CN118089366A - Preheating recovery device of glass bottle dryer - Google Patents

Abstract

The invention discloses a preheating recovery device of a glass bottle dryer, which particularly relates to the technical field of glass bottle manufacturing, and mainly comprises a preheating recovery box, a rectangular groove frame and a linkage screw, wherein the rectangular groove frame is positioned at one side of the preheating recovery box and is fixedly connected, the linkage screw is rotatably arranged on the inner wall of the rectangular groove frame, and a linkage locking mechanism is arranged on the outer wall of the linkage screw; and the linkage locking mechanism comprises a plurality of first sleeve-joint sliding blocks arranged on the outer wall of the linkage screw. According to the invention, the linkage locking mechanism is adopted to drive the linkage screw rod to rotate in the rectangular groove frame, the first sleeving sliding blocks respectively carry the linkage plates to move upwards synchronously, the hinging supporting rods carry the concave supporting blocks to enable the clamping plates to slide horizontally, two adjacent clamping plates can be mutually close to each other, rapid feeding locking is realized on a plurality of glass bottles needing preheating recovery, and the preheating recovery efficiency of the glass bottle dryer is greatly improved.

Description

Preheating recovery device of glass bottle dryer

Technical Field

The invention relates to the technical field of glass bottle manufacturing, in particular to a preheating recovery device of a glass bottle dryer.

Background

The preheating recovery device of the glass bottle dryer is mainly used for improving the energy efficiency and the operation convenience of the dryer, and in the following specific aspects, the preheating recovery device can recover heat generated in the drying process of the glass bottle, and the heat is used for drying the glass bottle after waste heat is dried, so that the preheating recovery operation is finished for the glass bottle dryer, and the preheating recovery operation can be realized for manufacturing the glass bottle.

According to the technical literature disclosed in the prior art, the patent of Chinese patent publication No. CN214892519U discloses a preheating recovery device for a bottle baking machine, and a plurality of first springs are respectively arranged between a connecting plate and a clamping plate of the preheating recovery device for the bottle baking machine, so that when a glass bottle installed in a cavity is clamped, certain buffer effect can be achieved through the elasticity of the first springs, the clamping plate can not damage the glass bottle in the process of clamping the glass bottle, and the glass bottle can be clamped, so that the glass bottles overlapped with each other can be subjected to moisture on the baking surface of the dryer: however, this patent has the following drawbacks;

The glass bottle dryer preheats recovery unit in preheating recovery process to the glass bottle, because a large amount of glass bottles need to be placed one by one to install locking in the preheating process, be difficult to realize quick material loading and ejection of compact to a plurality of glass bottles that need preheat recovery and still lock, this just leads to glass bottle dryer preheating recovery efficiency to reduce by a wide margin, consequently needs glass bottle dryer preheating recovery unit.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a preheating recovery device of a glass bottle dryer.

In order to achieve the above purpose, the present invention provides the following technical solutions: the preheating recovery device of the glass bottle dryer comprises a preheating recovery box, a rectangular groove frame and a linkage screw rod, wherein the rectangular groove frame is positioned at one side of the preheating recovery box and is fixedly connected with the preheating recovery box, the linkage screw rod is rotatably arranged on the inner wall of the rectangular groove frame, and a linkage locking mechanism is arranged on the outer wall of the linkage screw rod; the linkage locking mechanism comprises a plurality of first sleeve-joint sliding blocks arranged on the outer wall of the linkage screw, and the top end of the rectangular slot frame is fixedly connected with a driving motor for driving the linkage screw to rotate; a linkage plate is welded on one side of each first sleeved sliding block, a plurality of linkage concave blocks are sequentially welded at the bottom end of the linkage plate from front to back, two linkage shafts are welded on the inner wall of each linkage concave block, a sleeved connecting rod is rotatably connected to the outer wall of each linkage shaft through a bearing, a hinged supporting rod in rotary connection penetrates through the inner wall of the sleeved connecting rod and close to the bottom end of the sleeved connecting rod, a concave supporting block with a concave vertical section is welded at one end of the hinged supporting rod, and a clamping plate is fixedly connected to the bottom end of the concave supporting block; a material guiding recovery component is arranged on one side of the outer wall of the preheating recovery box; a discharging recovery component is arranged on one side of the rectangular groove frame, the output end of the driving motor is coaxially connected with the top end of the linkage screw rod in a transmission way, the linkage screw rod and the rectangular groove frame are both made of stainless steel materials, the first sleeve-joint sliding blocks are in threaded connection with the linkage screw rods, the first sleeve-joint sliding blocks are sequentially arranged from top to bottom at equal intervals, gaps are formed between the adjacent clamping plates, and the vertical cross-sectional area of one side of each clamping plate is smaller than that of the other side of each clamping plate.

Preferably, the bottom of every grip block has all welded the second and cup jointed the slider the second cup joints the inside of slider and runs through there is sliding connection's direction slide bar, just the tip welding of direction slide bar has the gliding guide frame board that is used for guiding the second to cup jointed the slider the top of guide frame board be equipped with preheating the dull and stereotyped support of recovery case inner wall one side fixed connection, just weld between support dull and stereotyped and the guide frame board, the place ahead of preheating the recovery case articulates there is the hinged door one side fixed mounting of hinged door has the controller that is used for starting driving motor drive.

When the technical scheme is preheated and recovered, driving motor drive linkage screw inside the rectangle box is rotatory, the linkage screw carries a plurality of first slider that cup joints to upwards slide along rectangle box inner wall guide under the effect of screw thread, a plurality of linkage boards move up in step, five linkage concave blocks of linkage board carrying bottom move up in step, cup joint the pole and drive articulated branch and make concave support piece horizontal migration, and articulated branch carries concave support piece and makes the grip block horizontal slip, the guide frame board can cup joint the slider outer wall to a plurality of second and play the guide effect, two adjacent grip blocks can be close to each other like this, two grip blocks extrude a plurality of glass bottles and realize locking.

Preferably, the material guiding recovery component comprises an electric cylinder arranged at one side of the outer wall of the preheating recovery box; a fan fixedly connected with the preheating recovery box is arranged below the electric cylinder, and a resistance heating wire for heating air is arranged at the input end of the fan; the outer wall of the output end of the electric cylinder is welded with a sleeving supporting block, one side of the sleeving supporting block is integrally formed with a supporting plate through die casting, one side of the supporting plate is sequentially provided with a plurality of connecting concave frames with concave vertical section shapes at equal intervals from top to bottom, one side of the inner wall of each connecting concave frame is welded with a concave frame plate, the top end of the inner wall of each connecting concave frame is welded with a plurality of guide sliding plates which are sequentially and equidistantly arranged from front to back, two adjacent guide sliding plates are symmetrically arranged, and a conveying belt which is in transmission connection with the concave frame plates is arranged below the guide sliding plates; the inner wall of the conveying belt is in transmission connection with two transmission rollers, one side of each concave frame plate is fixedly provided with a transmission motor, and the output end of the transmission motor is in coaxial transmission connection with one end part of each transmission roller;

The plurality of connecting concave frames are welded with the supporting plate, and the supporting plate and the connecting concave frames are made of stainless steel materials.

When the technical scheme is used for preheating and recovering, the plurality of transmission motors are started, the transmission motors drive the transmission rollers to rotate positively, the transmission motors drive the transmission rollers to rotate inside the concave frame plates and inside the conveying belt, the conveying belt carries a plurality of glass bottles to enter the gap between the two clamping plates along the gap between the two guiding sliding plates, after all groups of glass bottles enter the inside of the preheating and recovering box, the supporting plates are driven to move rightwards through the sleeving supporting blocks by the electric cylinders, the concave frame plates are connected to drive the concave frame plates to realize movement, and the concave frame plates do not block the hinged door any more, so that sealing and preheating are completed.

Preferably, the discharging and recycling assembly comprises a supporting frame plate arranged on one side of the rectangular groove frame; the inner wall of the supporting frame plate is rotatably provided with a driving screw rod through a bearing, the outer wall of the driving screw rod is in threaded connection with the inner wall of the sleeved concave block, the bottom end of the supporting frame plate is fixedly provided with a speed reducing motor for driving the driving screw rod to rotate, the outer wall of the driving screw rod is provided with the sleeved concave block which is vertically and slidably connected with the supporting frame plate, and a connecting support shaft is fixedly embedded in the position of one side of the inner wall of the sleeved concave block and one side of the driving screw rod; the outer wall of the connecting support shaft is rotationally connected with the hinged sleeve rod through a bearing, the inner wall of the hinged sleeve rod is penetrated with a connecting rotating shaft which is rotationally connected near the top end position of the connecting sleeve rod, a concave connecting block with a concave cross section is welded at one end part of the connecting rotating shaft, a plurality of linkage support plates are sequentially installed on one side of the concave connecting block from top to bottom, a plurality of pushing rods are sequentially welded on the other side of the linkage support plates from front to back, a plurality of pushing blocks are horizontally and slidably connected with the inside of the preheating recovery box, and a pushing block is welded at one end part of each pushing rod;

The pushing block is characterized in that two sides of the pushing block are respectively connected with the two clamping plates in a horizontal sliding mode, a plurality of linkage support plates are welded with the connecting support plates, and one of the linkage support plates and the concave connecting block are integrally formed through die casting.

When the technical scheme is preheated and recovered, the gear motor is started to enable the driving screw to rotate inside the supporting frame plate, the driving screw carries the sleeved concave blocks to slide downwards along the guide of the inner wall of the supporting frame plate under the action of threads, the connecting support shafts enable the hinged sleeve rods to move downwards, the hinged sleeve rods can drive the connecting rotating shafts to enable the concave connecting blocks to move downwards synchronously, the connecting support plates enable the connecting support plates to move downwards synchronously, the connecting support plates can carry a plurality of connecting support plates to move downwards synchronously, each connecting support plate can drive five pushing rods to move inwards of the preheating recovery box, a plurality of glass bottles are conveyed to gaps between two guide sliding plates after being preheated, and a plurality of preheating glass bottles move outwards from the drying inner part synchronously.

The invention has the technical effects and advantages that:

1. according to the invention, the linkage locking mechanism is adopted to drive the linkage screw rod to rotate in the rectangular groove frame, the first sleeving sliding blocks respectively carry the linkage plates to synchronously move upwards, the linkage concave blocks drive the two linkage shafts to synchronously move upwards, the hinging support rods carry the concave support blocks to horizontally slide the clamping plates, the two adjacent clamping plates can be mutually close, the two clamping plates extrude a plurality of glass bottles to realize locking, rapid feeding locking can be realized on a plurality of glass bottles needing preheating recovery, and the preheating recovery efficiency of the glass bottle dryer is greatly improved;

2. According to the invention, the controller starts the plurality of transmission motors through the material guiding recovery component, the transmission motors drive the transmission rollers to rotate positively, the transmission motors drive the transmission rollers to rotate in the concave frame plates and the conveying belt, the conveying belt carries a plurality of glass bottles to be guided into a gap between two clamping plates along the gap between two guiding sliding plates, the electric cylinders drive the sleeving support blocks to drive the support plates to move rightwards, when the concave frame plates do not stop the hinged door to close any more, the hinged door and the preheating recovery box can be closed, and after the glass bottles are dried and preheated, the rapid preheating recovery operation is completed;

3. According to the invention, the discharging recovery assembly is utilized, the driving screw is enabled to rotate in the support frame plate by the speed reducing motor, the driving screw carries the sleeved concave blocks to slide downwards along the inner wall of the support frame plate under the action of threads, the hinged sleeve rod can drive the connecting rotating shaft to enable the concave connecting blocks to move downwards synchronously, the connecting support plate can carry the plurality of linkage support plates to move downwards synchronously, each linkage support plate can drive the five pushing rods to move towards the inside of the preheating recovery box, the plurality of glass bottles are conveyed to a gap between the two guide sliding plates after being preheated, the plurality of preheated glass bottles are synchronously moved out from the drying interior, and the preheating recovery efficiency of the glass bottle dryer is greatly improved;

The mutual influence of a plurality of effects is that at first a plurality of glass bottles are along the space direction between two direction slide entering into the space between two grip blocks, realize quick material loading locking to a plurality of glass bottles that need preheat the recovery again, and a plurality of glass bottles that preheat are removed from stoving inside synchronization at last, can realize quick material loading and ejection of compact to a plurality of glass bottles that need preheat the recovery and lock in addition, and glass bottle drying-machine preheats recovery efficiency and improves by a wide margin.

Drawings

Fig. 1 is a schematic diagram of a front view of a preheating recovery device of a glass bottle dryer according to the present invention.

Fig. 2 is a schematic view of a vertical sectional structure of a preheating and recovering device of a glass bottle dryer according to the present invention.

Fig. 3 is a schematic view of a vertical section cut-off partial structure of a joint of a first sleeve-joint sliding block and a linkage plate according to the present invention.

Fig. 4 is an enlarged schematic view of the structure of fig. 3a according to the present invention.

Fig. 5 is a schematic view of a vertical section cut-off partial structure of the joint of the guide frame plate and the support plate of the present invention.

Fig. 6 is a schematic side view of a preheating and recovering device of a glass bottle dryer according to the present invention.

Fig. 7 is a schematic view of a truncated partial structure of a joint of an electric cylinder and a socket joint support block.

Fig. 8 is a schematic rear view of a preheating and recovering device of a glass bottle dryer according to the present invention.

Fig. 9 is a schematic front view of the discharge recycling assembly according to the present invention.

The reference numerals are: 1. a preheating recovery tank; 2. rectangular groove frame; 3. a linkage screw; 4. a first sleeve-joint sliding block; 5. a driving motor; 6. a linkage plate; 7. a linkage concave block; 8. a linkage shaft; 9. sleeving a connecting rod; 10. a hinged strut; 11. a concave support block; 12. a clamping plate; 13. a second sleeve-joint sliding block; 14. a guide slide bar; 15. a guide frame plate; 16. a support plate; 17. a hinged door; 18. a controller; 19. a blower; 20. a resistance heating wire; 21. an electric cylinder; 22. sleeving the support blocks; 23. a support plate; 24. connecting a concave frame; 25. a concave frame plate; 26. a guide slide plate; 27. a conveyor belt; 28. a driving roller; 29. a drive motor; 30. a pushing block; 31. a push rod; 32. a support frame plate; 33. driving a screw; 34. a speed reducing motor; 35. sleeving the concave block; 36. a connecting support shaft; 37. a hinged loop bar; 38. the connecting rotating shaft; 39. a concave connecting block; 40. a linkage support plate; 41. and connecting the support plate.

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.

The utility model provides a glass bottle drying-machine preheating recovery unit as shown in the accompanying drawings 1-9, be provided with linkage locking mechanism on this glass bottle drying-machine preheating recovery unit, guide recovery subassembly, ejection of compact recovery subassembly, linkage locking mechanism, guide recovery subassembly, ejection of compact recovery subassembly set up can realize quick material loading and ejection of compact to a plurality of glass bottles that need preheat recovery and locking in addition, glass bottle drying-machine preheating recovery efficiency improves by a wide margin, linkage locking mechanism, guide recovery subassembly, ejection of compact recovery subassembly's specific structure sets up as follows:

In this embodiment, as shown in fig. 1-4, the linkage locking mechanism includes a plurality of first sleeve-joint sliding blocks 4 arranged on the outer wall of the linkage screw 3, and the top end of the rectangular slot frame 2 is fixedly connected with a driving motor 5 for driving the linkage screw 3 to rotate; a linkage plate 6 is welded on one side of each first sleeving sliding block 4, a plurality of linkage concave blocks 7 are sequentially welded at the bottom end of the linkage plate 6 from front to back, two linkage shafts 8 are welded on the inner wall of each linkage concave block 7, sleeving rods 9 are rotatably connected to the outer wall of each linkage shaft 8 through bearings, hinged support rods 10 which are rotatably connected are penetrated through the inner wall of each sleeving rod 9 and close to the bottom end of each sleeving rod, concave support blocks 11 with concave vertical section shapes are welded at one end of each hinged support rod 10, and clamping plates 12 are fixedly connected to the bottom ends of the concave support blocks 11;

A material guiding recovery component is arranged on one side of the outer wall of the preheating recovery box 1; a discharging recovery component is arranged on one side of the rectangular groove frame 2.

In this embodiment, as shown in fig. 1-5, the bottom end of each clamping plate 12 is welded with a second sleeving sliding block 13, a guiding sliding rod 14 in sliding connection is penetrated in the second sleeving sliding block 13, one end of the guiding sliding rod 14 is welded with a guiding frame plate 15 for guiding the second sleeving sliding block 13 to slide, a supporting flat plate 16 fixedly connected with one side of the inner wall of the preheating and recovering box 1 is arranged at the top end of the guiding frame plate 15, and the supporting flat plate 16 is welded with the guiding frame plate 15, so that the clamping plates 12 carry the second sleeving sliding blocks 13 to slide along the outer wall of the guiding sliding rod 14 in a guiding manner, the guiding frame plate 15 can play a guiding role on the outer walls of the plurality of second sleeving sliding blocks 13, thus two adjacent clamping plates 12 can approach each other, can play a transverse guiding operation on two adjacent clamping plates 12, a hinged door 17 is hinged in front of the preheating and recovering box 1, a controller 18 for starting a driving of the driving motor 5 is fixedly arranged at one side of the hinged door 17, so that when the concave frame plate 25 does not stop the hinged door 17 from closing any more, the hinged door 17 can close the preheating and recovering box 1.

In this embodiment, as shown in fig. 6 to 7, the guide recovery assembly includes an electric cylinder 21 installed at one side of the outer wall of the preheating recovery tank 1; a fan 19 fixedly connected with the preheating recovery box 1 is arranged below the electric cylinder 21, and a resistance heating wire 20 for heating air is arranged at the input end of the fan 19; the outer wall of the output end of the electric cylinder 21 is welded with a sleeving supporting block 22, one side of the sleeving supporting block 22 is integrally formed with a supporting plate 23 through die casting, one side of the supporting plate 23 is sequentially provided with a plurality of connecting concave frames 24 with concave vertical section shapes at equal intervals from top to bottom, one side of the inner wall of the connecting concave frame 24 is welded with a concave frame plate 25, the top end of the inner wall of the connecting concave frame 24 is welded with a plurality of guide sliding plates 26 which are sequentially and equidistantly arranged from front to back, two adjacent guide sliding plates 26 are symmetrically arranged, and a conveying belt 27 which is in transmission connection with the concave frame plate 25 is arranged below the guide sliding plates 26;

The inner wall transmission of conveyer belt 27 is connected with two driving rollers 28, and the one side of every spill framed board 25 all fixedly mounted has driving motor 29, and driving motor 29's output and the coaxial transmission of one end of driving roller 28 are connected, and a plurality of connection spill framves 24 all weld with backup pad 23 between, and backup pad 23 and connection spill frame 24 are made by stainless steel.

In this embodiment, as shown in fig. 2 to 9, the outfeed recovery assembly includes a support frame plate 32 mounted on one side of the rectangular channel frame 2; the inner wall of the supporting frame plate 32 is rotatably provided with a driving screw rod 33 through a bearing, the outer wall of the driving screw rod 33 is in threaded connection with the inner wall of a sleeving concave block 35, the bottom end of the supporting frame plate 32 is fixedly provided with a speed reducing motor 34 used for driving the driving screw rod 33 to rotate, the outer wall of the driving screw rod 33 is provided with a sleeving concave block 35 which is vertically and slidingly connected with the supporting frame plate 32, and a connecting fulcrum 36 is fixedly embedded at one side of the inner wall of the sleeving concave block 35 and at one side of the driving screw rod 33; the outer wall of the connecting support shaft 36 is rotatably connected with a hinged sleeve rod 37 through a bearing, a connecting rotating shaft 38 which is rotatably connected is penetrated through the inner wall of the hinged sleeve rod 37 and near the top end position of the hinged sleeve rod, a concave connecting block 39 with a concave cross section is welded at one end part of the connecting rotating shaft 38, a plurality of linkage support plates 40 are sequentially installed on one side of the concave connecting block 39 from top to bottom, a connecting support plate 41 is installed on one side of the linkage support plate 40, a plurality of pushing rods 31 are sequentially welded on the other side of the linkage support plate 40 from front to back, the pushing rods 31 are horizontally and slidably connected with the inside of the preheating recovery box 1, and a pushing block 30 is welded at one end part of each pushing rod 31; the two sides of the pushing block 30 are respectively connected with the two clamping plates 12 in a horizontal sliding manner, a plurality of linkage support plates 40 are welded with the connecting support plates 41, and one linkage support plate 40 and the concave connecting block 39 are integrally formed through die casting.

The preheating recovery device of the glass bottle dryer in the embodiment adopts the following working principle:

Firstly, when preheating and conveying are carried out, a plurality of groups of glass bottles are placed in a gap between two guide sliding plates 26, five groups of glass bottles are placed in each layer, a plurality of transmission motors 29 are started through a controller 18, the transmission motors 29 drive transmission rollers 28 to rotate positively, the transmission motors 29 drive the transmission rollers 28 to rotate in concave frame plates 25 and in conveying belts 27, the transmission rollers 28 drive the conveying belts 27 to drive, the conveying belts 27 carry a plurality of glass bottles to guide along the gap between the two guide sliding plates 26 and enter the gap between two clamping plates 12, after all the groups of glass bottles enter the preheating and recovering box 1, a sleeve joint supporting block 22 drives a supporting plate 23 to move rightwards through an electric cylinder 21, the supporting plate 23 carries a plurality of connecting concave frames 24 to synchronously move rightwards, the connecting concave frames 24 drive the concave frame plates 25 to realize movement, and when the concave frame plates 25 no longer block the closing of a hinged door 17, the hinged door 17 and the preheating and recovering box 1 can be closed;

When the preheating synchronous locking is carried out, the driving motor 5 is started through the controller 18, the driving motor 5 drives the linkage screw 3 to rotate in the rectangular groove frame 2, the linkage screw 3 carries a plurality of first sleeving sliding blocks 4 to slide upwards along the guide of the inner wall of the rectangular groove frame 2 under the action of threads, simultaneously the plurality of first sleeving sliding blocks 4 respectively carry a plurality of linkage plates 6 to synchronously move upwards, the linkage plates 6 carry bottom five linkage concave blocks 7 to synchronously move upwards, the linkage concave blocks 7 drive two linkage shafts 8 to synchronously move up two sleeving rods 9, the sleeving connecting rods 9 drive the hinging support rods 10 to horizontally move the concave support blocks 11, the hinging support rods 10 carry the concave support blocks 11 to horizontally slide the clamping plates 12, the clamping plates 12 carry the second sleeving sliding blocks 13 to slide along the guide of the outer wall of the guide sliding rods 14, the guide frame plates 15 can play a guide role on the outer wall of the plurality of second sleeving sliding blocks 13, thus the two adjacent clamping plates 12 can be mutually close, the two clamping plates 12 squeeze a plurality of glass bottles to realize locking, simultaneously the controller 18 opens a resistance heating wire 20 and a fan 19, external air is conveyed to the inside the preheating box 1, and the preheating box can be preheated after the preheating box is preheated, and the inside the preheating box 1 is heated, and the preheating door is heated;

Finally, when recycling and discharging are carried out, the electric cylinder 21 enables the sleeving support block 22 to drive the support plate 23 to approach the preheating and recovering box 1, the sleeving support block 22 carries the support plate 23 to enable the plurality of connecting concave frames 24 to move leftwards to the right side part of the preheating and recovering box 1, the controller 18 starts the gear motor 34 to enable the driving screw 33 to rotate inside the support frame plate 32, the driving screw 33 carries the sleeving concave block 35 to slide downwards along the inner wall of the support frame plate 32 under the action of threads, meanwhile, the sleeving concave block 35 drives the connecting support shaft 36 to enable the hinged sleeve rod 37 to move downwards, the hinged sleeve rod 37 can drive the connecting rotating shaft 38 to enable the concave connecting block 39 to move downwards synchronously, the concave connecting block 39 drives the linkage support plate 40 to enable the connecting support plate 41 to move downwards synchronously, the connecting support plate 41 can carry the plurality of linkage support plates 40 to move downwards synchronously, each linkage support plate 40 can drive the five pushing rods 31 to move inwards of the preheating and recovering box 1, the pushing rods 31 carry the pushing rods 30 to squeeze the plurality of glass bottles between the two clamping plates 12, and then the glass bottles are conveyed to the two guide motors to the inside the preheating and enable the glass bottles to move outwards through the driving rollers 28 to drive the driving rollers 28 to rotate downwards after the glass bottles to be reversely, and the glass bottles are conveyed to the driving rollers to rotate synchronously and the driving rollers 28 to drive the glass bottles to move and the glass bottles to rotate.

The details not described in detail in the specification belong to the prior art known to those skilled in the art, and model parameters of each electric appliance are not specifically limited, and conventional equipment is used.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (10)

1. The utility model provides a glass bottle drying-machine preheating recovery unit, includes preheating recovery case (1), rectangle cell-frame (2) and linkage screw rod (3), rectangle cell-frame (2) are located preheating recovery case (1) one side and fixed connection, linkage screw rod (3) rotate and install at rectangular cell-frame (2) inner wall, its characterized in that: the outer wall of the linkage screw rod (3) is provided with a linkage locking mechanism;

The linkage locking mechanism comprises a plurality of first sleeving sliding blocks (4) arranged on the outer wall of the linkage screw rod (3), and the top end of the rectangular groove frame (2) is fixedly connected with a driving motor (5) for driving the linkage screw rod (3) to rotate;

One side of each first sleeving sliding block (4) is welded with a linkage plate (6), the bottom end of each linkage plate (6) is sequentially welded with a plurality of linkage concave blocks (7) from front to back, the inner wall of each linkage concave block (7) is welded with two linkage shafts (8), the outer wall of each linkage shaft (8) is rotationally connected with a sleeving rod (9) through a bearing, a hinged support rod (10) which is rotationally connected is penetrated through the inner wall of the sleeving rod (9) and is close to the bottom end of the sleeving rod, one end part of each hinged support rod (10) is welded with a concave support block (11) with a concave vertical section, and the bottom end of each concave support block (11) is fixedly connected with a clamping plate (12);

A material guiding and recycling assembly is arranged on one side of the outer wall of the preheating recycling box (1);

one side of the rectangular groove frame (2) is provided with a discharging recovery assembly.

2. The glass bottle dryer preheating recovery device according to claim 1, wherein: the output end of the driving motor (5) is coaxially connected with the top end of the linkage screw rod (3) in a transmission way, and the linkage screw rod (3) and the rectangular groove frame (2) are made of stainless steel materials.

3. The glass bottle dryer preheating recovery device according to claim 1, wherein: the first sleeving sliding blocks (4) are connected with the linkage screw rod (3) through threads, and the first sleeving sliding blocks (4) are sequentially arranged from top to bottom at equal intervals.

4. The glass bottle dryer preheating recovery device according to claim 1, wherein: gaps are formed between every two adjacent clamping plates (12), and the vertical cross-sectional area of one side of each clamping plate (12) is smaller than that of the other side of each clamping plate.

5. The glass bottle dryer preheating recovery device according to claim 1, wherein: every the bottom of grip block (12) has all welded second and cup jointed slider (13) the inside that the slider (13) was cup jointed to the second runs through has sliding connection's direction slide bar (14), just the tip welding of direction slide bar (14) has and is used for leading the gliding guide frame board (15) of slider (13) are cup jointed to the second the top of guide frame board (15) be equipped with preheating recovery case (1) inner wall one side fixed connection's support flat board (16), just weld between support flat board (16) and guide frame board (15).

6. The glass bottle dryer preheating recovery device according to claim 1, wherein: the front of the preheating recovery box (1) is hinged with a hinged door (17), and one side of the hinged door (17) is fixedly provided with a controller (18) for starting the driving motor (5) to drive.

7. The glass bottle dryer preheating recovery device according to claim 1, wherein: the material guiding recovery component comprises an electric cylinder (21) arranged on one side of the outer wall of the preheating recovery box (1);

A fan (19) fixedly connected with the preheating recovery box (1) is arranged below the electric cylinder (21), and a resistance heating wire (20) for heating air is arranged at the input end of the fan (19);

The outer wall of the output end of the electric cylinder (21) is welded with a sleeve joint supporting block (22), one side of the sleeve joint supporting block (22) is integrally formed with a supporting plate (23) through die casting, one side of the supporting plate (23) is sequentially provided with a plurality of connecting concave frames (24) with concave vertical section shapes at equal intervals from top to bottom, one side of the inner wall of each connecting concave frame (24) is welded with a concave frame plate (25), the top end of the inner wall of each connecting concave frame (24) is welded with a plurality of guide sliding plates (26) which are sequentially and equidistantly arranged from front to back, two adjacent guide sliding plates (26) are symmetrically arranged, and a conveying belt (27) in transmission connection with the concave frame plates (25) is arranged below the guide sliding plates (26);

the inner wall transmission of conveyer belt (27) is connected with two driving rollers (28), and every one side of spill framed board (25) all fixed mounting has driving motor (29), the output of driving motor (29) is connected with the coaxial transmission of one end of driving roller (28).

8. The glass bottle dryer preheating recovery device according to claim 7, wherein: and a plurality of connecting concave frames (24) are welded with the supporting plate (23), and the supporting plate (23) and the connecting concave frames (24) are made of stainless steel materials.

9. The glass bottle dryer preheating recovery device according to claim 1, wherein: the discharging and recycling assembly comprises a supporting frame plate (32) arranged at one side of the rectangular groove frame (2);

the inner wall of the supporting frame plate (32) is rotatably provided with a driving screw (33) through a bearing, the outer wall of the driving screw (33) is in threaded connection with the inner wall of the sleeving concave block (35), the bottom end of the supporting frame plate (32) is fixedly provided with a speed reducing motor (34) used for driving the driving screw (33) to rotate, the outer wall of the driving screw (33) is provided with the sleeving concave block (35) which is vertically and slidably connected with the supporting frame plate (32), and a connecting support shaft (36) is fixedly embedded in one side of the inner wall of the sleeving concave block (35) and positioned on one side of the driving screw (33);

The outer wall of the connecting support shaft (36) is rotatably connected with a hinged sleeve rod (37) through a bearing, a connecting rotating shaft (38) which is rotatably connected is penetrated through the inner wall of the hinged sleeve rod (37) and is close to the top end position of the hinged sleeve rod, a concave connecting block (39) with a concave cross section is welded at one end part of the connecting rotating shaft (38), a plurality of linkage support plates (40) are sequentially installed on one side of the concave connecting block (39) from top to bottom, a connecting support plate (41) is installed on one side of the linkage support plate (40), a plurality of pushing rods (31) are sequentially welded on the other side of the linkage support plate (40) from front to back, a plurality of pushing rods (31) are horizontally and slidably connected with the inside of the preheating recovery box (1), and a pushing block (30) is welded at one end part of each pushing rod (31);

both sides of the pushing block (30) are respectively connected with the two clamping plates (12) in a horizontal sliding manner.

10. The glass bottle dryer preheating recovery device according to claim 9, wherein: and a plurality of linkage support plates (40) are welded with the connecting support plates (41), and one linkage support plate (40) and the concave connecting block (39) are integrally formed through die casting.