CN117508805A - Counting device with fixed number placing function for glass insulator production - Google Patents

Abstract

The invention discloses a counting device with a fixed number placement function for glass insulator production, which belongs to the technical field of glass insulator production counting.

Description

Counting device with fixed number placing function for glass insulator production

Technical Field

The invention relates to a counting device with a fixed number placement function for glass insulator production, and belongs to the technical field of glass insulator production counting.

Background

The glass insulator is a device for supporting and insulating wires, the wires need to be counted in the production process of the glass insulator, and a semi-finished product production counter of the glass insulator is proposed in Chinese patent with the application number of CN201721727104.8, and the adopted scheme is that a bearing seat is arranged on a roller conveyor belt; the turnover plate and the roller conveyer belt are kept at a proper height; the signal board is connected at suitable angle with the upset board, and when glass insulator contacted the counter, it is rotatory to drive upset board and signal board, and the proximity switch lamp is on this moment, and signal transmission arrives electronic counter, and after glass insulator passed through upset board and signal board, upset board and signal board automatic re-setting.

In the above-mentioned comparison document, the specific scheme mainly adopts the electronic counter to count, and the other structures are all auxiliary structures, and although the auxiliary structures have basic counting effect, the automatic degree is insufficient, the insulators cannot be directly collected and counted from the belt conveyor, the fixed number placing function is not provided, and a large improvement space still exists in the practical application process, so that the counting device for glass insulator production with the fixed number placing function is provided.

Disclosure of Invention

The invention aims to solve the problems and provide the counting device with the function of counting and placing the glass insulators, wherein the lifting type transporting and counting integrated frame on one side is used for placing the counted insulators while the lifting type transporting and counting integrated frame on the other side is used for counting, the placing number of the insulators of the single lifting type transporting and counting integrated frame is fixed, the precise counting and the effect of counting and placing the glass insulators can be achieved, the degree of automation is high, the counting effect is good, and the counting device has popularization and use values.

The invention realizes the purpose through the following technical scheme that the counting device for glass insulator production with the function of setting a fixed number comprises a transferring counting platform, a rotary mounting bracket, a mounting top plate, an annular limiting frame, a lifting control rod, a lifting transferring counting integrated frame, a first self-adaptive insulator separation assembly, a traversing control assembly, a fixed number setting box, an insulator automatic distribution frame and a second self-adaptive insulator separation assembly, wherein the transferring counting platform is arranged at one side of an insulator conveyor, the bottom of the rotary mounting bracket is connected with an output shaft of a servo motor through a belt, the mounting top plate and the annular limiting frame are respectively welded at the top and the middle position of the rotary mounting bracket, the lifting transferring counting integrated frame is movably penetrated through a rectangular penetrating groove formed in the annular limiting frame, the fixed end of the lifting control rod is arranged at the bottom of the mounting top plate, and the top of the lifting transferring counting integrated frame is connected with the bottom telescopic end of the lifting control rod;

the automatic insulator distribution device comprises a lifting type transfer counting integrated frame, a first self-adaptive insulator separation component, a second self-adaptive insulator separation component and a second self-adaptive insulator separation component, wherein the first self-adaptive insulator separation component is fixedly arranged on the inner side wall of the lifting type transfer counting integrated frame, one side of the lifting type transfer counting integrated frame is of an open structure and is used for an insulator on a belt conveyor to enter, the lateral movement control component is fixedly arranged on one side of the top of a transfer counting platform, the top of the lateral movement control component is provided with a rotating disk through a rotating shaft, a fixed number of placement boxes are clamped on the rotating disk, the automatic insulator distribution frame is fixedly arranged on the rotating disk and is positioned on one side of the fixed number of placement boxes, and the second self-adaptive insulator separation component is fixedly arranged in the automatic insulator distribution frame.

Preferably, in order to push out the insulator in the lifting type transferring and counting integrated frame, a multi-section pushing telescopic rod is fixedly arranged in the lifting type transferring and counting integrated frame, and an insulator pushing arc plate is welded on the telescopic end of the multi-section pushing telescopic rod.

Preferably, in order to enable the first adaptive insulator separation assembly and the second adaptive insulator separation assembly to effectively separate insulators, the first adaptive insulator separation assembly and the second adaptive insulator separation assembly are identical in structure, the first adaptive insulator separation assembly comprises fixing strips, limiting rods and limiting edges, the limiting rods are welded at the bottoms of the fixing strips, the limiting edges are movably penetrated on the limiting rods, the fixing strips are welded on the inner wall of the lifting transfer counting integrated frame, the number of the limiting rods is two, and the number of the limiting edges is seven.

Preferably, in order to enable the first self-adaptive insulator separation assembly and the second self-adaptive insulator separation assembly to have a certain buffering effect after the insulator enters, a better protection effect is achieved, the first self-adaptive insulator separation assembly further comprises a distance adjusting telescopic rod and a nitrogen spring, the nitrogen spring is fixedly arranged on the top telescopic end of the distance adjusting telescopic rod, the nitrogen spring and the distance adjusting telescopic rod form a connecting structure, and every two adjacent limiting edges are sequentially connected through the connecting structure.

Preferably, in order to enable the first adaptive insulator separation assembly and the second adaptive insulator separation assembly to be capable of carrying out placement separation on insulators of different sizes, the first adaptive insulator separation assembly further comprises lateral extension telescopic edges, each of the lateral extension telescopic edges is provided with a mounting groove on one side of each of the limiting edges, a miniature telescopic rod is arranged in each mounting groove, and the lateral extension telescopic edges are connected with telescopic ends of the miniature telescopic rods.

Preferably, in order to enable the movable mounting base to carry the fixed number of the placement boxes and the second adaptive insulator separation assembly for transferring insulators, the traversing control assembly comprises a driving motor, a rotating screw and the movable mounting base, the driving motor is fixed at the top of the transfer counting platform, the rotating screw is connected with an output shaft of the driving motor, the movable mounting base is arranged at the top of the transfer counting platform and is in threaded connection with the rotating screw, and the rotating disc is mounted at the top of the movable mounting base through a rotating shaft.

Preferably, in order to make the case of placing of fixed number separate the insulator of equidimension and place, the fixed number is placed the case bottom inner wall and is evenly fixed with the bottom fixed plate, the incasement activity of placing of fixed number is provided with the insulator division strip, and each of same vertical position department the insulator division strip is connected gradually through the height control pole between, the bottom the insulator division strip pass through the height control pole with the bottom fixed plate is connected.

Preferably, in order to enable the movement of the moving frame to drive the second self-adaptive insulator separation assembly to move, the second self-adaptive insulator separation assembly is used for guiding and placing insulators, winding reels are symmetrically and fixedly arranged at two ends of the inner wall of the insulator automatic distribution frame, connecting ropes are arranged at winding ends of the winding reels, the moving frame is slidably mounted on the inner wall of the bottom of the insulator automatic distribution frame, two ends of the moving frame are respectively connected with the connecting ropes at two sides, and the second self-adaptive insulator separation assembly is mounted on the inner wall of the moving frame.

The beneficial effects of the invention are as follows: according to the invention, the lifting type transferring and counting integrated frame is used for storing insulators conveyed by the insulator conveyor, the lifting structure is designed to enable all heights of the lifting type transferring and counting integrated frame to store insulators, the rotary structure is arranged to enable one side of the lifting type transferring and counting integrated frame to be used for storing insulators after counting while the other side of the lifting type transferring and counting integrated frame is used for counting and loading, and the insulator storage number of a single lifting type transferring and counting integrated frame is fixed, so that accurate counting and number storage effects can be achieved.

According to the invention, the first self-adaptive insulator separation assembly is arranged in the lifting type transferring and counting integrated frame, the second self-adaptive insulator separation assembly is arranged in the insulator automatic distribution frame, and the insulator separation strips with adjustable distance are arranged in the fixed number placement boxes, so that the device has a good separation effect, can be automatically adjusted according to different sizes and types of insulators, is suitable for placing and counting of different types of insulators, and has a high application range and high intelligent degree.

According to the invention, the multi-section pushing telescopic rod in the lifting type transferring and counting integrated frame is utilized to push the insulators to the insulator automatic distribution frame, and the insulator automatic distribution frame adjusts the positions of the insulators according to the vacant positions in the fixed number placement boxes, so that the insulators are sent to each position in the fixed number placement boxes, the rotary disk can be rotated after the fixed number placement boxes are filled, the fixed number placement boxes can be taken out and replaced, the use is simple and convenient, the automation degree is high, the counting effect is good, and the fixed number placement is convenient.

Drawings

Fig. 1 is a schematic view of the whole structure of the present invention from the right side.

Fig. 2 is a schematic view of the overall structure of the present invention in a left side view.

Fig. 3 is a schematic structural diagram of an elevating transfer counting integrated frame in the present invention.

Fig. 4 is a schematic structural view of a first adaptive insulator partition assembly according to the present invention.

FIG. 5 is a schematic view showing the structure of a fixed number of the placement boxes and the traverse motion control unit according to the present invention.

Fig. 6 is a schematic structural view of an automatic insulator distribution frame according to the present invention.

Fig. 7 is a schematic view of the structure of the automatic insulator distribution frame according to the present invention in a bottom view.

FIG. 8 is a schematic view showing the internal structure of a number of the placing boxes according to the present invention.

In the figure: 1. a transfer counting platform; 2. rotating the mounting bracket; 3. installing a top plate; 4. an annular limiting frame; 5. a lifting control rod; 6. lifting type transferring and counting integrated frame; 601. the insulator pushes the arc plate; 7. a first adaptive insulator separation assembly; 701. a fixing strip; 702. a limit rod; 703. limit edges; 704. a distance adjusting telescopic rod; 705. a nitrogen spring; 706. laterally extending the telescopic edge; 8. a traversing control assembly; 801. a driving motor; 802. rotating the screw; 803. moving the mounting base; 9. a fixed number of placement boxes; 901. a bottom fixing plate; 902. a height control lever; 903. an insulator spacer; 10. an insulator automatic distribution frame; 1001. a reel; 1002. a connecting rope; 1003. a moving frame; 11. and a second adaptive insulator separation assembly.

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.

Please refer to fig. 1-8.

Example 1

The utility model provides a glass insulator production is with counting assembly with function is placed to fixed number, includes transportation count platform 1, rotatory installing support 2, installation roof 3, annular spacing frame 4, lift control pole 5, lift formula transportation count integration frame 6, first self-adaptation insulator separation subassembly 7, sideslip control subassembly 8, fixed number place case 9, insulator automatic allocation frame 10 and second self-adaptation insulator separation subassembly 11.

The transportation counting platform 1 is arranged in one side of the insulator conveyor, make the insulator that carries through the insulator conveyor get into the top space of transportation counting platform 1, the bottom of rotatory installing support 2 passes through the output shaft of belt and servo motor, for revolution mechanic, servo motor and belt are common drive structure, therefore not show in the drawing, install roof 3 and annular spacing frame 4 weld respectively at the top and the intermediate position department of rotatory installing support 2, the rectangle wearing groove of seting up in annular spacing frame 4 is transported in the over-and-under type, the stiff end of lift control lever 5 sets up in the bottom of installing roof 3, the top of over-and-under type transportation counting integration frame 6 is connected with the bottom flexible end of lift control lever 5, it accomodates to transport the insulator that counting integration frame 6 was transported to the over-and-under type through lift control lever 5, the setting up of annular spacing frame 4 then makes over-and-under type transportation counting integration frame 6 can keep comparatively stable elevating movement, the over-and-under type transportation counting integration frame 6 can be kept comparatively stable in the lift movement, the number of the equal can be placed in the integration frame 6 of the number of down-and-up and-down type transportation counter 6 is placed in the integration frame 6 after the number of each side of the insulator is transported in the integration, the number of down-and the number of the integration is placed in the integration of the up-and down type counter 6 is placed.

The first self-adaptive insulator separation assembly 7 is fixedly arranged on the inner side wall of the lifting type transferring and counting integrated frame 6, one side of the lifting type transferring and counting integrated frame 6 is of an open structure, insulators on a belt conveyor enter, insulators conveyed by the insulator conveyor enter from an opening on one side of the lifting type transferring and counting integrated frame 6 and then are clamped between the two first self-adaptive insulator separation assemblies 7, the first self-adaptive insulator separation assembly 7 not only has a good separation effect, but also can be automatically adjusted according to different sizes of the insulators, so that the lifting type transferring and counting integrated frame 6 is suitable for different types of insulators to be placed and counted, the application range and the intelligent degree are high, the traversing control assembly 8 is fixedly arranged on one side of the top of the transferring and counting platform 1, the top of the traversing control assembly 8 is provided with a rotating disc through a rotating shaft, the automatic insulator distribution frame 10 is fixedly arranged on the rotary disc and positioned on one side of the automatic insulator distribution frame 9 with an opening, the second self-adaptive insulator separation assembly 11 is fixedly arranged in the automatic insulator distribution frame 10, the positions of the automatic insulator distribution frame 10 and the automatic insulator distribution box 9 are adjusted through the transverse movement control assembly 8, the automatic insulator distribution frame 10 and the automatic insulator distribution box 9 are controlled to approach to the lifting type transfer counting integrated frame 6 with finished counting in the use process, then the insulators are pushed to the automatic insulator distribution frame 10 by utilizing a multi-section pushing telescopic rod in the lifting type transfer counting integrated frame 6, the automatic insulator distribution frame 10 adjusts the positions of the insulators according to the spare positions in the automatic insulator distribution frame 9, so that the insulators are sent to all positions in the automatic insulator distribution frame 9, the rotary disk can be rotated after the number of the boxes 9 are filled, and the number of boxes 9 can be taken out and replaced.

As shown in fig. 3, a multi-section pushing telescopic rod is fixedly arranged in the lifting type transferring and counting integrated frame 6, an insulator pushing arc-shaped plate 601 is welded on the telescopic end of the multi-section pushing telescopic rod, the insulator pushing arc-shaped plate 601 is pushed to move through the multi-section telescopic rod, and the insulator is pushed out by utilizing the movement of the insulator pushing arc-shaped plate 601.

Example 2

The utility model provides a glass insulator production counting assembly with function is placed to fixed number, including transporting count platform 1, rotatory installing support 2, install roof 3, annular spacing frame 4, lift control lever 5, lift type transport count integration frame 6, first self-adaptation insulator separation subassembly 7, sideslip control subassembly 8, fixed number places case 9, insulator automatic allocation frame 10 and second self-adaptation insulator separation subassembly 11, transport count platform 1 is arranged in one side of insulator conveyer, rotatory installing support 2's bottom passes through the belt and servo motor's output shaft connection, for rotating structure, install roof 3 and annular spacing frame 4 respectively welded in rotatory installing support 2's top and intermediate position department, lift type transport count integration frame 6 movable wears to set up at annular spacing frame 4 in the rectangle wearing groove of seting up, lift control lever 5's stiff end sets up in the bottom of installing roof 3, lift type transport count integration frame 6's top and lift control lever 5's bottom telescopic end are connected, first self-adaptation insulator separation subassembly 7 is fixed to be installed on lift type transport count integration frame 6's inside wall, and lift type transport integration frame 6's bottom telescopic end, lift type count integration frame 6's bottom is fixed to be used for placing on one side of insulator carrier 8, fixed number of rotation disk 8, fixed rotation disk 8 is arranged in one side of the fixed carrier 8, fixed rotation disk 8 is arranged on fixed rotation disk 8 is placed through fixed carrier one side of insulator allocation frame 10, the second adaptive insulator separation assembly 11 is fixedly installed in the insulator automatic distribution frame 10.

In this embodiment, the structures of the first adaptive insulator separation assembly 7 and the second adaptive insulator separation assembly 11 are modified based on embodiment 1, as shown in fig. 4, the structures of the first adaptive insulator separation assembly 7 and the second adaptive insulator separation assembly 11 are the same, the first adaptive insulator separation assembly 7 includes a fixing bar 701, a limiting bar 702 and a limiting edge 703, the limiting bar 702 is welded at the bottom of the fixing bar 701, the limiting edge 703 is movably inserted on the limiting bar 702, the fixing bar 701 is welded on the inner wall of the lifting type transfer count integrated frame 6, the number of the limiting bars 702 is two, the number of the limiting edges 703 is seven, the first adaptive insulator separation assembly 7 and the second adaptive insulator separation assembly 11 are respectively used for lifting type transfer count integrated frame 6 and insulator separation in the automatic insulator distribution frame 10, and the basic separation effect is achieved by using the fixing bar 701.

As shown in fig. 4, the first adaptive insulator separation assembly 7 further includes a distance adjusting telescopic rod 704 and a nitrogen spring 705, the nitrogen spring 705 is fixedly disposed on the top telescopic end of the distance adjusting telescopic rod 704, the nitrogen spring 705 and the distance adjusting telescopic rod 704 form a connection structure, each two adjacent limiting edges 703 are sequentially connected through the connection structure, the distance between each limiting edge 703 is adjusted through the adjusting telescopic rod, the distance between each limiting edge 703 can be adjusted according to the height of the insulator, and the setting of the nitrogen spring 705 enables the insulator to have a certain buffering effect when falling onto the limiting edge 703, so that the insulator is prevented from being broken.

As shown in fig. 4, the first adaptive insulator separation assembly 7 further includes a laterally extending telescopic edge 706, one side of each limiting edge 703 is provided with a mounting groove, the mounting groove is provided with a micro telescopic rod, the laterally extending telescopic edge 706 is connected with the telescopic end of the micro telescopic rod, and the micro telescopic rod is utilized to move the position of the laterally extending telescopic edge 706, so that the laterally extending telescopic edge 706 can play a role in separation when an insulator with a smaller diameter is placed in the insulator, and the adaptability is stronger.

Example 3

The utility model provides a glass insulator production counting assembly with function is placed to fixed number, including transporting count platform 1, rotatory installing support 2, install roof 3, annular spacing frame 4, lift control lever 5, lift type transport count integration frame 6, first self-adaptation insulator separation subassembly 7, sideslip control subassembly 8, fixed number places case 9, insulator automatic allocation frame 10 and second self-adaptation insulator separation subassembly 11, transport count platform 1 is arranged in one side of insulator conveyer, rotatory installing support 2's bottom passes through the belt and servo motor's output shaft connection, for rotating structure, install roof 3 and annular spacing frame 4 respectively welded in rotatory installing support 2's top and intermediate position department, lift type transport count integration frame 6 movable wears to set up at annular spacing frame 4 in the rectangle wearing groove of seting up, lift control lever 5's stiff end sets up in the bottom of installing roof 3, lift type transport count integration frame 6's top and lift control lever 5's bottom telescopic end are connected, first self-adaptation insulator separation subassembly 7 is fixed to be installed on lift type transport count integration frame 6's inside wall, and lift type transport integration frame 6's bottom telescopic end, lift type count integration frame 6's bottom is fixed to be used for placing on one side of insulator carrier 8, fixed number of rotation disk 8, fixed rotation disk 8 is arranged in one side of the fixed carrier 8, fixed rotation disk 8 is arranged on fixed rotation disk 8 is placed through fixed carrier one side of insulator allocation frame 10, the second adaptive insulator separation assembly 11 is fixedly installed in the insulator automatic distribution frame 10.

The structure of the traversing control assembly 8 is implemented on the basis of embodiment 1, as shown in fig. 5, the traversing control assembly 8 comprises a driving motor 801, a rotating screw 802 and a movable mounting base 803, the driving motor 801 is fixed at the top of the transferring and counting platform 1, the rotating screw 802 is arranged on the output shaft of the driving motor 801, the movable mounting base 803 is arranged at the top of the transferring and counting platform 1 and is in threaded connection with the rotating screw 802, the rotating disk is arranged at the top of the movable mounting base 803 through a rotating shaft, the rotating screw 802 is driven to rotate through the opening of the driving motor 801, and then the position of the movable mounting base 803 which cannot rotate is adjusted, so that the positions of the fixed number of placing boxes 9 and the insulator automatic distribution frame 10 are adjusted for automatic transferring of the insulator.

Example 4

The utility model provides a glass insulator production counting assembly with function is placed to fixed number, including transporting count platform 1, rotatory installing support 2, install roof 3, annular spacing frame 4, lift control lever 5, lift type transport count integration frame 6, first self-adaptation insulator separation subassembly 7, sideslip control subassembly 8, fixed number places case 9, insulator automatic allocation frame 10 and second self-adaptation insulator separation subassembly 11, transport count platform 1 is arranged in one side of insulator conveyer, rotatory installing support 2's bottom passes through the belt and servo motor's output shaft connection, for rotating structure, install roof 3 and annular spacing frame 4 respectively welded in rotatory installing support 2's top and intermediate position department, lift type transport count integration frame 6 movable wears to set up at annular spacing frame 4 in the rectangle wearing groove of seting up, lift control lever 5's stiff end sets up in the bottom of installing roof 3, lift type transport count integration frame 6's top and lift control lever 5's bottom telescopic end are connected, first self-adaptation insulator separation subassembly 7 is fixed to be installed on lift type transport count integration frame 6's inside wall, and lift type transport integration frame 6's bottom telescopic end, lift type count integration frame 6's bottom is fixed to be used for placing on one side of insulator carrier 8, fixed number of rotation disk 8, fixed rotation disk 8 is arranged in one side of the fixed carrier 8, fixed rotation disk 8 is arranged on fixed rotation disk 8 is placed through fixed carrier one side of insulator allocation frame 10, the second adaptive insulator separation assembly 11 is fixedly installed in the insulator automatic distribution frame 10.

In this embodiment, the internal structures of the number placement boxes 9 and the automatic insulator distribution frame 10 are modified on the basis of embodiment 1, as shown in fig. 8, bottom fixing plates 901 are uniformly fixed on the inner walls of the bottoms of the number placement boxes 9, insulator separation strips 903 are movably arranged in the number placement boxes 9, the insulator separation strips 903 at the same vertical positions are sequentially connected through height control rods 902, the insulator separation strips 903 at the bottom are connected with the bottom fixing plates 901 through the height control rods 902, an insulator separation effect is achieved through the insulator separation strips 903, and the heights of the insulator separation strips 903 are adjusted through the expansion and contraction of the height control rods 902, so that insulators of different types are separated.

As shown in fig. 6 and 7, a winder 1001 is fixedly arranged at two symmetrical ends of the inner wall of the automatic insulator distribution frame 10, a connection rope 1002 is arranged at the wire winding end of the winder 1001, a movable frame 1003 is slidably arranged at the inner wall of the bottom of the automatic insulator distribution frame 10, two ends of the movable frame 1003 are respectively connected with the connection ropes 1002 at two sides, a second adaptive insulator separation assembly 11 is arranged on the inner wall of the movable frame 1003, the winding of the connection rope 1002 is utilized to control the movement of the automatic insulator distribution frame 10, the insulator is separated and placed through the second adaptive insulator separation assembly 11, and a pushing structure is additionally arranged at one side of the movable frame 1003 in actual use and used for pushing the insulator out into a fixed number placement box 9.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (9)

1. Counting assembly is used in glass insulator production with function is placed to number, its characterized in that: the automatic counting device comprises a transferring counting platform (1), a rotating mounting bracket (2), a mounting top plate (3), an annular limiting frame (4), a lifting control rod (5), a lifting type transferring counting integrated frame (6), a first self-adaptive insulator separation component (7), a transverse movement control component (8), a fixed number placing box (9), an insulator automatic distribution frame (10) and a second self-adaptive insulator separation component (11), wherein the transferring counting platform (1) is arranged on one side of an insulator conveyor, the bottom of the rotating mounting bracket (2) is connected with an output shaft of a servo motor through a belt and is of a rotating structure, the top and middle positions of the rotating mounting bracket (2) are respectively welded with the mounting top plate (3) and the annular limiting frame (4), the lifting type transferring counting integrated frame (6) is movably penetrated into a rectangular penetrating groove formed in the annular limiting frame (4), and the fixed end of the lifting control rod (5) is arranged at the bottom of the mounting top plate (3), and the top of the lifting type transferring counting integrated frame (6) is connected with the bottom of the lifting control rod (5) through a telescopic end;

the first self-adaptive insulator separation component (7) is fixedly arranged on the inner side wall of the lifting type transferring and counting integrated frame (6), one side of the lifting type transferring and counting integrated frame (6) is of an open structure and is used for entering insulators on a belt conveyor, the traversing control component (8) is fixedly arranged on one side of the top of the transferring and counting platform (1), the top of sideslip control assembly (8) is installed through the pivot and is rotated the disk, fixed number place case (9) card and establish on the rotary disk, insulator automatic distribution frame (10) fixed setting is in on the rotary disk and be located fixed number place case (9) have open-ended one side, second self-adaptation insulator separation assembly (11) fixed mounting is in insulator automatic distribution frame (10).

2. The counting device for glass insulator production with a constant number of placing functions according to claim 1, wherein: the lifting type transfer counting integrated frame (6) is internally fixedly provided with a multi-section pushing telescopic rod, and an insulator pushing arc plate (601) is welded on the telescopic end of the multi-section pushing telescopic rod.

3. The counting device for glass insulator production with a constant number of placing functions according to claim 1, wherein: the structure of the first self-adaptive insulator separation assembly (7) and the structure of the second self-adaptive insulator separation assembly (11) are the same, the first self-adaptive insulator separation assembly (7) comprises a fixing strip (701), a limiting rod (702) and a limiting edge (703), the limiting rod (702) is welded at the bottom of the fixing strip (701), and the limiting edge (703) is movably penetrated on the limiting rod (702).

4. A counting device for glass insulator production having a constant number of placing functions according to claim 3, wherein: the fixing strips (701) are welded on the inner wall of the lifting type transferring and counting integrated frame (6), the number of the limiting rods (702) is two, and the number of the limiting edges (703) is seven.

5. The counting device for glass insulator production with a constant number of placing functions according to claim 4, wherein: the first self-adaptive insulator separation assembly (7) further comprises a distance adjusting telescopic rod (704) and a nitrogen spring (705), the nitrogen spring (705) is fixedly arranged on the top telescopic end of the distance adjusting telescopic rod (704), the nitrogen spring (705) and the distance adjusting telescopic rod (704) form a connecting structure, and every two adjacent limiting edges (703) are connected through the connecting structure in sequence.

6. The counting device for glass insulator production with a constant number of placing functions according to claim 5, wherein: the first self-adaptive insulator separation assembly (7) further comprises lateral extension telescopic edges (706), one side of each limiting edge (703) is provided with a mounting groove, a miniature telescopic rod is arranged in each mounting groove, and the lateral extension telescopic edges (706) are connected with the telescopic ends of the miniature telescopic rods.

7. The counting device for glass insulator production with a constant number of placing functions according to claim 1, wherein: the transverse movement control assembly (8) comprises a driving motor (801), a rotating screw (802) and a movable mounting base (803), wherein the driving motor (801) is fixed at the top of the transfer counting platform (1), the rotating screw (802) is arranged on an output shaft of the driving motor (801), the movable mounting base (803) is arranged at the top of the transfer counting platform (1) and is in threaded connection with the rotating screw (802), and the rotating disc is arranged at the top of the movable mounting base (803) through a rotating shaft.

8. The counting device for glass insulator production with a constant number of placing functions according to claim 1, wherein: the fixed number is placed case (9) bottom inner wall evenly and is fixed with bottom fixed plate (901), fixed number is placed case (9) internalization and is provided with insulator dividing strip (903), each of same vertical position department insulator dividing strip (903) are connected gradually through height control pole (902), bottom insulator dividing strip (903) through height control pole (902) with bottom fixed plate (901) is connected.

9. The counting device for glass insulator production with a constant number of placing functions according to claim 1, wherein: the automatic insulator distribution frame comprises an automatic insulator distribution frame body and is characterized in that a winder (1001) is symmetrically and fixedly arranged at two ends of the inner wall of the automatic insulator distribution frame body, a connecting rope (1002) is arranged at a wire collecting end of the winder (1001), a movable frame (1003) is slidably arranged on the inner wall of the bottom of the automatic insulator distribution frame body (10), two ends of the movable frame body (1003) are respectively connected with the connecting ropes (1002) at two sides, and a second self-adaptive insulator separation assembly (11) is arranged on the inner wall of the movable frame body (1003).