CN117303716B - Heat-resistant high borosilicate glass circulating production equipment - Google Patents

Abstract

The utility model discloses heat-resistant high borosilicate glass circulating production equipment, which relates to the technical field of glass production and comprises a processing turntable, a fixed cover plate positioned at the top of the processing turntable, an elastic connecting seat, a plurality of elastic connecting seats and a stop lever, wherein the annular arrays of the elastic connecting seats are distributed on the table top of the processing turntable, one end of each elastic connecting seat is elastically and movably connected with the processing turntable, the other end of each elastic connecting seat is symmetrically and elastically hinged with a clamping arm, mutually abutted abutment plates are respectively fixed between the two clamping arms, a transfer channel is internally provided with a stirring assembly, the stirring assembly is in intermittent transmission connection with the processing turntable, the abutment members are positioned between the two clamping arms and are respectively in abutting fit with the abutment plates at the two sides, one side, close to the transfer channel, of the bottom of the fixed cover plate is fixedly connected with the stop lever, and one side of each elastic connecting seat is sequentially abutted with the stop lever. According to the utility model, the pair of clamping arms on each elastic connecting seat is moved by arranging the rotary processing turntable, so that the blank body is gradually moved into the transfer channel in the processing process.

Description

Heat-resistant high borosilicate glass circulating production equipment

Technical Field

The utility model relates to the technical field of glass production, in particular to heat-resistant high borosilicate glass circulating production equipment.

Background

Because the high borosilicate glass has good fire resistance and high physical strength, compared with common glass, the high borosilicate glass has no toxic or side effect, and the heat resistance is greatly improved, most of the current cutlery boxes and articles for daily use are manufactured by using the high borosilicate glass, the production process of the high borosilicate glass mainly comprises the steps of proportioning raw materials, melting and forming, heat treatment and finish machining, wherein the heat treatment is to anneal or heat treat a glass blank so as to eliminate internal stress and crystal defects, improve the mechanical property and optical property of the glass, and the finish machining is to cut, polish and the like the heat treated glass blank so as to meet the requirements of the required size and surface quality.

The prior patent application has the following patent publication numbers: CN212127957U, the publication date is 12/11 in 2020, the name of the patent is "a borosilicate glass production line", the patent includes a plurality of parallel roller pipelines, the side of the roller pipelines is distributed with a feeding area, a blowing forming area, a handle forming area, a spout forming area and a sorting area, the discharge end of the roller pipelines is provided with a guiding mechanism, the ends of the roller pipelines are mutually connected by a transfer device, the transfer device includes a work frame; the bottom of the working frame is provided with a driving motor, one side of the driving motor is provided with a motor shaft, one end of the motor shaft penetrates through the working frame and is sleeved with a rotary table, and long rods are uniformly distributed and welded on the outer side of the rotary table; compared with the prior art, the high borosilicate glass production line provided by the utility model has the advantages that the material is conveyed by the conveying device, so that the original longer production line can be subjected to bending arrangement, the requirements on the length of a production field are reduced, and the field utilization rate is improved.

The above-mentioned application has the disadvantage that when the formed embryo body is subjected to the subsequent treatment on the production line, in order to avoid the embryo body being accumulated on a certain station, the embryo body is often required to be transferred, and then a mechanical arm or an electric telescopic mechanism is required to be used for completion, but it is known that the operation of the mechanical arm and the electric telescopic mechanism needs to provide a power source, the electric cost of the mechanical arm can be increased, and if the mechanical arm is used, a series of fine calculation and adjustment are required, and if a simple telescopic mechanism is used, the stability of transferring cannot be ensured.

Disclosure of Invention

The utility model aims to provide heat-resistant high borosilicate glass circulating production equipment for solving the defects in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model provides a heat resistance high borosilicate glass circulating production facility, includes processing revolving stage and the fixed apron that is located processing revolving stage top, still includes the elastic connection seat, and a plurality of elastic connection seat ring array distributes on the mesa of processing revolving stage, and the one end and the processing revolving stage elastic activity of elastic connection seat are connected, and the other end symmetry elastic hinge has the arm lock, two be fixed with the butt plate of mutual butt between the arm lock respectively, transfer passage, its one side of installing in the fixed apron, and its internally mounted has the kickoff subassembly, kickoff subassembly is connected with processing revolving stage intermittent type transmission, and the butt piece, and it is located between two arm locks to respectively with the butt plate butt cooperation on both sides, one side fixedly connected with pin near transfer passage of fixed apron bottom, each one side of elastic connection seat is in proper order with the pin, when processing revolving stage drives the elastic connection seat and supports the pin, and the pin forces the elastic connection seat to radially remove towards the border of processing revolving stage, then the butt piece again with the butt plate on the arm lock on the both sides, lets the work piece loosen the work piece in transfer passage, again by the kickoff subassembly on both sides, is moved the work piece by the kickoff subassembly and is moved out the work piece by the kickoff subassembly that is driven by the processing revolving stage.

Preferably, the center of the top of the processing turntable is fixedly connected with a fixed ring, the elastic connecting seat comprises a plugboard penetrating through the side wall of the fixed ring, a pressure spring is arranged between one end of the plugboard and the fixed ring, and the other end of the plugboard is respectively and elastically hinged with the two clamping arms.

Preferably, the other end of the clamping arm is provided with a clamp, the outer edge of the table top of the processing turntable is provided with a plurality of workpiece placing seats, and the workpiece placing seats are positioned below the pair of clamps.

Preferably, the two abutting plates are provided with V-shaped openings at one ends close to the abutting pieces, and the two abutting plates are respectively provided with mutually meshed clamping teeth.

Preferably, the abutting piece comprises a trapezoid abutting block fixed on the top surface of the processing turntable, reset shaft rods are rotatably connected to two sides of the trapezoid abutting block, protruding strips abutting against the clamping teeth are fixedly connected to the outer wall of the reset shaft rods, and telescopic knocking rods are mounted at the tops of the reset shaft rods and used for driving the telescopic knocking rods to continuously knock the surface of a workpiece when the clamping teeth and the protruding strips are continuously abutted.

Preferably, the transfer channel bottom is equipped with the garbage collection box, and the transfer channel bottom is close to the position of discharge end on offer with the garbage collection box intercommunication the waste discharge mouth, the waste discharge mouth is embedded to be equipped with dialling material subassembly matched with the subassembly that opens and shuts.

Preferably, the material stirring assembly comprises an elastic rotating shaft which is rotatably arranged in the transfer passage, a material stirring rod is fixedly connected to the side wall of the elastic rotating shaft, a driven gear is fixedly connected to the bottom of the elastic rotating shaft below the transfer passage, a transmission gear meshed with the driven gear is rotatably connected to the bottom of the transfer passage, arc racks are fixedly connected to the bottom of the processing turntable below each pair of clamping arms, and the arc racks are meshed with the transmission gear.

Preferably, the opening and closing assembly comprises a lifting bottom plate matched with the waste discharge port and an arc-shaped bulge which is elastically and slidably arranged on the inner side wall of the transfer passage, wherein an arc-shaped guide plate is fixedly connected to the bottom of the arc-shaped bulge outside the transfer passage, a guide groove is formed in the inner wall of the arc-shaped guide plate, and a connecting rod with one end inserted into the guide groove is fixed at the bottom of the lifting bottom plate.

Preferably, the vertical fixedly connected with spacing slide rail in transfer channel bottom, the other end of connecting rod inserts and locates in this spacing slide rail, and the sliding mounting has the support bracket in the spacing slide rail, the one end that the connecting rod inserted spacing slide rail is taken on the support bracket, support bracket top overlap joint is in driven gear's top, and driven gear top annular distribution has a plurality of butt tooth.

Preferably, an electric push rod is mounted on the outer side wall of the fixed cover plate, a pressing block propping against each of the two side-resisting plates on the pair of clamping arms is fixedly connected to the bottom of the electric push rod, and when the pressing block presses down to prop up the two side-resisting plates, each clamp on the pair of clamping arms is opened above the workpiece placing seat.

According to the technical scheme, the pair of clamping arms on each elastic connecting seat are moved through the processing turntable, the blank is gradually moved into the transfer channel in the processing process, after the blank is processed and enters the transfer channel, the stop lever with the fixed position can stop the elastic connecting seats to normally move, the elastic connecting seats propped against the stop lever are forced to move towards the direction of the transfer channel, and the elastic connecting seats can also carry the pair of clamping arms to move towards the outer edge of the processing turntable, so that the abutting piece is propped against the abutting plate on the clamping arms, the clamping arms on two sides can be directly propped up, workpieces in the transfer channel are loosened, then the processing turntable drives the shifting assembly to push the workpieces out of the transfer channel, the outward movement and the opening of the clamping arms do not need independent driving sources and control units, the cost of blank processing is saved, and meanwhile, blank transfer failure or accidental drop in the transfer process can be avoided, so that stable cyclic production and processing are realized.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all of the features of the disclosed technology.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of the overall structure of a heat-resistant borosilicate glass circulating production device of the present utility model;

FIG. 2 is a bottom view of a heat resistant borosilicate glass recycling manufacturing apparatus of the present utility model;

FIG. 3 is an enlarged view of the part A of the heat-resistant borosilicate glass circulating production equipment of the present utility model;

FIG. 4 is a schematic view showing the positional relationship between a clamp arm and an abutment member in a heat-resistant borosilicate glass circulating production apparatus according to the present utility model;

FIG. 5 is a schematic view of the structure of an abutment member in a heat resistant borosilicate glass circulating production apparatus according to the present utility model;

FIG. 6 is a schematic view showing the internal structure of a transfer passage in a heat-resistant borosilicate glass circulating production apparatus according to the present utility model;

FIG. 7 is a schematic view of a kick-out assembly in a heat resistant borosilicate glass circulation type manufacturing apparatus of the present utility model;

FIG. 8 is a schematic diagram of the structure of the opening and closing assembly in the heat-resistant borosilicate glass circulating production equipment of the present utility model;

FIG. 9 is a schematic view showing the structure of a fixed cover plate in a heat-resistant borosilicate glass circulating production apparatus of the present utility model.

Reference numerals illustrate:

1. machining a rotary table; 101. a fixing ring; 102. a workpiece placement seat; 103. an arc-shaped rack; 104. an electric spindle; 105. a chute; 2. fixing the cover plate; 201. a stop lever; 202. an electric push rod; 203. briquetting; 3. an elastic connecting seat; 301. inserting plate; 302. a pressure spring; 303. a limit slide bar; 4. a clamp arm; 401. a retaining plate; 402. a clamp; 403. a V-shaped opening; 404. clamping teeth; 405. a receiving groove; 5. a transfer channel; 501. a waste collection box; 502. a waste discharge port; 503. a transmission gear; 504. a limit sliding rail; 505. a support bracket; 506. a through groove; 6. a stirring assembly; 601. an elastic rotating shaft; 602. a stirring rod; 603. a driven gear; 604. abutment teeth; 7. an abutment; 701. a trapezoid supporting block; 702. resetting the shaft lever; 703. a convex strip; 704. a telescopic knocking rod; 705. a groove; 706. knocking the block; 8. an opening and closing assembly; 801. lifting the bottom plate; 802. arc-shaped bulges; 803. an arc-shaped guide plate; 804. a guide groove; 805. and (5) connecting a rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Referring to fig. 1-9, the heat-resistant borosilicate glass circulating production device provided by the embodiment of the utility model comprises a processing turntable 1, a fixed cover plate 2 positioned at the top of the processing turntable 1, and further comprises an elastic connecting seat 3, wherein a plurality of elastic connecting seats 3 are annularly distributed on the table top of the processing turntable 1, one end of each elastic connecting seat 3 is elastically and movably connected with the processing turntable 1, the other end of each elastic connecting seat is symmetrically and elastically hinged with a clamping arm 4, a mutually-abutting plate 401 is respectively fixed between the two clamping arms 4, a transfer channel 5 is arranged on one side of the fixed cover plate 2, a stirring assembly 6 is arranged in the stirring assembly, the stirring assembly 6 is in intermittent transmission connection with the processing turntable 1, an abutting piece 7 is positioned between the two clamping arms 4 and is respectively in abutting fit with the abutting plates 401 on two sides, one side, close to the transfer channel 5, one side of each elastic connecting seat 3 is fixedly connected with a stop lever 201, when the processing turntable 1 drives the elastic connecting seat 3 to abut against the stop lever 201, the stop lever 201 forces the elastic connecting seat 3 to radially move towards the edge of the processing turntable 1, then the abutting piece 7 abuts against the clamping arms 4, and then the workpiece 4 is moved out of the two sides of the transfer channel 5 by the stirring assembly 4, and the workpiece is moved out of the clamping assembly 5 by the intermittent transmission of the two abutting plates 4.

Specifically, a base is installed at the bottom of the processing turntable 1, an electric spindle 104 is fixedly connected to the center of the top of the processing turntable 1, the electric spindle 104 penetrates through a fixed cover plate 2, the fixed cover plate 2 is connected with a transfer channel 5, meanwhile, the fixed cover plate 2 is fixedly connected with the base through a frame, when the processing turntable 1 rotates to transfer blanks, the fixed cover plate 2 and the transfer channel 5 always keep a fixed state, the formed blanks are placed on the processing turntable 1 and clamped by a pair of clamping arms 4 on an elastic connecting seat 3, the elastic connecting seat 3 pulls the corresponding clamping arms 4 under the action of elastic force to keep the corresponding clamping arms 4 on the table top of the processing turntable 1, falling caused by insufficient clamping due to unqualified blank shape is avoided, when the processing turntable 1 rotates, each elastic connecting seat 3 also moves circumferentially along the center of the processing turntable 1, and the position of a stop lever 201 is fixed, when the processing turntable 1 rotates, each elastic connecting seat 3 is propped by the stop lever 201 in turn, the elastic connecting seats 3 are forced to move radially with a pair of clamping arms 4 towards the direction of the transfer channel 5 in a period of time, the pair of clamping arms 4 enter the transfer channel 5 with the processed embryo, the transfer channel 5 is arc-shaped and is coaxial with the processing turntable 1, when the clamping arms 4 move towards the processing turntable 1, the distance between the abutting plate 401 and the abutting piece 7 which are additionally arranged on the clamping arms is gradually reduced, the abutting piece 7 and the abutting plate 401 are used for gradually opening the clamping arms 4 at two sides, the embryo is released in the transfer channel 5, then the processing turntable 1 drives the stirring assembly 6 to push the embryo out of the transfer channel 5, the next process is continuously completed, and simultaneously, after the blank leaves the clamping arms 4, the clamping arms 4 on two sides of the blank are clamped together again under the action of elasticity, and the elastic connecting seat 3 also resets and moves back under the action of elasticity after avoiding the stop lever 201 and moves towards the center of the processing turntable 1, so that the subsequent blank is clamped and placed conveniently and continuously, and continuous circulation operation is realized.

Compared with the prior art, the embodiment of the utility model moves the pair of clamping arms 4 on each elastic connecting seat 3 by arranging the rotary processing turntable 1, so that the blank body gradually moves into the transfer channel 5 in the processing process, after the blank body is processed and enters the transfer channel 5, the stop lever 201 with fixed position can stop the elastic connecting seat 3 from moving normally, the elastic connecting seat 3 which is propped against the stop lever 201 is forced to move towards the transfer channel 5, and the elastic connecting seat 3 can also carry the pair of clamping arms 4 to move towards the outer edge of the processing turntable 1, so that the clamping arms 4 on two sides can be directly propped against the abutting piece 7 and the abutting plate 401 on the clamping arms 4, the workpiece positioned in the transfer channel 5 is loosened, then the processing turntable 1 drives the stirring assembly 6 to push the workpiece out of the transfer channel 5, and the outward movement of the clamping arms 4 does not need an independent driving source and a control unit, so that the cost of the blank body processing is saved, and meanwhile, the blank body is prevented from failing to transfer or accidentally falling in the transfer process, so that stable cyclic production and processing are realized.

In a further embodiment of the present utility model, the center of the top of the processing turntable 1 is fixedly connected with the fixing ring 101, the elastic connection seat 3 includes a plugboard 301 penetrating through and arranged on the side wall of the fixing ring 101, the plugboard 301 is movably spliced on the fixing ring 101, and the plugboard 301 is triangular, a compression spring 302 is installed between one end of the plugboard 301 and the fixing ring 101, a limit slide bar 303 is fixedly connected to the plugboard 301, the limit slide bar 303 is located inside the fixing ring 101, a sliding groove 105 matched with the limit slide bar 303 is radially formed on the top surface of the processing turntable 1, the compression spring 302 is located in the sliding groove 105, one end of the compression spring 302 is fixed with the limit slide bar 303, the other end of the compression spring 302 is fixed with the inner wall of the fixing ring 101, the other end of the plugboard 301 is respectively and elastically hinged with two clamp arms 4, a torsion spring (not shown in the figure) is installed at the hinged position of the clamp arms 4 and the plugboard 301, and in particular, when the processing turntable 1 operates, the elastic connection seat 3 in a normal state is mostly located in the fixing ring 101, because the plugboard 301 is extruded towards the center of the processing turntable 1 under the action of the compression spring 302, when the compression spring 302 rotates, the processing turntable 1 is guaranteed, the initial position of the plugboard 301 and the stop bar 201 can contact with the sliding groove 105, and the elastic connection seat 3, and the elastic connection seat can be prevented from moving radially, and moving around the clamp arm 201, and the elastic connection seat 3, and the elastic connection seat can be prevented from moving radially, and the clamp arm 201 and the clamp arm 4.

In a further embodiment of the present utility model, the other end of the clamping arm 4 is provided with the clamp 402, the clamp 402 is detachably connected with the end of the clamping arm 4, the outer edge of the table surface of the processing turntable 1 is provided with the plurality of workpiece placement seats 102, the workpiece placement seats 102 are located below the pair of clamp 402, specifically, the clamping clamp 402 is added on the clamping arm 4 to clamp the blank, so that the blank can be more comprehensively clamped, the clamp 402 can be replaced according to the specification and the shape of the blank, the workpiece placement seats 102 can conveniently judge the placement position of the blank when the pair of clamping arms 4 are opened, and after the blank is placed on the workpiece placement seats 102, the pair of originally opened clamping arms 4 can automatically clamp the blank under the action of elasticity.

In a further embodiment of the present utility model, a V-shaped opening 403 is formed at one end of the two abutment plates 401 near the abutment member 7, and two engaging teeth 404 are respectively formed on the two abutment plates 401, and teeth on the two engaging teeth 404 are staggered, specifically, one end of the abutment plate 401 near the abutment member 7 has an inclined surface, the inclined surfaces on the two abutment plates 401 are in the same direction, the two inclined surfaces form the V-shaped opening 403, the V-shaped opening 403 prevents the abutment plates 401 and the abutment member 7 from being jammed when the abutment plates 401 abut against each other, and the inclined surfaces on the abutment plates 401 abut against the abutment member 7, so that the two clamping arms 4 can be opened more gradually in the transfer channel 5.

In a further embodiment of the present utility model, the abutting member 7 includes a trapezoidal abutting block 701 fixed on the top surface of the processing turntable 1, grooves 705 are formed on both sides of the trapezoidal abutting block 701, a reset shaft 702 is rotatably connected to the grooves 705, torsion springs (not shown in the figure) connected to the trapezoidal abutting block 701 are sleeved on the reset shaft 702, raised strips 703 abutting against the engaging teeth 404 are fixedly connected to the outer wall of the reset shaft 702, the telescopic abutting rod 704 is mounted on the top of the reset shaft 702, the abutting block 706 is mounted on the end of the telescopic abutting rod 704, a containing groove 405 for the abutting block 706 to contain is formed on the top of the clamp 402, when the engaging teeth 404 continuously abut against the raised strips 703, the telescopic abutting rod 704 is driven to rotate back and forth to continuously strike the surface of the workpiece 706, specifically, the reset shaft 702 rotates towards the opening direction of the clamp arm 4 under the force of the torsion springs, when the raised strips 703 on the reset shaft 702 are located at the notch of the grooves 705, the two sides of the telescopic abutting rod 704 are fixed in angle, the raised strips 703 do not only play a limiting role in limiting the rotation of the reset shaft 702, when the engaging teeth 401 abut against the engaging teeth 404, the engaging strips 401 are also moved against the engaging teeth 404, the impact force of the clamp 702 is detected, and the impact force is detected on the inner surface of the clamp 702 is detected, and the impact force is detected by the clamp shaft 702 is detected, and the impact force is detected by the impact force of the clamp shaft 702 is continuously contacts the impact force of the glass rod 702 to the opposite to the impact bar 702 to the inner than the impact force of the impact bar 404, and the impact force is detected, and the impact force is detected, and the impact on the impact bar is released, the potential safety hazard is reduced.

In a further embodiment of the present utility model, a waste collecting box 501 is disposed at the bottom of the transfer channel 5, a waste discharge port 502 communicating with the waste collecting box 501 is disposed at the bottom of the transfer channel 5 near the discharge end, an opening and closing component 8 matching with the stirring component 6 is movably embedded in the waste discharge port 502, specifically, the opening and closing component 8 has the function of opening and closing the waste discharge port 502, when the opening and closing component 8 closes the waste discharge port 502, the qualified product can be normally sent out of the transfer channel 5, then the next process is performed, and after the waste discharge port 502 is opened, defective products with insufficient hardness can be conveyed into the waste collecting box 501, so as to facilitate the same cleaning.

In a further embodiment of the present utility model, the material stirring assembly 6 includes an elastic rotating shaft 601 rotatably installed in the transferring channel 5, a torsion spring connected to the inner wall of the transferring channel 5 is sleeved outside the elastic rotating shaft 601, a material stirring rod 602 is fixedly connected to the side wall of the elastic rotating shaft 601, the bottom of the material stirring rod 602 contacts with the bottom surface of the inner wall of the transferring channel 5, the material stirring rod 602 is located at the inner edge of the transferring channel 5 near the processing turntable 1 under the torsion action of the torsion spring, a through groove 506 through which the material stirring rod 602 passes is formed at the outer edge of the transferring channel 5, the through groove 506 is also communicated with the waste collecting box 501, a driven gear 603 is fixedly connected to the bottom of the elastic rotating shaft 601 below the transferring channel 5, a transmission gear 503 meshed with the driven gear 603 is rotatably connected to the bottom of the transferring channel 5, the arc-shaped rack 103 is meshed with the transmission gear 503, concretely, when the material stirring rod 602 is located at the inner edge of the transferring channel 5, a region for placing a blank body is formed inside the transferring channel 5, when the two-side clamping arms 4 are located at the inner edge of the transferring channel 5, a corresponding position of the transferring channel 5 is loosened, the driven gear 603 is pushed by the driven gear 603 to the corresponding to the inner side of the transferring channel 1, and the material stirring rod is driven by the rotation of the transferring channel 1, and the material is driven by the driving gear 503 to rotate towards the bottom of the transferring channel 1, and the material is kept to rotate along the inner side of the arc-shaped rack 503, and the corresponding to the inner side of the transferring channel 1, and the material is driven by the driving shaft, and the driving gear 503.

In a further embodiment of the present utility model, the opening and closing assembly 8 includes a lifting bottom plate 801 adapted to the waste discharge port 502 and an arc-shaped protrusion 802 elastically slidably mounted on an inner sidewall of the transfer channel 5, a top spring (not shown in the figure) is additionally mounted between the arc-shaped protrusion 802 and the transfer channel 5, the top spring pushes against the arc-shaped protrusion 802 towards a feeding end of the transfer channel 5, a diagonal rod is fixedly connected to one side of the stirring rod 602, the stirring rod 602 and the arc-shaped protrusion 802 are staggered up and down, an arc-shaped guide plate 803 is fixedly connected to an outer side of the transfer channel 5 at a bottom of the arc-shaped protrusion 802, a guide groove 804 is formed in an inner wall of the arc-shaped guide plate 803, a connecting rod 805 with one end inserted into the guide groove 804 is fixed at a bottom of the lifting bottom plate 801, the guide groove 804 includes two horizontal sections with a height difference and a diagonal section connecting the two horizontal sections, specifically, when the stirring rod 602 in the stirring assembly 6 is pushed towards a discharging end of the transfer channel 5, one side of the blank body is abutted against the stirring rod 602, the other side of the blank body is abutted against the arc-shaped protrusion 802, as the stirring rod 602 continuously rotates towards the discharging end, the pressure of the blank body to the ejection spring is gradually increased, namely the blank body is subjected to the extrusion force of the arc-shaped protrusion 802 to be larger and larger, the blank body is subjected to extrusion test by utilizing the stirring rod 602 and the inclined rod on the stirring rod 602 to cooperate with the arc-shaped protrusion 802, the integral strength of the blank body is further detected, the detection comprehensiveness is improved, meanwhile, when the ejection spring normally abuts against the arc-shaped protrusion 802, one end of the connecting rod 805 at the bottom of the lifting bottom plate 801 is positioned at the low level section of the guide groove 804, at the moment, the lifting bottom plate 801 is positioned below the waste discharge port 502, the waste discharge port 502 is in a completely opened state, when the blank body is broken during knocking or extrusion detection, the stirring rod 602 cannot complete extrusion of the arc-shaped protrusion 802 through the blank body, the stirring rod 602 sends broken waste into the waste collection box 501 through the through groove 506 or the waste discharge port 502, when the blank body is not damaged after knocking and extrusion detection, the stirring rod 602 drives the blank body to move outwards to extrude the arc-shaped protrusion 802, when the arc-shaped protrusion 802 moves towards the discharge end of the transfer channel 5, the position of the guide groove 804 also changes, one end of the connecting rod 805 originally positioned at the lower horizontal section of the guide groove 804 reaches the upper horizontal section of the guide groove 804, the lifting plate is forced to rise to completely cover the waste discharge port 502, qualified workpieces are normally moved out of the transfer channel 5, and manual operation is not required for detection and screening of the blank body, so that potential safety hazards are reduced.

In a further embodiment of the present utility model, the lower horizontal section of the guide groove 804 has a space for one end of the connecting rod 805 to move up and down, the bottom of the transferring channel 5 is vertically and fixedly connected with the limit sliding rail 504, the other end of the connecting rod 805 is inserted into the limit sliding rail 504, the support bracket 505 is slidably mounted in the limit sliding rail 504, one end of the connecting rod 805 inserted into the limit sliding rail 504 is lapped on the support bracket 505, the top of the support bracket 505 is lapped on the top of the driven gear 603, and a plurality of abutting teeth 604 are annularly distributed on the top of the driven gear 603, in particular, the support bracket 505 supports the connecting rod 805, since the top of the support bracket 505 is directly lapped on the top of the driven gear 603, when the elastic shaft rod and the stirring rod 602 rotate towards the discharging end of the transferring channel 5, the top of the support bracket 505 is sequentially abutted with each abutting tooth 604, when the waste discharging port 502 is opened below the lifting bottom plate 801, the waste discharging port 502 is directly lifted on the support bracket 805, the lifting bottom plate 505, the lifting bottom of the support bracket 505, the lifting bottom plate 801 is driven by the lifting bottom of the support bracket 505, and then the lifting bottom plate 801, the residual glass fragments on the lifting bottom plate 801, and then the lifting bottom plate 505, and then the lifting the glass fragments on the support bracket 505, and avoiding the bad contact with the waste port 505, and the waste port being lifted, and the waste port, and the bad, and the waste port is discharged.

In a further embodiment of the present utility model, an electric push rod 202 is installed on the outer side wall of the fixed cover plate 2, a pressing block 203 that abuts against each abutment 401 on the pair of clamping arms 4 is fixedly connected to the bottom of the electric push rod 202, a chamfer is provided on the top of the inclined surface of each abutment 401, when the pressing block 203 presses down to push up the abutment 401 on both sides, each clamp 402 on the pair of clamping arms 4 opens above the workpiece placement seat 102, specifically, the pair of clamping arms 4 can be opened only when the clamping arms are in the transfer channel 5, after the clamping arms are rotated out of the transfer channel 5 and reset, the electric push rod 202 descends with the pressing block 203, so that the pressing block 203 pushes up the abutment 401 on both sides below, and the pair of clamping arms 4 can be opened above the processing turntable 1 without pushing out the elastic connection seat 3, thereby facilitating placement of the blank on the workpiece placement seat 102 between the pair of clamping arms 4, and realizing continuous operation.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (7)

1. The utility model provides a heat resistance borosilicate glass circulation formula production facility, includes processing revolving stage (1) and is located fixed apron (2) at processing revolving stage (1) top, its characterized in that still includes:

the elastic connecting seats (3), a plurality of elastic connecting seats (3) are distributed on the table top of the processing turntable (1) in an annular array manner, one end of each elastic connecting seat (3) is elastically and movably connected with the processing turntable (1), the other end of each elastic connecting seat is symmetrically and elastically hinged with a clamping arm (4), and two mutually abutted abutting plates (401) are respectively fixed between the two clamping arms (4);

the machining turntable is characterized in that a fixed ring (101) is fixedly connected to the center of the top of the machining turntable (1), the elastic connecting seat (3) comprises an inserting plate (301) penetrating through the side wall of the fixed ring (101), a pressure spring (302) is arranged between one end of the inserting plate (301) and the fixed ring (101), and the other end of the inserting plate (301) is elastically hinged with the two clamping arms (4) respectively;

the transfer channel (5) is arranged on one side of the fixed cover plate (2), and is internally provided with a stirring assembly (6), and the stirring assembly (6) is in intermittent transmission connection with the processing turntable (1);

the abutting piece (7) is positioned between the two clamping arms (4) and is in abutting fit with the abutting plates (401) on the two sides respectively, one side, close to the transfer channel (5), of the bottom of the fixed cover plate (2) is fixedly connected with a stop lever (201), and one side of each elastic connecting seat (3) is abutted against the stop lever (201) in sequence;

the two abutting plates (401) are provided with V-shaped openings (403) at one ends close to the abutting pieces (7), the two abutting plates (401) are respectively provided with mutually meshed clamping teeth (404), the abutting pieces (7) comprise trapezoid abutting blocks (701) fixed on the top surface of the machining turntable (1), two sides of each trapezoid abutting block (701) are respectively and rotatably connected with a reset shaft lever (702), the outer walls of the reset shaft levers (702) are fixedly connected with raised strips (703) abutted to the clamping teeth (404), telescopic knocking rods (704) are arranged at the tops of the reset shaft levers (702), and when the clamping teeth (404) are continuously abutted to the raised strips (703), the telescopic knocking rods (704) are driven to continuously knock the surface of a workpiece;

when the machining turntable (1) drives the elastic connecting seat (3) to abut against the stop lever (201), the stop lever (201) forces the elastic connecting seat (3) to radially move towards the edge of the machining turntable (1), then the abutting piece (7) abuts against the abutting plates (401) on the clamping arms (4) at two sides, the clamping arms (4) at two sides release the workpiece in the transfer channel (5), and then the workpiece is moved out of the transfer channel (5) by the stirring assembly (6) driven by the machining turntable (1).

2. The heat-resistant high borosilicate glass circulating production equipment according to claim 1, wherein a clamp (402) is installed at the other end of the clamp arm (4), a plurality of workpiece placement seats (102) are installed at the outer edge of the table top of the processing turntable (1), and the workpiece placement seats (102) are located below a pair of clamps (402).

3. The heat-resistant high borosilicate glass circulating production device according to claim 1, wherein a waste collection box (501) is arranged at the bottom of the transfer channel (5), a waste discharge port (502) communicated with the waste collection box (501) is formed in the bottom of the transfer channel (5) at a position close to the discharge end, and an opening and closing assembly (8) matched with the stirring assembly (6) is movably embedded in the waste discharge port (502).

4. The heat-resistant high borosilicate glass circulating production device according to claim 1, wherein the stirring assembly (6) comprises an elastic rotating shaft (601) rotatably installed in the transferring channel (5), a stirring rod (602) is fixedly connected to the side wall of the elastic rotating shaft (601), a driven gear (603) is fixedly connected to the bottom of the elastic rotating shaft (601) below the transferring channel (5), a transmission gear (503) meshed with the driven gear (603) is rotatably connected to the bottom of the transferring channel (5), arc racks (103) are fixedly connected to the bottom of the processing turntable (1) below each pair of clamping arms (4), and the arc racks (103) are meshed with the transmission gear (503).

5. The heat-resistant high borosilicate glass circulating production equipment according to claim 3, wherein the opening and closing assembly (8) comprises a lifting bottom plate (801) matched with the waste discharge port (502) and an arc-shaped protrusion (802) elastically and slidably mounted on the inner side wall of the transfer channel (5), an arc-shaped guide plate (803) is fixedly connected to the bottom of the arc-shaped protrusion (802) outside the transfer channel (5), a guide groove (804) is formed in the inner wall of the arc-shaped guide plate (803), and a connecting rod (805) with one end inserted into the guide groove (804) is fixed at the bottom of the lifting bottom plate (801).

6. The heat-resistant high borosilicate glass circulating production device according to claim 5, wherein a limit sliding rail (504) is vertically and fixedly connected to the bottom of the transfer channel (5), the other end of the connecting rod (805) is inserted into the limit sliding rail (504), a support bracket (505) is slidably installed in the limit sliding rail (504), one end of the connecting rod (805) inserted into the limit sliding rail (504) is lapped on the support bracket (505), the top of the support bracket (505) is lapped on the top of the driven gear (603), and a plurality of abutting teeth (604) are annularly distributed on the top of the driven gear (603).

7. The heat-resistant high borosilicate glass circulating production equipment according to claim 1, wherein an electric push rod (202) is mounted on the outer side wall of the fixed cover plate (2), a pressing block (203) which is propped against each of the retaining plates (401) on the pair of clamping arms (4) is fixedly connected to the bottom of the electric push rod (202), and when the pressing block (203) presses down and pushes up the two-side retaining plates (401), each clamp (402) on the pair of clamping arms (4) is opened above the workpiece placing seat (102).