixed axle slides and sets up in the chute that corresponds the position, the inside fixed plate that is fixed with of slider, be fixed with the pipe in the middle of the fixed plate, the arc wall has been seted up on the pipe, it is equipped with the round bar to insert in the pipe, and be fixed with branch on the round bar, and branch slides and sets up in the arc wall, the one end that the pipe was kept away from to the round bar is equipped with trigger assembly.

Structure more than adopting, trigger the subassembly and drive the round bar and rotate, when the round bar rotated, can promote the slider to the direction that is close to the clamping jaw under the effect of branch and arc wall, the slider removes and will draw close two connecting plates to the centre under the effect of chute to make two clamping jaws press from both sides tightly, and in the same way, when trigger the subassembly and drive the round bar reversal, two clamping jaws of synchronous drive separated.

Trigger the subassembly and include stock and quarter butt, the stock passes solid fixed ring, and the quarter butt is fixed on the stock, and the stock is kept away from and is equipped with coupling assembling between the one end of quarter butt and the round bar, has seted up the ring channel on the fixed disk, and the ring channel is inside to be fixed with the blend stop, and blend stop one end is located in the middle of the boss, and the other end is located the ring channel below, and inside the quarter butt is located the ring channel, and the round bar overcoat is equipped with reset spring, and reset spring's both ends offset with coupling assembling and fixed plate respectively.

Structure more than adopting, when the rolling disc rotates, the stock rotates in step, meanwhile the quarter butt rotates along the ring channel, can force the quarter butt to rotate along the axis of stock when quarter butt and blend stop contact, and drive the stock and rotate, the stock passes through coupling assembling and drives the round bar and rotate, can drive two clamping jaws closure, when the blend stop is kept away from to the quarter butt, under reset spring's effect, promote the slider to the direction of keeping away from coupling assembling, and open two clamping jaws, meanwhile, make the round bar under the effect of arc wall and branch, stock and quarter butt reset.

Coupling assembling sets up the rotor plate at the sliding tube inside including rotating, and be fixed with a plurality of spacing on the sliding tube inner wall, and a plurality of spacing are located the rotor plate both sides respectively, one side and the round bar fixed connection of rotor plate, the opposite side is fixed with two long slabs, the long notch has been seted up on the long slab, the stock end fixing has the minor axis, and the minor axis slides and sets up in the long notch, the one end that the minor axis was kept away from to the stock is fixed with the stopper, the annular spacing groove has been seted up to the tank bottom of ring channel, the stopper slides and sets up in the annular spacing groove.

Structure more than adopting, when the slide tube slided along the slide opening, the rotor plate followed the slide tube and removed, and under the effect of stopper and annular spacing groove this moment, the stock can not follow the slide tube and remove, and the minor axis slides along the long notch this moment, guarantees that the quarter butt is in the ring channel always.

Compared with the prior art, this exempt from to tear open compression fittings for compound incubation template production has following advantage:

1. through driving motor, rolling disc, clamping jaw, telescopic machanism and control mechanism, it is taut in the width direction with net cloth to press on exempting from to tear open the cement layer of compound incubation template, can ensure that net cloth is absorbed in the cement layer, can not produce folding and crisscross, net cloth is laid effectually, need not roll-in on net cloth, can not lead to the cement layer attenuation, is favorable to improving product quality and production efficiency.

2. Through the contact of rotating wheel and fixed disk, can change the sliding friction between slip pipe and the fixed disk into rolling friction, effectively reduce frictional force, reduce wearing and tearing, improve the life of device, and can the noise reduction.

3. Through coupling assembling for the quarter butt is in the ring channel always, prevents that equipment card from dying, and improve equipment operating stability is convenient for use for a long time.

Drawings

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

FIG. 2 is a partial schematic of the present invention;

FIG. 3 is a schematic sectional view of a rotary disk according to the present invention;

FIG. 4 is a schematic perspective view of a fixing plate according to the present invention;

FIG. 5 is a cross-sectional view schematically showing the structure of the sliding tube in the present invention;

FIG. 6 is a schematic view showing an inner structure of a slider in the present invention;

FIG. 7 is a schematic plan view of a fixing plate according to the present invention;

FIG. 8 is a schematic sectional view of the fixing disk of the present invention.

In the figure: 1. a base plate; 2. a sleeve; 3. a support bar; 4. screwing the bolt by hand; 5. fixing the disc; 6. rotating the rod; 7. a drive motor; 8. rotating the disc; 9. a slide hole; 10. a sliding tube; 11. a clamping jaw; 12. a telescoping mechanism; 1201. a fixing ring; 1202. a compression spring; 1203. a supporting base; 1204. a rotating wheel; 1205. a boss; 13. a control mechanism; 1301. a slider; 1302. a chute; 1303. a connecting plate; 1304. a fixed shaft; 1305. a fixing plate; 1306. a circular tube; 1307. an arc-shaped slot; 1308. a round bar; 1309. a strut; 1310. a long rod; 1311. a short bar; 1312. an annular groove; 1313. blocking strips; 1314. a limiting strip; 1315. a rotating plate; 1316. a long plate; 1317. a long slot opening; 1318. a minor axis; 1319. a return spring; 1320. a limiting block; 1321. an annular limiting groove; 14. and (7) grid cloth.

Detailed Description

The technical solution of the present patent will be further described in detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the figures, which are based on the orientations and positional relationships shown in the figures, and are used for convenience in describing the patent and for simplicity in description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1-8, this embodiment provides a press-fit device for producing a non-dismantling composite heat-insulating template, which includes two bottom plates 1, two bottom plates 1 are fixed on the bottom plates 1, a sleeve 2 is fixed on the bottom plates 1, a support rod 3 is slidably arranged at the upper end of the sleeve 2, a hand-screwed bolt 4 is arranged on the sleeve 2, a fixed disk 5 is fixed on the support rod 3, a rotating rod 6 is rotatably arranged between the two fixed disks 5, a driving motor 7 for driving the rotating rod 6 to rotate is installed on one of the fixed disks 5, two rotating disks 8 which are symmetrically distributed are fixed on the rotating rod 6, a plurality of sliding holes 9 which are uniformly distributed circumferentially are formed on the rotating disk 8, a sliding tube 10 is slidably arranged in the sliding hole 9, two clamping jaws 11 which are symmetrically distributed are hinged to the end of the sliding tube 10, and a telescopic mechanism 12 for controlling the sliding tube 10 to slide is arranged between the sliding tube 10 and the fixed disk 5, a control mechanism 13 for controlling the opening and closing of the clamping jaw 11 is arranged in the sliding tube 10, supporting columns are further fixed on the bottom plate 1, a transverse shaft is fixed between the two supporting columns, grid cloth 14 is coiled on the transverse shaft, and the clamping jaw 11 at the corresponding position is clamped at the edge of the grid cloth 14; when the device is used, the device stretches across a conveyor belt, then the driving motor 7 is started, the driving motor 7 drives the rotating rod 6 and the two rotating disks 8 to rotate, the rotating disks 8 rotate, meanwhile, the sliding pipes 10 gradually close to the gridding cloth 14 are pushed out forwards under the action of the telescopic mechanisms 12, then the clamping jaws 11 hinged on the sliding pipes clamp the gridding cloth 14 under the action of the control mechanism 13, then the telescopic mechanisms 12 pull the sliding pipes 10 backwards, the gridding cloth 14 is tensioned in the width direction through the clamping jaws 11 on the two sides of the gridding cloth 14, then the same guiding effect as that of a rotating roller in the existing device is realized along with the rotation of the rotating disks 8, the gridding cloth 14 is pressed on a cement layer of a disassembly-free composite heat-insulation template moving on the conveyor belt, the cement layer is pressed only through the gridding cloth 14, the gridding cloth 14 can be sunk into the cement layer, and the cement layer cannot be thinned, be favorable to improving product quality, after net cloth 14 sinks into the cement layer, control mechanism 13 opens clamping jaw 11, and sliding tube 10 keeps away from net cloth 14 under telescopic machanism 12's effect, can not influence net cloth 14's removal, and a plurality of clamping jaws 11 and sliding tube 10 mutually support and can lay net cloth 14 continuously, and according to the height of the conveyer belt of difference, can adjust the height of bracing piece 3 through hand wrong bolt 4 in addition, improve equipment application scope.

The telescopic mechanism 12 comprises a fixed ring 1201 and a compression spring 1202, the fixed ring 1201 is fixed at the end part of the sliding tube 10, the compression spring 1202 is sleeved outside the sliding tube 10, two ends of the compression spring 1202 respectively abut against the fixed ring 1201 and the rotating disc 8, two supporting seats 1203 are fixed on the fixed ring 1201, rotating wheels 1204 are rotatably arranged on the supporting seats 1203, a boss 1205 is fixed at the side end, close to the rotating disc 8, of the fixed disc 5, and the rotating wheels 1204 abut against one side, close to the rotating disc 8, of the fixed disc 5; when the rotating disc 8 rotates, the sliding tube 10 rotates synchronously along with the rotating disc 8, meanwhile, the rotating wheel 1204 rolls along the surface of the fixed disc 5, friction force is reduced, when the sliding tube 10 rotates to be aligned with the boss 1205, the rotating wheel 1204 rolls onto the boss 1205, the sliding tube 10 is pushed along the sliding hole 9 and compresses the compression spring 1202, and when the sliding tube 10 continues to rotate to be far away from the boss 1205, the sliding tube 10 can be pulled towards the direction close to the fixed disc 5 under the action of the compression spring 1202.

The control mechanism 13 comprises a sliding part 1301 which is arranged in the sliding pipe 10 in a sliding manner, two symmetrically distributed chutes 1302 are formed in the sliding part 1301, connecting plates 1303 are fixed on the clamping jaws 11, a fixing shaft 1304 is fixed at the end part of each connecting plate 1303, the fixing shafts 1304 are arranged in the chutes 1302 at corresponding positions in a sliding manner, a fixing plate 1305 is fixed in the sliding part 1301, a circular pipe 1306 is fixed in the middle of each fixing plate 1305, an arc-shaped groove 1307 is formed in the circular pipe 1306, a circular rod 1308 is inserted in the circular pipe 1306, a supporting rod 1309 is fixed on the circular rod 1308, the supporting rod 1309 is arranged in the arc-shaped groove 1307 in a sliding manner, and a trigger assembly is arranged at one end, away from the circular pipe 1306, of the circular rod 1308; the trigger assembly drives the round rod 1308 to rotate, when the round rod 1308 rotates, the sliding part 1301 is pushed towards the direction close to the clamping jaws 11 under the action of the supporting rod 1309 and the arc-shaped groove 1307, the sliding part 1301 moves to draw the two connecting plates 1303 towards the middle under the action of the inclined groove 1302, and therefore the two clamping jaws 11 are clamped tightly, and similarly, when the trigger assembly drives the round rod 1308 to rotate reversely, the two clamping jaws 11 can be synchronously driven to be separated.

The trigger assembly comprises a long rod 1310 and a short rod 1311, the long rod 1310 penetrates through the fixing ring 1201, the short rod 1311 is fixed on the long rod 1310, a connecting assembly is arranged between one end, away from the short rod 1311, of the long rod 1310 and the round rod 1308, an annular groove 1312 is formed in the fixing disc 5, a blocking strip 1313 is fixed inside the annular groove 1312, one end of the blocking strip 1313 is located in the middle of the boss 1205, the other end of the blocking strip is located at the lowest part of the annular groove 1312, the short rod 1311 is located inside the annular groove 1312, a return spring 1319 is sleeved outside the round rod 1308, and two ends of the return spring 1319 abut against the connecting assembly and the fixing plate 1305 respectively; when the rotating disc 8 rotates, the long rod 1310 rotates synchronously, meanwhile, the short rod 1311 rotates along the annular groove 1312, when the short rod 1311 contacts with the blocking strip 1313, the short rod 1311 is forced to rotate along the axis of the long rod 1310, and the long rod 1310 is driven to rotate, the long rod 1310 drives the round rod 1308 to rotate through the connecting component, so that the two clamping jaws 11 can be driven to close, when the short rod 1311 is far away from the blocking strip 1313, the sliding part 1301 is pushed towards the direction far away from the connecting component under the action of the return spring 1319, the two clamping jaws 11 are opened, and meanwhile, the round rod 1308, the long rod 1310 and the short rod 1311 are reset under the action of the arc-shaped grooves 1307 and the supporting rods 1309.

The connecting assembly comprises a rotating plate 1315 rotatably arranged in the sliding pipe 10, a plurality of limiting strips 1314 are fixed on the inner wall of the sliding pipe 10, the limiting strips 1314 are respectively positioned at two sides of the rotating plate 1315, one side of the rotating plate 1315 is fixedly connected with a round rod 1308, the other side of the rotating plate 1315 is fixed with two long plates 1316, a long notch 1317 is formed in each long plate 1316, a short shaft 1318 is fixed at the end of each long rod 1310, the short shaft 1318 is slidably arranged in each long notch 1317, a limiting block 1320 is fixed at one end, far away from the short shaft 1318, of each long rod 1310, an annular limiting groove 1321 is formed in the bottom of each annular groove 1312, and the limiting block 1320 is slidably arranged in the annular limiting groove 1321; when the sliding tube 10 slides along the sliding hole 9, the rotating plate 1315 moves along with the sliding tube 10, at this time, under the action of the limiting block 1320 and the annular limiting groove 1321, the long rod 1310 cannot move along with the sliding tube 10, and at this time, the short shaft 1318 slides along the long notch 1317, so that the short rod 1311 is ensured to be always located in the annular groove 1312.

The fixing modes are all the most common fixing connection modes in the field, such as welding, bolt connection and the like; the above-mentioned each electric element driving motor 7, etc. are prior art products, can directly purchase the use in the market, and concrete principle is not repeated.

The working principle of the invention is as follows:

in use, the device is placed across a conveyor belt, then a driving motor 7 is started, the driving motor 7 drives a rotating rod 6 and two rotating disks 8 to rotate, the rotating disks 8 rotate, a sliding tube 10 rotates synchronously along with the rotating disks 8, meanwhile, a rotating wheel 1204 rolls along the surface of a fixed disk 5 to reduce friction force, when the sliding tube 10 rotates to be aligned with a boss 1205, the rotating wheel 1204 rolls onto the boss 1205 to push the sliding tube 10 along a sliding hole 9, meanwhile, a short rod 1311 rotates along an annular groove 1312, when the short rod 1311 contacts with a baffle strip 1313, the short rod 1311 is forced to rotate along the axis of a long rod 1310 and drives the long rod 1310 to rotate, the long rod 1310 drives the round rod 1308 to rotate through a connecting component, when the round rod 1308 rotates, the sliding piece 1301 is pushed towards the direction close to a clamping jaw 11 under the action of a support rod 1309 and an arc-shaped groove 1307, the sliding piece 1301 moves to draw two connecting plates 1303 towards the middle under the action of the inclined groove 1302, so that the two clamping jaws 11 clamp the mesh cloth 14, then when the sliding tube 10 continues to rotate to be far away from the boss 1205, under the action of the compression spring 1202, the sliding tube 10 is pulled to be close to the fixed disc 5, the mesh cloth 14 is tensioned in the width direction through the clamping jaws 11 on the two sides of the mesh cloth 14, then along with the rotation of the rotating disc 8, the same guiding effect as that of a rotating roller in the existing equipment is realized, the mesh cloth 14 is pressed on the cement layer of the disassembly-free composite heat preservation template moving on the conveying belt, only the cement layer is pressed by the mesh cloth 14, the mesh cloth 14 can be sunk into the cement layer, the cement layer cannot be thinned, the product quality is improved, after the mesh cloth 14 is sunk into the cement layer, along with the rotation of the rotating disc 8, when the short rod 1311 is far away from the barrier strip 3, under the action of the return spring 1319, the sliding piece 1311301 is pushed to be far away from the rotating plate 1315, and open two clamping jaws 11, slide pipe 10 keeps away from net cloth 14 under the effect of compression spring 1202, can not influence the removal of net cloth 14, a plurality of clamping jaws 11 and slide pipe 10 cooperate each other can lay net cloth 14 continuously, in addition according to the height of different conveyer belts, can adjust the height of bracing piece 3 through the hand bolt 4, improve the equipment application scope, and when slide pipe 10 slides along slide opening 9, rotor plate 1315 moves along slide pipe 10, at this moment under stopper 1320 and the effect of annular spacing groove 1321, stock 1310 can not follow slide pipe 10 and move, short axis 1318 slides along long notch 1317 at this moment, guarantee that short rod 1311 is in annular groove 1312 all the time.

In conclusion, the grid cloth 14 is tensioned in the width direction and pressed on the cement layer of the non-dismantling composite heat-insulation template through the driving motor 7, the rotating disc 8, the clamping jaws 11, the telescopic mechanisms 12 and the control mechanism 13, so that the grid cloth 14 is ensured to be sunk into the cement layer and cannot be folded or staggered, the grid cloth is good in laying effect, the grid cloth does not need to be rolled, the cement layer cannot be thinned, and the product quality and the production efficiency are improved; the rotating wheel 1204 is in contact with the fixed disk 5, so that sliding friction between the sliding pipe 10 and the fixed disk 5 can be converted into rolling friction, the friction force is effectively reduced, the abrasion is reduced, the service life of the device is prolonged, and the noise can be reduced; through coupling assembling for short rod 1311 is in ring channel 1312 all the time, prevents that equipment from dying, improves equipment operating stability, is convenient for use for a long time.

Although the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (5)

1. The utility model provides a exempt from to tear open compression fittings for production of compound incubation template, including bottom plate (1), a serial communication port, the quantity of bottom plate (1) is two, be fixed with sleeve pipe (2) on bottom plate (1), the upper end of sleeve pipe (2) is slided and is provided with bracing piece (3), and be provided with hand bolt (4) on sleeve pipe (2), be fixed with fixed disk (5) on bracing piece (3), it has dwang (6) to rotate between two fixed disks (5), and install on one of them fixed disk (5) and be used for driving dwang (6) pivoted driving motor (7), be fixed with two symmetric distribution's rolling disc (8) on dwang (6), set up a plurality of circumference equipartition slide opening (9) on rolling disc (8), and slide tube (10) are slided and provided with in slide opening (9), the tip of slide tube (10) articulates there are two symmetric distribution clamping jaws (11), be equipped with between slip pipe (10) and fixed disk (5) and be used for controlling the gliding telescopic machanism (12) of slip pipe (10), the inside control mechanism (13) that are used for controlling clamping jaw (11) and open and close that are equipped with of slip pipe (10), still be fixed with the support column on bottom plate (1), be fixed with the cross axle between two support columns, the roll up of cross axle is equipped with net cloth (14), and clamping jaw (11) clamp that correspond the position are at net cloth (14) edge.

2. The press-fit device for the production of the non-dismantling composite heat-insulating template as claimed in claim 1, wherein the telescoping mechanism (12) comprises a fixing ring (1201) and a compression spring (1202), the fixing ring (1201) is fixed at the end of the sliding tube (10), the compression spring (1202) is sleeved outside the sliding tube (10), two ends of the compression spring (1202) respectively abut against the fixing ring (1201) and the rotating disc (8), two supporting seats (1203) are fixed on the fixing ring (1201), rotating wheels (1204) are rotatably arranged on the supporting seats (1203), bosses (1205) are fixed at the side ends of the fixing disc (5) close to the rotating disc (8), and the rotating wheels (1204) abut against one side of the fixing disc (5) close to the rotating disc (8).

3. The pressing device for producing the non-dismantling composite heat-insulating template as claimed in claim 2, the control mechanism (13) comprises a sliding part (1301) which is arranged in the sliding pipe (10) in a sliding way, two symmetrically distributed inclined grooves (1302) are formed in the sliding part (1301), a connecting plate (1303) is fixed on the clamping jaw (11), and a fixed shaft (1304) is fixed at the end part of the connecting plate (1303), the fixed shaft (1304) is arranged in the chute (1302) at the corresponding position in a sliding way, a fixed plate (1305) is fixed in the sliding part (1301), a round pipe (1306) is fixed in the middle of the fixed plate (1305), an arc-shaped groove (1307) is formed on the round pipe (1306), a round rod (1308) is inserted in the round pipe (1306), and a supporting rod (1309) is fixed on the round rod (1308), the supporting rod (1309) is arranged in the arc-shaped groove (1307) in a sliding way, and one end of the round rod (1308) far away from the round pipe (1306) is provided with a trigger assembly.

4. The non-dismantling composite heat-insulating template production press-fit device as claimed in claim 3, wherein the trigger assembly comprises a long rod (1310) and a short rod (1311), the long rod (1310) penetrates through a fixing ring (1201), the short rod (1311) is fixed on the long rod (1310), a connecting assembly is arranged between one end, far away from the short rod (1311), of the long rod (1310) and a round rod (1308), a ring groove (1312) is formed in the fixing disc (5), a blocking strip (1313) is fixed inside the ring groove (1312), one end of the blocking strip (1313) is located in the middle of the boss (1205), the other end of the blocking strip is located at the lowest position of the ring groove (1312), the short rod (1311) is located inside the ring groove (1312), a return spring (1319) is sleeved outside the round rod (1308), and two ends of the return spring (1319) respectively abut against the connecting assembly and the fixing plate (1305).

5. The pressing device for producing the non-dismantling composite heat-insulating template as claimed in claim 4, the connection assembly includes a rotation plate (1315) rotatably disposed inside the sliding tube (10), a plurality of limiting strips (1314) are fixed on the inner wall of the sliding tube (10), the limiting strips (1314) are respectively positioned at two sides of the rotating plate (1315), one side of the rotating plate (1315) is fixedly connected with the round rod (1308), the other side is fixed with two long plates (1316), the long plates (1316) are provided with long notches (1317), the end part of the long rod (1310) is fixed with a short shaft (1318), and the short shaft (1318) is arranged in the long notch (1317) in a sliding manner, a limiting block (1320) is fixed at one end, far away from the short shaft (1318), of the long rod (1310), an annular limiting groove (1321) is formed in the groove bottom of the annular groove (1312), and the limiting block (1320) is arranged in the annular limiting groove (1321) in a sliding manner.

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